TSTP Solution File: CSR045+1 by CSE---1.6
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : CSE---1.6
% Problem : CSR045+1 : TPTP v8.1.2. Released v3.4.0.
% Transfm : none
% Format : tptp:raw
% Command : java -jar /export/starexec/sandbox2/solver/bin/mcs_scs.jar %s %d
% Computer : n024.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 Aug 30 18:50:14 EDT 2023
% Result : Theorem 0.66s 0.74s
% Output : CNFRefutation 0.66s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.12 % Problem : CSR045+1 : TPTP v8.1.2. Released v3.4.0.
% 0.07/0.13 % Command : java -jar /export/starexec/sandbox2/solver/bin/mcs_scs.jar %s %d
% 0.13/0.34 % Computer : n024.cluster.edu
% 0.13/0.34 % Model : x86_64 x86_64
% 0.13/0.34 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.34 % Memory : 8042.1875MB
% 0.13/0.34 % OS : Linux 3.10.0-693.el7.x86_64
% 0.13/0.34 % CPULimit : 300
% 0.13/0.34 % WCLimit : 300
% 0.13/0.34 % DateTime : Mon Aug 28 09:58:38 EDT 2023
% 0.13/0.34 % CPUTime :
% 0.20/0.57 start to proof:theBenchmark
% 0.66/0.72 %-------------------------------------------
% 0.66/0.72 % File :CSE---1.6
% 0.66/0.72 % Problem :theBenchmark
% 0.66/0.72 % Transform :cnf
% 0.66/0.72 % Format :tptp:raw
% 0.66/0.72 % Command :java -jar mcs_scs.jar %d %s
% 0.66/0.72
% 0.66/0.72 % Result :Theorem 0.100000s
% 0.66/0.72 % Output :CNFRefutation 0.100000s
% 0.66/0.72 %-------------------------------------------
% 0.66/0.73 %------------------------------------------------------------------------------
% 0.66/0.73 % File : CSR045+1 : TPTP v8.1.2. Released v3.4.0.
% 0.66/0.73 % Domain : Common Sense Reasoning
% 0.66/0.73 % Problem : Autogenerated Cyc Problem CSR045+1
% 0.66/0.73 % Version : Especial.
% 0.66/0.73 % English :
% 0.66/0.73
% 0.66/0.73 % Refs : [RS+] Reagan Smith et al., The Cyc TPTP Challenge Problem
% 0.66/0.73 % Source : [RS+]
% 0.66/0.73 % Names :
% 0.66/0.73
% 0.66/0.73 % Status : Theorem
% 0.66/0.73 % Rating : 0.00 v5.5.0, 0.11 v5.3.0, 0.09 v5.2.0, 0.00 v4.1.0, 0.06 v4.0.1, 0.00 v3.4.0
% 0.66/0.73 % Syntax : Number of formulae : 85 ( 16 unt; 0 def)
% 0.66/0.73 % Number of atoms : 171 ( 0 equ)
% 0.66/0.73 % Maximal formula atoms : 3 ( 2 avg)
% 0.66/0.73 % Number of connectives : 90 ( 4 ~; 0 |; 20 &)
% 0.66/0.73 % ( 0 <=>; 66 =>; 0 <=; 0 <~>)
% 0.66/0.73 % Maximal formula depth : 7 ( 4 avg)
% 0.66/0.73 % Maximal term depth : 1 ( 1 avg)
% 0.66/0.73 % Number of predicates : 20 ( 20 usr; 0 prp; 1-2 aty)
% 0.66/0.73 % Number of functors : 16 ( 16 usr; 16 con; 0-0 aty)
% 0.66/0.73 % Number of variables : 126 ( 126 !; 0 ?)
% 0.66/0.73 % SPC : FOF_THM_EPR_NEQ
% 0.66/0.73
% 0.66/0.73 % Comments : Autogenerated from the OpenCyc KB. Documentation can be found at
% 0.66/0.73 % http://opencyc.org/doc/#TPTP_Challenge_Problem_Set
% 0.66/0.73 % : Cyc(R) Knowledge Base Copyright(C) 1995-2007 Cycorp, Inc., Austin,
% 0.66/0.73 % TX, USA. All rights reserved.
% 0.66/0.73 % : OpenCyc Knowledge Base Copyright(C) 2001-2007 Cycorp, Inc.,
% 0.66/0.73 % Austin, TX, USA. All rights reserved.
% 0.66/0.73 %------------------------------------------------------------------------------
% 0.66/0.73 %$problem_series(cyc_scaling_1,[CSR025+1,CSR026+1,CSR027+1,CSR028+1,CSR029+1,CSR030+1,CSR031+1,CSR032+1,CSR033+1,CSR034+1,CSR035+1,CSR036+1,CSR037+1,CSR038+1,CSR039+1,CSR040+1,CSR041+1,CSR042+1,CSR043+1,CSR044+1,CSR045+1,CSR046+1,CSR047+1,CSR048+1,CSR049+1,CSR050+1,CSR051+1,CSR052+1,CSR053+1,CSR054+1,CSR055+1,CSR056+1,CSR057+1,CSR058+1,CSR059+1,CSR060+1,CSR061+1,CSR062+1,CSR063+1,CSR064+1,CSR065+1,CSR066+1,CSR067+1,CSR068+1,CSR069+1,CSR070+1,CSR071+1,CSR072+1,CSR073+1,CSR074+1])
% 0.66/0.73 %$static(cyc_scaling_1,include('Axioms/CSR002+0.ax'))
% 0.66/0.73 %----Empty file include('Axioms/CSR002+0.ax').
% 0.66/0.73 %------------------------------------------------------------------------------
% 0.66/0.73 % Cyc Assertion #438063:
% 0.66/0.73 fof(just1,axiom,
% 0.66/0.73 applicationcontext(c_wamt_evalinitial_p14) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #733764:
% 0.66/0.73 fof(just2,axiom,
% 0.66/0.73 genls(c_microtheory,c_aspatialinformationstore) ).
% 0.66/0.73
% 0.66/0.73 fof(just3,axiom,
% 0.66/0.73 ! [OBJ] :
% 0.66/0.73 ( microtheory(OBJ)
% 0.66/0.73 => aspatialinformationstore(OBJ) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #954903:
% 0.66/0.73 fof(just4,axiom,
% 0.66/0.73 genlmt(c_universalvocabularymt,c_corecyclmt) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #1012294:
% 0.66/0.73 fof(just5,axiom,
% 0.66/0.73 genls(c_intangibleindividual,c_partiallyintangibleindividual) ).
% 0.66/0.73
% 0.66/0.73 fof(just6,axiom,
% 0.66/0.73 ! [OBJ] :
% 0.66/0.73 ( intangibleindividual(OBJ)
% 0.66/0.73 => partiallyintangibleindividual(OBJ) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #1074241:
% 0.66/0.73 fof(just7,axiom,
% 0.66/0.73 genls(c_aspatialinformationstore,c_intangibleindividual) ).
% 0.66/0.73
% 0.66/0.73 fof(just8,axiom,
% 0.66/0.73 ! [OBJ] :
% 0.66/0.73 ( aspatialinformationstore(OBJ)
% 0.66/0.73 => intangibleindividual(OBJ) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #1117993:
% 0.66/0.73 fof(just9,axiom,
% 0.66/0.73 genls(c_partiallyintangibleindividual,c_individual) ).
% 0.66/0.73
% 0.66/0.73 fof(just10,axiom,
% 0.66/0.73 ! [OBJ] :
% 0.66/0.73 ( partiallyintangibleindividual(OBJ)
% 0.66/0.73 => individual(OBJ) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #1322220:
% 0.66/0.73 fof(just11,axiom,
% 0.66/0.73 transitivebinarypredicate(c_genlmt) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #1326245:
% 0.66/0.73 fof(just12,axiom,
% 0.66/0.73 genlmt(c_corecyclmt,c_logicaltruthmt) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #1385317:
% 0.66/0.73 fof(just13,axiom,
% 0.66/0.73 genls(c_applicationcontext,c_microtheory) ).
% 0.66/0.73
% 0.66/0.73 fof(just14,axiom,
% 0.66/0.73 ! [OBJ] :
% 0.66/0.73 ( applicationcontext(OBJ)
% 0.66/0.73 => microtheory(OBJ) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #1558442:
% 0.66/0.73 fof(just15,axiom,
% 0.66/0.73 ! [OBJ] :
% 0.66/0.73 ~ ( collection(OBJ)
% 0.66/0.73 & individual(OBJ) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just16,axiom,
% 0.66/0.73 disjointwith(c_collection,c_individual) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #398814:
% 0.66/0.73 fof(just17,axiom,
% 0.66/0.73 ! [OBJ,COL1,COL2] :
% 0.66/0.73 ~ ( isa(OBJ,COL1)
% 0.66/0.73 & isa(OBJ,COL2)
% 0.66/0.73 & disjointwith(COL1,COL2) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #831913:
% 0.66/0.73 fof(just18,axiom,
% 0.66/0.73 ! [SPECPRED,PRED,GENLPRED] :
% 0.66/0.73 ( ( genlinverse(SPECPRED,PRED)
% 0.66/0.73 & genlinverse(PRED,GENLPRED) )
% 0.66/0.73 => genlpreds(SPECPRED,GENLPRED) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #961669:
% 0.66/0.73 fof(just19,axiom,
% 0.66/0.73 arg1isa(c_genls,c_collection) ).
% 0.66/0.73
% 0.66/0.73 fof(just20,axiom,
% 0.66/0.73 ! [ARG1,ARG2] :
% 0.66/0.73 ( genls(ARG1,ARG2)
% 0.66/0.73 => collection(ARG1) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #398814:
% 0.66/0.73 fof(just21,axiom,
% 0.66/0.73 ! [OBJ,COL1,COL2] :
% 0.66/0.73 ~ ( isa(OBJ,COL1)
% 0.66/0.73 & isa(OBJ,COL2)
% 0.66/0.73 & disjointwith(COL1,COL2) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Assertion #831913:
% 0.66/0.73 fof(just22,axiom,
% 0.66/0.73 ! [SPECPRED,PRED,GENLPRED] :
% 0.66/0.73 ( ( genlinverse(SPECPRED,PRED)
% 0.66/0.73 & genlinverse(PRED,GENLPRED) )
% 0.66/0.73 => genlpreds(SPECPRED,GENLPRED) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Constant #54485:
% 0.66/0.73 fof(just23,axiom,
% 0.66/0.73 ! [ARG1,INS] :
% 0.66/0.73 ( arg1isa(ARG1,INS)
% 0.66/0.73 => collection(INS) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just24,axiom,
% 0.66/0.73 ! [INS,ARG2] :
% 0.66/0.73 ( arg1isa(INS,ARG2)
% 0.66/0.73 => relation(INS) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just25,axiom,
% 0.66/0.73 ! [ARG1,OLD,NEW] :
% 0.66/0.73 ( ( arg1isa(ARG1,OLD)
% 0.66/0.73 & genls(OLD,NEW) )
% 0.66/0.73 => arg1isa(ARG1,NEW) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just26,axiom,
% 0.66/0.73 ! [ARG1,OLD,NEW] :
% 0.66/0.73 ( ( arg1isa(ARG1,OLD)
% 0.66/0.73 & genls(OLD,NEW) )
% 0.66/0.73 => arg1isa(ARG1,NEW) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Constant #40273:
% 0.66/0.73 fof(just27,axiom,
% 0.66/0.73 ! [ARG1,INS] :
% 0.66/0.73 ( genlpreds(ARG1,INS)
% 0.66/0.73 => predicate(INS) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just28,axiom,
% 0.66/0.73 ! [ARG1,INS] :
% 0.66/0.73 ( genlpreds(ARG1,INS)
% 0.66/0.73 => predicate(INS) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just29,axiom,
% 0.66/0.73 ! [INS,ARG2] :
% 0.66/0.73 ( genlpreds(INS,ARG2)
% 0.66/0.73 => predicate(INS) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just30,axiom,
% 0.66/0.73 ! [INS,ARG2] :
% 0.66/0.73 ( genlpreds(INS,ARG2)
% 0.66/0.73 => predicate(INS) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just31,axiom,
% 0.66/0.73 ! [X,Y,Z] :
% 0.66/0.73 ( ( genlpreds(X,Y)
% 0.66/0.73 & genlpreds(Y,Z) )
% 0.66/0.73 => genlpreds(X,Z) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just32,axiom,
% 0.66/0.73 ! [X] :
% 0.66/0.73 ( predicate(X)
% 0.66/0.73 => genlpreds(X,X) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just33,axiom,
% 0.66/0.73 ! [X] :
% 0.66/0.73 ( predicate(X)
% 0.66/0.73 => genlpreds(X,X) ) ).
% 0.66/0.73
% 0.66/0.73 % Cyc Constant #45259:
% 0.66/0.73 fof(just34,axiom,
% 0.66/0.73 ! [ARG1,INS] :
% 0.66/0.73 ( genlinverse(ARG1,INS)
% 0.66/0.73 => binarypredicate(INS) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just35,axiom,
% 0.66/0.73 ! [INS,ARG2] :
% 0.66/0.73 ( genlinverse(INS,ARG2)
% 0.66/0.73 => binarypredicate(INS) ) ).
% 0.66/0.73
% 0.66/0.73 fof(just36,axiom,
% 0.66/0.73 ! [OLD,ARG2,NEW] :
% 0.66/0.73 ( ( genlinverse(OLD,ARG2)
% 0.66/0.73 & genlpreds(NEW,OLD) )
% 0.66/0.74 => genlinverse(NEW,ARG2) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just37,axiom,
% 0.66/0.74 ! [ARG1,OLD,NEW] :
% 0.66/0.74 ( ( genlinverse(ARG1,OLD)
% 0.66/0.74 & genlpreds(OLD,NEW) )
% 0.66/0.74 => genlinverse(ARG1,NEW) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #27757:
% 0.66/0.74 fof(just38,axiom,
% 0.66/0.74 mtvisible(c_basekb) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #19726:
% 0.66/0.74 fof(just39,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( isa(X,c_collection)
% 0.66/0.74 => collection(X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just40,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( collection(X)
% 0.66/0.74 => isa(X,c_collection) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #78648:
% 0.66/0.74 fof(just41,axiom,
% 0.66/0.74 ! [ARG1,INS] :
% 0.66/0.74 ( disjointwith(ARG1,INS)
% 0.66/0.74 => collection(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just42,axiom,
% 0.66/0.74 ! [INS,ARG2] :
% 0.66/0.74 ( disjointwith(INS,ARG2)
% 0.66/0.74 => collection(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just43,axiom,
% 0.66/0.74 ! [X,Y] :
% 0.66/0.74 ( disjointwith(X,Y)
% 0.66/0.74 => disjointwith(Y,X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just44,axiom,
% 0.66/0.74 ! [ARG1,OLD,NEW] :
% 0.66/0.74 ( ( disjointwith(ARG1,OLD)
% 0.66/0.74 & genls(NEW,OLD) )
% 0.66/0.74 => disjointwith(ARG1,NEW) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just45,axiom,
% 0.66/0.74 ! [OLD,ARG2,NEW] :
% 0.66/0.74 ( ( disjointwith(OLD,ARG2)
% 0.66/0.74 & genls(NEW,OLD) )
% 0.66/0.74 => disjointwith(NEW,ARG2) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #52963:
% 0.66/0.74 fof(just46,axiom,
% 0.66/0.74 mtvisible(c_logicaltruthmt) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #127156:
% 0.66/0.74 fof(just47,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( isa(X,c_transitivebinarypredicate)
% 0.66/0.74 => transitivebinarypredicate(X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just48,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( transitivebinarypredicate(X)
% 0.66/0.74 => isa(X,c_transitivebinarypredicate) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #113597:
% 0.66/0.74 fof(just49,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( isa(X,c_individual)
% 0.66/0.74 => individual(X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just50,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( individual(X)
% 0.66/0.74 => isa(X,c_individual) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #111039:
% 0.66/0.74 fof(just51,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( isa(X,c_partiallyintangibleindividual)
% 0.66/0.74 => partiallyintangibleindividual(X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just52,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( partiallyintangibleindividual(X)
% 0.66/0.74 => isa(X,c_partiallyintangibleindividual) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #73655:
% 0.66/0.74 fof(just53,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( isa(X,c_intangibleindividual)
% 0.66/0.74 => intangibleindividual(X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just54,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( intangibleindividual(X)
% 0.66/0.74 => isa(X,c_intangibleindividual) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #80185:
% 0.66/0.74 fof(just55,axiom,
% 0.66/0.74 mtvisible(c_corecyclmt) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #19550:
% 0.66/0.74 fof(just56,axiom,
% 0.66/0.74 ! [SPECMT,GENLMT] :
% 0.66/0.74 ( ( mtvisible(SPECMT)
% 0.66/0.74 & genlmt(SPECMT,GENLMT) )
% 0.66/0.74 => mtvisible(GENLMT) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just57,axiom,
% 0.66/0.74 ! [ARG1,INS] :
% 0.66/0.74 ( genlmt(ARG1,INS)
% 0.66/0.74 => microtheory(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just58,axiom,
% 0.66/0.74 ! [ARG1,INS] :
% 0.66/0.74 ( genlmt(ARG1,INS)
% 0.66/0.74 => microtheory(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just59,axiom,
% 0.66/0.74 ! [INS,ARG2] :
% 0.66/0.74 ( genlmt(INS,ARG2)
% 0.66/0.74 => microtheory(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just60,axiom,
% 0.66/0.74 ! [INS,ARG2] :
% 0.66/0.74 ( genlmt(INS,ARG2)
% 0.66/0.74 => microtheory(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just61,axiom,
% 0.66/0.74 ! [X,Y,Z] :
% 0.66/0.74 ( ( genlmt(X,Y)
% 0.66/0.74 & genlmt(Y,Z) )
% 0.66/0.74 => genlmt(X,Z) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just62,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( microtheory(X)
% 0.66/0.74 => genlmt(X,X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just63,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( microtheory(X)
% 0.66/0.74 => genlmt(X,X) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #86735:
% 0.66/0.74 fof(just64,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( isa(X,c_aspatialinformationstore)
% 0.66/0.74 => aspatialinformationstore(X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just65,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( aspatialinformationstore(X)
% 0.66/0.74 => isa(X,c_aspatialinformationstore) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #29331:
% 0.66/0.74 fof(just66,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( isa(X,c_microtheory)
% 0.66/0.74 => microtheory(X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just67,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( microtheory(X)
% 0.66/0.74 => isa(X,c_microtheory) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #0:
% 0.66/0.74 fof(just68,axiom,
% 0.66/0.74 ! [ARG1,INS] :
% 0.66/0.74 ( genls(ARG1,INS)
% 0.66/0.74 => collection(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just69,axiom,
% 0.66/0.74 ! [ARG1,INS] :
% 0.66/0.74 ( genls(ARG1,INS)
% 0.66/0.74 => collection(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just70,axiom,
% 0.66/0.74 ! [INS,ARG2] :
% 0.66/0.74 ( genls(INS,ARG2)
% 0.66/0.74 => collection(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just71,axiom,
% 0.66/0.74 ! [INS,ARG2] :
% 0.66/0.74 ( genls(INS,ARG2)
% 0.66/0.74 => collection(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just72,axiom,
% 0.66/0.74 ! [X,Y,Z] :
% 0.66/0.74 ( ( genls(X,Y)
% 0.66/0.74 & genls(Y,Z) )
% 0.66/0.74 => genls(X,Z) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just73,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( collection(X)
% 0.66/0.74 => genls(X,X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just74,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( collection(X)
% 0.66/0.74 => genls(X,X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just75,axiom,
% 0.66/0.74 ! [OLD,ARG2,NEW] :
% 0.66/0.74 ( ( genls(OLD,ARG2)
% 0.66/0.74 & genls(NEW,OLD) )
% 0.66/0.74 => genls(NEW,ARG2) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just76,axiom,
% 0.66/0.74 ! [ARG1,OLD,NEW] :
% 0.66/0.74 ( ( genls(ARG1,OLD)
% 0.66/0.74 & genls(OLD,NEW) )
% 0.66/0.74 => genls(ARG1,NEW) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #50366:
% 0.66/0.74 fof(just77,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( isa(X,c_applicationcontext)
% 0.66/0.74 => applicationcontext(X) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just78,axiom,
% 0.66/0.74 ! [X] :
% 0.66/0.74 ( applicationcontext(X)
% 0.66/0.74 => isa(X,c_applicationcontext) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #72115:
% 0.66/0.74 fof(just79,axiom,
% 0.66/0.74 ! [ARG1,INS] :
% 0.66/0.74 ( isa(ARG1,INS)
% 0.66/0.74 => collection(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just80,axiom,
% 0.66/0.74 ! [ARG1,INS] :
% 0.66/0.74 ( isa(ARG1,INS)
% 0.66/0.74 => collection(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just81,axiom,
% 0.66/0.74 ! [INS,ARG2] :
% 0.66/0.74 ( isa(INS,ARG2)
% 0.66/0.74 => thing(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just82,axiom,
% 0.66/0.74 ! [INS,ARG2] :
% 0.66/0.74 ( isa(INS,ARG2)
% 0.66/0.74 => thing(INS) ) ).
% 0.66/0.74
% 0.66/0.74 fof(just83,axiom,
% 0.66/0.74 ! [ARG1,OLD,NEW] :
% 0.66/0.74 ( ( isa(ARG1,OLD)
% 0.66/0.74 & genls(OLD,NEW) )
% 0.66/0.74 => isa(ARG1,NEW) ) ).
% 0.66/0.74
% 0.66/0.74 % Cyc Constant #95028:
% 0.66/0.74 fof(just84,axiom,
% 0.66/0.74 mtvisible(c_universalvocabularymt) ).
% 0.66/0.74
% 0.66/0.74 fof(query45,conjecture,
% 0.66/0.74 ~ genls(c_wamt_evalinitial_p14,c_tptpcol_15_80088) ).
% 0.66/0.74
% 0.66/0.74 %------------------------------------------------------------------------------
% 0.66/0.74 %-------------------------------------------
% 0.66/0.74 % Proof found
% 0.66/0.74 % SZS status Theorem for theBenchmark
% 0.66/0.74 % SZS output start Proof
% 0.66/0.74 %ClaNum:85(EqnAxiom:0)
% 0.66/0.74 %VarNum:169(SingletonVarNum:90)
% 0.66/0.74 %MaxLitNum:3
% 0.66/0.74 %MaxfuncDepth:0
% 0.66/0.74 %SharedTerms:32
% 0.66/0.74 %goalClause: 7
% 0.66/0.74 %singleGoalClaCount:1
% 0.66/0.74 [1]P1(a1)
% 0.66/0.74 [2]P2(a2)
% 0.66/0.74 [3]P3(a8)
% 0.66/0.74 [4]P3(a3)
% 0.66/0.74 [5]P3(a9)
% 0.66/0.74 [6]P3(a4)
% 0.66/0.74 [7]P4(a1,a13)
% 0.66/0.74 [8]P4(a14,a5)
% 0.66/0.74 [9]P4(a5,a10)
% 0.66/0.74 [10]P4(a10,a15)
% 0.66/0.74 [11]P4(a15,a11)
% 0.66/0.74 [12]P4(a6,a14)
% 0.66/0.74 [13]P5(a8,a3)
% 0.66/0.74 [14]P5(a3,a9)
% 0.66/0.74 [15]P6(a7,a11)
% 0.66/0.74 [16]P7(a12,a7)
% 0.66/0.74 [17]~P1(x171)+P13(x171)
% 0.66/0.74 [18]~P13(x181)+P8(x181)
% 0.66/0.74 [19]~P8(x191)+P14(x191)
% 0.66/0.74 [20]~P14(x201)+P17(x201)
% 0.66/0.74 [21]~P17(x211)+P15(x211)
% 0.66/0.74 [22]~P9(x221)+~P15(x221)
% 0.66/0.74 [23]~P13(x231)+P16(x231,a14)
% 0.66/0.74 [24]~P8(x241)+P16(x241,a5)
% 0.66/0.74 [25]~P14(x251)+P16(x251,a10)
% 0.66/0.74 [26]~P17(x261)+P16(x261,a15)
% 0.66/0.74 [27]~P15(x271)+P16(x271,a11)
% 0.66/0.74 [28]~P1(x281)+P16(x281,a6)
% 0.66/0.74 [29]~P9(x291)+P16(x291,a7)
% 0.66/0.74 [30]~P2(x301)+P16(x301,a16)
% 0.66/0.74 [32]~P9(x321)+P4(x321,x321)
% 0.66/0.74 [34]~P13(x341)+P5(x341,x341)
% 0.66/0.74 [36]~P18(x361)+P12(x361,x361)
% 0.66/0.74 [37]P1(x371)+~P16(x371,a6)
% 0.66/0.74 [38]P13(x381)+~P16(x381,a14)
% 0.66/0.74 [39]P8(x391)+~P16(x391,a5)
% 0.66/0.74 [40]P14(x401)+~P16(x401,a10)
% 0.66/0.74 [41]P17(x411)+~P16(x411,a15)
% 0.66/0.74 [42]P15(x421)+~P16(x421,a11)
% 0.66/0.74 [43]P2(x431)+~P16(x431,a16)
% 0.66/0.74 [44]P9(x441)+~P16(x441,a7)
% 0.66/0.74 [46]P13(x461)+~P5(x462,x461)
% 0.66/0.74 [48]P13(x481)+~P5(x481,x482)
% 0.66/0.74 [50]P9(x501)+~P4(x502,x501)
% 0.66/0.74 [51]P9(x511)+~P6(x512,x511)
% 0.66/0.74 [53]P9(x531)+~P16(x532,x531)
% 0.66/0.74 [54]P9(x541)+~P7(x542,x541)
% 0.66/0.74 [57]P9(x571)+~P4(x571,x572)
% 0.66/0.74 [58]P9(x581)+~P6(x581,x582)
% 0.66/0.74 [59]P19(x591)+~P7(x591,x592)
% 0.66/0.74 [61]P18(x611)+~P12(x612,x611)
% 0.66/0.74 [63]P18(x631)+~P12(x631,x632)
% 0.66/0.74 [64]P10(x641)+~P11(x642,x641)
% 0.66/0.74 [65]P10(x651)+~P11(x651,x652)
% 0.66/0.74 [67]P20(x671)+~P16(x671,x672)
% 0.66/0.74 [69]~P6(x692,x691)+P6(x691,x692)
% 0.66/0.74 [68]~P5(x682,x681)+P3(x681)+~P3(x682)
% 0.66/0.74 [72]~P4(x721,x723)+P4(x721,x722)+~P4(x723,x722)
% 0.66/0.74 [73]~P5(x731,x733)+P5(x731,x732)+~P5(x733,x732)
% 0.66/0.74 [74]~P6(x743,x742)+P6(x741,x742)+~P4(x741,x743)
% 0.66/0.74 [75]~P6(x751,x753)+P6(x751,x752)+~P4(x752,x753)
% 0.66/0.74 [76]~P16(x761,x763)+P16(x761,x762)+~P4(x763,x762)
% 0.66/0.74 [77]~P12(x771,x773)+P11(x771,x772)+~P11(x773,x772)
% 0.66/0.74 [78]~P12(x783,x782)+P11(x781,x782)+~P11(x781,x783)
% 0.66/0.74 [80]~P11(x801,x803)+P12(x801,x802)+~P11(x803,x802)
% 0.66/0.74 [81]~P12(x811,x813)+P12(x811,x812)+~P12(x813,x812)
% 0.66/0.74 [83]~P7(x831,x833)+P7(x831,x832)+~P4(x833,x832)
% 0.66/0.74 [85]~P16(x853,x851)+~P6(x851,x852)+~P16(x853,x852)
% 0.66/0.74 %EqnAxiom
% 0.66/0.74
% 0.66/0.74 %-------------------------------------------
% 0.66/0.74 cnf(86,plain,
% 0.66/0.74 (P6(a7,a15)),
% 0.66/0.74 inference(scs_inference,[],[11,15,75])).
% 0.66/0.74 cnf(94,plain,
% 0.66/0.74 (P9(a1)),
% 0.66/0.74 inference(scs_inference,[],[7,8,11,12,13,14,15,75,73,72,69,58,57])).
% 0.66/0.74 cnf(96,plain,
% 0.66/0.74 (P9(a11)),
% 0.66/0.74 inference(scs_inference,[],[7,8,11,12,13,14,15,75,73,72,69,58,57,51])).
% 0.66/0.74 cnf(98,plain,
% 0.66/0.74 (P9(a13)),
% 0.66/0.74 inference(scs_inference,[],[7,8,11,12,13,14,15,75,73,72,69,58,57,51,50])).
% 0.66/0.74 cnf(102,plain,
% 0.66/0.74 (P13(a3)),
% 0.66/0.74 inference(scs_inference,[],[7,8,11,12,13,14,15,75,73,72,69,58,57,51,50,48,46])).
% 0.66/0.74 cnf(110,plain,
% 0.66/0.74 (P16(a7,a7)),
% 0.66/0.74 inference(scs_inference,[],[7,2,8,11,12,13,14,15,75,73,72,69,58,57,51,50,48,46,34,32,30,29])).
% 0.66/0.74 cnf(112,plain,
% 0.66/0.74 (P16(a1,a6)),
% 0.66/0.74 inference(scs_inference,[],[7,1,2,8,11,12,13,14,15,75,73,72,69,58,57,51,50,48,46,34,32,30,29,28])).
% 0.66/0.74 cnf(116,plain,
% 0.66/0.74 (~P15(a7)),
% 0.66/0.75 inference(scs_inference,[],[7,1,2,8,11,12,13,14,15,75,73,72,69,58,57,51,50,48,46,34,32,30,29,28,23,22])).
% 0.66/0.75 cnf(118,plain,
% 0.66/0.75 (P8(a8)),
% 0.66/0.75 inference(scs_inference,[],[7,1,2,8,11,12,13,14,15,75,73,72,69,58,57,51,50,48,46,34,32,30,29,28,23,22,18])).
% 0.66/0.75 cnf(124,plain,
% 0.66/0.75 (~P4(a16,x1241)+P16(a2,x1241)),
% 0.66/0.75 inference(scs_inference,[],[7,1,2,8,11,12,13,14,15,75,73,72,69,58,57,51,50,48,46,34,32,30,29,28,23,22,18,17,85,76])).
% 0.66/0.75 cnf(126,plain,
% 0.66/0.75 (P6(a15,a7)),
% 0.66/0.75 inference(scs_inference,[],[7,1,2,8,11,12,13,14,15,75,73,72,69,58,57,51,50,48,46,34,32,30,29,28,23,22,18,17,85,76,74])).
% 0.66/0.75 cnf(140,plain,
% 0.66/0.75 (P16(a8,a5)),
% 0.66/0.75 inference(scs_inference,[],[116,118,42,24])).
% 0.66/0.75 cnf(142,plain,
% 0.66/0.75 (~P16(a7,a15)),
% 0.66/0.75 inference(scs_inference,[],[86,110,116,118,42,24,85])).
% 0.66/0.75 cnf(148,plain,
% 0.66/0.75 (P14(a8)),
% 0.66/0.75 inference(scs_inference,[],[9,10,86,110,116,118,42,24,85,76,72,19])).
% 0.66/0.75 cnf(150,plain,
% 0.66/0.75 (P6(a7,a10)),
% 0.66/0.75 inference(scs_inference,[],[9,10,86,110,116,118,42,24,85,76,72,19,75])).
% 0.66/0.75 cnf(154,plain,
% 0.66/0.75 (~P14(a7)),
% 0.66/0.75 inference(scs_inference,[],[9,10,86,110,116,118,42,24,85,76,72,19,75,26,25])).
% 0.66/0.75 cnf(158,plain,
% 0.66/0.75 (P17(a8)),
% 0.66/0.75 inference(scs_inference,[],[7,9,10,86,110,116,118,42,24,85,76,72,19,75,26,25,74,20])).
% 0.66/0.75 cnf(160,plain,
% 0.66/0.75 (P15(a8)),
% 0.66/0.75 inference(scs_inference,[],[7,9,10,86,110,116,118,42,24,85,76,72,19,75,26,25,74,20,21])).
% 0.66/0.75 cnf(180,plain,
% 0.66/0.75 (P16(a1,a14)),
% 0.66/0.75 inference(scs_inference,[],[12,112,148,154,158,160,22,25,57,53,44,26,85,19,76])).
% 0.66/0.75 cnf(202,plain,
% 0.66/0.75 (~P13(a7)),
% 0.66/0.75 inference(scs_inference,[],[5,16,12,112,148,154,158,160,22,25,57,53,44,26,85,19,76,75,124,54,39,27,68,83,58,51,50,18])).
% 0.66/0.75 cnf(204,plain,
% 0.66/0.75 (~P1(a7)),
% 0.66/0.75 inference(scs_inference,[],[5,16,12,112,148,154,158,160,22,25,57,53,44,26,85,19,76,75,124,54,39,27,68,83,58,51,50,18,17])).
% 0.66/0.75 cnf(218,plain,
% 0.66/0.75 (P8(a3)),
% 0.66/0.75 inference(scs_inference,[],[102,202,204,38,37,18])).
% 0.66/0.75 cnf(226,plain,
% 0.66/0.75 (~P15(a1)),
% 0.66/0.75 inference(scs_inference,[],[94,102,126,150,202,204,38,37,18,69,58,51,22])).
% 0.66/0.75 cnf(236,plain,
% 0.66/0.75 (P6(a5,a7)),
% 0.66/0.75 inference(scs_inference,[],[8,9,140,94,102,126,150,202,204,112,38,37,18,69,58,51,22,57,85,50,53,74])).
% 0.66/0.75 cnf(240,plain,
% 0.66/0.75 (P13(a9)),
% 0.66/0.75 inference(scs_inference,[],[8,9,14,140,94,102,126,150,202,204,112,38,37,18,69,58,51,22,57,85,50,53,74,75,46])).
% 0.66/0.75 cnf(246,plain,
% 0.66/0.75 (~P17(a1)),
% 0.66/0.75 inference(scs_inference,[],[8,9,14,142,140,94,102,126,150,202,204,110,112,38,37,18,69,58,51,22,57,85,50,53,74,75,46,76,19,21])).
% 0.66/0.75 cnf(254,plain,
% 0.66/0.75 (P17(a3)),
% 0.66/0.75 inference(scs_inference,[],[8,9,14,10,142,140,94,102,126,150,202,204,110,112,38,37,18,69,58,51,22,57,85,50,53,74,75,46,76,19,21,25,83,72,20])).
% 0.66/0.75 cnf(256,plain,
% 0.66/0.75 (~P16(a1,a15)),
% 0.66/0.75 inference(scs_inference,[],[8,9,14,10,142,140,94,102,126,150,202,204,110,112,38,37,18,69,58,51,22,57,85,50,53,74,75,46,76,19,21,25,83,72,20,41])).
% 0.66/0.75 cnf(262,plain,
% 0.66/0.75 (P15(a3)),
% 0.66/0.75 inference(scs_inference,[],[11,10,254,26,72,21])).
% 0.66/0.75 cnf(268,plain,
% 0.66/0.75 (~P8(a1)),
% 0.66/0.75 inference(scs_inference,[],[11,10,256,246,254,26,72,21,76,20,19])).
% 0.66/0.75 cnf(270,plain,
% 0.66/0.75 (P16(a11,a7)),
% 0.66/0.75 inference(scs_inference,[],[11,10,256,96,246,254,26,72,21,76,20,19,29])).
% 0.66/0.75 cnf(326,plain,
% 0.66/0.75 ($false),
% 0.66/0.75 inference(scs_inference,[],[86,12,8,98,218,226,236,262,268,270,180,240,27,18,85,22,74,69,75,76,19,24,42,39]),
% 0.66/0.75 ['proof']).
% 0.66/0.75 % SZS output end Proof
% 0.66/0.75 % Total time :0.100000s
%------------------------------------------------------------------------------