TSTP Solution File: NUM432+1 by ConnectPP---0.2.2
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : ConnectPP---0.2.2
% Problem : NUM432+1 : TPTP v8.1.2. Released v4.0.0.
% Transfm : none
% Format : tptp:raw
% Command : connect++ --verbosity 0 --no-colour --tptp-proof --schedule default %s
% 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 Mar 6 09:15:22 EST 2024
% Result : Theorem 7.68s 7.84s
% Output : Proof 7.68s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.12 % Problem : NUM432+1 : TPTP v8.1.2. Released v4.0.0.
% 0.07/0.12 % Command : connect++ --verbosity 0 --no-colour --tptp-proof --schedule default %s
% 0.12/0.33 % Computer : n028.cluster.edu
% 0.12/0.33 % Model : x86_64 x86_64
% 0.12/0.33 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.33 % Memory : 8042.1875MB
% 0.12/0.33 % OS : Linux 3.10.0-693.el7.x86_64
% 0.12/0.33 % CPULimit : 300
% 0.12/0.33 % WCLimit : 300
% 0.12/0.33 % DateTime : Sun Mar 3 17:47:48 EST 2024
% 0.12/0.33 % CPUTime :
% 7.68/7.84 % SZS status Theorem for theBenchmark
% 7.68/7.84 % SZS output start Proof for theBenchmark
% 7.68/7.84
% 7.68/7.84 % Formula: mIntegers ( axiom ) converted to clauses:
% 7.68/7.84
% 7.68/7.84 % Formula: mIntZero ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mIntZero-1, axiom, ( aInteger0(sz00) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mIntOne ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mIntOne-1, axiom, ( aInteger0(sz10) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mIntNeg ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mIntNeg-1, axiom, ( ~aInteger0(_u1) | aInteger0(smndt0(_u1)) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mIntPlus ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mIntPlus-1, axiom, ( ~aInteger0(_u3) | ~aInteger0(_u2) | aInteger0(sdtpldt0(_u3, _u2)) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mIntMult ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mIntMult-1, axiom, ( ~aInteger0(_u5) | ~aInteger0(_u4) | aInteger0(sdtasdt0(_u5, _u4)) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mAddAsso ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mAddAsso-1, axiom, ( ~aInteger0(_u8) | ~aInteger0(_u7) | ~aInteger0(_u6) | ( sdtpldt0(_u8, sdtpldt0(_u7, _u6)) = sdtpldt0(sdtpldt0(_u8, _u7), _u6)) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mAddComm ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mAddComm-1, axiom, ( ~aInteger0(_u10) | ~aInteger0(_u9) | ( sdtpldt0(_u10, _u9) = sdtpldt0(_u9, _u10)) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mAddZero ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mAddZero-1, axiom, ( ~aInteger0(_u11) | ( sdtpldt0(_u11, sz00) = _u11) )).
% 7.68/7.84 cnf(mAddZero-2, axiom, ( ~aInteger0(_u11) | ( _u11 = sdtpldt0(sz00, _u11)) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mAddNeg ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mAddNeg-1, axiom, ( ~aInteger0(_u12) | ( sdtpldt0(_u12, smndt0(_u12)) = sz00) )).
% 7.68/7.84 cnf(mAddNeg-2, axiom, ( ~aInteger0(_u12) | ( sz00 = sdtpldt0(smndt0(_u12), _u12)) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mMulAsso ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mMulAsso-1, axiom, ( ~aInteger0(_u15) | ~aInteger0(_u14) | ~aInteger0(_u13) | ( sdtasdt0(_u15, sdtasdt0(_u14, _u13)) = sdtasdt0(sdtasdt0(_u15, _u14), _u13)) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mMulComm ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mMulComm-1, axiom, ( ~aInteger0(_u17) | ~aInteger0(_u16) | ( sdtasdt0(_u17, _u16) = sdtasdt0(_u16, _u17)) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mMulOne ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mMulOne-1, axiom, ( ~aInteger0(_u18) | ( sdtasdt0(_u18, sz10) = _u18) )).
% 7.68/7.84 cnf(mMulOne-2, axiom, ( ~aInteger0(_u18) | ( _u18 = sdtasdt0(sz10, _u18)) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mDistrib ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mDistrib-1, axiom, ( ~aInteger0(_u21) | ~aInteger0(_u20) | ~aInteger0(_u19) | ( sdtasdt0(_u21, sdtpldt0(_u20, _u19)) = sdtpldt0(sdtasdt0(_u21, _u20), sdtasdt0(_u21, _u19))) )).
% 7.68/7.84 cnf(mDistrib-2, axiom, ( ~aInteger0(_u21) | ~aInteger0(_u20) | ~aInteger0(_u19) | ( sdtasdt0(sdtpldt0(_u21, _u20), _u19) = sdtpldt0(sdtasdt0(_u21, _u19), sdtasdt0(_u20, _u19))) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mMulZero ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mMulZero-1, axiom, ( ~aInteger0(_u22) | ( sdtasdt0(_u22, sz00) = sz00) )).
% 7.68/7.84 cnf(mMulZero-2, axiom, ( ~aInteger0(_u22) | ( sz00 = sdtasdt0(sz00, _u22)) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mMulMinOne ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mMulMinOne-1, axiom, ( ~aInteger0(_u23) | ( sdtasdt0(smndt0(sz10), _u23) = smndt0(_u23)) )).
% 7.68/7.84 cnf(mMulMinOne-2, axiom, ( ~aInteger0(_u23) | ( smndt0(_u23) = sdtasdt0(_u23, smndt0(sz10))) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mZeroDiv ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mZeroDiv-1, axiom, ( ~aInteger0(_u25) | ~aInteger0(_u24) | ( sdtasdt0(_u25, _u24) != sz00) | ( _u25 = sz00) | ( _u24 = sz00) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mDivisor ( definition ) converted to clauses:
% 7.68/7.84 cnf(mDivisor-1, definition, ( ~aInteger0(_u29) | ~aDivisorOf0(_u30, _u29) | aInteger0(_u30) )).
% 7.68/7.84 cnf(mDivisor-2, definition, ( ~aInteger0(_u29) | ~aDivisorOf0(_u30, _u29) | ( _u30 != sz00) )).
% 7.68/7.84 cnf(mDivisor-3, definition, ( ~aInteger0(_u29) | ~aDivisorOf0(_u30, _u29) | aInteger0(skolem1(_u29, _u30)) )).
% 7.68/7.84 cnf(mDivisor-4, definition, ( ~aInteger0(_u29) | ~aDivisorOf0(_u30, _u29) | ( sdtasdt0(_u30, skolem1(_u29, _u30)) = _u29) )).
% 7.68/7.84 cnf(mDivisor-5, definition, ( ~aInteger0(_u29) | ~aInteger0(_u31) | ( _u31 = sz00) | ~aInteger0(_u27) | ( sdtasdt0(_u31, _u27) != _u29) | aDivisorOf0(_u31, _u29) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mEquMod ( definition ) converted to clauses:
% 7.68/7.84 cnf(mEquMod-1, definition, ( ~aInteger0(_u34) | ~aInteger0(_u33) | ~aInteger0(_u32) | ( _u32 = sz00) | ~sdteqdtlpzmzozddtrp0(_u34, _u33, _u32) | aDivisorOf0(_u32, sdtpldt0(_u34, smndt0(_u33))) )).
% 7.68/7.84 cnf(mEquMod-2, definition, ( ~aInteger0(_u34) | ~aInteger0(_u33) | ~aInteger0(_u32) | ( _u32 = sz00) | ~aDivisorOf0(_u32, sdtpldt0(_u34, smndt0(_u33))) | sdteqdtlpzmzozddtrp0(_u34, _u33, _u32) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mEquModRef ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mEquModRef-1, axiom, ( ~aInteger0(_u36) | ~aInteger0(_u35) | ( _u35 = sz00) | sdteqdtlpzmzozddtrp0(_u36, _u36, _u35) )).
% 7.68/7.84
% 7.68/7.84 % Formula: mEquModSym ( axiom ) converted to clauses:
% 7.68/7.84 cnf(mEquModSym-1, axiom, ( ~aInteger0(_u39) | ~aInteger0(_u38) | ~aInteger0(_u37) | ( _u37 = sz00) | ~sdteqdtlpzmzozddtrp0(_u39, _u38, _u37) | sdteqdtlpzmzozddtrp0(_u38, _u39, _u37) )).
% 7.68/7.84
% 7.68/7.84 % Formula: m__818 ( hypothesis ) converted to clauses:
% 7.68/7.84 cnf(m__818-1, hypothesis, ( aInteger0(xa) )).
% 7.68/7.84 cnf(m__818-2, hypothesis, ( aInteger0(xb) )).
% 7.68/7.84 cnf(m__818-3, hypothesis, ( aInteger0(xq) )).
% 7.68/7.84 cnf(m__818-4, hypothesis, ( ( xq != sz00) )).
% 7.68/7.84 cnf(m__818-5, hypothesis, ( aInteger0(xc) )).
% 7.68/7.84
% 7.68/7.84 % Formula: m__853 ( hypothesis ) converted to clauses:
% 7.68/7.84 cnf(m__853-1, hypothesis, ( sdteqdtlpzmzozddtrp0(xa, xb, xq) )).
% 7.68/7.84 cnf(m__853-2, hypothesis, ( sdteqdtlpzmzozddtrp0(xb, xc, xq) )).
% 7.68/7.84
% 7.68/7.84 % Formula: m__876 ( hypothesis ) converted to clauses:
% 7.68/7.84 cnf(m__876-1, hypothesis, ( aInteger0(xn) )).
% 7.68/7.84 cnf(m__876-2, hypothesis, ( ( sdtasdt0(xq, xn) = sdtpldt0(xa, smndt0(xb))) )).
% 7.68/7.84
% 7.68/7.84 % Formula: m__899 ( hypothesis ) converted to clauses:
% 7.68/7.84 cnf(m__899-1, hypothesis, ( aInteger0(xm) )).
% 7.68/7.84 cnf(m__899-2, hypothesis, ( ( sdtasdt0(xq, xm) = sdtpldt0(xb, smndt0(xc))) )).
% 7.68/7.84
% 7.68/7.84 % Formula: m__924 ( hypothesis ) converted to clauses:
% 7.68/7.84 cnf(m__924-1, hypothesis, ( ( sdtasdt0(xq, sdtpldt0(xn, xm)) = sdtpldt0(xa, smndt0(xc))) )).
% 7.68/7.84
% 7.68/7.84 % Formula: m__ ( conjecture ) converted to clauses:
% 7.68/7.84 cnf(m__-1, negated_conjecture, ( ~sdteqdtlpzmzozddtrp0(xa, xc, xq) )).
% 7.68/7.84
% 7.68/7.84 % Problem matrix:
% 7.68/7.84 cnf(matrix-0, plain, ( ( __eqx_0 = __eqx_0) )).
% 7.68/7.84 cnf(matrix-1, plain, ( ( __eqx_0 != __eqx_1) | ( __eqx_1 = __eqx_0) )).
% 7.68/7.84 cnf(matrix-2, plain, ( ( __eqx_0 != __eqx_1) | ( __eqx_1 != __eqx_2) | ( __eqx_0 = __eqx_2) )).
% 7.68/7.84 cnf(matrix-3, plain, ( ( __eqx_0 != __eqy_0) | ( smndt0(__eqx_0) = smndt0(__eqy_0)) )).
% 7.68/7.84 cnf(matrix-4, plain, ( ( __eqx_0 != __eqy_0) | ( __eqx_1 != __eqy_1) | ( sdtpldt0(__eqx_0, __eqx_1) = sdtpldt0(__eqy_0, __eqy_1)) )).
% 7.68/7.84 cnf(matrix-5, plain, ( ( __eqx_0 != __eqy_0) | ( __eqx_1 != __eqy_1) | ( sdtasdt0(__eqx_0, __eqx_1) = sdtasdt0(__eqy_0, __eqy_1)) )).
% 7.68/7.84 cnf(matrix-6, plain, ( ( __eqx_0 != __eqy_0) | ( __eqx_1 != __eqy_1) | ( skolem1(__eqx_0, __eqx_1) = skolem1(__eqy_0, __eqy_1)) )).
% 7.68/7.84 cnf(matrix-7, plain, ( ( __eqx_0 != __eqy_0) | ~aInteger0(__eqx_0) | aInteger0(__eqy_0) )).
% 7.68/7.84 cnf(matrix-8, plain, ( ( __eqx_0 != __eqy_0) | ( __eqx_1 != __eqy_1) | ~aDivisorOf0(__eqx_0, __eqx_1) | aDivisorOf0(__eqy_0, __eqy_1) )).
% 7.68/7.84 cnf(matrix-9, plain, ( ( __eqx_0 != __eqy_0) | ( __eqx_1 != __eqy_1) | ( __eqx_2 != __eqy_2) | ~sdteqdtlpzmzozddtrp0(__eqx_0, __eqx_1, __eqx_2) | sdteqdtlpzmzozddtrp0(__eqy_0, __eqy_1, __eqy_2) )).
% 7.68/7.84 cnf(matrix-10, plain, ( aInteger0(sz00) )).
% 7.68/7.84 cnf(matrix-11, plain, ( aInteger0(sz10) )).
% 7.68/7.84 cnf(matrix-12, plain, ( ~aInteger0(_u1) | aInteger0(smndt0(_u1)) )).
% 7.68/7.84 cnf(matrix-13, plain, ( ~aInteger0(_u3) | ~aInteger0(_u2) | aInteger0(sdtpldt0(_u3, _u2)) )).
% 7.68/7.84 cnf(matrix-14, plain, ( ~aInteger0(_u5) | ~aInteger0(_u4) | aInteger0(sdtasdt0(_u5, _u4)) )).
% 7.68/7.84 cnf(matrix-15, plain, ( ~aInteger0(_u8) | ~aInteger0(_u7) | ~aInteger0(_u6) | ( sdtpldt0(_u8, sdtpldt0(_u7, _u6)) = sdtpldt0(sdtpldt0(_u8, _u7), _u6)) )).
% 7.68/7.84 cnf(matrix-16, plain, ( ~aInteger0(_u10) | ~aInteger0(_u9) | ( sdtpldt0(_u10, _u9) = sdtpldt0(_u9, _u10)) )).
% 7.68/7.84 cnf(matrix-17, plain, ( ~aInteger0(_u11) | ( sdtpldt0(_u11, sz00) = _u11) )).
% 7.68/7.84 cnf(matrix-18, plain, ( ~aInteger0(_u11) | ( _u11 = sdtpldt0(sz00, _u11)) )).
% 7.68/7.84 cnf(matrix-19, plain, ( ~aInteger0(_u12) | ( sdtpldt0(_u12, smndt0(_u12)) = sz00) )).
% 7.68/7.84 cnf(matrix-20, plain, ( ~aInteger0(_u12) | ( sz00 = sdtpldt0(smndt0(_u12), _u12)) )).
% 7.68/7.84 cnf(matrix-21, plain, ( ~aInteger0(_u15) | ~aInteger0(_u14) | ~aInteger0(_u13) | ( sdtasdt0(_u15, sdtasdt0(_u14, _u13)) = sdtasdt0(sdtasdt0(_u15, _u14), _u13)) )).
% 7.68/7.84 cnf(matrix-22, plain, ( ~aInteger0(_u17) | ~aInteger0(_u16) | ( sdtasdt0(_u17, _u16) = sdtasdt0(_u16, _u17)) )).
% 7.68/7.84 cnf(matrix-23, plain, ( ~aInteger0(_u18) | ( sdtasdt0(_u18, sz10) = _u18) )).
% 7.68/7.84 cnf(matrix-24, plain, ( ~aInteger0(_u18) | ( _u18 = sdtasdt0(sz10, _u18)) )).
% 7.68/7.84 cnf(matrix-25, plain, ( ~aInteger0(_u21) | ~aInteger0(_u20) | ~aInteger0(_u19) | ( sdtasdt0(_u21, sdtpldt0(_u20, _u19)) = sdtpldt0(sdtasdt0(_u21, _u20), sdtasdt0(_u21, _u19))) )).
% 7.68/7.84 cnf(matrix-26, plain, ( ~aInteger0(_u21) | ~aInteger0(_u20) | ~aInteger0(_u19) | ( sdtasdt0(sdtpldt0(_u21, _u20), _u19) = sdtpldt0(sdtasdt0(_u21, _u19), sdtasdt0(_u20, _u19))) )).
% 7.68/7.84 cnf(matrix-27, plain, ( ~aInteger0(_u22) | ( sdtasdt0(_u22, sz00) = sz00) )).
% 7.68/7.84 cnf(matrix-28, plain, ( ~aInteger0(_u22) | ( sz00 = sdtasdt0(sz00, _u22)) )).
% 7.68/7.84 cnf(matrix-29, plain, ( ~aInteger0(_u23) | ( sdtasdt0(smndt0(sz10), _u23) = smndt0(_u23)) )).
% 7.68/7.84 cnf(matrix-30, plain, ( ~aInteger0(_u23) | ( smndt0(_u23) = sdtasdt0(_u23, smndt0(sz10))) )).
% 7.68/7.84 cnf(matrix-31, plain, ( ~aInteger0(_u25) | ~aInteger0(_u24) | ( sdtasdt0(_u25, _u24) != sz00) | ( _u25 = sz00) | ( _u24 = sz00) )).
% 7.68/7.84 cnf(matrix-32, plain, ( ~aInteger0(_u29) | ~aDivisorOf0(_u30, _u29) | aInteger0(_u30) )).
% 7.68/7.84 cnf(matrix-33, plain, ( ~aInteger0(_u29) | ~aDivisorOf0(_u30, _u29) | ( _u30 != sz00) )).
% 7.68/7.84 cnf(matrix-34, plain, ( ~aInteger0(_u29) | ~aDivisorOf0(_u30, _u29) | aInteger0(skolem1(_u29, _u30)) )).
% 7.68/7.84 cnf(matrix-35, plain, ( ~aInteger0(_u29) | ~aDivisorOf0(_u30, _u29) | ( sdtasdt0(_u30, skolem1(_u29, _u30)) = _u29) )).
% 7.68/7.84 cnf(matrix-36, plain, ( ~aInteger0(_u29) | ~aInteger0(_u31) | ( _u31 = sz00) | ~aInteger0(_u27) | ( sdtasdt0(_u31, _u27) != _u29) | aDivisorOf0(_u31, _u29) )).
% 7.68/7.84 cnf(matrix-37, plain, ( ~aInteger0(_u34) | ~aInteger0(_u33) | ~aInteger0(_u32) | ( _u32 = sz00) | ~sdteqdtlpzmzozddtrp0(_u34, _u33, _u32) | aDivisorOf0(_u32, sdtpldt0(_u34, smndt0(_u33))) )).
% 7.68/7.84 cnf(matrix-38, plain, ( ~aInteger0(_u34) | ~aInteger0(_u33) | ~aInteger0(_u32) | ( _u32 = sz00) | ~aDivisorOf0(_u32, sdtpldt0(_u34, smndt0(_u33))) | sdteqdtlpzmzozddtrp0(_u34, _u33, _u32) )).
% 7.68/7.84 cnf(matrix-39, plain, ( ~aInteger0(_u36) | ~aInteger0(_u35) | ( _u35 = sz00) | sdteqdtlpzmzozddtrp0(_u36, _u36, _u35) )).
% 7.68/7.84 cnf(matrix-40, plain, ( ~aInteger0(_u39) | ~aInteger0(_u38) | ~aInteger0(_u37) | ( _u37 = sz00) | ~sdteqdtlpzmzozddtrp0(_u39, _u38, _u37) | sdteqdtlpzmzozddtrp0(_u38, _u39, _u37) )).
% 7.68/7.84 cnf(matrix-41, plain, ( aInteger0(xa) )).
% 7.68/7.84 cnf(matrix-42, plain, ( aInteger0(xb) )).
% 7.68/7.84 cnf(matrix-43, plain, ( aInteger0(xq) )).
% 7.68/7.84 cnf(matrix-44, plain, ( ( xq != sz00) )).
% 7.68/7.84 cnf(matrix-45, plain, ( aInteger0(xc) )).
% 7.68/7.84 cnf(matrix-46, plain, ( sdteqdtlpzmzozddtrp0(xa, xb, xq) )).
% 7.68/7.84 cnf(matrix-47, plain, ( sdteqdtlpzmzozddtrp0(xb, xc, xq) )).
% 7.68/7.84 cnf(matrix-48, plain, ( aInteger0(xn) )).
% 7.68/7.84 cnf(matrix-49, plain, ( ( sdtasdt0(xq, xn) = sdtpldt0(xa, smndt0(xb))) )).
% 7.68/7.84 cnf(matrix-50, plain, ( aInteger0(xm) )).
% 7.68/7.84 cnf(matrix-51, plain, ( ( sdtasdt0(xq, xm) = sdtpldt0(xb, smndt0(xc))) )).
% 7.68/7.84 cnf(matrix-52, plain, ( ( sdtasdt0(xq, sdtpldt0(xn, xm)) = sdtpldt0(xa, smndt0(xc))) )).
% 7.68/7.84 cnf(matrix-53, plain, ( ~sdteqdtlpzmzozddtrp0(xa, xc, xq) )).
% 7.68/7.84
% 7.68/7.84 % Proof stack:
% 7.68/7.84 cnf(proof-stack, plain,
% 7.68/7.84 proof_stack(
% 7.68/7.84 start(53),
% 7.68/7.84 left_branch(0, 38, 5, 2),
% 7.68/7.84 left_branch(0, 41, 0, 3),
% 7.68/7.84 right_branch(3),
% 7.68/7.84 left_branch(0, 36, 5, 4),
% 7.68/7.84 left_branch(0, 13, 2, 5),
% 7.68/7.84 lemmata(0, 0),
% 7.68/7.84 left_branch(0, 12, 1, 7),
% 7.68/7.84 left_branch(0, 45, 0, 8),
% 7.68/7.84 right_branch(8),
% 7.68/7.84 right_branch(7),
% 7.68/7.84 right_branch(5),
% 7.68/7.84 left_branch(0, 52, 0, 6),
% 7.68/7.84 right_branch(6),
% 7.68/7.84 left_branch(0, 13, 2, 7),
% 7.68/7.84 left_branch(0, 48, 0, 8),
% 7.68/7.84 right_branch(8),
% 7.68/7.84 left_branch(0, 50, 0, 9),
% 7.68/7.84 right_branch(9),
% 7.68/7.84 right_branch(7),
% 7.68/7.84 left_branch(0, 44, 0, 8),
% 7.68/7.84 right_branch(8),
% 7.68/7.84 left_branch(0, 43, 0, 9),
% 7.68/7.84 right_branch(9),
% 7.68/7.84 right_branch(4),
% 7.68/7.84 left_branch(0, 44, 0, 5),
% 7.68/7.84 right_branch(5),
% 7.68/7.84 left_branch(0, 43, 0, 6),
% 7.68/7.84 right_branch(6),
% 7.68/7.84 left_branch(0, 45, 0, 7),
% 7.68/7.84 right_branch(7),
% 7.68/7.84 right_branch(2)
% 7.68/7.84 )).
% 7.68/7.84 % SZS output end Proof for theBenchmark
%------------------------------------------------------------------------------