TSTP Solution File: NLP226-10 by Etableau---0.67

View Problem - Process Solution 
%------------------------------------------------------------------------------
% File     : Etableau---0.67
% Problem  : NLP226-10 : TPTP v8.1.0. Released v7.5.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : etableau --auto --tsmdo --quicksat=10000 --tableau=1 --tableau-saturation=1 -s -p --tableau-cores=8 --cpu-limit=%d %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  : 600s
% DateTime : Mon Jul 18 02:14:06 EDT 2022

% Result   : Satisfiable 0.17s 0.41s
% Output   : CNFRefutation 0.17s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.12  % Problem  : NLP226-10 : TPTP v8.1.0. Released v7.5.0.
% 0.07/0.12  % Command  : etableau --auto --tsmdo --quicksat=10000 --tableau=1 --tableau-saturation=1 -s -p --tableau-cores=8 --cpu-limit=%d %s
% 0.12/0.31  % Computer : n028.cluster.edu
% 0.12/0.31  % Model    : x86_64 x86_64
% 0.12/0.31  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.31  % Memory   : 8042.1875MB
% 0.12/0.31  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.12/0.31  % CPULimit : 300
% 0.12/0.31  % WCLimit  : 600
% 0.12/0.31  % DateTime : Thu Jun 30 20:28:45 EDT 2022
% 0.17/0.32  % CPUTime  : 
% 0.17/0.35  # No SInE strategy applied
% 0.17/0.35  # Auto-Mode selected heuristic G_E___208_C18_F1_SE_CS_SP_PS_S5PRR_RG_S04AN
% 0.17/0.35  # and selection function SelectComplexExceptUniqMaxHorn.
% 0.17/0.35  #
% 0.17/0.35  # Presaturation interreduction done
% 0.17/0.35  # Number of axioms: 97 Number of unprocessed: 97
% 0.17/0.35  # Tableaux proof search.
% 0.17/0.35  # APR header successfully linked.
% 0.17/0.35  # Hello from C++
% 0.17/0.35  # The folding up rule is enabled...
% 0.17/0.35  # Local unification is enabled...
% 0.17/0.35  # Any saturation attempts will use folding labels...
% 0.17/0.35  # 97 beginning clauses after preprocessing and clausification
% 0.17/0.35  # Creating start rules for all 23 conjectures.
% 0.17/0.35  # There are 23 start rule candidates:
% 0.17/0.35  # Found 97 unit axioms.
% 0.17/0.35  # Unsuccessfully attempted saturation on 1 start tableaux, moving on.
% 0.17/0.35  # 23 start rule tableaux created.
% 0.17/0.35  # 0 extension rule candidate clauses
% 0.17/0.35  # 97 unit axiom clauses
% 0.17/0.35  
% 0.17/0.35  # Requested 8, 32 cores available to the main process.
% 0.17/0.40  # Creating equality axioms
% 0.17/0.40  # Ran out of tableaux, making start rules for all clauses
% 0.17/0.40  # 22143 Satisfiable branch
% 0.17/0.41  # Satisfiable branch found.
% 0.17/0.41  # There were 1 total branch saturation attempts.
% 0.17/0.41  # There were 0 of these attempts blocked.
% 0.17/0.41  # There were 0 deferred branch saturation attempts.
% 0.17/0.41  # There were 0 free duplicated saturations.
% 0.17/0.41  # There were 0 total successful branch saturations.
% 0.17/0.41  # There were 0 successful branch saturations in interreduction.
% 0.17/0.41  # There were 0 successful branch saturations on the branch.
% 0.17/0.41  # There were 0 successful branch saturations after the branch.
% 0.17/0.41  # SZS status Satisfiable for /export/starexec/sandbox/benchmark/theBenchmark.p
% 0.17/0.41  # SZS output start for /export/starexec/sandbox/benchmark/theBenchmark.p
% 0.17/0.41  # Begin clausification derivation
% 0.17/0.41  
% 0.17/0.41  # End clausification derivation
% 0.17/0.41  # Begin listing active clauses obtained from FOF to CNF conversion
% 0.17/0.41  cnf(i_0_168, negated_conjecture, (actual_world(skc8)=true)).
% 0.17/0.41  cnf(i_0_178, negated_conjecture, (state(skc8,skc9)=true)).
% 0.17/0.41  cnf(i_0_172, negated_conjecture, (event(skc8,skc13)=true)).
% 0.17/0.41  cnf(i_0_169, negated_conjecture, (man(skc8,skc15)=true)).
% 0.17/0.41  cnf(i_0_177, negated_conjecture, (man(skc8,skc10)=true)).
% 0.17/0.41  cnf(i_0_170, negated_conjecture, (forename(skc8,skc14)=true)).
% 0.17/0.41  cnf(i_0_176, negated_conjecture, (forename(skc8,skc11)=true)).
% 0.17/0.41  cnf(i_0_175, negated_conjecture, (jules_forename(skc8,skc11)=true)).
% 0.17/0.41  cnf(i_0_180, negated_conjecture, (proposition(skc8,skc12)=true)).
% 0.17/0.41  cnf(i_0_171, negated_conjecture, (vincent_forename(skc8,skc14)=true)).
% 0.17/0.41  cnf(i_0_179, negated_conjecture, (accessible_world(skc8,skc12)=true)).
% 0.17/0.41  cnf(i_0_173, negated_conjecture, (present(skc8,skc13)=true)).
% 0.17/0.41  cnf(i_0_174, negated_conjecture, (think_believe_consider(skc8,skc13)=true)).
% 0.17/0.41  cnf(i_0_181, negated_conjecture, (of(skc8,skc14,skc15)=true)).
% 0.17/0.41  cnf(i_0_184, negated_conjecture, (of(skc8,skc11,skc10)=true)).
% 0.17/0.41  cnf(i_0_182, negated_conjecture, (agent(skc8,skc13,skc15)=true)).
% 0.17/0.41  cnf(i_0_183, negated_conjecture, (theme(skc8,skc13,skc12)=true)).
% 0.17/0.41  cnf(i_0_98, plain, (ifeq3(X1,X1,X2,X3)=X2)).
% 0.17/0.41  cnf(i_0_99, plain, (ifeq2(X1,X1,X2,X3)=X2)).
% 0.17/0.41  cnf(i_0_100, plain, (ifeq(X1,X1,X2,X3)=X2)).
% 0.17/0.41  cnf(i_0_185, negated_conjecture, (be(skc8,skc9,skc10,skc10)=true)).
% 0.17/0.41  cnf(i_0_188, negated_conjecture, (ifeq2(man(skc12,X1),true,event(skc12,skf1(X2)),true)=true)).
% 0.17/0.41  cnf(i_0_186, negated_conjecture, (ifeq2(man(skc12,X1),true,smoke(skc12,skf1(X2)),true)=true)).
% 0.17/0.41  cnf(i_0_187, negated_conjecture, (ifeq2(man(skc12,X1),true,present(skc12,skf1(X2)),true)=true)).
% 0.17/0.41  cnf(i_0_189, negated_conjecture, (ifeq2(man(skc12,X1),true,agent(skc12,skf1(X1),X1),true)=true)).
% 0.17/0.41  cnf(i_0_107, plain, (ifeq2(state(X1,X2),true,event(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_101, plain, (ifeq2(state(X1,X2),true,eventuality(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_127, plain, (ifeq2(jules_forename(X1,X2),true,forename(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_131, plain, (ifeq3(be(X1,X2,X3,X4),true,X3,X4)=X4)).
% 0.17/0.41  cnf(i_0_102, plain, (ifeq2(eventuality(X1,X2),true,thing(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_104, plain, (ifeq2(eventuality(X1,X2),true,specific(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_105, plain, (ifeq2(eventuality(X1,X2),true,nonexistent(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_128, plain, (ifeq2(smoke(X1,X2),true,event(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_130, plain, (ifeq2(vincent_forename(X1,X2),true,forename(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_108, plain, (ifeq2(event(X1,X2),true,eventuality(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_109, plain, (ifeq2(man(X1,X2),true,human_person(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_119, plain, (ifeq2(man(X1,X2),true,male(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_106, plain, (ifeq2(eventuality(X1,X2),true,unisex(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_120, plain, (ifeq2(forename(X1,X2),true,relname(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_103, plain, (ifeq2(thing(X1,X2),true,singleton(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_110, plain, (ifeq2(human_person(X1,X2),true,organism(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_117, plain, (ifeq2(human_person(X1,X2),true,human(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_118, plain, (ifeq2(human_person(X1,X2),true,animate(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_129, plain, (ifeq2(proposition(X1,X2),true,relation(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_111, plain, (ifeq2(organism(X1,X2),true,entity(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_115, plain, (ifeq2(organism(X1,X2),true,impartial(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_116, plain, (ifeq2(organism(X1,X2),true,living(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_112, plain, (ifeq2(entity(X1,X2),true,thing(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_113, plain, (ifeq2(entity(X1,X2),true,specific(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_114, plain, (ifeq2(entity(X1,X2),true,existent(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_121, plain, (ifeq2(relname(X1,X2),true,relation(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_122, plain, (ifeq2(relation(X1,X2),true,abstraction(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_123, plain, (ifeq2(abstraction(X1,X2),true,thing(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_126, plain, (ifeq2(abstraction(X1,X2),true,unisex(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_124, plain, (ifeq2(abstraction(X1,X2),true,nonhuman(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_125, plain, (ifeq2(abstraction(X1,X2),true,general(X1,X2),true)=true)).
% 0.17/0.41  cnf(i_0_132, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(state(X1,X3),true,state(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_139, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(event(X1,X3),true,event(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_140, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(man(X1,X3),true,man(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_191, plain, (ifeq(tuple(specific(X1,X2),general(X1,X2)),tuple(true,true),a,b)=b)).
% 0.17/0.41  cnf(i_0_150, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(forename(X1,X3),true,forename(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_193, plain, (ifeq(tuple(nonexistent(X1,X2),existent(X1,X2)),tuple(true,true),a,b)=b)).
% 0.17/0.41  cnf(i_0_190, plain, (ifeq(tuple(unisex(X1,X2),male(X1,X2)),tuple(true,true),a,b)=b)).
% 0.17/0.41  cnf(i_0_192, plain, (ifeq(tuple(human(X1,X2),nonhuman(X1,X2)),tuple(true,true),a,b)=b)).
% 0.17/0.41  cnf(i_0_133, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(eventuality(X1,X3),true,eventuality(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_156, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(jules_forename(X1,X3),true,jules_forename(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_157, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(smoke(X1,X3),true,smoke(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_160, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(proposition(X1,X3),true,proposition(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_161, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(vincent_forename(X1,X3),true,vincent_forename(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_158, plain, (ifeq2(present(X1,X2),true,ifeq2(accessible_world(X1,X3),true,present(X3,X2),true),true)=true)).
% 0.17/0.41  cnf(i_0_134, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(thing(X1,X3),true,thing(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_159, plain, (ifeq2(think_believe_consider(X1,X2),true,ifeq2(accessible_world(X1,X3),true,think_believe_consider(X3,X2),true),true)=true)).
% 0.17/0.41  cnf(i_0_135, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(singleton(X1,X3),true,singleton(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_136, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(specific(X1,X3),true,specific(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_137, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(nonexistent(X1,X3),true,nonexistent(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_138, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(unisex(X1,X3),true,unisex(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_141, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(human_person(X1,X3),true,human_person(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_142, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(organism(X1,X3),true,organism(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_143, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(entity(X1,X3),true,entity(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_144, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(existent(X1,X3),true,existent(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_145, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(impartial(X1,X3),true,impartial(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_146, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(living(X1,X3),true,living(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_147, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(human(X1,X3),true,human(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_148, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(animate(X1,X3),true,animate(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_149, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(male(X1,X3),true,male(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_151, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(relname(X1,X3),true,relname(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_152, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(relation(X1,X3),true,relation(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_153, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(abstraction(X1,X3),true,abstraction(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_154, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(nonhuman(X1,X3),true,nonhuman(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_155, plain, (ifeq2(accessible_world(X1,X2),true,ifeq2(general(X1,X3),true,general(X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_162, plain, (ifeq2(of(X1,X2,X3),true,ifeq2(accessible_world(X1,X4),true,of(X4,X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_163, plain, (ifeq2(agent(X1,X2,X3),true,ifeq2(accessible_world(X1,X4),true,agent(X4,X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_164, plain, (ifeq2(theme(X1,X2,X3),true,ifeq2(accessible_world(X1,X4),true,theme(X4,X2,X3),true),true)=true)).
% 0.17/0.41  cnf(i_0_165, plain, (ifeq2(be(X1,X2,X3,X4),true,ifeq2(accessible_world(X1,X5),true,be(X5,X2,X3,X4),true),true)=true)).
% 0.17/0.41  cnf(i_0_166, plain, (ifeq3(of(X1,X2,X3),true,ifeq3(of(X1,X4,X3),true,ifeq3(forename(X1,X2),true,ifeq3(forename(X1,X4),true,ifeq3(entity(X1,X3),true,X2,X4),X4),X4),X4),X4)=X4)).
% 0.17/0.41  cnf(i_0_167, plain, (ifeq3(theme(X1,X2,X3),true,ifeq3(theme(X1,X4,X5),true,ifeq3(agent(X1,X2,X6),true,ifeq3(agent(X1,X4,X6),true,ifeq3(think_believe_consider(X1,X2),true,ifeq3(think_believe_consider(X1,X4),true,ifeq3(proposition(X1,X3),true,ifeq3(proposition(X1,X5),true,X5,X3),X3),X3),X3),X3),X3),X3),X3)=X3)).
% 0.17/0.41  cnf(i_0_194, negated_conjecture, (a!=b)).
% 0.17/0.41  cnf(i_0_218, plain, (X7=X7)).
% 0.17/0.41  # End listing active clauses.  There is an equivalent clause to each of these in the clausification!
% 0.17/0.41  # Begin printing tableau
% 0.17/0.41  # Found 9 steps
% 0.17/0.41  cnf(i_0_218, plain, (actual_world(skc8)=actual_world(skc8)), inference(start_rule)).
% 0.17/0.41  cnf(i_0_360, plain, (actual_world(skc8)=actual_world(skc8)), inference(extension_rule, [i_0_222])).
% 0.17/0.41  cnf(i_0_370, plain, (actual_world(skc8)!=true), inference(closure_rule, [i_0_168])).
% 0.17/0.41  cnf(i_0_371, plain, (actual_world(skc8)!=true), inference(closure_rule, [i_0_168])).
% 0.17/0.41  cnf(i_0_372, plain, (actual_world(skc8)!=true), inference(closure_rule, [i_0_168])).
% 0.17/0.41  cnf(i_0_368, plain, (ifeq3(actual_world(skc8),actual_world(skc8),actual_world(skc8),actual_world(skc8))=ifeq3(actual_world(skc8),true,true,true)), inference(extension_rule, [i_0_223])).
% 0.17/0.41  cnf(i_0_928, plain, (actual_world(skc8)!=true), inference(closure_rule, [i_0_168])).
% 0.17/0.41  cnf(i_0_929, plain, (actual_world(skc8)!=true), inference(closure_rule, [i_0_168])).
% 0.17/0.41  cnf(i_0_930, plain, (actual_world(skc8)!=true), inference(closure_rule, [i_0_168])).
% 0.17/0.41  # End printing tableau
% 0.17/0.41  # SZS output end
% 0.17/0.41  # Branches closed with saturation will be marked with an "s"
% 0.17/0.41  # Child (22143) has found a proof.
% 0.17/0.41  
% 0.17/0.41  # Proof search is over...
% 0.17/0.41  # Freeing feature tree
%------------------------------------------------------------------------------