TSTP Solution File: NLP040+1 by PyRes---1.3

View Problem - Process Solution 
%------------------------------------------------------------------------------
% File     : PyRes---1.3
% Problem  : NLP040+1 : TPTP v8.1.0. Released v2.4.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : pyres-fof.py -tifbsVp -nlargest -HPickGiven5 %s

% Computer : n012.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 05:09:08 EDT 2022

% Result   : CounterSatisfiable 0.42s 0.61s
% Output   : Saturation 0.42s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.03/0.11  % Problem  : NLP040+1 : TPTP v8.1.0. Released v2.4.0.
% 0.03/0.12  % Command  : pyres-fof.py -tifbsVp -nlargest -HPickGiven5 %s
% 0.12/0.31  % Computer : n012.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 : Fri Jul  1 00:13:47 EDT 2022
% 0.12/0.32  % CPUTime  : 
% 0.42/0.61  # Version:  1.3
% 0.42/0.61  # SZS status CounterSatisfiable
% 0.42/0.61  # SZS output start Saturation
% 0.42/0.61  fof(ax41,axiom,(![U]:(![V]:(three(U,V)<=>(?[W]:(member(U,W,V)&(?[X]:((member(U,X,V)&X!=W)&(?[Y]:(((member(U,Y,V)&Y!=X)&Y!=W)&(![Z]:(member(U,Z,V)=>((Z=Y|Z=X)|Z=W)))))))))))),input).
% 0.42/0.61  fof(c64,axiom,(![U]:(![V]:((~three(U,V)|(?[W]:(member(U,W,V)&(?[X]:((member(U,X,V)&X!=W)&(?[Y]:(((member(U,Y,V)&Y!=X)&Y!=W)&(![Z]:(~member(U,Z,V)|((Z=Y|Z=X)|Z=W))))))))))&((![W]:(~member(U,W,V)|(![X]:((~member(U,X,V)|X=W)|(![Y]:(((~member(U,Y,V)|Y=X)|Y=W)|(?[Z]:(member(U,Z,V)&((Z!=Y&Z!=X)&Z!=W)))))))))|three(U,V))))),inference(fof_nnf,status(thm),[ax41])).
% 0.42/0.61  fof(c65,axiom,((![U]:(![V]:(~three(U,V)|(?[W]:(member(U,W,V)&(?[X]:((member(U,X,V)&X!=W)&(?[Y]:(((member(U,Y,V)&Y!=X)&Y!=W)&(![Z]:(~member(U,Z,V)|((Z=Y|Z=X)|Z=W))))))))))))&(![U]:(![V]:((![W]:(~member(U,W,V)|(![X]:((~member(U,X,V)|X=W)|(![Y]:(((~member(U,Y,V)|Y=X)|Y=W)|(?[Z]:(member(U,Z,V)&((Z!=Y&Z!=X)&Z!=W)))))))))|three(U,V))))),inference(shift_quantors,status(thm),[c64])).
% 0.42/0.61  fof(c66,axiom,((![X13]:(![X14]:(~three(X13,X14)|(?[X15]:(member(X13,X15,X14)&(?[X16]:((member(X13,X16,X14)&X16!=X15)&(?[X17]:(((member(X13,X17,X14)&X17!=X16)&X17!=X15)&(![X18]:(~member(X13,X18,X14)|((X18=X17|X18=X16)|X18=X15))))))))))))&(![X19]:(![X20]:((![X21]:(~member(X19,X21,X20)|(![X22]:((~member(X19,X22,X20)|X22=X21)|(![X23]:(((~member(X19,X23,X20)|X23=X22)|X23=X21)|(?[X24]:(member(X19,X24,X20)&((X24!=X23&X24!=X22)&X24!=X21)))))))))|three(X19,X20))))),inference(variable_rename,status(thm),[c65])).
% 0.42/0.61  fof(c68,axiom,(![X13]:(![X14]:(![X18]:(![X19]:(![X20]:(![X21]:(![X22]:(![X23]:((~three(X13,X14)|(member(X13,skolem0006(X13,X14),X14)&((member(X13,skolem0007(X13,X14),X14)&skolem0007(X13,X14)!=skolem0006(X13,X14))&(((member(X13,skolem0008(X13,X14),X14)&skolem0008(X13,X14)!=skolem0007(X13,X14))&skolem0008(X13,X14)!=skolem0006(X13,X14))&(~member(X13,X18,X14)|((X18=skolem0008(X13,X14)|X18=skolem0007(X13,X14))|X18=skolem0006(X13,X14)))))))&((~member(X19,X21,X20)|((~member(X19,X22,X20)|X22=X21)|(((~member(X19,X23,X20)|X23=X22)|X23=X21)|(member(X19,skolem0009(X19,X20,X21,X22,X23),X20)&((skolem0009(X19,X20,X21,X22,X23)!=X23&skolem0009(X19,X20,X21,X22,X23)!=X22)&skolem0009(X19,X20,X21,X22,X23)!=X21)))))|three(X19,X20))))))))))),inference(shift_quantors,status(thm),[fof(c67,axiom,((![X13]:(![X14]:(~three(X13,X14)|(member(X13,skolem0006(X13,X14),X14)&((member(X13,skolem0007(X13,X14),X14)&skolem0007(X13,X14)!=skolem0006(X13,X14))&(((member(X13,skolem0008(X13,X14),X14)&skolem0008(X13,X14)!=skolem0007(X13,X14))&skolem0008(X13,X14)!=skolem0006(X13,X14))&(![X18]:(~member(X13,X18,X14)|((X18=skolem0008(X13,X14)|X18=skolem0007(X13,X14))|X18=skolem0006(X13,X14))))))))))&(![X19]:(![X20]:((![X21]:(~member(X19,X21,X20)|(![X22]:((~member(X19,X22,X20)|X22=X21)|(![X23]:(((~member(X19,X23,X20)|X23=X22)|X23=X21)|(member(X19,skolem0009(X19,X20,X21,X22,X23),X20)&((skolem0009(X19,X20,X21,X22,X23)!=X23&skolem0009(X19,X20,X21,X22,X23)!=X22)&skolem0009(X19,X20,X21,X22,X23)!=X21))))))))|three(X19,X20))))),inference(skolemize,status(esa),[c66])).])).
% 0.42/0.61  fof(c69,axiom,(![X13]:(![X14]:(![X18]:(![X19]:(![X20]:(![X21]:(![X22]:(![X23]:(((~three(X13,X14)|member(X13,skolem0006(X13,X14),X14))&(((~three(X13,X14)|member(X13,skolem0007(X13,X14),X14))&(~three(X13,X14)|skolem0007(X13,X14)!=skolem0006(X13,X14)))&((((~three(X13,X14)|member(X13,skolem0008(X13,X14),X14))&(~three(X13,X14)|skolem0008(X13,X14)!=skolem0007(X13,X14)))&(~three(X13,X14)|skolem0008(X13,X14)!=skolem0006(X13,X14)))&(~three(X13,X14)|(~member(X13,X18,X14)|((X18=skolem0008(X13,X14)|X18=skolem0007(X13,X14))|X18=skolem0006(X13,X14)))))))&(((~member(X19,X21,X20)|((~member(X19,X22,X20)|X22=X21)|(((~member(X19,X23,X20)|X23=X22)|X23=X21)|member(X19,skolem0009(X19,X20,X21,X22,X23),X20))))|three(X19,X20))&((((~member(X19,X21,X20)|((~member(X19,X22,X20)|X22=X21)|(((~member(X19,X23,X20)|X23=X22)|X23=X21)|skolem0009(X19,X20,X21,X22,X23)!=X23)))|three(X19,X20))&((~member(X19,X21,X20)|((~member(X19,X22,X20)|X22=X21)|(((~member(X19,X23,X20)|X23=X22)|X23=X21)|skolem0009(X19,X20,X21,X22,X23)!=X22)))|three(X19,X20)))&((~member(X19,X21,X20)|((~member(X19,X22,X20)|X22=X21)|(((~member(X19,X23,X20)|X23=X22)|X23=X21)|skolem0009(X19,X20,X21,X22,X23)!=X21)))|three(X19,X20))))))))))))),inference(distribute,status(thm),[c68])).
% 0.42/0.61  cnf(c77,axiom,~member(X427,X430,X429)|~member(X427,X428,X429)|X428=X430|~member(X427,X426,X429)|X426=X428|X426=X430|member(X427,skolem0009(X427,X429,X430,X428,X426),X429)|three(X427,X429),inference(split_conjunct,status(thm),[c69])).
% 0.42/0.61  cnf(c80,axiom,~member(X422,X425,X424)|~member(X422,X423,X424)|X423=X425|~member(X422,X421,X424)|X421=X423|X421=X425|skolem0009(X422,X424,X425,X423,X421)!=X425|three(X422,X424),inference(split_conjunct,status(thm),[c69])).
% 0.42/0.61  cnf(c79,axiom,~member(X417,X420,X419)|~member(X417,X418,X419)|X418=X420|~member(X417,X416,X419)|X416=X418|X416=X420|skolem0009(X417,X419,X420,X418,X416)!=X418|three(X417,X419),inference(split_conjunct,status(thm),[c69])).
% 0.42/0.61  cnf(c78,axiom,~member(X412,X415,X414)|~member(X412,X413,X414)|X413=X415|~member(X412,X411,X414)|X411=X413|X411=X415|skolem0009(X412,X414,X415,X413,X411)!=X411|three(X412,X414),inference(split_conjunct,status(thm),[c69])).
% 0.42/0.61  cnf(c76,axiom,~three(X409,X408)|~member(X409,X410,X408)|X410=skolem0008(X409,X408)|X410=skolem0007(X409,X408)|X410=skolem0006(X409,X408),inference(split_conjunct,status(thm),[c69])).
% 0.42/0.61  fof(co1,conjecture,(~(?[U]:(actual_world(U)&(?[V]:(((![W]:(member(U,W,V)=>(?[X]:(?[Y]:((((table(U,X)&(![Z]:(member(U,Z,Y)=>(?[X1]:(((((event(U,X1)&agent(U,X1,Z))&present(U,X1))&sit(U,X1))&at(U,X1,X))&with(U,X1,W))))))&three(U,Y))&group(U,Y))&(![X2]:(member(U,X2,Y)=>(guy(U,X2)&young(U,X2)))))))))&group(U,V))&(![X3]:(member(U,X3,V)=>hamburger(U,X3)))))))),input).
% 0.42/0.61  fof(c41,negated_conjecture,(~(~(?[U]:(actual_world(U)&(?[V]:(((![W]:(member(U,W,V)=>(?[X]:(?[Y]:((((table(U,X)&(![Z]:(member(U,Z,Y)=>(?[X1]:(((((event(U,X1)&agent(U,X1,Z))&present(U,X1))&sit(U,X1))&at(U,X1,X))&with(U,X1,W))))))&three(U,Y))&group(U,Y))&(![X2]:(member(U,X2,Y)=>(guy(U,X2)&young(U,X2)))))))))&group(U,V))&(![X3]:(member(U,X3,V)=>hamburger(U,X3))))))))),inference(assume_negation,status(cth),[co1])).
% 0.42/0.61  fof(c42,negated_conjecture,(?[U]:(actual_world(U)&(?[V]:(((![W]:(~member(U,W,V)|(?[X]:(?[Y]:((((table(U,X)&(![Z]:(~member(U,Z,Y)|(?[X1]:(((((event(U,X1)&agent(U,X1,Z))&present(U,X1))&sit(U,X1))&at(U,X1,X))&with(U,X1,W))))))&three(U,Y))&group(U,Y))&(![X2]:(~member(U,X2,Y)|(guy(U,X2)&young(U,X2)))))))))&group(U,V))&(![X3]:(~member(U,X3,V)|hamburger(U,X3))))))),inference(fof_nnf,status(thm),[c41])).
% 0.42/0.61  fof(c43,negated_conjecture,(?[X2]:(actual_world(X2)&(?[X3]:(((![X4]:(~member(X2,X4,X3)|(?[X5]:(?[X6]:((((table(X2,X5)&(![X7]:(~member(X2,X7,X6)|(?[X8]:(((((event(X2,X8)&agent(X2,X8,X7))&present(X2,X8))&sit(X2,X8))&at(X2,X8,X5))&with(X2,X8,X4))))))&three(X2,X6))&group(X2,X6))&(![X9]:(~member(X2,X9,X6)|(guy(X2,X9)&young(X2,X9)))))))))&group(X2,X3))&(![X10]:(~member(X2,X10,X3)|hamburger(X2,X10))))))),inference(variable_rename,status(thm),[c42])).
% 0.42/0.61  fof(c45,negated_conjecture,(![X4]:(![X7]:(![X9]:(![X10]:(actual_world(skolem0001)&(((~member(skolem0001,X4,skolem0002)|((((table(skolem0001,skolem0003(X4))&(~member(skolem0001,X7,skolem0004(X4))|(((((event(skolem0001,skolem0005(X4,X7))&agent(skolem0001,skolem0005(X4,X7),X7))&present(skolem0001,skolem0005(X4,X7)))&sit(skolem0001,skolem0005(X4,X7)))&at(skolem0001,skolem0005(X4,X7),skolem0003(X4)))&with(skolem0001,skolem0005(X4,X7),X4))))&three(skolem0001,skolem0004(X4)))&group(skolem0001,skolem0004(X4)))&(~member(skolem0001,X9,skolem0004(X4))|(guy(skolem0001,X9)&young(skolem0001,X9)))))&group(skolem0001,skolem0002))&(~member(skolem0001,X10,skolem0002)|hamburger(skolem0001,X10)))))))),inference(shift_quantors,status(thm),[fof(c44,negated_conjecture,(actual_world(skolem0001)&(((![X4]:(~member(skolem0001,X4,skolem0002)|((((table(skolem0001,skolem0003(X4))&(![X7]:(~member(skolem0001,X7,skolem0004(X4))|(((((event(skolem0001,skolem0005(X4,X7))&agent(skolem0001,skolem0005(X4,X7),X7))&present(skolem0001,skolem0005(X4,X7)))&sit(skolem0001,skolem0005(X4,X7)))&at(skolem0001,skolem0005(X4,X7),skolem0003(X4)))&with(skolem0001,skolem0005(X4,X7),X4)))))&three(skolem0001,skolem0004(X4)))&group(skolem0001,skolem0004(X4)))&(![X9]:(~member(skolem0001,X9,skolem0004(X4))|(guy(skolem0001,X9)&young(skolem0001,X9)))))))&group(skolem0001,skolem0002))&(![X10]:(~member(skolem0001,X10,skolem0002)|hamburger(skolem0001,X10))))),inference(skolemize,status(esa),[c43])).])).
% 0.42/0.61  fof(c46,negated_conjecture,(![X4]:(![X7]:(![X9]:(![X10]:(actual_world(skolem0001)&(((((((~member(skolem0001,X4,skolem0002)|table(skolem0001,skolem0003(X4)))&((((((~member(skolem0001,X4,skolem0002)|(~member(skolem0001,X7,skolem0004(X4))|event(skolem0001,skolem0005(X4,X7))))&(~member(skolem0001,X4,skolem0002)|(~member(skolem0001,X7,skolem0004(X4))|agent(skolem0001,skolem0005(X4,X7),X7))))&(~member(skolem0001,X4,skolem0002)|(~member(skolem0001,X7,skolem0004(X4))|present(skolem0001,skolem0005(X4,X7)))))&(~member(skolem0001,X4,skolem0002)|(~member(skolem0001,X7,skolem0004(X4))|sit(skolem0001,skolem0005(X4,X7)))))&(~member(skolem0001,X4,skolem0002)|(~member(skolem0001,X7,skolem0004(X4))|at(skolem0001,skolem0005(X4,X7),skolem0003(X4)))))&(~member(skolem0001,X4,skolem0002)|(~member(skolem0001,X7,skolem0004(X4))|with(skolem0001,skolem0005(X4,X7),X4)))))&(~member(skolem0001,X4,skolem0002)|three(skolem0001,skolem0004(X4))))&(~member(skolem0001,X4,skolem0002)|group(skolem0001,skolem0004(X4))))&((~member(skolem0001,X4,skolem0002)|(~member(skolem0001,X9,skolem0004(X4))|guy(skolem0001,X9)))&(~member(skolem0001,X4,skolem0002)|(~member(skolem0001,X9,skolem0004(X4))|young(skolem0001,X9)))))&group(skolem0001,skolem0002))&(~member(skolem0001,X10,skolem0002)|hamburger(skolem0001,X10)))))))),inference(distribute,status(thm),[c45])).
% 0.42/0.61  cnf(c53,negated_conjecture,~member(skolem0001,X406,skolem0002)|~member(skolem0001,X407,skolem0004(X406))|at(skolem0001,skolem0005(X406,X407),skolem0003(X406)),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c54,negated_conjecture,~member(skolem0001,X404,skolem0002)|~member(skolem0001,X405,skolem0004(X404))|with(skolem0001,skolem0005(X404,X405),X404),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c50,negated_conjecture,~member(skolem0001,X402,skolem0002)|~member(skolem0001,X403,skolem0004(X402))|agent(skolem0001,skolem0005(X402,X403),X403),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c52,negated_conjecture,~member(skolem0001,X400,skolem0002)|~member(skolem0001,X401,skolem0004(X400))|sit(skolem0001,skolem0005(X400,X401)),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c51,negated_conjecture,~member(skolem0001,X398,skolem0002)|~member(skolem0001,X399,skolem0004(X398))|present(skolem0001,skolem0005(X398,X399)),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c49,negated_conjecture,~member(skolem0001,X396,skolem0002)|~member(skolem0001,X397,skolem0004(X396))|event(skolem0001,skolem0005(X396,X397)),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c39,plain,X391!=X390|X395!=X393|X394!=X392|~with(X391,X395,X394)|with(X390,X393,X392),eq_axiom).
% 0.42/0.61  cnf(c38,plain,X385!=X384|X389!=X387|X388!=X386|~at(X385,X389,X388)|at(X384,X387,X386),eq_axiom).
% 0.42/0.61  cnf(c36,plain,X379!=X378|X383!=X381|X382!=X380|~agent(X379,X383,X382)|agent(X378,X381,X380),eq_axiom).
% 0.42/0.61  cnf(c58,negated_conjecture,~member(skolem0001,X376,skolem0002)|~member(skolem0001,X377,skolem0004(X376))|young(skolem0001,X377),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c57,negated_conjecture,~member(skolem0001,X374,skolem0002)|~member(skolem0001,X375,skolem0004(X374))|guy(skolem0001,X375),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c40,plain,X372!=X370|X371!=X373|~young(X372,X371)|young(X370,X373),eq_axiom).
% 0.42/0.61  cnf(c34,plain,X365!=X364|X369!=X367|X368!=X366|~member(X365,X369,X368)|member(X364,X367,X366),eq_axiom).
% 0.42/0.61  cnf(c37,plain,X362!=X360|X361!=X363|~present(X362,X361)|present(X360,X363),eq_axiom).
% 0.42/0.61  cnf(c33,plain,X358!=X356|X357!=X359|~guy(X358,X357)|guy(X356,X359),eq_axiom).
% 0.42/0.61  cnf(c32,plain,X354!=X352|X353!=X355|~singleton(X354,X353)|singleton(X352,X355),eq_axiom).
% 0.42/0.61  cnf(c31,plain,X350!=X348|X349!=X351|~existent(X350,X349)|existent(X348,X351),eq_axiom).
% 0.42/0.61  cnf(c30,plain,X346!=X344|X345!=X347|~living(X346,X345)|living(X344,X347),eq_axiom).
% 0.42/0.61  cnf(c29,plain,X342!=X340|X341!=X343|~organism(X342,X341)|organism(X340,X343),eq_axiom).
% 0.42/0.61  cnf(c28,plain,X338!=X336|X337!=X339|~human(X338,X337)|human(X336,X339),eq_axiom).
% 0.42/0.61  cnf(c27,plain,X334!=X332|X333!=X335|~animate(X334,X333)|animate(X332,X335),eq_axiom).
% 0.42/0.61  cnf(c26,plain,X330!=X328|X329!=X331|~human_person(X330,X329)|human_person(X328,X331),eq_axiom).
% 0.42/0.61  cnf(c25,plain,X326!=X324|X325!=X327|~male(X326,X325)|male(X324,X327),eq_axiom).
% 0.42/0.61  cnf(c24,plain,X322!=X320|X321!=X323|~man(X322,X321)|man(X320,X323),eq_axiom).
% 0.42/0.61  cnf(reflexivity,axiom,X105=X105,eq_axiom).
% 0.42/0.61  cnf(c59,negated_conjecture,group(skolem0001,skolem0002),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  fof(ax22,axiom,(![U]:(![V]:(group(U,V)=>set(U,V)))),input).
% 0.42/0.61  fof(c140,axiom,(![U]:(![V]:(~group(U,V)|set(U,V)))),inference(fof_nnf,status(thm),[ax22])).
% 0.42/0.61  fof(c141,axiom,(![X61]:(![X62]:(~group(X61,X62)|set(X61,X62)))),inference(variable_rename,status(thm),[c140])).
% 0.42/0.61  cnf(c142,axiom,~group(X162,X163)|set(X162,X163),inference(split_conjunct,status(thm),[c141])).
% 0.42/0.61  cnf(c208,plain,set(skolem0001,skolem0002),inference(resolution,status(thm),[c142, c59])).
% 0.42/0.61  fof(ax21,axiom,(![U]:(![V]:(set(U,V)=>multiple(U,V)))),input).
% 0.42/0.61  fof(c143,axiom,(![U]:(![V]:(~set(U,V)|multiple(U,V)))),inference(fof_nnf,status(thm),[ax21])).
% 0.42/0.61  fof(c144,axiom,(![X63]:(![X64]:(~set(X63,X64)|multiple(X63,X64)))),inference(variable_rename,status(thm),[c143])).
% 0.42/0.61  cnf(c145,axiom,~set(X168,X169)|multiple(X168,X169),inference(split_conjunct,status(thm),[c144])).
% 0.42/0.61  cnf(c209,plain,multiple(skolem0001,skolem0002),inference(resolution,status(thm),[c145, c208])).
% 0.42/0.61  cnf(c23,plain,X312!=X310|X311!=X313|~multiple(X312,X311)|multiple(X310,X313),eq_axiom).
% 0.42/0.61  cnf(c216,plain,skolem0001!=X317|skolem0002!=X318|multiple(X317,X318),inference(resolution,status(thm),[c23, c209])).
% 0.42/0.61  cnf(c219,plain,skolem0001!=X319|multiple(X319,skolem0002),inference(resolution,status(thm),[c216, reflexivity])).
% 0.42/0.61  cnf(c22,plain,X308!=X306|X307!=X309|~set(X308,X307)|set(X306,X309),eq_axiom).
% 0.42/0.61  cnf(c215,plain,skolem0001!=X314|skolem0002!=X315|set(X314,X315),inference(resolution,status(thm),[c22, c208])).
% 0.42/0.61  cnf(c217,plain,skolem0001!=X316|set(X316,skolem0002),inference(resolution,status(thm),[c215, reflexivity])).
% 0.42/0.61  cnf(c21,plain,X301!=X299|X300!=X302|~group(X301,X300)|group(X299,X302),eq_axiom).
% 0.42/0.61  cnf(c212,plain,skolem0001!=X304|skolem0002!=X303|group(X304,X303),inference(resolution,status(thm),[c21, c59])).
% 0.42/0.61  cnf(c213,plain,skolem0001!=X305|group(X305,skolem0002),inference(resolution,status(thm),[c212, reflexivity])).
% 0.42/0.61  cnf(c20,plain,X297!=X295|X296!=X298|~three(X297,X296)|three(X295,X298),eq_axiom).
% 0.42/0.61  cnf(c19,plain,X293!=X291|X292!=X294|~hamburger(X293,X292)|hamburger(X291,X294),eq_axiom).
% 0.42/0.61  cnf(c18,plain,X289!=X287|X288!=X290|~burger(X289,X288)|burger(X287,X290),eq_axiom).
% 0.42/0.61  cnf(c17,plain,X285!=X283|X284!=X286|~meat(X285,X284)|meat(X283,X286),eq_axiom).
% 0.42/0.61  cnf(c16,plain,X281!=X279|X280!=X282|~food(X281,X280)|food(X279,X282),eq_axiom).
% 0.42/0.61  cnf(c15,plain,X277!=X275|X276!=X278|~substance_matter(X277,X276)|substance_matter(X275,X278),eq_axiom).
% 0.42/0.61  cnf(c14,plain,X273!=X271|X272!=X274|~entity(X273,X272)|entity(X271,X274),eq_axiom).
% 0.42/0.61  cnf(c13,plain,X269!=X267|X268!=X270|~nonliving(X269,X268)|nonliving(X267,X270),eq_axiom).
% 0.42/0.61  cnf(c12,plain,X265!=X263|X264!=X266|~impartial(X265,X264)|impartial(X263,X266),eq_axiom).
% 0.42/0.61  cnf(c11,plain,X261!=X259|X260!=X262|~sit(X261,X260)|sit(X259,X262),eq_axiom).
% 0.42/0.61  cnf(c75,axiom,~three(X258,X257)|skolem0008(X258,X257)!=skolem0006(X258,X257),inference(split_conjunct,status(thm),[c69])).
% 0.42/0.61  cnf(c74,axiom,~three(X256,X255)|skolem0008(X256,X255)!=skolem0007(X256,X255),inference(split_conjunct,status(thm),[c69])).
% 0.42/0.61  cnf(c10,plain,X253!=X251|X252!=X254|~event(X253,X252)|event(X251,X254),eq_axiom).
% 0.42/0.61  cnf(c72,axiom,~three(X250,X249)|skolem0007(X250,X249)!=skolem0006(X250,X249),inference(split_conjunct,status(thm),[c69])).
% 0.42/0.61  cnf(c56,negated_conjecture,~member(skolem0001,X248,skolem0002)|group(skolem0001,skolem0004(X248)),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c55,negated_conjecture,~member(skolem0001,X247,skolem0002)|three(skolem0001,skolem0004(X247)),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c48,negated_conjecture,~member(skolem0001,X246,skolem0002)|table(skolem0001,skolem0003(X246)),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c73,axiom,~three(X245,X244)|member(X245,skolem0008(X245,X244),X244),inference(split_conjunct,status(thm),[c69])).
% 0.42/0.61  cnf(c9,plain,X242!=X240|X241!=X243|~thing(X242,X241)|thing(X240,X243),eq_axiom).
% 0.42/0.61  cnf(c71,axiom,~three(X239,X238)|member(X239,skolem0007(X239,X238),X238),inference(split_conjunct,status(thm),[c69])).
% 0.42/0.61  cnf(c70,axiom,~three(X237,X236)|member(X237,skolem0006(X237,X236),X236),inference(split_conjunct,status(thm),[c69])).
% 0.42/0.61  cnf(c60,negated_conjecture,~member(skolem0001,X235,skolem0002)|hamburger(skolem0001,X235),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.61  cnf(c35,plain,X233!=X232|~actual_world(X233)|actual_world(X232),eq_axiom).
% 0.42/0.61  cnf(c8,plain,X230!=X228|X229!=X231|~specific(X230,X229)|specific(X228,X231),eq_axiom).
% 0.42/0.61  fof(ax1,axiom,(![U]:(![V]:(artifact(U,V)=>object(U,V)))),input).
% 0.42/0.61  fof(c203,axiom,(![U]:(![V]:(~artifact(U,V)|object(U,V)))),inference(fof_nnf,status(thm),[ax1])).
% 0.42/0.61  fof(c204,axiom,(![X103]:(![X104]:(~artifact(X103,X104)|object(X103,X104)))),inference(variable_rename,status(thm),[c203])).
% 0.42/0.61  cnf(c205,axiom,~artifact(X224,X225)|object(X224,X225),inference(split_conjunct,status(thm),[c204])).
% 0.42/0.61  fof(ax2,axiom,(![U]:(![V]:(instrumentality(U,V)=>artifact(U,V)))),input).
% 0.42/0.61  fof(c200,axiom,(![U]:(![V]:(~instrumentality(U,V)|artifact(U,V)))),inference(fof_nnf,status(thm),[ax2])).
% 0.42/0.61  fof(c201,axiom,(![X101]:(![X102]:(~instrumentality(X101,X102)|artifact(X101,X102)))),inference(variable_rename,status(thm),[c200])).
% 0.42/0.61  cnf(c202,axiom,~instrumentality(X223,X222)|artifact(X223,X222),inference(split_conjunct,status(thm),[c201])).
% 0.42/0.61  fof(ax3,axiom,(![U]:(![V]:(furniture(U,V)=>instrumentality(U,V)))),input).
% 0.42/0.61  fof(c197,axiom,(![U]:(![V]:(~furniture(U,V)|instrumentality(U,V)))),inference(fof_nnf,status(thm),[ax3])).
% 0.42/0.61  fof(c198,axiom,(![X99]:(![X100]:(~furniture(X99,X100)|instrumentality(X99,X100)))),inference(variable_rename,status(thm),[c197])).
% 0.42/0.61  cnf(c199,axiom,~furniture(X221,X220)|instrumentality(X221,X220),inference(split_conjunct,status(thm),[c198])).
% 0.42/0.61  fof(ax4,axiom,(![U]:(![V]:(table(U,V)=>furniture(U,V)))),input).
% 0.42/0.61  fof(c194,axiom,(![U]:(![V]:(~table(U,V)|furniture(U,V)))),inference(fof_nnf,status(thm),[ax4])).
% 0.42/0.61  fof(c195,axiom,(![X97]:(![X98]:(~table(X97,X98)|furniture(X97,X98)))),inference(variable_rename,status(thm),[c194])).
% 0.42/0.61  cnf(c196,axiom,~table(X219,X218)|furniture(X219,X218),inference(split_conjunct,status(thm),[c195])).
% 0.42/0.61  cnf(c7,plain,X216!=X214|X215!=X217|~nonexistent(X216,X215)|nonexistent(X214,X217),eq_axiom).
% 0.42/0.61  fof(ax5,axiom,(![U]:(![V]:(eventuality(U,V)=>unisex(U,V)))),input).
% 0.42/0.61  fof(c191,axiom,(![U]:(![V]:(~eventuality(U,V)|unisex(U,V)))),inference(fof_nnf,status(thm),[ax5])).
% 0.42/0.61  fof(c192,axiom,(![X95]:(![X96]:(~eventuality(X95,X96)|unisex(X95,X96)))),inference(variable_rename,status(thm),[c191])).
% 0.42/0.61  cnf(c193,axiom,~eventuality(X212,X213)|unisex(X212,X213),inference(split_conjunct,status(thm),[c192])).
% 0.42/0.61  fof(ax6,axiom,(![U]:(![V]:(eventuality(U,V)=>nonexistent(U,V)))),input).
% 0.42/0.61  fof(c188,axiom,(![U]:(![V]:(~eventuality(U,V)|nonexistent(U,V)))),inference(fof_nnf,status(thm),[ax6])).
% 0.42/0.61  fof(c189,axiom,(![X93]:(![X94]:(~eventuality(X93,X94)|nonexistent(X93,X94)))),inference(variable_rename,status(thm),[c188])).
% 0.42/0.61  cnf(c190,axiom,~eventuality(X211,X210)|nonexistent(X211,X210),inference(split_conjunct,status(thm),[c189])).
% 0.42/0.61  fof(ax7,axiom,(![U]:(![V]:(eventuality(U,V)=>specific(U,V)))),input).
% 0.42/0.61  fof(c185,axiom,(![U]:(![V]:(~eventuality(U,V)|specific(U,V)))),inference(fof_nnf,status(thm),[ax7])).
% 0.42/0.61  fof(c186,axiom,(![X91]:(![X92]:(~eventuality(X91,X92)|specific(X91,X92)))),inference(variable_rename,status(thm),[c185])).
% 0.42/0.61  cnf(c187,axiom,~eventuality(X209,X208)|specific(X209,X208),inference(split_conjunct,status(thm),[c186])).
% 0.42/0.61  fof(ax8,axiom,(![U]:(![V]:(eventuality(U,V)=>thing(U,V)))),input).
% 0.42/0.61  fof(c182,axiom,(![U]:(![V]:(~eventuality(U,V)|thing(U,V)))),inference(fof_nnf,status(thm),[ax8])).
% 0.42/0.61  fof(c183,axiom,(![X89]:(![X90]:(~eventuality(X89,X90)|thing(X89,X90)))),inference(variable_rename,status(thm),[c182])).
% 0.42/0.61  cnf(c184,axiom,~eventuality(X206,X207)|thing(X206,X207),inference(split_conjunct,status(thm),[c183])).
% 0.42/0.61  fof(ax9,axiom,(![U]:(![V]:(event(U,V)=>eventuality(U,V)))),input).
% 0.42/0.61  fof(c179,axiom,(![U]:(![V]:(~event(U,V)|eventuality(U,V)))),inference(fof_nnf,status(thm),[ax9])).
% 0.42/0.61  fof(c180,axiom,(![X87]:(![X88]:(~event(X87,X88)|eventuality(X87,X88)))),inference(variable_rename,status(thm),[c179])).
% 0.42/0.61  cnf(c181,axiom,~event(X205,X204)|eventuality(X205,X204),inference(split_conjunct,status(thm),[c180])).
% 0.42/0.61  cnf(c6,plain,X202!=X200|X201!=X203|~unisex(X202,X201)|unisex(X200,X203),eq_axiom).
% 0.42/0.61  fof(ax10,axiom,(![U]:(![V]:(sit(U,V)=>event(U,V)))),input).
% 0.42/0.61  fof(c176,axiom,(![U]:(![V]:(~sit(U,V)|event(U,V)))),inference(fof_nnf,status(thm),[ax10])).
% 0.42/0.61  fof(c177,axiom,(![X85]:(![X86]:(~sit(X85,X86)|event(X85,X86)))),inference(variable_rename,status(thm),[c176])).
% 0.42/0.61  cnf(c178,axiom,~sit(X198,X199)|event(X198,X199),inference(split_conjunct,status(thm),[c177])).
% 0.42/0.61  fof(ax11,axiom,(![U]:(![V]:(object(U,V)=>unisex(U,V)))),input).
% 0.42/0.61  fof(c173,axiom,(![U]:(![V]:(~object(U,V)|unisex(U,V)))),inference(fof_nnf,status(thm),[ax11])).
% 0.42/0.61  fof(c174,axiom,(![X83]:(![X84]:(~object(X83,X84)|unisex(X83,X84)))),inference(variable_rename,status(thm),[c173])).
% 0.42/0.61  cnf(c175,axiom,~object(X196,X197)|unisex(X196,X197),inference(split_conjunct,status(thm),[c174])).
% 0.42/0.61  fof(ax12,axiom,(![U]:(![V]:(object(U,V)=>impartial(U,V)))),input).
% 0.42/0.61  fof(c170,axiom,(![U]:(![V]:(~object(U,V)|impartial(U,V)))),inference(fof_nnf,status(thm),[ax12])).
% 0.42/0.61  fof(c171,axiom,(![X81]:(![X82]:(~object(X81,X82)|impartial(X81,X82)))),inference(variable_rename,status(thm),[c170])).
% 0.42/0.61  cnf(c172,axiom,~object(X195,X194)|impartial(X195,X194),inference(split_conjunct,status(thm),[c171])).
% 0.42/0.61  fof(ax13,axiom,(![U]:(![V]:(object(U,V)=>nonliving(U,V)))),input).
% 0.42/0.61  fof(c167,axiom,(![U]:(![V]:(~object(U,V)|nonliving(U,V)))),inference(fof_nnf,status(thm),[ax13])).
% 0.42/0.61  fof(c168,axiom,(![X79]:(![X80]:(~object(X79,X80)|nonliving(X79,X80)))),inference(variable_rename,status(thm),[c167])).
% 0.42/0.61  cnf(c169,axiom,~object(X193,X192)|nonliving(X193,X192),inference(split_conjunct,status(thm),[c168])).
% 0.42/0.61  fof(ax14,axiom,(![U]:(![V]:(object(U,V)=>entity(U,V)))),input).
% 0.42/0.61  fof(c164,axiom,(![U]:(![V]:(~object(U,V)|entity(U,V)))),inference(fof_nnf,status(thm),[ax14])).
% 0.42/0.61  fof(c165,axiom,(![X77]:(![X78]:(~object(X77,X78)|entity(X77,X78)))),inference(variable_rename,status(thm),[c164])).
% 0.42/0.61  cnf(c166,axiom,~object(X191,X190)|entity(X191,X190),inference(split_conjunct,status(thm),[c165])).
% 0.42/0.61  cnf(c5,plain,X188!=X186|X187!=X189|~eventuality(X188,X187)|eventuality(X186,X189),eq_axiom).
% 0.42/0.61  fof(ax15,axiom,(![U]:(![V]:(substance_matter(U,V)=>object(U,V)))),input).
% 0.42/0.61  fof(c161,axiom,(![U]:(![V]:(~substance_matter(U,V)|object(U,V)))),inference(fof_nnf,status(thm),[ax15])).
% 0.42/0.61  fof(c162,axiom,(![X75]:(![X76]:(~substance_matter(X75,X76)|object(X75,X76)))),inference(variable_rename,status(thm),[c161])).
% 0.42/0.61  cnf(c163,axiom,~substance_matter(X185,X184)|object(X185,X184),inference(split_conjunct,status(thm),[c162])).
% 0.42/0.61  fof(ax16,axiom,(![U]:(![V]:(food(U,V)=>substance_matter(U,V)))),input).
% 0.42/0.61  fof(c158,axiom,(![U]:(![V]:(~food(U,V)|substance_matter(U,V)))),inference(fof_nnf,status(thm),[ax16])).
% 0.42/0.61  fof(c159,axiom,(![X73]:(![X74]:(~food(X73,X74)|substance_matter(X73,X74)))),inference(variable_rename,status(thm),[c158])).
% 0.42/0.61  cnf(c160,axiom,~food(X183,X182)|substance_matter(X183,X182),inference(split_conjunct,status(thm),[c159])).
% 0.42/0.61  fof(ax17,axiom,(![U]:(![V]:(meat(U,V)=>food(U,V)))),input).
% 0.42/0.61  fof(c155,axiom,(![U]:(![V]:(~meat(U,V)|food(U,V)))),inference(fof_nnf,status(thm),[ax17])).
% 0.42/0.61  fof(c156,axiom,(![X71]:(![X72]:(~meat(X71,X72)|food(X71,X72)))),inference(variable_rename,status(thm),[c155])).
% 0.42/0.61  cnf(c157,axiom,~meat(X181,X180)|food(X181,X180),inference(split_conjunct,status(thm),[c156])).
% 0.42/0.61  fof(ax18,axiom,(![U]:(![V]:(burger(U,V)=>meat(U,V)))),input).
% 0.42/0.61  fof(c152,axiom,(![U]:(![V]:(~burger(U,V)|meat(U,V)))),inference(fof_nnf,status(thm),[ax18])).
% 0.42/0.61  fof(c153,axiom,(![X69]:(![X70]:(~burger(X69,X70)|meat(X69,X70)))),inference(variable_rename,status(thm),[c152])).
% 0.42/0.61  cnf(c154,axiom,~burger(X179,X178)|meat(X179,X178),inference(split_conjunct,status(thm),[c153])).
% 0.42/0.61  fof(ax19,axiom,(![U]:(![V]:(hamburger(U,V)=>burger(U,V)))),input).
% 0.42/0.61  fof(c149,axiom,(![U]:(![V]:(~hamburger(U,V)|burger(U,V)))),inference(fof_nnf,status(thm),[ax19])).
% 0.42/0.61  fof(c150,axiom,(![X67]:(![X68]:(~hamburger(X67,X68)|burger(X67,X68)))),inference(variable_rename,status(thm),[c149])).
% 0.42/0.61  cnf(c151,axiom,~hamburger(X176,X177)|burger(X176,X177),inference(split_conjunct,status(thm),[c150])).
% 0.42/0.62  cnf(c4,plain,X174!=X172|X173!=X175|~table(X174,X173)|table(X172,X175),eq_axiom).
% 0.42/0.62  fof(ax20,axiom,(![U]:(![V]:(three(U,V)=>group(U,V)))),input).
% 0.42/0.62  fof(c146,axiom,(![U]:(![V]:(~three(U,V)|group(U,V)))),inference(fof_nnf,status(thm),[ax20])).
% 0.42/0.62  fof(c147,axiom,(![X65]:(![X66]:(~three(X65,X66)|group(X65,X66)))),inference(variable_rename,status(thm),[c146])).
% 0.42/0.62  cnf(c148,axiom,~three(X170,X171)|group(X170,X171),inference(split_conjunct,status(thm),[c147])).
% 0.42/0.62  fof(ax39,axiom,(![U]:(![V]:(singleton(U,V)=>(~multiple(U,V))))),input).
% 0.42/0.62  fof(c85,axiom,(![U]:(![V]:(singleton(U,V)=>~multiple(U,V)))),inference(fof_simplification,status(thm),[ax39])).
% 0.42/0.62  fof(c86,axiom,(![U]:(![V]:(~singleton(U,V)|~multiple(U,V)))),inference(fof_nnf,status(thm),[c85])).
% 0.42/0.62  fof(c87,axiom,(![X27]:(![X28]:(~singleton(X27,X28)|~multiple(X27,X28)))),inference(variable_rename,status(thm),[c86])).
% 0.42/0.62  cnf(c88,axiom,~singleton(X116,X117)|~multiple(X116,X117),inference(split_conjunct,status(thm),[c87])).
% 0.42/0.62  cnf(c210,plain,~singleton(skolem0001,skolem0002),inference(resolution,status(thm),[c209, c88])).
% 0.42/0.62  cnf(c3,plain,X166!=X164|X165!=X167|~furniture(X166,X165)|furniture(X164,X167),eq_axiom).
% 0.42/0.62  fof(ax23,axiom,(![U]:(![V]:(man(U,V)=>male(U,V)))),input).
% 0.42/0.62  fof(c137,axiom,(![U]:(![V]:(~man(U,V)|male(U,V)))),inference(fof_nnf,status(thm),[ax23])).
% 0.42/0.62  fof(c138,axiom,(![X59]:(![X60]:(~man(X59,X60)|male(X59,X60)))),inference(variable_rename,status(thm),[c137])).
% 0.42/0.62  cnf(c139,axiom,~man(X160,X161)|male(X160,X161),inference(split_conjunct,status(thm),[c138])).
% 0.42/0.62  fof(ax24,axiom,(![U]:(![V]:(human_person(U,V)=>animate(U,V)))),input).
% 0.42/0.62  fof(c134,axiom,(![U]:(![V]:(~human_person(U,V)|animate(U,V)))),inference(fof_nnf,status(thm),[ax24])).
% 0.42/0.62  fof(c135,axiom,(![X57]:(![X58]:(~human_person(X57,X58)|animate(X57,X58)))),inference(variable_rename,status(thm),[c134])).
% 0.42/0.62  cnf(c136,axiom,~human_person(X158,X159)|animate(X158,X159),inference(split_conjunct,status(thm),[c135])).
% 0.42/0.62  fof(ax25,axiom,(![U]:(![V]:(human_person(U,V)=>human(U,V)))),input).
% 0.42/0.62  fof(c131,axiom,(![U]:(![V]:(~human_person(U,V)|human(U,V)))),inference(fof_nnf,status(thm),[ax25])).
% 0.42/0.62  fof(c132,axiom,(![X55]:(![X56]:(~human_person(X55,X56)|human(X55,X56)))),inference(variable_rename,status(thm),[c131])).
% 0.42/0.62  cnf(c133,axiom,~human_person(X157,X156)|human(X157,X156),inference(split_conjunct,status(thm),[c132])).
% 0.42/0.62  fof(ax26,axiom,(![U]:(![V]:(organism(U,V)=>living(U,V)))),input).
% 0.42/0.62  fof(c128,axiom,(![U]:(![V]:(~organism(U,V)|living(U,V)))),inference(fof_nnf,status(thm),[ax26])).
% 0.42/0.62  fof(c129,axiom,(![X53]:(![X54]:(~organism(X53,X54)|living(X53,X54)))),inference(variable_rename,status(thm),[c128])).
% 0.42/0.62  cnf(c130,axiom,~organism(X155,X154)|living(X155,X154),inference(split_conjunct,status(thm),[c129])).
% 0.42/0.62  cnf(c2,plain,X152!=X150|X151!=X153|~instrumentality(X152,X151)|instrumentality(X150,X153),eq_axiom).
% 0.42/0.62  fof(ax27,axiom,(![U]:(![V]:(organism(U,V)=>impartial(U,V)))),input).
% 0.42/0.62  fof(c125,axiom,(![U]:(![V]:(~organism(U,V)|impartial(U,V)))),inference(fof_nnf,status(thm),[ax27])).
% 0.42/0.62  fof(c126,axiom,(![X51]:(![X52]:(~organism(X51,X52)|impartial(X51,X52)))),inference(variable_rename,status(thm),[c125])).
% 0.42/0.62  cnf(c127,axiom,~organism(X149,X148)|impartial(X149,X148),inference(split_conjunct,status(thm),[c126])).
% 0.42/0.62  fof(ax28,axiom,(![U]:(![V]:(entity(U,V)=>existent(U,V)))),input).
% 0.42/0.62  fof(c122,axiom,(![U]:(![V]:(~entity(U,V)|existent(U,V)))),inference(fof_nnf,status(thm),[ax28])).
% 0.42/0.62  fof(c123,axiom,(![X49]:(![X50]:(~entity(X49,X50)|existent(X49,X50)))),inference(variable_rename,status(thm),[c122])).
% 0.42/0.62  cnf(c124,axiom,~entity(X146,X147)|existent(X146,X147),inference(split_conjunct,status(thm),[c123])).
% 0.42/0.62  fof(ax29,axiom,(![U]:(![V]:(entity(U,V)=>specific(U,V)))),input).
% 0.42/0.62  fof(c119,axiom,(![U]:(![V]:(~entity(U,V)|specific(U,V)))),inference(fof_nnf,status(thm),[ax29])).
% 0.42/0.62  fof(c120,axiom,(![X47]:(![X48]:(~entity(X47,X48)|specific(X47,X48)))),inference(variable_rename,status(thm),[c119])).
% 0.42/0.62  cnf(c121,axiom,~entity(X144,X145)|specific(X144,X145),inference(split_conjunct,status(thm),[c120])).
% 0.42/0.62  fof(ax30,axiom,(![U]:(![V]:(thing(U,V)=>singleton(U,V)))),input).
% 0.42/0.62  fof(c116,axiom,(![U]:(![V]:(~thing(U,V)|singleton(U,V)))),inference(fof_nnf,status(thm),[ax30])).
% 0.42/0.62  fof(c117,axiom,(![X45]:(![X46]:(~thing(X45,X46)|singleton(X45,X46)))),inference(variable_rename,status(thm),[c116])).
% 0.42/0.62  cnf(c118,axiom,~thing(X142,X143)|singleton(X142,X143),inference(split_conjunct,status(thm),[c117])).
% 0.42/0.62  fof(ax31,axiom,(![U]:(![V]:(entity(U,V)=>thing(U,V)))),input).
% 0.42/0.62  fof(c113,axiom,(![U]:(![V]:(~entity(U,V)|thing(U,V)))),inference(fof_nnf,status(thm),[ax31])).
% 0.42/0.62  fof(c114,axiom,(![X43]:(![X44]:(~entity(X43,X44)|thing(X43,X44)))),inference(variable_rename,status(thm),[c113])).
% 0.42/0.62  cnf(c115,axiom,~entity(X140,X141)|thing(X140,X141),inference(split_conjunct,status(thm),[c114])).
% 0.42/0.62  cnf(c1,plain,X138!=X136|X137!=X139|~object(X138,X137)|object(X136,X139),eq_axiom).
% 0.42/0.62  fof(ax32,axiom,(![U]:(![V]:(organism(U,V)=>entity(U,V)))),input).
% 0.42/0.62  fof(c110,axiom,(![U]:(![V]:(~organism(U,V)|entity(U,V)))),inference(fof_nnf,status(thm),[ax32])).
% 0.42/0.62  fof(c111,axiom,(![X41]:(![X42]:(~organism(X41,X42)|entity(X41,X42)))),inference(variable_rename,status(thm),[c110])).
% 0.42/0.62  cnf(c112,axiom,~organism(X134,X135)|entity(X134,X135),inference(split_conjunct,status(thm),[c111])).
% 0.42/0.62  fof(ax33,axiom,(![U]:(![V]:(human_person(U,V)=>organism(U,V)))),input).
% 0.42/0.62  fof(c107,axiom,(![U]:(![V]:(~human_person(U,V)|organism(U,V)))),inference(fof_nnf,status(thm),[ax33])).
% 0.42/0.62  fof(c108,axiom,(![X39]:(![X40]:(~human_person(X39,X40)|organism(X39,X40)))),inference(variable_rename,status(thm),[c107])).
% 0.42/0.62  cnf(c109,axiom,~human_person(X133,X132)|organism(X133,X132),inference(split_conjunct,status(thm),[c108])).
% 0.42/0.62  fof(ax34,axiom,(![U]:(![V]:(man(U,V)=>human_person(U,V)))),input).
% 0.42/0.62  fof(c104,axiom,(![U]:(![V]:(~man(U,V)|human_person(U,V)))),inference(fof_nnf,status(thm),[ax34])).
% 0.42/0.62  fof(c105,axiom,(![X37]:(![X38]:(~man(X37,X38)|human_person(X37,X38)))),inference(variable_rename,status(thm),[c104])).
% 0.42/0.62  cnf(c106,axiom,~man(X131,X130)|human_person(X131,X130),inference(split_conjunct,status(thm),[c105])).
% 0.42/0.62  fof(ax35,axiom,(![U]:(![V]:(guy(U,V)=>man(U,V)))),input).
% 0.42/0.62  fof(c101,axiom,(![U]:(![V]:(~guy(U,V)|man(U,V)))),inference(fof_nnf,status(thm),[ax35])).
% 0.42/0.62  fof(c102,axiom,(![X35]:(![X36]:(~guy(X35,X36)|man(X35,X36)))),inference(variable_rename,status(thm),[c101])).
% 0.42/0.62  cnf(c103,axiom,~guy(X129,X128)|man(X129,X128),inference(split_conjunct,status(thm),[c102])).
% 0.42/0.62  fof(ax36,axiom,(![U]:(![V]:(animate(U,V)=>(~nonliving(U,V))))),input).
% 0.42/0.62  fof(c97,axiom,(![U]:(![V]:(animate(U,V)=>~nonliving(U,V)))),inference(fof_simplification,status(thm),[ax36])).
% 0.42/0.62  fof(c98,axiom,(![U]:(![V]:(~animate(U,V)|~nonliving(U,V)))),inference(fof_nnf,status(thm),[c97])).
% 0.42/0.62  fof(c99,axiom,(![X33]:(![X34]:(~animate(X33,X34)|~nonliving(X33,X34)))),inference(variable_rename,status(thm),[c98])).
% 0.42/0.62  cnf(c100,axiom,~animate(X127,X126)|~nonliving(X127,X126),inference(split_conjunct,status(thm),[c99])).
% 0.42/0.62  cnf(c0,plain,X124!=X122|X123!=X125|~artifact(X124,X123)|artifact(X122,X125),eq_axiom).
% 0.42/0.62  fof(ax37,axiom,(![U]:(![V]:(existent(U,V)=>(~nonexistent(U,V))))),input).
% 0.42/0.62  fof(c93,axiom,(![U]:(![V]:(existent(U,V)=>~nonexistent(U,V)))),inference(fof_simplification,status(thm),[ax37])).
% 0.42/0.62  fof(c94,axiom,(![U]:(![V]:(~existent(U,V)|~nonexistent(U,V)))),inference(fof_nnf,status(thm),[c93])).
% 0.42/0.62  fof(c95,axiom,(![X31]:(![X32]:(~existent(X31,X32)|~nonexistent(X31,X32)))),inference(variable_rename,status(thm),[c94])).
% 0.42/0.62  cnf(c96,axiom,~existent(X121,X120)|~nonexistent(X121,X120),inference(split_conjunct,status(thm),[c95])).
% 0.42/0.62  fof(ax38,axiom,(![U]:(![V]:(nonliving(U,V)=>(~living(U,V))))),input).
% 0.42/0.62  fof(c89,axiom,(![U]:(![V]:(nonliving(U,V)=>~living(U,V)))),inference(fof_simplification,status(thm),[ax38])).
% 0.42/0.62  fof(c90,axiom,(![U]:(![V]:(~nonliving(U,V)|~living(U,V)))),inference(fof_nnf,status(thm),[c89])).
% 0.42/0.62  fof(c91,axiom,(![X29]:(![X30]:(~nonliving(X29,X30)|~living(X29,X30)))),inference(variable_rename,status(thm),[c90])).
% 0.42/0.62  cnf(c92,axiom,~nonliving(X118,X119)|~living(X118,X119),inference(split_conjunct,status(thm),[c91])).
% 0.42/0.62  fof(ax40,axiom,(![U]:(![V]:(unisex(U,V)=>(~male(U,V))))),input).
% 0.42/0.62  fof(c81,axiom,(![U]:(![V]:(unisex(U,V)=>~male(U,V)))),inference(fof_simplification,status(thm),[ax40])).
% 0.42/0.62  fof(c82,axiom,(![U]:(![V]:(~unisex(U,V)|~male(U,V)))),inference(fof_nnf,status(thm),[c81])).
% 0.42/0.62  fof(c83,axiom,(![X25]:(![X26]:(~unisex(X25,X26)|~male(X25,X26)))),inference(variable_rename,status(thm),[c82])).
% 0.42/0.62  cnf(c84,axiom,~unisex(X115,X114)|~male(X115,X114),inference(split_conjunct,status(thm),[c83])).
% 0.42/0.62  cnf(transitivity,axiom,X110!=X112|X112!=X111|X110=X111,eq_axiom).
% 0.42/0.62  cnf(symmetry,axiom,X108!=X109|X109=X108,eq_axiom).
% 0.42/0.62  fof(ax42,axiom,(![U]:(~(?[V]:member(U,V,V)))),input).
% 0.42/0.62  fof(c61,axiom,(![U]:(![V]:~member(U,V,V))),inference(fof_nnf,status(thm),[ax42])).
% 0.42/0.62  fof(c62,axiom,(![X11]:(![X12]:~member(X11,X12,X12))),inference(variable_rename,status(thm),[c61])).
% 0.42/0.62  cnf(c63,axiom,~member(X106,X107,X107),inference(split_conjunct,status(thm),[c62])).
% 0.42/0.62  cnf(c47,negated_conjecture,actual_world(skolem0001),inference(split_conjunct,status(thm),[c46])).
% 0.42/0.62  # SZS output end Saturation
% 0.42/0.62  
% 0.42/0.62  # Initial clauses    : 110
% 0.42/0.62  # Processed clauses  : 119
% 0.42/0.62  # Factors computed   : 0
% 0.42/0.62  # Resolvents computed: 15
% 0.42/0.62  # Tautologies deleted: 2
% 0.42/0.62  # Forward subsumed   : 4
% 0.42/0.62  # Backward subsumed  : 0
% 0.42/0.62  # -------- CPU Time ---------
% 0.42/0.62  # User time          : 0.278 s
% 0.42/0.62  # System time        : 0.021 s
% 0.42/0.62  # Total time         : 0.299 s
%------------------------------------------------------------------------------