%------------------------------------------------------------------------------
% File     : cvc5---1.0.5
% Problem  : PLA031-1.002 : TPTP v8.2.0. Released v3.5.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : do_cvc5 %s %d

% Computer : n028.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 17:38:28 EDT 2024

% Result   : Unsatisfiable 42.64s 42.82s
% Output   : Proof 42.64s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.08/0.14  % Problem    : PLA031-1.002 : TPTP v8.2.0. Released v3.5.0.
% 0.08/0.15  % Command    : do_cvc5 %s %d
% 0.15/0.35  % Computer : n028.cluster.edu
% 0.15/0.35  % Model    : x86_64 x86_64
% 0.15/0.35  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.15/0.35  % Memory   : 8042.1875MB
% 0.15/0.35  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.15/0.36  % CPULimit   : 300
% 0.15/0.36  % WCLimit    : 300
% 0.15/0.36  % DateTime   : Sat May 25 23:29:39 EDT 2024
% 0.15/0.36  % CPUTime    : 
% 0.21/0.50  %----Proving TF0_NAR, FOF, or CNF
% 0.21/0.50  --- Run --decision=internal --simplification=none --no-inst-no-entail --no-cbqi --full-saturate-quant at 10...
% 10.39/10.60  --- Run --no-e-matching --full-saturate-quant at 5...
% 15.44/15.62  --- Run --no-e-matching --enum-inst-sum --full-saturate-quant at 5...
% 20.42/20.64  --- Run --finite-model-find --uf-ss=no-minimal at 5...
% 25.52/25.71  --- Run --multi-trigger-when-single --full-saturate-quant at 5...
% 30.59/30.75  --- Run --trigger-sel=max --full-saturate-quant at 5...
% 35.57/35.79  --- Run --multi-trigger-when-single --multi-trigger-priority --full-saturate-quant at 5...
% 40.62/40.84  --- Run --multi-trigger-cache --full-saturate-quant at 5...
% 42.64/42.82  % SZS status Unsatisfiable for /export/starexec/sandbox2/tmp/tmp.Kq2scZBana/cvc5---1.0.5_26202.smt2
% 42.64/42.82  % SZS output start Proof for /export/starexec/sandbox2/tmp/tmp.Kq2scZBana/cvc5---1.0.5_26202.smt2
% 42.64/42.82  (assume a0 (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))))
% 42.64/42.82  (assume a1 (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))))
% 42.64/42.82  (assume a2 (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T1 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 T1 L)) (tptp.s tptp.truck2 O2 O3 D1 D2 T1 L))))
% 42.64/42.82  (assume a3 (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T1 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 T1 L) (not (tptp.s tptp.truck2 O2 O3 D1 D2 T1 L)))))
% 42.64/42.82  (assume a4 (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))))
% 42.64/42.82  (assume a5 (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))))
% 42.64/42.82  (assume a6 (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T1 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 T1 L)) (tptp.s O1 tptp.truck2 O3 D1 D2 T1 L))))
% 42.64/42.82  (assume a7 (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T1 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 T1 L) (not (tptp.s O1 tptp.truck2 O3 D1 D2 T1 L)))))
% 42.64/42.82  (assume a8 (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))))
% 42.64/42.82  (assume a9 (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))))
% 42.64/42.82  (assume a10 (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T1 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 T1 L)) (tptp.s O1 O2 tptp.truck2 D1 D2 T1 L))))
% 42.64/42.82  (assume a11 (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T1 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 T1 L) (not (tptp.s O1 O2 tptp.truck2 D1 D2 T1 L)))))
% 42.64/42.82  (assume a12 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))))
% 42.64/42.82  (assume a13 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))))
% 42.64/42.82  (assume a14 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T1 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 T1 L)) (not (tptp.neq D2 tptp.truck2)) (tptp.s O1 O2 O3 tptp.truck2 D2 T1 L))))
% 42.64/42.82  (assume a15 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T1 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 T1 L) (not (tptp.s O1 O2 O3 tptp.truck2 D2 T1 L)))))
% 42.64/42.82  (assume a16 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (L $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 D1 L L T2)) (not (tptp.neq D1 tptp.truck1)) (tptp.s O1 O2 O3 D1 tptp.truck1 L T2))))
% 42.64/42.82  (assume a17 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (L $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 D1 L L T2) (not (tptp.s O1 O2 O3 D1 tptp.truck1 L T2)))))
% 42.64/42.82  (assume a18 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (L $$unsorted) (T1 $$unsorted)) (or (not (tptp.s O1 O2 O3 D1 L T1 L)) (not (tptp.neq D1 tptp.truck2)) (tptp.s O1 O2 O3 D1 tptp.truck2 T1 L))))
% 42.64/42.82  (assume a19 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (L $$unsorted) (T1 $$unsorted)) (or (tptp.s O1 O2 O3 D1 L T1 L) (not (tptp.s O1 O2 O3 D1 tptp.truck2 T1 L)))))
% 42.64/42.82  (assume a20 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))))
% 42.64/42.82  (assume a21 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (S $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck2 D2 T1 S)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck2 D2 T1 D))))
% 42.64/42.82  (assume a22 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 D1 tptp.truck1 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 D1 tptp.truck1 D T2))))
% 42.64/42.82  (assume a23 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (T1 $$unsorted) (S $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 D1 tptp.truck2 T1 S)) (not (tptp.link S D)) (tptp.s O1 O2 O3 D1 tptp.truck2 T1 D))))
% 42.64/42.82  (assume a24 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))))
% 42.64/42.82  (assume a25 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (S $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 D1 S T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D1 D T1 T2))))
% 42.64/42.82  (assume a26 (not (tptp.neq tptp.truck1 tptp.truck1)))
% 42.64/42.82  (assume a27 (tptp.neq tptp.truck1 tptp.truck2))
% 42.64/42.82  (assume a28 (tptp.neq tptp.truck1 tptp.s0))
% 42.64/42.82  (assume a29 (tptp.neq tptp.truck1 tptp.s1))
% 42.64/42.82  (assume a30 (tptp.neq tptp.truck1 tptp.s2))
% 42.64/42.82  (assume a31 (tptp.neq tptp.truck1 tptp.p1_0))
% 42.64/42.82  (assume a32 (tptp.neq tptp.truck1 tptp.p2_1))
% 42.64/42.82  (assume a33 (tptp.neq tptp.truck2 tptp.truck1))
% 42.64/42.82  (assume a34 (not (tptp.neq tptp.truck2 tptp.truck2)))
% 42.64/42.82  (assume a35 (tptp.neq tptp.truck2 tptp.s0))
% 42.64/42.82  (assume a36 (tptp.neq tptp.truck2 tptp.s1))
% 42.64/42.82  (assume a37 (tptp.neq tptp.truck2 tptp.s2))
% 42.64/42.82  (assume a38 (tptp.neq tptp.truck2 tptp.p1_0))
% 42.64/42.82  (assume a39 (tptp.neq tptp.truck2 tptp.p2_1))
% 42.64/42.82  (assume a40 (tptp.neq tptp.s0 tptp.truck1))
% 42.64/42.82  (assume a41 (tptp.neq tptp.s0 tptp.truck2))
% 42.64/42.82  (assume a42 (not (tptp.neq tptp.s0 tptp.s0)))
% 42.64/42.82  (assume a43 (tptp.neq tptp.s0 tptp.s1))
% 42.64/42.82  (assume a44 (tptp.neq tptp.s0 tptp.s2))
% 42.64/42.82  (assume a45 (tptp.neq tptp.s0 tptp.p1_0))
% 42.64/42.82  (assume a46 (tptp.neq tptp.s0 tptp.p2_1))
% 42.64/42.82  (assume a47 (tptp.neq tptp.s1 tptp.truck1))
% 42.64/42.82  (assume a48 (tptp.neq tptp.s1 tptp.truck2))
% 42.64/42.82  (assume a49 (tptp.neq tptp.s1 tptp.s0))
% 42.64/42.82  (assume a50 (not (tptp.neq tptp.s1 tptp.s1)))
% 42.64/42.82  (assume a51 (tptp.neq tptp.s1 tptp.s2))
% 42.64/42.82  (assume a52 (tptp.neq tptp.s1 tptp.p1_0))
% 42.64/42.82  (assume a53 (tptp.neq tptp.s1 tptp.p2_1))
% 42.64/42.82  (assume a54 (tptp.neq tptp.s2 tptp.truck1))
% 42.64/42.82  (assume a55 (tptp.neq tptp.s2 tptp.truck2))
% 42.64/42.82  (assume a56 (tptp.neq tptp.s2 tptp.s0))
% 42.64/42.82  (assume a57 (tptp.neq tptp.s2 tptp.s1))
% 42.64/42.82  (assume a58 (not (tptp.neq tptp.s2 tptp.s2)))
% 42.64/42.82  (assume a59 (tptp.neq tptp.s2 tptp.p1_0))
% 42.64/42.82  (assume a60 (tptp.neq tptp.s2 tptp.p2_1))
% 42.64/42.82  (assume a61 (tptp.neq tptp.p1_0 tptp.truck1))
% 42.64/42.82  (assume a62 (tptp.neq tptp.p1_0 tptp.truck2))
% 42.64/42.82  (assume a63 (tptp.neq tptp.p1_0 tptp.s0))
% 42.64/42.82  (assume a64 (tptp.neq tptp.p1_0 tptp.s1))
% 42.64/42.82  (assume a65 (tptp.neq tptp.p1_0 tptp.s2))
% 42.64/42.82  (assume a66 (not (tptp.neq tptp.p1_0 tptp.p1_0)))
% 42.64/42.82  (assume a67 (tptp.neq tptp.p1_0 tptp.p2_1))
% 42.64/42.82  (assume a68 (tptp.neq tptp.p2_1 tptp.truck1))
% 42.64/42.82  (assume a69 (tptp.neq tptp.p2_1 tptp.truck2))
% 42.64/42.82  (assume a70 (tptp.neq tptp.p2_1 tptp.s0))
% 42.64/42.82  (assume a71 (tptp.neq tptp.p2_1 tptp.s1))
% 42.64/42.82  (assume a72 (tptp.neq tptp.p2_1 tptp.s2))
% 42.64/42.82  (assume a73 (tptp.neq tptp.p2_1 tptp.p1_0))
% 42.64/42.82  (assume a74 (not (tptp.neq tptp.p2_1 tptp.p2_1)))
% 42.64/42.82  (assume a75 (tptp.path tptp.s1 tptp.p1_0))
% 42.64/42.82  (assume a76 (tptp.path tptp.p1_0 tptp.s1))
% 42.64/42.82  (assume a77 (tptp.path tptp.s0 tptp.p1_0))
% 42.64/42.82  (assume a78 (tptp.path tptp.p1_0 tptp.s0))
% 42.64/42.82  (assume a79 (tptp.path tptp.s2 tptp.p2_1))
% 42.64/42.82  (assume a80 (tptp.path tptp.p2_1 tptp.s2))
% 42.64/42.82  (assume a81 (tptp.path tptp.s1 tptp.p2_1))
% 42.64/42.82  (assume a82 (tptp.path tptp.p2_1 tptp.s1))
% 42.64/42.82  (assume a83 (tptp.link tptp.s0 tptp.s1))
% 42.64/42.82  (assume a84 (tptp.link tptp.s1 tptp.s0))
% 42.64/42.82  (assume a85 (tptp.link tptp.s1 tptp.s2))
% 42.64/42.82  (assume a86 (tptp.link tptp.s2 tptp.s1))
% 42.64/42.82  (assume a87 (tptp.link tptp.s2 tptp.s0))
% 42.64/42.82  (assume a88 (tptp.link tptp.s0 tptp.s2))
% 42.64/42.82  (assume a89 (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0))
% 42.64/42.82  (assume a90 (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7))))
% 42.64/42.82  (step t1 (cl (=> (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7))) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7)))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t2)
% 42.64/42.82  (assume t2.a0 (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7))))
% 42.64/42.82  (step t2.t1 (cl (or (not (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7)))) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule forall_inst :args ((:= X5 tptp.s1) (:= X7 tptp.s0)))
% 42.64/42.82  (step t2.t2 (cl (not (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7)))) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule or :premises (t2.t1))
% 42.64/42.82  (step t2.t3 (cl (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t2.t2 t2.a0))
% 42.64/42.82  (step t2 (cl (not (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7)))) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule subproof :discharge (t2.a0))
% 42.64/42.82  (step t3 (cl (=> (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7))) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t1 t2))
% 42.64/42.82  (step t4 (cl (=> (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7))) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) (not (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule implies_neg2)
% 42.64/42.82  (step t5 (cl (=> (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7))) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) (=> (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7))) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule resolution :premises (t3 t4))
% 42.64/42.82  (step t6 (cl (=> (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7))) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule contraction :premises (t5))
% 42.64/42.82  (step t7 (cl (not (forall ((X5 $$unsorted) (X7 $$unsorted)) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 X5 tptp.s2 X7)))) (not (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule implies :premises (t6))
% 42.64/42.82  (step t8 (cl (not (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule or_pos)
% 42.64/42.82  (step t9 (cl (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))))) :rule reordering :premises (t8))
% 42.64/42.82  (step t10 (cl (not (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule or_pos)
% 42.64/42.82  (step t11 (cl (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))))) :rule reordering :premises (t10))
% 42.64/42.82  (step t12 (cl (not (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) :rule or_pos)
% 42.64/42.82  (step t13 (cl (not (tptp.link tptp.s0 tptp.s2)) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0) (not (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule reordering :premises (t12))
% 42.64/42.82  (step t14 (cl (not (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) :rule or_pos)
% 42.64/42.82  (step t15 (cl (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))))) :rule reordering :premises (t14))
% 42.64/42.82  (step t16 (cl (not (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) :rule or_pos)
% 42.64/42.82  (step t17 (cl (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))))) :rule reordering :premises (t16))
% 42.64/42.82  (step t18 (cl (not (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) :rule or_pos)
% 42.64/42.82  (step t19 (cl (not (tptp.link tptp.s1 tptp.s0)) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule reordering :premises (t18))
% 42.64/42.82  (step t20 (cl (not (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) :rule or_pos)
% 42.64/42.82  (step t21 (cl (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0) (not (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule reordering :premises (t20))
% 42.64/42.82  (step t22 (cl (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) :rule or_pos)
% 42.64/42.82  (step t23 (cl (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule reordering :premises (t22))
% 42.64/42.82  (step t24 (cl (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) :rule or_pos)
% 42.64/42.82  (step t25 (cl (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule reordering :premises (t24))
% 42.64/42.82  (step t26 (cl (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) :rule or_pos)
% 42.64/42.82  (step t27 (cl (not (tptp.link tptp.s2 tptp.s1)) (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule reordering :premises (t26))
% 42.64/42.82  (step t28 (cl (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) :rule or_pos)
% 42.64/42.82  (step t29 (cl (not (tptp.neq tptp.s1 tptp.truck1)) (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule reordering :premises (t28))
% 42.64/42.82  (step t30 (cl (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) :rule or_pos)
% 42.64/42.82  (step t31 (cl (not (tptp.path tptp.p2_1 tptp.s2)) (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule reordering :premises (t30))
% 42.64/42.82  (step t32 (cl (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0))) (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) :rule or_pos)
% 42.64/42.82  (step t33 (cl (not (tptp.path tptp.s1 tptp.p2_1)) (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)))) :rule reordering :premises (t32))
% 42.64/42.82  (step t34 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0))) (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2)))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t35)
% 42.64/42.82  (assume t35.a0 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))))
% 42.64/42.82  (step t35.t1 (cl (or (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)))) :rule forall_inst :args ((:= O1 tptp.s1) (:= O2 tptp.s1) (:= O3 tptp.s1) (:= S tptp.s1) (:= D2 tptp.s1) (:= T1 tptp.s2) (:= T2 tptp.s0) (:= D tptp.p2_1)))
% 42.64/42.82  (step t35.t2 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0))) :rule or :premises (t35.t1))
% 42.64/42.82  (step t35.t3 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t35.t2 t35.a0))
% 42.64/42.82  (step t35 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0))) :rule subproof :discharge (t35.a0))
% 42.64/42.82  (step t36 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t34 t35))
% 42.64/42.82  (step t37 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0))) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)))) :rule implies_neg2)
% 42.64/42.82  (step t38 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0))) (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)))) :rule resolution :premises (t36 t37))
% 42.64/42.82  (step t39 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)))) :rule contraction :premises (t38))
% 42.64/42.82  (step t40 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0))) :rule implies :premises (t39))
% 42.64/42.82  (step t41 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.s1 tptp.p2_1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t40 a24))
% 42.64/42.82  (step t42 (cl (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) :rule resolution :premises (t33 a81 a89 t41))
% 42.64/42.82  (step t43 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2)))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t44)
% 42.64/42.82  (assume t44.a0 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))))
% 42.64/42.82  (step t44.t1 (cl (or (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule forall_inst :args ((:= O1 tptp.s1) (:= O2 tptp.s1) (:= O3 tptp.s1) (:= S tptp.p2_1) (:= D2 tptp.s1) (:= T1 tptp.s2) (:= T2 tptp.s0) (:= D tptp.s2)))
% 42.64/42.82  (step t44.t2 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule or :premises (t44.t1))
% 42.64/42.82  (step t44.t3 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t44.t2 t44.a0))
% 42.64/42.82  (step t44 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule subproof :discharge (t44.a0))
% 42.64/42.82  (step t45 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t43 t44))
% 42.64/42.82  (step t46 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule implies_neg2)
% 42.64/42.82  (step t47 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule resolution :premises (t45 t46))
% 42.64/42.82  (step t48 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule contraction :premises (t47))
% 42.64/42.82  (step t49 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (S $$unsorted) (D2 $$unsorted) (T1 $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 S D2 T1 T2)) (not (tptp.path S D)) (tptp.s O1 O2 O3 D D2 T1 T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule implies :premises (t48))
% 42.64/42.82  (step t50 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.p2_1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.path tptp.p2_1 tptp.s2)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t49 a24))
% 42.64/42.82  (step t51 (cl (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) :rule resolution :premises (t31 a80 t42 t50))
% 42.64/42.82  (step t52 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t53)
% 42.64/42.82  (assume t53.a0 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))))
% 42.64/42.82  (step t53.t1 (cl (or (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule forall_inst :args ((:= O1 tptp.s1) (:= O2 tptp.s1) (:= O3 tptp.s1) (:= L tptp.s2) (:= D2 tptp.s1) (:= T2 tptp.s0)))
% 42.64/42.82  (step t53.t2 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule or :premises (t53.t1))
% 42.64/42.82  (step t53.t3 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t53.t2 t53.a0))
% 42.64/42.82  (step t53 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule subproof :discharge (t53.a0))
% 42.64/42.82  (step t54 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t52 t53))
% 42.64/42.82  (step t55 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule implies_neg2)
% 42.64/42.82  (step t56 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule resolution :premises (t54 t55))
% 42.64/42.82  (step t57 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule contraction :premises (t56))
% 42.64/42.82  (step t58 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 O3 L D2 L T2)) (not (tptp.neq D2 tptp.truck1)) (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule implies :premises (t57))
% 42.64/42.82  (step t59 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.neq tptp.s1 tptp.truck1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t58 a12))
% 42.64/42.82  (step t60 (cl (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) :rule resolution :premises (t29 a47 t51 t59))
% 42.64/42.82  (step t61 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t62)
% 42.64/42.82  (assume t62.a0 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))))
% 42.64/42.82  (step t62.t1 (cl (or (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule forall_inst :args ((:= O1 tptp.s1) (:= O2 tptp.s1) (:= O3 tptp.s1) (:= D2 tptp.s1) (:= S tptp.s2) (:= T2 tptp.s0) (:= D tptp.s1)))
% 42.64/42.82  (step t62.t2 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule or :premises (t62.t1))
% 42.64/42.82  (step t62.t3 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t62.t2 t62.a0))
% 42.64/42.82  (step t62 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule subproof :discharge (t62.a0))
% 42.64/42.82  (step t63 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t61 t62))
% 42.64/42.82  (step t64 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule implies_neg2)
% 42.64/42.82  (step t65 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule resolution :premises (t63 t64))
% 42.64/42.82  (step t66 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule contraction :premises (t65))
% 42.64/42.82  (step t67 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule implies :premises (t66))
% 42.64/42.82  (step t68 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) (not (tptp.link tptp.s2 tptp.s1)) (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t67 a20))
% 42.64/42.82  (step t69 (cl (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) :rule resolution :premises (t27 a86 t60 t68))
% 42.64/42.82  (step t70 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t71)
% 42.64/42.82  (assume t71.a0 (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))))
% 42.64/42.82  (step t71.t1 (cl (or (not (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule forall_inst :args ((:= O1 tptp.s1) (:= O2 tptp.s1) (:= L tptp.s1) (:= D1 tptp.truck1) (:= D2 tptp.s1) (:= T2 tptp.s0)))
% 42.64/42.82  (step t71.t2 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule or :premises (t71.t1))
% 42.64/42.82  (step t71.t3 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t71.t2 t71.a0))
% 42.64/42.82  (step t71 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule subproof :discharge (t71.a0))
% 42.64/42.82  (step t72 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t70 t71))
% 42.64/42.82  (step t73 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule implies_neg2)
% 42.64/42.82  (step t74 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule resolution :premises (t72 t73))
% 42.64/42.82  (step t75 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule contraction :premises (t74))
% 42.64/42.82  (step t76 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 O2 L D1 D2 L T2)) (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule implies :premises (t75))
% 42.64/42.82  (step t77 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.s1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t76 a8))
% 42.64/42.82  (step t78 (cl (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) :rule resolution :premises (t25 t69 t77))
% 42.64/42.82  (step t79 (cl (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t80)
% 42.64/42.82  (assume t80.a0 (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))))
% 42.64/42.82  (step t80.t1 (cl (or (not (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule forall_inst :args ((:= O1 tptp.s1) (:= L tptp.s1) (:= O3 tptp.truck1) (:= D1 tptp.truck1) (:= D2 tptp.s1) (:= T2 tptp.s0)))
% 42.64/42.82  (step t80.t2 (cl (not (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule or :premises (t80.t1))
% 42.64/42.82  (step t80.t3 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t80.t2 t80.a0))
% 42.64/42.82  (step t80 (cl (not (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule subproof :discharge (t80.a0))
% 42.64/42.82  (step t81 (cl (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t79 t80))
% 42.64/42.82  (step t82 (cl (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (not (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule implies_neg2)
% 42.64/42.82  (step t83 (cl (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule resolution :premises (t81 t82))
% 42.64/42.82  (step t84 (cl (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule contraction :premises (t83))
% 42.64/42.82  (step t85 (cl (not (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s O1 L O3 D1 D2 L T2)) (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule implies :premises (t84))
% 42.64/42.82  (step t86 (cl (or (not (tptp.s tptp.s1 tptp.s1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t85 a4))
% 42.64/42.82  (step t87 (cl (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) :rule resolution :premises (t23 t78 t86))
% 42.64/42.82  (step t88 (cl (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t89)
% 42.64/42.82  (assume t89.a0 (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))))
% 42.64/42.82  (step t89.t1 (cl (or (not (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule forall_inst :args ((:= L tptp.s1) (:= O2 tptp.truck1) (:= O3 tptp.truck1) (:= D1 tptp.truck1) (:= D2 tptp.s1) (:= T2 tptp.s0)))
% 42.64/42.82  (step t89.t2 (cl (not (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule or :premises (t89.t1))
% 42.64/42.82  (step t89.t3 (cl (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t89.t2 t89.a0))
% 42.64/42.82  (step t89 (cl (not (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule subproof :discharge (t89.a0))
% 42.64/42.82  (step t90 (cl (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t88 t89))
% 42.64/42.82  (step t91 (cl (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (not (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule implies_neg2)
% 42.64/42.82  (step t92 (cl (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule resolution :premises (t90 t91))
% 42.64/42.82  (step t93 (cl (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))) (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)))) :rule contraction :premises (t92))
% 42.64/42.82  (step t94 (cl (not (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (not (tptp.s L O2 O3 D1 D2 L T2)) (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))) (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule implies :premises (t93))
% 42.64/42.82  (step t95 (cl (or (not (tptp.s tptp.s1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0))) :rule resolution :premises (t94 a0))
% 42.64/42.82  (step t96 (cl (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) :rule resolution :premises (t21 t87 t95))
% 42.64/42.82  (step t97 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t98)
% 42.64/42.82  (assume t98.a0 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))))
% 42.64/42.82  (step t98.t1 (cl (or (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule forall_inst :args ((:= O1 tptp.truck1) (:= O2 tptp.truck1) (:= O3 tptp.truck1) (:= D2 tptp.s1) (:= S tptp.s1) (:= T2 tptp.s0) (:= D tptp.s0)))
% 42.64/42.82  (step t98.t2 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) :rule or :premises (t98.t1))
% 42.64/42.82  (step t98.t3 (cl (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) :rule resolution :premises (t98.t2 t98.a0))
% 42.64/42.82  (step t98 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) :rule subproof :discharge (t98.a0))
% 42.64/42.82  (step t99 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) :rule resolution :premises (t97 t98))
% 42.64/42.82  (step t100 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) (not (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule implies_neg2)
% 42.64/42.82  (step t101 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule resolution :premises (t99 t100))
% 42.64/42.82  (step t102 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule contraction :premises (t101))
% 42.64/42.82  (step t103 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) :rule implies :premises (t102))
% 42.64/42.82  (step t104 (cl (or (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s1 tptp.s0)) (not (tptp.link tptp.s1 tptp.s0)) (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))) :rule resolution :premises (t103 a20))
% 42.64/42.82  (step t105 (cl (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) :rule resolution :premises (t19 a84 t96 t104))
% 42.64/42.82  (step t106 (cl (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))) (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t107)
% 42.64/42.82  (assume t107.a0 (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))))
% 42.64/42.82  (step t107.t1 (cl (or (not (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))))) (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))))) :rule forall_inst :args ((:= O1 tptp.truck1) (:= L tptp.s0) (:= O3 tptp.truck1) (:= D1 tptp.truck1) (:= D2 tptp.s1) (:= T2 tptp.s0)))
% 42.64/42.82  (step t107.t2 (cl (not (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))))) (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule or :premises (t107.t1))
% 42.64/42.82  (step t107.t3 (cl (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule resolution :premises (t107.t2 t107.a0))
% 42.64/42.82  (step t107 (cl (not (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))))) (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule subproof :discharge (t107.a0))
% 42.64/42.82  (step t108 (cl (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))) (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule resolution :premises (t106 t107))
% 42.64/42.82  (step t109 (cl (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))) (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) (not (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))))) :rule implies_neg2)
% 42.64/42.82  (step t110 (cl (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))) (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))) (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))))) :rule resolution :premises (t108 t109))
% 42.64/42.82  (step t111 (cl (=> (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2)))) (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))))) :rule contraction :premises (t110))
% 42.64/42.82  (step t112 (cl (not (forall ((O1 $$unsorted) (L $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 L O3 D1 D2 L T2) (not (tptp.s O1 tptp.truck1 O3 D1 D2 L T2))))) (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule implies :premises (t111))
% 42.64/42.82  (step t113 (cl (or (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.truck1 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule resolution :premises (t112 a5))
% 42.64/42.82  (step t114 (cl (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) :rule resolution :premises (t17 t105 t113))
% 42.64/42.82  (step t115 (cl (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t116)
% 42.64/42.82  (assume t116.a0 (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))))
% 42.64/42.82  (step t116.t1 (cl (or (not (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))))) :rule forall_inst :args ((:= L tptp.s0) (:= O2 tptp.s0) (:= O3 tptp.truck1) (:= D1 tptp.truck1) (:= D2 tptp.s1) (:= T2 tptp.s0)))
% 42.64/42.82  (step t116.t2 (cl (not (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule or :premises (t116.t1))
% 42.64/42.82  (step t116.t3 (cl (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule resolution :premises (t116.t2 t116.a0))
% 42.64/42.82  (step t116 (cl (not (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule subproof :discharge (t116.a0))
% 42.64/42.82  (step t117 (cl (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule resolution :premises (t115 t116))
% 42.64/42.82  (step t118 (cl (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) (not (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))))) :rule implies_neg2)
% 42.64/42.82  (step t119 (cl (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))))) :rule resolution :premises (t117 t118))
% 42.64/42.82  (step t120 (cl (=> (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0))))) :rule contraction :premises (t119))
% 42.64/42.82  (step t121 (cl (not (forall ((L $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s L O2 O3 D1 D2 L T2) (not (tptp.s tptp.truck1 O2 O3 D1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule implies :premises (t120))
% 42.64/42.82  (step t122 (cl (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0) (not (tptp.s tptp.truck1 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)))) :rule resolution :premises (t121 a1))
% 42.64/42.82  (step t123 (cl (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) :rule resolution :premises (t15 t114 t122))
% 42.64/42.82  (step t124 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t125)
% 42.64/42.82  (assume t125.a0 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))))
% 42.64/42.82  (step t125.t1 (cl (or (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule forall_inst :args ((:= O1 tptp.s0) (:= O2 tptp.s0) (:= O3 tptp.truck1) (:= D2 tptp.s1) (:= S tptp.s0) (:= T2 tptp.s0) (:= D tptp.s2)))
% 42.64/42.82  (step t125.t2 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule or :premises (t125.t1))
% 42.64/42.82  (step t125.t3 (cl (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t125.t2 t125.a0))
% 42.64/42.82  (step t125 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule subproof :discharge (t125.a0))
% 42.64/42.82  (step t126 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t124 t125))
% 42.64/42.82  (step t127 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) (not (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule implies_neg2)
% 42.64/42.82  (step t128 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule resolution :premises (t126 t127))
% 42.64/42.82  (step t129 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2))) (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule contraction :premises (t128))
% 42.64/42.82  (step t130 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (D2 $$unsorted) (S $$unsorted) (T2 $$unsorted) (D $$unsorted)) (or (not (tptp.s O1 O2 O3 tptp.truck1 D2 S T2)) (not (tptp.link S D)) (tptp.s O1 O2 O3 tptp.truck1 D2 D T2)))) (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule implies :premises (t129))
% 42.64/42.82  (step t131 (cl (or (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s0 tptp.s0)) (not (tptp.link tptp.s0 tptp.s2)) (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))) :rule resolution :premises (t130 a20))
% 42.64/42.82  (step t132 (cl (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)) :rule resolution :premises (t13 a88 t123 t131))
% 42.64/42.82  (step t133 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))))) :rule implies_neg1)
% 42.64/42.82  (anchor :step t134)
% 42.64/42.82  (assume t134.a0 (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))))
% 42.64/42.83  (step t134.t1 (cl (or (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))))) :rule forall_inst :args ((:= O1 tptp.s0) (:= O2 tptp.s0) (:= O3 tptp.truck1) (:= L tptp.s2) (:= D2 tptp.s1) (:= T2 tptp.s0)))
% 42.64/42.83  (step t134.t2 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule or :premises (t134.t1))
% 42.64/42.83  (step t134.t3 (cl (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule resolution :premises (t134.t2 t134.a0))
% 42.64/42.83  (step t134 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule subproof :discharge (t134.a0))
% 42.64/42.83  (step t135 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule resolution :premises (t133 t134))
% 42.64/42.83  (step t136 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) (not (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))))) :rule implies_neg2)
% 42.64/42.83  (step t137 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))))) :rule resolution :premises (t135 t136))
% 42.64/42.83  (step t138 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0))))) :rule contraction :premises (t137))
% 42.64/42.83  (step t139 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (O3 $$unsorted) (L $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 O3 L D2 L T2) (not (tptp.s O1 O2 O3 tptp.truck1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule implies :premises (t138))
% 42.64/42.83  (step t140 (cl (or (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.truck1 tptp.s1 tptp.s2 tptp.s0)))) :rule resolution :premises (t139 a13))
% 42.64/42.83  (step t141 (cl (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) :rule resolution :premises (t11 t132 t140))
% 42.64/42.83  (step t142 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))))) :rule implies_neg1)
% 42.64/42.83  (anchor :step t143)
% 42.64/42.83  (assume t143.a0 (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))))
% 42.64/42.83  (step t143.t1 (cl (or (not (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))))) :rule forall_inst :args ((:= O1 tptp.s0) (:= O2 tptp.s0) (:= L tptp.s2) (:= D1 tptp.s2) (:= D2 tptp.s1) (:= T2 tptp.s0)))
% 42.64/42.83  (step t143.t2 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule or :premises (t143.t1))
% 42.64/42.83  (step t143.t3 (cl (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule resolution :premises (t143.t2 t143.a0))
% 42.64/42.83  (step t143 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule subproof :discharge (t143.a0))
% 42.64/42.83  (step t144 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule resolution :premises (t142 t143))
% 42.64/42.83  (step t145 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) (not (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))))) :rule implies_neg2)
% 42.64/42.83  (step t146 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))))) :rule resolution :premises (t144 t145))
% 42.64/42.83  (step t147 (cl (=> (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2)))) (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0))))) :rule contraction :premises (t146))
% 42.64/42.83  (step t148 (cl (not (forall ((O1 $$unsorted) (O2 $$unsorted) (L $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (T2 $$unsorted)) (or (tptp.s O1 O2 L D1 D2 L T2) (not (tptp.s O1 O2 tptp.truck1 D1 D2 L T2))))) (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule implies :premises (t147))
% 42.64/42.83  (step t149 (cl (or (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0) (not (tptp.s tptp.s0 tptp.s0 tptp.truck1 tptp.s2 tptp.s1 tptp.s2 tptp.s0)))) :rule resolution :premises (t148 a9))
% 42.64/42.83  (step t150 (cl (tptp.s tptp.s0 tptp.s0 tptp.s2 tptp.s2 tptp.s1 tptp.s2 tptp.s0)) :rule resolution :premises (t9 t141 t149))
% 42.64/42.83  (step t151 (cl) :rule resolution :premises (t7 t150 a90))
% 42.64/42.83  
% 42.64/42.83  % SZS output end Proof for /export/starexec/sandbox2/tmp/tmp.Kq2scZBana/cvc5---1.0.5_26202.smt2
% 42.69/42.84  % cvc5---1.0.5 exiting
% 42.69/42.84  % cvc5---1.0.5 exiting
%------------------------------------------------------------------------------