TSTP Solution File: NLP206-1 by E-Darwin---1.5
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- Process Solution
%------------------------------------------------------------------------------
% File : E-Darwin---1.5
% Problem : NLP206-1 : TPTP v6.1.0. Released v2.4.0.
% Transfm : none
% Format : tptp:raw
% Command : e-darwin -pev TPTP -pmd true -if tptp -pl 2 -pc false -ps false %s
% Computer : n017.star.cs.uiowa.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2609 0 2.40GHz
% Memory : 16127.75MB
% OS : Linux 2.6.32-431.20.3.el6.x86_64
% CPULimit : 300s
% DateTime : Fri Aug 1 22:06:42 EDT 2014
% Result : Satisfiable 0.19s
% Output : Model 0.19s
% Verified :
% SZS Type : None (Parsing solution fails)
% Syntax : Number of formulae : 0
% Comments :
%------------------------------------------------------------------------------
%----ERROR: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% % Problem : NLP206-1 : TPTP v6.1.0. Released v2.4.0.
% % Command : e-darwin -pev TPTP -pmd true -if tptp -pl 2 -pc false -ps false %s
% % Computer : n017.star.cs.uiowa.edu
% % Model : x86_64 x86_64
% % CPU : Intel(R) Xeon(R) CPU E5-2609 0 @ 2.40GHz
% % Memory : 16127.75MB
% % OS : Linux 2.6.32-431.20.3.el6.x86_64
% % CPULimit : 300
% % DateTime : Sat Jul 26 03:36:51 CDT 2014
% % CPUTime : 0.19
% E-Darwin 1.5 2012/06/20 (based on Darwin 1.3)
%
%
% Defaulting to tptp format.
% Parsing /export/starexec/sandbox/benchmark/theBenchmark.p ...
%
%
%
% Proving ...
%
% % SZS status Satisfiable for /export/starexec/sandbox/benchmark/theBenchmark.p
%
% START OF MODEL (DIG):
% (skf12(skc17, skc11) = skf6(skf12(skc17, skc11)))
% (skc15 = skc12)
% (skf10(skc17, skc11) = skf6(skf10(skc17, skc11)))
% abstraction(skc11, skc20)
% abstraction(skc11, skc14)
% actual_world(skc11)
% agent(skc11, skc18, skc23)
% animate(skc11, skc12)
% animate(skc11, skf12(skc17, skc11))
% animate(skc11, skc15)
% animate(skc11, skf10(skc17, skc11))
% artifact(skc11, skc19)
% artifact(skc11, skc23)
% barrel(skc11, skc18)
% be(skc11, skc13, skc12, skc12)
% be(skc11, skc13, skc15, skc12)
% be(skc11, skf7(skf12(skc17, skc11)), skf12(skc17, skc11), skf6(skf12(skc17, skc11)))
% be(skc11, skf7(skf12(skc17, skc11)), skf12(skc17, skc11), skf12(skc17, skc11))
% be(skc11, skf7(skf10(skc17, skc11)), skf10(skc17, skc11), skf6(skf10(skc17, skc11)))
% be(skc11, skf7(skf10(skc17, skc11)), skf10(skc17, skc11), skf10(skc17, skc11))
% behind(skc11, skc12, skc19)
% car(skc11, skc23)
% chevy(skc11, skc23)
% city(skc11, skc19)
% device(skc11, skc19)
% dirty(skc11, skc23)
% down(skc11, skc18, skc19)
% entity(skc11, skc19)
% entity(skc11, skc12)
% entity(skc11, skf12(skc17, skc11))
% entity(skc11, skc15)
% entity(skc11, skc23)
% entity(skc11, skf10(skc17, skc11))
% event(skc11, skc13)
% event(skc11, skc18)
% event(skc11, skf7(_0))
% eventuality(skc11, skc13)
% eventuality(skc11, skc18)
% eventuality(skc11, skf7(_0))
% existent(skc11, skc19)
% existent(skc11, skc12)
% existent(skc11, skf12(skc17, skc11))
% existent(skc11, skc15)
% existent(skc11, skc23)
% existent(skc11, skf10(skc17, skc11))
% fellow(skc11, skf12(skc17, skc11))
% fellow(skc11, skf10(skc17, skc11))
% forename(skc11, skc14)
% frontseat(skc11, skc19)
% furniture(skc11, skc19)
% general(skc11, skc20)
% general(skc11, skc14)
% group(skc11, skc17)
% group(skc11, skc16)
% hollywood_placename(skc11, skc20)
% human(skc11, skc12)
% human(skc11, skf12(skc17, skc11))
% human(skc11, skc15)
% human(skc11, skf10(skc17, skc11))
% human_person(skc11, skc12)
% human_person(skc11, skf12(skc17, skc11))
% human_person(skc11, skc15)
% human_person(skc11, skf10(skc17, skc11))
% impartial(skc11, skc19)
% impartial(skc11, skc12)
% impartial(skc11, skf12(skc17, skc11))
% impartial(skc11, skc15)
% impartial(skc11, skc23)
% impartial(skc11, skf10(skc17, skc11))
% in(skc11, skf6(_0), skc19)
% in(skc11, skf12(skc17, skc11), skc19)
% in(skc11, skf10(skc17, skc11), skc19)
% in(skc11, skc18, skc19)
% instrumentality(skc11, skc19)
% instrumentality(skc11, skc23)
% jules_forename(skc11, skc14)
% living(skc11, skc12)
% living(skc11, skf12(skc17, skc11))
% living(skc11, skc15)
% living(skc11, skf10(skc17, skc11))
% location(skc11, skc19)
% lonely(skc11, skc19)
% male(skc11, skc12)
% male(skc11, skf12(skc17, skc11))
% male(skc11, skc15)
% male(skc11, skf10(skc17, skc11))
% man(skc11, skc12)
% man(skc11, skf12(skc17, skc11))
% man(skc11, skc15)
% man(skc11, skf10(skc17, skc11))
% member(skc11, skf12(skc17, skc11), skc17)
% member(skc11, skf10(skc17, skc11), skc17)
% multiple(skc11, skc17)
% multiple(skc11, skc16)
% nonexistent(skc11, skc13)
% nonexistent(skc11, skc18)
% nonexistent(skc11, skf7(_0))
% nonhuman(skc11, skc20)
% nonhuman(skc11, skc14)
% nonliving(skc11, skc19)
% nonliving(skc11, skc23)
% object(skc11, skc19)
% object(skc11, skc23)
% of(skc11, skc20, skc19)
% of(skc11, skc14, skc12)
% of(skc11, skc14, skc15)
% old(skc11, skc23)
% organism(skc11, skc12)
% organism(skc11, skf12(skc17, skc11))
% organism(skc11, skc15)
% organism(skc11, skf10(skc17, skc11))
% placename(skc11, skc20)
% present(skc11, skc18)
% relation(skc11, skc20)
% relation(skc11, skc14)
% relname(skc11, skc20)
% relname(skc11, skc14)
% seat(skc11, skc19)
% set(skc11, skc17)
% set(skc11, skc16)
% singleton(skc11, skc13)
% singleton(skc11, skc19)
% singleton(skc11, skc12)
% singleton(skc11, skf12(skc17, skc11))
% singleton(skc11, skc15)
% singleton(skc11, skc23)
% singleton(skc11, skf10(skc17, skc11))
% singleton(skc11, skc18)
% singleton(skc11, skc20)
% singleton(skc11, skc14)
% singleton(skc11, skf7(_0))
% specific(skc11, skc13)
% specific(skc11, skc19)
% specific(skc11, skc12)
% specific(skc11, skf12(skc17, skc11))
% specific(skc11, skc15)
% specific(skc11, skc23)
% specific(skc11, skf10(skc17, skc11))
% specific(skc11, skc18)
% specific(skc11, skf7(_0))
% state(skc11, skc13)
% state(skc11, skf7(_0))
% street(skc11, skc19)
% thing(skc11, skc13)
% thing(skc11, skc19)
% thing(skc11, skc12)
% thing(skc11, skf12(skc17, skc11))
% thing(skc11, skc15)
% thing(skc11, skc23)
% thing(skc11, skf10(skc17, skc11))
% thing(skc11, skc18)
% thing(skc11, skc20)
% thing(skc11, skc14)
% thing(skc11, skf7(_0))
% transport(skc11, skc23)
% two(skc11, skc17)
% unisex(skc11, skc13)
% unisex(skc11, skc19)
% unisex(skc11, skc23)
% unisex(skc11, skc18)
% unisex(skc11, skc20)
% unisex(skc11, skc14)
% unisex(skc11, skf7(_0))
% vehicle(skc11, skc23)
% way(skc11, skc19)
% wheel(skc11, skc19)
% white(skc11, skc23)
% young(skc11, skf12(skc17, skc11))
% young(skc11, skf10(skc17, skc11))
% END OF MODEL
% EOF
%------------------------------------------------------------------------------