TSTP Solution File: REL010+2 by iProver---3.8
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : iProver---3.8
% Problem : REL010+2 : TPTP v8.1.2. Released v4.0.0.
% Transfm : none
% Format : tptp:raw
% Command : run_iprover %s %d THM
% Computer : n021.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 : Thu Aug 31 13:40:41 EDT 2023
% Result : Theorem 7.65s 1.67s
% Output : CNFRefutation 7.65s
% Verified :
% SZS Type : Refutation
% Derivation depth : 22
% Number of leaves : 16
% Syntax : Number of formulae : 117 ( 112 unt; 0 def)
% Number of atoms : 124 ( 123 equ)
% Maximal formula atoms : 4 ( 1 avg)
% Number of connectives : 15 ( 8 ~; 0 |; 4 &)
% ( 0 <=>; 3 =>; 0 <=; 0 <~>)
% Maximal formula depth : 7 ( 2 avg)
% Maximal term depth : 11 ( 2 avg)
% Number of predicates : 2 ( 0 usr; 1 prp; 0-2 aty)
% Number of functors : 11 ( 11 usr; 6 con; 0-2 aty)
% Number of variables : 161 ( 5 sgn; 66 !; 6 ?)
% Comments :
%------------------------------------------------------------------------------
fof(f1,axiom,
! [X0,X1] : join(X0,X1) = join(X1,X0),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',maddux1_join_commutativity) ).
fof(f2,axiom,
! [X0,X1,X2] : join(X0,join(X1,X2)) = join(join(X0,X1),X2),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',maddux2_join_associativity) ).
fof(f3,axiom,
! [X0,X1] : join(complement(join(complement(X0),complement(X1))),complement(join(complement(X0),X1))) = X0,
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',maddux3_a_kind_of_de_Morgan) ).
fof(f4,axiom,
! [X0,X1] : complement(join(complement(X0),complement(X1))) = meet(X0,X1),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',maddux4_definiton_of_meet) ).
fof(f5,axiom,
! [X0,X1,X2] : composition(X0,composition(X1,X2)) = composition(composition(X0,X1),X2),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',composition_associativity) ).
fof(f6,axiom,
! [X0] : composition(X0,one) = X0,
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',composition_identity) ).
fof(f7,axiom,
! [X0,X1,X2] : composition(join(X0,X1),X2) = join(composition(X0,X2),composition(X1,X2)),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',composition_distributivity) ).
fof(f8,axiom,
! [X0] : converse(converse(X0)) = X0,
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',converse_idempotence) ).
fof(f9,axiom,
! [X0,X1] : converse(join(X0,X1)) = join(converse(X0),converse(X1)),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',converse_additivity) ).
fof(f10,axiom,
! [X0,X1] : converse(composition(X0,X1)) = composition(converse(X1),converse(X0)),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',converse_multiplicativity) ).
fof(f11,axiom,
! [X0,X1] : complement(X1) = join(composition(converse(X0),complement(composition(X0,X1))),complement(X1)),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',converse_cancellativity) ).
fof(f12,axiom,
! [X0] : top = join(X0,complement(X0)),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',def_top) ).
fof(f13,axiom,
! [X0] : zero = meet(X0,complement(X0)),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',def_zero) ).
fof(f15,axiom,
! [X0,X1,X2] : meet(composition(X0,meet(X1,composition(converse(X0),X2))),X2) = join(meet(composition(X0,X1),X2),meet(composition(X0,meet(X1,composition(converse(X0),X2))),X2)),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',modular_law_1) ).
fof(f17,conjecture,
! [X0,X1,X2] :
( zero = meet(composition(X0,X1),X2)
=> zero = meet(X1,composition(converse(X0),X2)) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',goals) ).
fof(f18,negated_conjecture,
~ ! [X0,X1,X2] :
( zero = meet(composition(X0,X1),X2)
=> zero = meet(X1,composition(converse(X0),X2)) ),
inference(negated_conjecture,[],[f17]) ).
fof(f19,plain,
? [X0,X1,X2] :
( zero != meet(X1,composition(converse(X0),X2))
& zero = meet(composition(X0,X1),X2) ),
inference(ennf_transformation,[],[f18]) ).
fof(f20,plain,
( ? [X0,X1,X2] :
( zero != meet(X1,composition(converse(X0),X2))
& zero = meet(composition(X0,X1),X2) )
=> ( zero != meet(sK1,composition(converse(sK0),sK2))
& zero = meet(composition(sK0,sK1),sK2) ) ),
introduced(choice_axiom,[]) ).
fof(f21,plain,
( zero != meet(sK1,composition(converse(sK0),sK2))
& zero = meet(composition(sK0,sK1),sK2) ),
inference(skolemisation,[status(esa),new_symbols(skolem,[sK0,sK1,sK2])],[f19,f20]) ).
fof(f22,plain,
! [X0,X1] : join(X0,X1) = join(X1,X0),
inference(cnf_transformation,[],[f1]) ).
fof(f23,plain,
! [X2,X0,X1] : join(X0,join(X1,X2)) = join(join(X0,X1),X2),
inference(cnf_transformation,[],[f2]) ).
fof(f24,plain,
! [X0,X1] : join(complement(join(complement(X0),complement(X1))),complement(join(complement(X0),X1))) = X0,
inference(cnf_transformation,[],[f3]) ).
fof(f25,plain,
! [X0,X1] : complement(join(complement(X0),complement(X1))) = meet(X0,X1),
inference(cnf_transformation,[],[f4]) ).
fof(f26,plain,
! [X2,X0,X1] : composition(X0,composition(X1,X2)) = composition(composition(X0,X1),X2),
inference(cnf_transformation,[],[f5]) ).
fof(f27,plain,
! [X0] : composition(X0,one) = X0,
inference(cnf_transformation,[],[f6]) ).
fof(f28,plain,
! [X2,X0,X1] : composition(join(X0,X1),X2) = join(composition(X0,X2),composition(X1,X2)),
inference(cnf_transformation,[],[f7]) ).
fof(f29,plain,
! [X0] : converse(converse(X0)) = X0,
inference(cnf_transformation,[],[f8]) ).
fof(f30,plain,
! [X0,X1] : converse(join(X0,X1)) = join(converse(X0),converse(X1)),
inference(cnf_transformation,[],[f9]) ).
fof(f31,plain,
! [X0,X1] : converse(composition(X0,X1)) = composition(converse(X1),converse(X0)),
inference(cnf_transformation,[],[f10]) ).
fof(f32,plain,
! [X0,X1] : complement(X1) = join(composition(converse(X0),complement(composition(X0,X1))),complement(X1)),
inference(cnf_transformation,[],[f11]) ).
fof(f33,plain,
! [X0] : top = join(X0,complement(X0)),
inference(cnf_transformation,[],[f12]) ).
fof(f34,plain,
! [X0] : zero = meet(X0,complement(X0)),
inference(cnf_transformation,[],[f13]) ).
fof(f36,plain,
! [X2,X0,X1] : meet(composition(X0,meet(X1,composition(converse(X0),X2))),X2) = join(meet(composition(X0,X1),X2),meet(composition(X0,meet(X1,composition(converse(X0),X2))),X2)),
inference(cnf_transformation,[],[f15]) ).
fof(f38,plain,
zero = meet(composition(sK0,sK1),sK2),
inference(cnf_transformation,[],[f21]) ).
fof(f39,plain,
zero != meet(sK1,composition(converse(sK0),sK2)),
inference(cnf_transformation,[],[f21]) ).
fof(f40,plain,
! [X0] : zero = complement(join(complement(X0),complement(complement(X0)))),
inference(definition_unfolding,[],[f34,f25]) ).
fof(f42,plain,
! [X2,X0,X1] : complement(join(complement(composition(X0,complement(join(complement(X1),complement(composition(converse(X0),X2)))))),complement(X2))) = join(complement(join(complement(composition(X0,X1)),complement(X2))),complement(join(complement(composition(X0,complement(join(complement(X1),complement(composition(converse(X0),X2)))))),complement(X2)))),
inference(definition_unfolding,[],[f36,f25,f25,f25,f25,f25]) ).
fof(f44,plain,
zero != complement(join(complement(sK1),complement(composition(converse(sK0),sK2)))),
inference(definition_unfolding,[],[f39,f25]) ).
fof(f45,plain,
zero = complement(join(complement(composition(sK0,sK1)),complement(sK2))),
inference(definition_unfolding,[],[f38,f25]) ).
cnf(c_49,plain,
join(X0,X1) = join(X1,X0),
inference(cnf_transformation,[],[f22]) ).
cnf(c_50,plain,
join(join(X0,X1),X2) = join(X0,join(X1,X2)),
inference(cnf_transformation,[],[f23]) ).
cnf(c_51,plain,
join(complement(join(complement(X0),complement(X1))),complement(join(complement(X0),X1))) = X0,
inference(cnf_transformation,[],[f24]) ).
cnf(c_52,plain,
composition(composition(X0,X1),X2) = composition(X0,composition(X1,X2)),
inference(cnf_transformation,[],[f26]) ).
cnf(c_53,plain,
composition(X0,one) = X0,
inference(cnf_transformation,[],[f27]) ).
cnf(c_54,plain,
join(composition(X0,X1),composition(X2,X1)) = composition(join(X0,X2),X1),
inference(cnf_transformation,[],[f28]) ).
cnf(c_55,plain,
converse(converse(X0)) = X0,
inference(cnf_transformation,[],[f29]) ).
cnf(c_56,plain,
join(converse(X0),converse(X1)) = converse(join(X0,X1)),
inference(cnf_transformation,[],[f30]) ).
cnf(c_57,plain,
composition(converse(X0),converse(X1)) = converse(composition(X1,X0)),
inference(cnf_transformation,[],[f31]) ).
cnf(c_58,plain,
join(composition(converse(X0),complement(composition(X0,X1))),complement(X1)) = complement(X1),
inference(cnf_transformation,[],[f32]) ).
cnf(c_59,plain,
join(X0,complement(X0)) = top,
inference(cnf_transformation,[],[f33]) ).
cnf(c_60,plain,
complement(join(complement(X0),complement(complement(X0)))) = zero,
inference(cnf_transformation,[],[f40]) ).
cnf(c_62,plain,
join(complement(join(complement(composition(X0,X1)),complement(X2))),complement(join(complement(composition(X0,complement(join(complement(X1),complement(composition(converse(X0),X2)))))),complement(X2)))) = complement(join(complement(composition(X0,complement(join(complement(X1),complement(composition(converse(X0),X2)))))),complement(X2))),
inference(cnf_transformation,[],[f42]) ).
cnf(c_64,negated_conjecture,
complement(join(complement(sK1),complement(composition(converse(sK0),sK2)))) != zero,
inference(cnf_transformation,[],[f44]) ).
cnf(c_65,negated_conjecture,
complement(join(complement(composition(sK0,sK1)),complement(sK2))) = zero,
inference(cnf_transformation,[],[f45]) ).
cnf(c_81,plain,
join(complement(join(complement(X0),X1)),complement(join(complement(X0),complement(X1)))) = X0,
inference(theory_normalisation,[status(thm)],[c_51,c_50,c_49]) ).
cnf(c_82,plain,
join(complement(X0),composition(converse(X1),complement(composition(X1,X0)))) = complement(X0),
inference(theory_normalisation,[status(thm)],[c_58,c_50,c_49]) ).
cnf(c_83,plain,
join(complement(join(complement(composition(X0,X1)),complement(X2))),complement(join(complement(X2),complement(composition(X0,complement(join(complement(X1),complement(composition(converse(X0),X2))))))))) = complement(join(complement(X2),complement(composition(X0,complement(join(complement(X1),complement(composition(converse(X0),X2)))))))),
inference(theory_normalisation,[status(thm)],[c_62,c_50,c_49]) ).
cnf(c_85,negated_conjecture,
complement(join(complement(sK2),complement(composition(sK0,sK1)))) = zero,
inference(theory_normalisation,[status(thm)],[c_65,c_50,c_49]) ).
cnf(c_124,plain,
complement(top) = zero,
inference(ac_demodulation,[status(thm)],[c_60,c_59,c_50,c_49]) ).
cnf(c_203,plain,
join(X0,join(X1,X2)) = join(X1,join(X0,X2)),
inference(superposition,[status(thm)],[c_50,c_49]) ).
cnf(c_209,plain,
join(complement(top),complement(join(complement(X0),complement(complement(complement(X0)))))) = X0,
inference(superposition,[status(thm)],[c_59,c_81]) ).
cnf(c_214,plain,
join(complement(join(complement(X0),complement(X0))),complement(top)) = X0,
inference(superposition,[status(thm)],[c_59,c_81]) ).
cnf(c_222,plain,
join(complement(top),complement(join(complement(X0),complement(X0)))) = X0,
inference(theory_normalisation,[status(thm)],[c_214,c_50,c_49]) ).
cnf(c_223,plain,
join(zero,complement(join(complement(X0),complement(X0)))) = X0,
inference(light_normalisation,[status(thm)],[c_222,c_124]) ).
cnf(c_226,plain,
join(zero,complement(join(complement(X0),complement(complement(complement(X0)))))) = X0,
inference(light_normalisation,[status(thm)],[c_209,c_124]) ).
cnf(c_232,plain,
join(complement(join(complement(X0),X1)),complement(join(complement(X1),complement(X0)))) = X0,
inference(superposition,[status(thm)],[c_49,c_81]) ).
cnf(c_233,plain,
join(complement(join(X0,complement(X1))),complement(join(complement(X1),complement(X0)))) = X1,
inference(superposition,[status(thm)],[c_49,c_81]) ).
cnf(c_236,plain,
converse(join(converse(X0),X1)) = join(X0,converse(X1)),
inference(superposition,[status(thm)],[c_55,c_56]) ).
cnf(c_241,plain,
converse(composition(converse(X0),X1)) = composition(converse(X1),X0),
inference(superposition,[status(thm)],[c_55,c_57]) ).
cnf(c_244,plain,
join(X0,join(complement(X0),X1)) = join(top,X1),
inference(superposition,[status(thm)],[c_59,c_50]) ).
cnf(c_265,plain,
join(complement(sK2),complement(composition(sK0,sK1))) = join(zero,complement(join(zero,zero))),
inference(superposition,[status(thm)],[c_85,c_223]) ).
cnf(c_266,plain,
join(zero,complement(join(zero,zero))) = top,
inference(superposition,[status(thm)],[c_124,c_223]) ).
cnf(c_273,plain,
join(complement(sK2),complement(composition(sK0,sK1))) = top,
inference(light_normalisation,[status(thm)],[c_265,c_266]) ).
cnf(c_298,plain,
join(zero,composition(converse(X0),complement(composition(X0,top)))) = zero,
inference(superposition,[status(thm)],[c_124,c_82]) ).
cnf(c_307,plain,
composition(X0,composition(one,X1)) = composition(X0,X1),
inference(superposition,[status(thm)],[c_53,c_52]) ).
cnf(c_337,plain,
join(complement(join(complement(composition(converse(X0),X1)),complement(X2))),complement(join(complement(X2),complement(composition(converse(X0),complement(join(complement(X1),complement(composition(X0,X2))))))))) = complement(join(complement(X2),complement(composition(converse(X0),complement(join(complement(X1),complement(composition(X0,X2)))))))),
inference(superposition,[status(thm)],[c_55,c_83]) ).
cnf(c_386,plain,
join(X0,converse(complement(converse(X0)))) = converse(top),
inference(superposition,[status(thm)],[c_59,c_236]) ).
cnf(c_514,plain,
join(X0,join(X1,complement(X0))) = join(X1,top),
inference(superposition,[status(thm)],[c_59,c_203]) ).
cnf(c_991,plain,
composition(converse(one),X0) = converse(converse(X0)),
inference(superposition,[status(thm)],[c_53,c_241]) ).
cnf(c_1020,plain,
composition(converse(one),X0) = X0,
inference(light_normalisation,[status(thm)],[c_991,c_55]) ).
cnf(c_1071,plain,
join(complement(X0),complement(composition(one,X0))) = complement(X0),
inference(superposition,[status(thm)],[c_1020,c_82]) ).
cnf(c_1076,plain,
composition(converse(one),X0) = composition(one,X0),
inference(superposition,[status(thm)],[c_1020,c_307]) ).
cnf(c_1087,plain,
composition(one,X0) = X0,
inference(light_normalisation,[status(thm)],[c_1076,c_1020]) ).
cnf(c_1169,plain,
join(X0,composition(X1,X0)) = composition(join(one,X1),X0),
inference(superposition,[status(thm)],[c_1087,c_54]) ).
cnf(c_1464,plain,
join(top,complement(complement(X0))) = join(X0,top),
inference(superposition,[status(thm)],[c_59,c_244]) ).
cnf(c_2711,plain,
join(complement(X0),complement(X0)) = complement(X0),
inference(light_normalisation,[status(thm)],[c_1071,c_1087]) ).
cnf(c_2733,plain,
join(X0,complement(X0)) = join(complement(X0),top),
inference(superposition,[status(thm)],[c_2711,c_514]) ).
cnf(c_2736,plain,
join(X0,complement(X0)) = join(top,complement(X0)),
inference(theory_normalisation,[status(thm)],[c_2733,c_50,c_49]) ).
cnf(c_2737,plain,
join(top,complement(X0)) = top,
inference(light_normalisation,[status(thm)],[c_2736,c_59]) ).
cnf(c_2755,plain,
join(X0,top) = top,
inference(demodulation,[status(thm)],[c_1464,c_2737]) ).
cnf(c_2771,plain,
join(top,X0) = top,
inference(superposition,[status(thm)],[c_2755,c_49]) ).
cnf(c_2820,plain,
converse(top) = top,
inference(superposition,[status(thm)],[c_2771,c_386]) ).
cnf(c_3012,plain,
join(complement(join(complement(complement(X0)),X0)),complement(top)) = complement(X0),
inference(superposition,[status(thm)],[c_59,c_232]) ).
cnf(c_3040,plain,
join(complement(top),complement(join(X0,complement(complement(X0))))) = complement(X0),
inference(theory_normalisation,[status(thm)],[c_3012,c_50,c_49]) ).
cnf(c_3041,plain,
join(zero,complement(join(X0,complement(complement(X0))))) = complement(X0),
inference(light_normalisation,[status(thm)],[c_3040,c_124]) ).
cnf(c_3085,plain,
complement(complement(X0)) = X0,
inference(demodulation,[status(thm)],[c_226,c_3041]) ).
cnf(c_3091,plain,
complement(zero) = top,
inference(superposition,[status(thm)],[c_124,c_3085]) ).
cnf(c_3093,plain,
join(X0,X0) = X0,
inference(superposition,[status(thm)],[c_3085,c_2711]) ).
cnf(c_3290,plain,
join(complement(join(X0,complement(X0))),complement(complement(X0))) = X0,
inference(superposition,[status(thm)],[c_3093,c_233]) ).
cnf(c_3307,plain,
join(complement(complement(X0)),complement(join(X0,complement(X0)))) = X0,
inference(theory_normalisation,[status(thm)],[c_3290,c_50,c_49]) ).
cnf(c_3308,plain,
join(X0,zero) = X0,
inference(light_normalisation,[status(thm)],[c_3307,c_59,c_124,c_3085]) ).
cnf(c_3370,plain,
join(zero,X0) = X0,
inference(superposition,[status(thm)],[c_3308,c_49]) ).
cnf(c_3928,plain,
composition(converse(X0),complement(composition(X0,top))) = zero,
inference(demodulation,[status(thm)],[c_298,c_3370]) ).
cnf(c_4306,plain,
join(X0,composition(complement(one),X0)) = composition(top,X0),
inference(superposition,[status(thm)],[c_59,c_1169]) ).
cnf(c_4518,plain,
composition(top,top) = top,
inference(superposition,[status(thm)],[c_4306,c_2771]) ).
cnf(c_4625,plain,
composition(converse(top),complement(top)) = zero,
inference(superposition,[status(thm)],[c_4518,c_3928]) ).
cnf(c_4628,plain,
composition(top,zero) = zero,
inference(light_normalisation,[status(thm)],[c_4625,c_124,c_2820]) ).
cnf(c_4662,plain,
join(composition(X0,zero),zero) = composition(join(X0,top),zero),
inference(superposition,[status(thm)],[c_4628,c_54]) ).
cnf(c_4667,plain,
join(zero,composition(X0,zero)) = composition(join(X0,top),zero),
inference(theory_normalisation,[status(thm)],[c_4662,c_50,c_49]) ).
cnf(c_4668,plain,
join(zero,composition(X0,zero)) = zero,
inference(light_normalisation,[status(thm)],[c_4667,c_2755,c_4628]) ).
cnf(c_4899,plain,
composition(X0,zero) = zero,
inference(demodulation,[status(thm)],[c_4668,c_3370]) ).
cnf(c_13697,plain,
join(complement(join(complement(composition(converse(sK0),sK2)),complement(sK1))),complement(join(complement(sK1),complement(composition(converse(sK0),complement(top)))))) = complement(join(complement(sK1),complement(composition(converse(sK0),complement(top))))),
inference(superposition,[status(thm)],[c_273,c_337]) ).
cnf(c_13734,plain,
join(complement(join(complement(sK1),complement(composition(converse(sK0),sK2)))),complement(join(complement(sK1),complement(composition(converse(sK0),complement(top)))))) = complement(join(complement(sK1),complement(composition(converse(sK0),complement(top))))),
inference(theory_normalisation,[status(thm)],[c_13697,c_50,c_49]) ).
cnf(c_13735,plain,
join(complement(join(complement(sK1),complement(composition(converse(sK0),sK2)))),complement(join(complement(sK1),complement(composition(converse(sK0),zero))))) = complement(join(complement(sK1),complement(composition(converse(sK0),zero)))),
inference(light_normalisation,[status(thm)],[c_13734,c_124]) ).
cnf(c_13736,plain,
join(complement(join(complement(sK1),complement(composition(converse(sK0),zero)))),complement(join(complement(sK1),complement(composition(converse(sK0),sK2))))) = complement(join(complement(sK1),complement(composition(converse(sK0),zero)))),
inference(theory_normalisation,[status(thm)],[c_13735,c_50,c_49]) ).
cnf(c_22237,plain,
complement(join(complement(sK1),complement(composition(converse(sK0),sK2)))) = zero,
inference(demodulation,[status(thm)],[c_13736,c_124,c_2755,c_3091,c_3370,c_4899]) ).
cnf(c_22238,plain,
$false,
inference(forward_subsumption_resolution,[status(thm)],[c_22237,c_64]) ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.12 % Problem : REL010+2 : TPTP v8.1.2. Released v4.0.0.
% 0.00/0.13 % Command : run_iprover %s %d THM
% 0.13/0.35 % Computer : n021.cluster.edu
% 0.13/0.35 % Model : x86_64 x86_64
% 0.13/0.35 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.35 % Memory : 8042.1875MB
% 0.13/0.35 % OS : Linux 3.10.0-693.el7.x86_64
% 0.13/0.35 % CPULimit : 300
% 0.13/0.35 % WCLimit : 300
% 0.13/0.35 % DateTime : Fri Aug 25 22:05:26 EDT 2023
% 0.13/0.35 % CPUTime :
% 0.21/0.48 Running first-order theorem proving
% 0.21/0.48 Running: /export/starexec/sandbox2/solver/bin/run_problem --schedule fof_schedule --no_cores 8 /export/starexec/sandbox2/benchmark/theBenchmark.p 300
% 7.65/1.67 % SZS status Started for theBenchmark.p
% 7.65/1.67 % SZS status Theorem for theBenchmark.p
% 7.65/1.67
% 7.65/1.67 %---------------- iProver v3.8 (pre SMT-COMP 2023/CASC 2023) ----------------%
% 7.65/1.67
% 7.65/1.67 ------ iProver source info
% 7.65/1.67
% 7.65/1.67 git: date: 2023-05-31 18:12:56 +0000
% 7.65/1.67 git: sha1: 8abddc1f627fd3ce0bcb8b4cbf113b3cc443d7b6
% 7.65/1.67 git: non_committed_changes: false
% 7.65/1.67 git: last_make_outside_of_git: false
% 7.65/1.67
% 7.65/1.67 ------ Parsing...
% 7.65/1.67 ------ Clausification by vclausify_rel & Parsing by iProver...
% 7.65/1.67
% 7.65/1.67 ------ Preprocessing... sup_sim: 1 sf_s rm: 0 0s sf_e pe_s pe_e
% 7.65/1.67
% 7.65/1.67 ------ Preprocessing... gs_s sp: 0 0s gs_e snvd_s sp: 0 0s snvd_e
% 7.65/1.67
% 7.65/1.67 ------ Preprocessing... sf_s rm: 0 0s sf_e
% 7.65/1.67 ------ Proving...
% 7.65/1.67 ------ Problem Properties
% 7.65/1.67
% 7.65/1.67
% 7.65/1.67 clauses 17
% 7.65/1.67 conjectures 2
% 7.65/1.67 EPR 0
% 7.65/1.67 Horn 17
% 7.65/1.67 unary 17
% 7.65/1.67 binary 0
% 7.65/1.67 lits 17
% 7.65/1.67 lits eq 17
% 7.65/1.67 fd_pure 0
% 7.65/1.67 fd_pseudo 0
% 7.65/1.67 fd_cond 0
% 7.65/1.67 fd_pseudo_cond 0
% 7.65/1.67 AC symbols 1
% 7.65/1.67
% 7.65/1.67 ------ Schedule UEQ
% 7.65/1.67
% 7.65/1.67 ------ Option_UEQ Time Limit: 10.
% 7.65/1.67
% 7.65/1.67
% 7.65/1.67 ------
% 7.65/1.67 Current options:
% 7.65/1.67 ------
% 7.65/1.67
% 7.65/1.67
% 7.65/1.67
% 7.65/1.67
% 7.65/1.67 ------ Proving...
% 7.65/1.67
% 7.65/1.67
% 7.65/1.67 % SZS status Theorem for theBenchmark.p
% 7.65/1.67
% 7.65/1.67 % SZS output start CNFRefutation for theBenchmark.p
% See solution above
% 7.65/1.67
% 7.65/1.67
%------------------------------------------------------------------------------