TSTP Solution File: MED010+1 by Drodi---3.6.0
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : Drodi---3.6.0
% Problem : MED010+1 : TPTP v8.1.2. Released v3.2.0.
% Transfm : none
% Format : tptp:raw
% Command : drodi -learnfrom(drodi.lrn) -timeout(%d) %s
% Computer : n019.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 : Tue Apr 30 20:28:32 EDT 2024
% Result : Theorem 9.92s 1.64s
% Output : CNFRefutation 9.92s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.12 % Problem : MED010+1 : TPTP v8.1.2. Released v3.2.0.
% 0.12/0.13 % Command : drodi -learnfrom(drodi.lrn) -timeout(%d) %s
% 0.14/0.33 % Computer : n019.cluster.edu
% 0.14/0.33 % Model : x86_64 x86_64
% 0.14/0.33 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.33 % Memory : 8042.1875MB
% 0.14/0.33 % OS : Linux 3.10.0-693.el7.x86_64
% 0.14/0.33 % CPULimit : 300
% 0.14/0.33 % WCLimit : 300
% 0.14/0.33 % DateTime : Mon Apr 29 20:35:14 EDT 2024
% 0.14/0.33 % CPUTime :
% 0.19/0.34 % Drodi V3.6.0
% 9.92/1.64 % Refutation found
% 9.92/1.64 % SZS status Theorem for theBenchmark: Theorem is valid
% 9.92/1.64 % SZS output start CNFRefutation for theBenchmark
% 9.92/1.64 fof(f1,axiom,(
% 9.92/1.64 (! [X] : ~ gt(X,X) )),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f4,axiom,(
% 9.92/1.64 (! [X0] :( ~ bcapacityne(X0)| ~ bcapacityex(X0) ) )),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f6,axiom,(
% 9.92/1.64 (! [X0] :( ~ bcapacityex(X0)| ~ bcapacitysn(X0) ) )),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f7,axiom,(
% 9.92/1.64 (! [X0] :( conditionhyper(X0)| conditionhypo(X0)| conditionnormo(X0) ) )),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f9,axiom,(
% 9.92/1.64 (! [X0] :( ~ conditionhyper(X0)| ~ conditionnormo(X0) ) )),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f10,axiom,(
% 9.92/1.64 (! [X0] :( ~ conditionhypo(X0)| ~ conditionnormo(X0) ) )),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f25,axiom,(
% 9.92/1.64 (! [X0] :( ~ s2(X0)| ~ s3(X0) ) )),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f26,axiom,(
% 9.92/1.64 (! [X0] :( (! [X1] :( ~ gt(X0,X1)=> conditionnormo(X1) ))=> ( ( (! [X1] :( ~ gt(X0,X1)=> bsecretioni(X1) ))& bcapacitysn(X0)& qilt27(X0)& (! [X1] :( gt(X0,X1)=> conditionhyper(X1) ) ))| ( (! [X1] :( ~ gt(X0,X1)=> ~ releaselg(X1) ))& bcapacitysn(X0)& ~ qilt27(X0)& (! [X1] :( gt(X0,X1)=> conditionhyper(X1) ) ))| ( ( (! [X1] :( ~ gt(X0,X1)=> ~ releaselg(X1) ))| (! [X1] :( ~ gt(X0,X1)=> uptakepg(X1) ) ))& bcapacityne(X0)& (! [X1] :( ~ gt(X0,X1)=> bsecretioni(X1) ))& (! [X1] :( gt(X0,X1)=> conditionhyper(X1) ) ))| ( (! [X1] :( ~ gt(X0,X1)=> uptakelg(X1) ))& (! [X1] :( ~ gt(X0,X1)=> uptakepg(X1) ))& bcapacityex(X0)& (! [X1] :( gt(X0,X1)=> conditionhyper(X1) ) )) ) ) )),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f33,axiom,(
% 9.92/1.64 (! [X0] :( drugi(X0)=> s3(X0) ) )),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f34,axiom,(
% 9.92/1.64 (! [X0] :( ( (! [X1] :( ~ gt(X0,X1)=> uptakelg(X1) ))| (! [X1] :( ~ gt(X0,X1)=> uptakepg(X1) ) ))=> (! [X1] :( ~ gt(X0,X1)=> drugi(X1) ) )) )),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f40,axiom,(
% 9.92/1.64 (! [X0] :( ( s2(X0)& ~ (! [X1] :( ~ gt(X0,X1)=> conditionnormo(X1) ) ))=> (? [X1] :( ~ gt(X0,X1)& s3(X1)& (! [X2] :( gt(X1,X2)=> conditionhyper(X2) ))& bcapacityex(X1) ) )) )),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f41,conjecture,(
% 9.92/1.64 ( ( s2(n0)& (! [X0] :( gt(n0,X0)=> conditionhyper(X0) ))& bcapacityex(n0) )=> (? [X0] :( ~ gt(n0,X0)& s3(X0)& (! [X1] :( gt(X0,X1)=> conditionhyper(X1) ))& bcapacityex(X0) ) )) ),
% 9.92/1.64 file('/export/starexec/sandbox2/benchmark/theBenchmark.p')).
% 9.92/1.64 fof(f42,negated_conjecture,(
% 9.92/1.64 ~(( ( s2(n0)& (! [X0] :( gt(n0,X0)=> conditionhyper(X0) ))& bcapacityex(n0) )=> (? [X0] :( ~ gt(n0,X0)& s3(X0)& (! [X1] :( gt(X0,X1)=> conditionhyper(X1) ))& bcapacityex(X0) ) )) )),
% 9.92/1.64 inference(negated_conjecture,[status(cth)],[f41])).
% 9.92/1.64 fof(f43,plain,(
% 9.92/1.64 ![X0]: (~gt(X0,X0))),
% 9.92/1.64 inference(cnf_transformation,[status(esa)],[f1])).
% 9.92/1.64 fof(f48,plain,(
% 9.92/1.64 ![X0]: (~bcapacityne(X0)|~bcapacityex(X0))),
% 9.92/1.64 inference(cnf_transformation,[status(esa)],[f4])).
% 9.92/1.64 fof(f50,plain,(
% 9.92/1.64 ![X0]: (~bcapacityex(X0)|~bcapacitysn(X0))),
% 9.92/1.64 inference(cnf_transformation,[status(esa)],[f6])).
% 9.92/1.64 fof(f51,plain,(
% 9.92/1.64 ![X0]: (conditionhyper(X0)|conditionhypo(X0)|conditionnormo(X0))),
% 9.92/1.64 inference(cnf_transformation,[status(esa)],[f7])).
% 9.92/1.64 fof(f53,plain,(
% 9.92/1.64 ![X0]: (~conditionhyper(X0)|~conditionnormo(X0))),
% 9.92/1.64 inference(cnf_transformation,[status(esa)],[f9])).
% 9.92/1.64 fof(f54,plain,(
% 9.92/1.64 ![X0]: (~conditionhypo(X0)|~conditionnormo(X0))),
% 9.92/1.64 inference(cnf_transformation,[status(esa)],[f10])).
% 9.92/1.64 fof(f102,plain,(
% 9.92/1.64 ![X0]: (~s2(X0)|~s3(X0))),
% 9.92/1.64 inference(cnf_transformation,[status(esa)],[f25])).
% 9.92/1.64 fof(f103,plain,(
% 9.92/1.64 ![X0]: ((?[X1]: (~gt(X0,X1)&~conditionnormo(X1)))|(((((((![X1]: (gt(X0,X1)|bsecretioni(X1)))&bcapacitysn(X0))&qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))|((((![X1]: (gt(X0,X1)|~releaselg(X1)))&bcapacitysn(X0))&~qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1)))))|(((((![X1]: (gt(X0,X1)|~releaselg(X1)))|(![X1]: (gt(X0,X1)|uptakepg(X1))))&bcapacityne(X0))&(![X1]: (gt(X0,X1)|bsecretioni(X1))))&(![X1]: (~gt(X0,X1)|conditionhyper(X1)))))|((((![X1]: (gt(X0,X1)|uptakelg(X1)))&(![X1]: (gt(X0,X1)|uptakepg(X1))))&bcapacityex(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))))),
% 9.92/1.65 inference(pre_NNF_transformation,[status(esa)],[f26])).
% 9.92/1.65 fof(f104,plain,(
% 9.92/1.65 ![X0,X1]: (pd0_5(X1,X0)=>(~gt(X0,X1)&~conditionnormo(X1)))),
% 9.92/1.65 introduced(predicate_definition,[f103])).
% 9.92/1.65 fof(f105,plain,(
% 9.92/1.65 ![X0]: (pd0_6(X0)=>((((((![X1]: (gt(X0,X1)|bsecretioni(X1)))&bcapacitysn(X0))&qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))|((((![X1]: (gt(X0,X1)|~releaselg(X1)))&bcapacitysn(X0))&~qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1)))))|(((((![X1]: (gt(X0,X1)|~releaselg(X1)))|(![X1]: (gt(X0,X1)|uptakepg(X1))))&bcapacityne(X0))&(![X1]: (gt(X0,X1)|bsecretioni(X1))))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))))),
% 9.92/1.65 introduced(predicate_definition,[f103])).
% 9.92/1.65 fof(f106,plain,(
% 9.92/1.65 ![X0]: ((?[X1]: pd0_5(X1,X0))|(pd0_6(X0)|((((![X1]: (gt(X0,X1)|uptakelg(X1)))&(![X1]: (gt(X0,X1)|uptakepg(X1))))&bcapacityex(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))))),
% 9.92/1.65 inference(formula_renaming,[status(thm)],[f103,f105,f104])).
% 9.92/1.65 fof(f107,plain,(
% 9.92/1.65 ![X0]: (pd0_5(sk0_7(X0),X0)|(pd0_6(X0)|((((![X1]: (gt(X0,X1)|uptakelg(X1)))&(![X1]: (gt(X0,X1)|uptakepg(X1))))&bcapacityex(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))))),
% 9.92/1.65 inference(skolemization,[status(esa)],[f106])).
% 9.92/1.65 fof(f109,plain,(
% 9.92/1.65 ![X0,X1]: (pd0_5(sk0_7(X0),X0)|pd0_6(X0)|gt(X0,X1)|uptakepg(X1))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f107])).
% 9.92/1.65 fof(f128,plain,(
% 9.92/1.65 ![X0]: (~drugi(X0)|s3(X0))),
% 9.92/1.65 inference(pre_NNF_transformation,[status(esa)],[f33])).
% 9.92/1.65 fof(f129,plain,(
% 9.92/1.65 ![X0]: (~drugi(X0)|s3(X0))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f128])).
% 9.92/1.65 fof(f130,plain,(
% 9.92/1.65 ![X0]: (((?[X1]: (~gt(X0,X1)&~uptakelg(X1)))&(?[X1]: (~gt(X0,X1)&~uptakepg(X1))))|(![X1]: (gt(X0,X1)|drugi(X1))))),
% 9.92/1.65 inference(pre_NNF_transformation,[status(esa)],[f34])).
% 9.92/1.65 fof(f131,plain,(
% 9.92/1.65 ![X0]: (((~gt(X0,sk0_8(X0))&~uptakelg(sk0_8(X0)))&(~gt(X0,sk0_9(X0))&~uptakepg(sk0_9(X0))))|(![X1]: (gt(X0,X1)|drugi(X1))))),
% 9.92/1.65 inference(skolemization,[status(esa)],[f130])).
% 9.92/1.65 fof(f134,plain,(
% 9.92/1.65 ![X0,X1]: (~gt(X0,sk0_9(X0))|gt(X0,X1)|drugi(X1))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f131])).
% 9.92/1.65 fof(f135,plain,(
% 9.92/1.65 ![X0,X1]: (~uptakepg(sk0_9(X0))|gt(X0,X1)|drugi(X1))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f131])).
% 9.92/1.65 fof(f160,plain,(
% 9.92/1.65 ![X0]: ((~s2(X0)|(![X1]: (gt(X0,X1)|conditionnormo(X1))))|(?[X1]: (((~gt(X0,X1)&s3(X1))&(![X2]: (~gt(X1,X2)|conditionhyper(X2))))&bcapacityex(X1))))),
% 9.92/1.65 inference(pre_NNF_transformation,[status(esa)],[f40])).
% 9.92/1.65 fof(f161,plain,(
% 9.92/1.65 ![X0]: ((~s2(X0)|(![X1]: (gt(X0,X1)|conditionnormo(X1))))|(((~gt(X0,sk0_14(X0))&s3(sk0_14(X0)))&(![X2]: (~gt(sk0_14(X0),X2)|conditionhyper(X2))))&bcapacityex(sk0_14(X0))))),
% 9.92/1.65 inference(skolemization,[status(esa)],[f160])).
% 9.92/1.65 fof(f162,plain,(
% 9.92/1.65 ![X0,X1]: (~s2(X0)|gt(X0,X1)|conditionnormo(X1)|~gt(X0,sk0_14(X0)))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f161])).
% 9.92/1.65 fof(f163,plain,(
% 9.92/1.65 ![X0,X1]: (~s2(X0)|gt(X0,X1)|conditionnormo(X1)|s3(sk0_14(X0)))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f161])).
% 9.92/1.65 fof(f164,plain,(
% 9.92/1.65 ![X0,X1,X2]: (~s2(X0)|gt(X0,X1)|conditionnormo(X1)|~gt(sk0_14(X0),X2)|conditionhyper(X2))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f161])).
% 9.92/1.65 fof(f165,plain,(
% 9.92/1.65 ![X0,X1]: (~s2(X0)|gt(X0,X1)|conditionnormo(X1)|bcapacityex(sk0_14(X0)))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f161])).
% 9.92/1.65 fof(f166,plain,(
% 9.92/1.65 (((s2(n0)&(![X0]: (~gt(n0,X0)|conditionhyper(X0))))&bcapacityex(n0))&(![X0]: (((gt(n0,X0)|~s3(X0))|(?[X1]: (gt(X0,X1)&~conditionhyper(X1))))|~bcapacityex(X0))))),
% 9.92/1.65 inference(pre_NNF_transformation,[status(esa)],[f42])).
% 9.92/1.65 fof(f167,plain,(
% 9.92/1.65 ((s2(n0)&(![X0]: (~gt(n0,X0)|conditionhyper(X0))))&bcapacityex(n0))&(![X0]: (((gt(n0,X0)|~s3(X0))|(gt(X0,sk0_15(X0))&~conditionhyper(sk0_15(X0))))|~bcapacityex(X0)))),
% 9.92/1.65 inference(skolemization,[status(esa)],[f166])).
% 9.92/1.65 fof(f168,plain,(
% 9.92/1.65 s2(n0)),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f167])).
% 9.92/1.65 fof(f170,plain,(
% 9.92/1.65 bcapacityex(n0)),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f167])).
% 9.92/1.65 fof(f171,plain,(
% 9.92/1.65 ![X0]: (gt(n0,X0)|~s3(X0)|gt(X0,sk0_15(X0))|~bcapacityex(X0))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f167])).
% 9.92/1.65 fof(f172,plain,(
% 9.92/1.65 ![X0]: (gt(n0,X0)|~s3(X0)|~conditionhyper(sk0_15(X0))|~bcapacityex(X0))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f167])).
% 9.92/1.65 fof(f196,plain,(
% 9.92/1.65 ![X0,X1]: (~pd0_5(X1,X0)|(~gt(X0,X1)&~conditionnormo(X1)))),
% 9.92/1.65 inference(pre_NNF_transformation,[status(esa)],[f104])).
% 9.92/1.65 fof(f197,plain,(
% 9.92/1.65 ![X0,X1]: (~pd0_5(X0,X1)|~gt(X1,X0))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f196])).
% 9.92/1.65 fof(f198,plain,(
% 9.92/1.65 ![X0,X1]: (~pd0_5(X0,X1)|~conditionnormo(X0))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f196])).
% 9.92/1.65 fof(f199,plain,(
% 9.92/1.65 ![X0]: (~pd0_6(X0)|((((((![X1]: (gt(X0,X1)|bsecretioni(X1)))&bcapacitysn(X0))&qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))|((((![X1]: (gt(X0,X1)|~releaselg(X1)))&bcapacitysn(X0))&~qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1)))))|(((((![X1]: (gt(X0,X1)|~releaselg(X1)))|(![X1]: (gt(X0,X1)|uptakepg(X1))))&bcapacityne(X0))&(![X1]: (gt(X0,X1)|bsecretioni(X1))))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))))),
% 9.92/1.65 inference(pre_NNF_transformation,[status(esa)],[f105])).
% 9.92/1.65 fof(f200,plain,(
% 9.92/1.65 ![X0]: (pd0_10(X0)=>(((((![X1]: (gt(X0,X1)|bsecretioni(X1)))&bcapacitysn(X0))&qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))|((((![X1]: (gt(X0,X1)|~releaselg(X1)))&bcapacitysn(X0))&~qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))))),
% 9.92/1.65 introduced(predicate_definition,[f199])).
% 9.92/1.65 fof(f201,plain,(
% 9.92/1.65 ![X0]: (~pd0_6(X0)|(pd0_10(X0)|(((((![X1]: (gt(X0,X1)|~releaselg(X1)))|(![X1]: (gt(X0,X1)|uptakepg(X1))))&bcapacityne(X0))&(![X1]: (gt(X0,X1)|bsecretioni(X1))))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))))),
% 9.92/1.65 inference(formula_renaming,[status(thm)],[f199,f200])).
% 9.92/1.65 fof(f203,plain,(
% 9.92/1.65 ![X0]: (~pd0_6(X0)|pd0_10(X0)|bcapacityne(X0))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f201])).
% 9.92/1.65 fof(f218,plain,(
% 9.92/1.65 ![X0]: (~pd0_10(X0)|(((((![X1]: (gt(X0,X1)|bsecretioni(X1)))&bcapacitysn(X0))&qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))|((((![X1]: (gt(X0,X1)|~releaselg(X1)))&bcapacitysn(X0))&~qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))))),
% 9.92/1.65 inference(pre_NNF_transformation,[status(esa)],[f200])).
% 9.92/1.65 fof(f219,plain,(
% 9.92/1.65 ![X0]: (pd0_11(X0)=>((((![X1]: (gt(X0,X1)|bsecretioni(X1)))&bcapacitysn(X0))&qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1)))))),
% 9.92/1.65 introduced(predicate_definition,[f218])).
% 9.92/1.65 fof(f220,plain,(
% 9.92/1.65 ![X0]: (~pd0_10(X0)|(pd0_11(X0)|((((![X1]: (gt(X0,X1)|~releaselg(X1)))&bcapacitysn(X0))&~qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1))))))),
% 9.92/1.65 inference(formula_renaming,[status(thm)],[f218,f219])).
% 9.92/1.65 fof(f222,plain,(
% 9.92/1.65 ![X0]: (~pd0_10(X0)|pd0_11(X0)|bcapacitysn(X0))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f220])).
% 9.92/1.65 fof(f225,plain,(
% 9.92/1.65 ![X0]: (~pd0_11(X0)|((((![X1]: (gt(X0,X1)|bsecretioni(X1)))&bcapacitysn(X0))&qilt27(X0))&(![X1]: (~gt(X0,X1)|conditionhyper(X1)))))),
% 9.92/1.65 inference(pre_NNF_transformation,[status(esa)],[f219])).
% 9.92/1.65 fof(f227,plain,(
% 9.92/1.65 ![X0]: (~pd0_11(X0)|bcapacitysn(X0))),
% 9.92/1.65 inference(cnf_transformation,[status(esa)],[f225])).
% 9.92/1.65 fof(f231,plain,(
% 9.92/1.65 ![X0]: (~pd0_10(X0)|bcapacitysn(X0))),
% 9.92/1.65 inference(backward_subsumption_resolution,[status(thm)],[f222,f227])).
% 9.92/1.65 fof(f240,plain,(
% 9.92/1.65 ![X0,X1,X2]: (~pd0_5(X0,X1)|~s2(X2)|gt(X2,X0)|s3(sk0_14(X2)))),
% 9.92/1.65 inference(resolution,[status(thm)],[f198,f163])).
% 9.92/1.65 fof(f249,plain,(
% 9.92/1.65 ![X0,X1,X2]: (~s2(X0)|gt(X0,sk0_7(X1))|s3(sk0_14(X0))|pd0_6(X1)|gt(X1,X2)|uptakepg(X2))),
% 9.92/1.65 inference(resolution,[status(thm)],[f240,f109])).
% 9.92/1.65 fof(f252,plain,(
% 9.92/1.65 ![X0,X1,X2,X3]: (~s2(X0)|gt(X0,sk0_7(X1))|s3(sk0_14(X0))|pd0_6(X1)|gt(X1,sk0_9(X2))|gt(X2,X3)|drugi(X3))),
% 9.92/1.65 inference(resolution,[status(thm)],[f249,f135])).
% 9.92/1.65 fof(f278,plain,(
% 9.92/1.65 ![X0,X1,X2,X3]: (~s2(X0)|gt(X0,sk0_7(X1))|s3(sk0_14(X0))|pd0_6(X1)|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3))),
% 9.92/1.65 inference(resolution,[status(thm)],[f252,f129])).
% 9.92/1.65 fof(f282,plain,(
% 9.92/1.65 ![X0,X1,X2,X3]: (~s2(X0)|gt(X0,sk0_7(X1))|s3(sk0_14(X0))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|pd0_10(X1)|bcapacityne(X1))),
% 9.92/1.65 inference(resolution,[status(thm)],[f278,f203])).
% 9.92/1.65 fof(f286,plain,(
% 9.92/1.65 ![X0,X1,X2,X3]: (~s2(X0)|gt(X0,sk0_7(X1))|s3(sk0_14(X0))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|bcapacityne(X1)|bcapacitysn(X1))),
% 9.92/1.65 inference(resolution,[status(thm)],[f282,f231])).
% 9.92/1.65 fof(f290,plain,(
% 9.92/1.65 ![X0,X1,X2,X3]: (~s2(X0)|gt(X0,sk0_7(X1))|s3(sk0_14(X0))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|bcapacityne(X1)|~bcapacityex(X1))),
% 9.92/1.65 inference(resolution,[status(thm)],[f286,f50])).
% 9.92/1.65 fof(f291,plain,(
% 9.92/1.65 ![X0,X1,X2,X3]: (~s2(X0)|gt(X0,sk0_7(X1))|s3(sk0_14(X0))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1))),
% 9.92/1.65 inference(forward_subsumption_resolution,[status(thm)],[f290,f48])).
% 9.92/1.65 fof(f296,plain,(
% 9.92/1.65 ![X0,X1,X2,X3]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(sk0_14(X0),sk0_15(sk0_14(X0)))|~bcapacityex(sk0_14(X0)))),
% 9.92/1.65 inference(resolution,[status(thm)],[f291,f171])).
% 9.92/1.65 fof(f297,plain,(
% 9.92/1.65 ![X0,X1,X2,X3]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|~conditionhyper(sk0_15(sk0_14(X0)))|~bcapacityex(sk0_14(X0)))),
% 9.92/1.65 inference(resolution,[status(thm)],[f291,f172])).
% 9.92/1.65 fof(f386,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|~bcapacityex(sk0_14(X0))|~s2(X0)|gt(X0,X4)|conditionnormo(X4)|conditionhyper(sk0_15(sk0_14(X0))))),
% 9.92/1.65 inference(resolution,[status(thm)],[f296,f164])).
% 9.92/1.65 fof(f387,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|~bcapacityex(sk0_14(X0))|gt(X0,X4)|conditionnormo(X4)|conditionhyper(sk0_15(sk0_14(X0))))),
% 9.92/1.65 inference(duplicate_literals_removal,[status(esa)],[f386])).
% 9.92/1.65 fof(f388,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,X4)|conditionnormo(X4)|conditionhyper(sk0_15(sk0_14(X0))))),
% 9.92/1.65 inference(forward_subsumption_resolution,[status(thm)],[f387,f165])).
% 9.92/1.65 fof(f393,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,X4)|conditionnormo(X4)|~s2(X0)|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X7)|s3(X7)|~bcapacityex(X5)|gt(n0,sk0_14(X0))|~bcapacityex(sk0_14(X0)))),
% 9.92/1.65 inference(resolution,[status(thm)],[f388,f297])).
% 9.92/1.65 fof(f394,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,X4)|conditionnormo(X4)|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X7)|s3(X7)|~bcapacityex(X5)|~bcapacityex(sk0_14(X0)))),
% 9.92/1.65 inference(duplicate_literals_removal,[status(esa)],[f393])).
% 9.92/1.65 fof(f395,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,X4)|conditionnormo(X4)|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X7)|s3(X7)|~bcapacityex(X5))),
% 9.92/1.65 inference(forward_subsumption_resolution,[status(thm)],[f394,f165])).
% 9.92/1.65 fof(f398,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7,X8]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,X4)|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X7)|s3(X7)|~bcapacityex(X5)|~pd0_5(X4,X8))),
% 9.92/1.65 inference(resolution,[status(thm)],[f395,f198])).
% 9.92/1.65 fof(f406,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7,X8]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,sk0_7(X4))|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X7)|s3(X7)|~bcapacityex(X5)|pd0_6(X4)|gt(X4,X8)|uptakepg(X8))),
% 9.92/1.65 inference(resolution,[status(thm)],[f398,f109])).
% 9.92/1.65 fof(f412,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7,X8,X9]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,sk0_7(X4))|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X7)|s3(X7)|~bcapacityex(X5)|pd0_6(X4)|gt(X4,sk0_9(X8))|gt(X8,X9)|drugi(X9))),
% 9.92/1.65 inference(resolution,[status(thm)],[f406,f135])).
% 9.92/1.65 fof(f429,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7,X8,X9]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,sk0_7(X4))|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X7)|s3(X7)|~bcapacityex(X5)|pd0_6(X4)|gt(X4,sk0_9(X8))|gt(X8,X9)|s3(X9))),
% 9.92/1.65 inference(resolution,[status(thm)],[f412,f129])).
% 9.92/1.65 fof(f435,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7,X8,X9]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,sk0_7(X4))|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X7)|s3(X7)|~bcapacityex(X5)|gt(X4,sk0_9(X8))|gt(X8,X9)|s3(X9)|pd0_10(X4)|bcapacityne(X4))),
% 9.92/1.65 inference(resolution,[status(thm)],[f429,f203])).
% 9.92/1.65 fof(f443,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7,X8,X9]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,sk0_7(X4))|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X7)|s3(X7)|~bcapacityex(X5)|gt(X4,sk0_9(X8))|gt(X8,X9)|s3(X9)|bcapacityne(X4)|bcapacitysn(X4))),
% 9.92/1.65 inference(resolution,[status(thm)],[f435,f231])).
% 9.92/1.65 fof(f451,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7,X8,X9]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,sk0_7(X4))|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X7)|s3(X7)|~bcapacityex(X5)|gt(X4,sk0_9(X8))|gt(X8,X9)|s3(X9)|bcapacityne(X4)|~bcapacityex(X4))),
% 9.92/1.65 inference(resolution,[status(thm)],[f443,f50])).
% 9.92/1.65 fof(f452,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7,X8,X9]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|s3(X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,sk0_7(X4))|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X7)|s3(X7)|~bcapacityex(X5)|gt(X4,sk0_9(X8))|gt(X8,X9)|s3(X9)|~bcapacityex(X4))),
% 9.92/1.65 inference(forward_subsumption_resolution,[status(thm)],[f451,f48])).
% 9.92/1.65 fof(f459,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6,X7]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,X3)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,sk0_7(X4))|gt(X0,sk0_7(X5))|gt(X5,sk0_9(X6))|gt(X6,X3)|~bcapacityex(X5)|gt(X4,sk0_9(X7))|gt(X7,X3)|~bcapacityex(X4)|~s2(X3))),
% 9.92/1.65 inference(resolution,[status(thm)],[f452,f102])).
% 9.92/1.65 fof(f486,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5,X6]: (~s2(X0)|gt(X0,sk0_7(X1))|gt(X1,sk0_9(X2))|gt(X2,n0)|~bcapacityex(X1)|gt(n0,sk0_14(X0))|gt(X0,sk0_7(X3))|gt(X0,sk0_7(X4))|gt(X4,sk0_9(X5))|gt(X5,n0)|~bcapacityex(X4)|gt(X3,sk0_9(X6))|gt(X6,n0)|~bcapacityex(X3))),
% 9.92/1.65 inference(resolution,[status(thm)],[f459,f168])).
% 9.92/1.65 fof(f498,plain,(
% 9.92/1.65 spl0_0 <=> gt(n0,sk0_7(X0))|gt(X0,sk0_9(X1))|gt(X1,n0)|~bcapacityex(X0)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f499,plain,(
% 9.92/1.65 ![X0,X1]: (gt(n0,sk0_7(X0))|gt(X0,sk0_9(X1))|gt(X1,n0)|~bcapacityex(X0)|~spl0_0)),
% 9.92/1.65 inference(component_clause,[status(thm)],[f498])).
% 9.92/1.65 fof(f501,plain,(
% 9.92/1.65 spl0_1 <=> gt(n0,sk0_14(n0))),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f502,plain,(
% 9.92/1.65 gt(n0,sk0_14(n0))|~spl0_1),
% 9.92/1.65 inference(component_clause,[status(thm)],[f501])).
% 9.92/1.65 fof(f504,plain,(
% 9.92/1.65 ![X0,X1,X2,X3,X4,X5]: (gt(n0,sk0_7(X0))|gt(X0,sk0_9(X1))|gt(X1,n0)|~bcapacityex(X0)|gt(n0,sk0_14(n0))|gt(n0,sk0_7(X2))|gt(n0,sk0_7(X3))|gt(X3,sk0_9(X4))|gt(X4,n0)|~bcapacityex(X3)|gt(X2,sk0_9(X5))|gt(X5,n0)|~bcapacityex(X2))),
% 9.92/1.65 inference(resolution,[status(thm)],[f486,f168])).
% 9.92/1.65 fof(f505,plain,(
% 9.92/1.65 spl0_0|spl0_1),
% 9.92/1.65 inference(split_clause,[status(thm)],[f504,f498,f501])).
% 9.92/1.65 fof(f529,plain,(
% 9.92/1.65 ![X0,X1]: (gt(X0,sk0_9(X1))|gt(X1,n0)|~bcapacityex(X0)|~pd0_5(sk0_7(X0),n0)|~spl0_0)),
% 9.92/1.65 inference(resolution,[status(thm)],[f499,f197])).
% 9.92/1.65 fof(f531,plain,(
% 9.92/1.65 spl0_5 <=> gt(n0,sk0_9(X0))|gt(X0,n0)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f532,plain,(
% 9.92/1.65 ![X0]: (gt(n0,sk0_9(X0))|gt(X0,n0)|~spl0_5)),
% 9.92/1.65 inference(component_clause,[status(thm)],[f531])).
% 9.92/1.65 fof(f534,plain,(
% 9.92/1.65 spl0_6 <=> bcapacityex(n0)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f536,plain,(
% 9.92/1.65 ~bcapacityex(n0)|spl0_6),
% 9.92/1.65 inference(component_clause,[status(thm)],[f534])).
% 9.92/1.65 fof(f542,plain,(
% 9.92/1.65 spl0_8 <=> pd0_6(n0)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f543,plain,(
% 9.92/1.65 pd0_6(n0)|~spl0_8),
% 9.92/1.65 inference(component_clause,[status(thm)],[f542])).
% 9.92/1.65 fof(f545,plain,(
% 9.92/1.65 spl0_9 <=> gt(n0,X1)|uptakepg(X1)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f546,plain,(
% 9.92/1.65 ![X0]: (gt(n0,X0)|uptakepg(X0)|~spl0_9)),
% 9.92/1.65 inference(component_clause,[status(thm)],[f545])).
% 9.92/1.65 fof(f548,plain,(
% 9.92/1.65 ![X0,X1]: (gt(n0,sk0_9(X0))|gt(X0,n0)|~bcapacityex(n0)|pd0_6(n0)|gt(n0,X1)|uptakepg(X1)|~spl0_0)),
% 9.92/1.65 inference(resolution,[status(thm)],[f529,f109])).
% 9.92/1.65 fof(f549,plain,(
% 9.92/1.65 spl0_5|~spl0_6|spl0_8|spl0_9|~spl0_0),
% 9.92/1.65 inference(split_clause,[status(thm)],[f548,f531,f534,f542,f545,f498])).
% 9.92/1.65 fof(f557,plain,(
% 9.92/1.65 $false|spl0_6),
% 9.92/1.65 inference(forward_subsumption_resolution,[status(thm)],[f536,f170])).
% 9.92/1.65 fof(f558,plain,(
% 9.92/1.65 spl0_6),
% 9.92/1.65 inference(contradiction_clause,[status(thm)],[f557])).
% 9.92/1.65 fof(f562,plain,(
% 9.92/1.65 spl0_11 <=> gt(n0,n0)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f563,plain,(
% 9.92/1.65 gt(n0,n0)|~spl0_11),
% 9.92/1.65 inference(component_clause,[status(thm)],[f562])).
% 9.92/1.65 fof(f565,plain,(
% 9.92/1.65 spl0_12 <=> gt(n0,X0)|drugi(X0)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f566,plain,(
% 9.92/1.65 ![X0]: (gt(n0,X0)|drugi(X0)|~spl0_12)),
% 9.92/1.65 inference(component_clause,[status(thm)],[f565])).
% 9.92/1.65 fof(f568,plain,(
% 9.92/1.65 ![X0]: (gt(n0,n0)|gt(n0,X0)|drugi(X0)|~spl0_5)),
% 9.92/1.65 inference(resolution,[status(thm)],[f532,f134])).
% 9.92/1.65 fof(f569,plain,(
% 9.92/1.65 spl0_11|spl0_12|~spl0_5),
% 9.92/1.65 inference(split_clause,[status(thm)],[f568,f562,f565,f531])).
% 9.92/1.65 fof(f579,plain,(
% 9.92/1.65 spl0_14 <=> pd0_10(n0)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f580,plain,(
% 9.92/1.65 pd0_10(n0)|~spl0_14),
% 9.92/1.65 inference(component_clause,[status(thm)],[f579])).
% 9.92/1.65 fof(f593,plain,(
% 9.92/1.65 spl0_17 <=> bcapacityne(n0)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f594,plain,(
% 9.92/1.65 bcapacityne(n0)|~spl0_17),
% 9.92/1.65 inference(component_clause,[status(thm)],[f593])).
% 9.92/1.65 fof(f596,plain,(
% 9.92/1.65 pd0_10(n0)|bcapacityne(n0)|~spl0_8),
% 9.92/1.65 inference(resolution,[status(thm)],[f543,f203])).
% 9.92/1.65 fof(f597,plain,(
% 9.92/1.65 spl0_14|spl0_17|~spl0_8),
% 9.92/1.65 inference(split_clause,[status(thm)],[f596,f579,f593,f542])).
% 9.92/1.65 fof(f598,plain,(
% 9.92/1.65 $false|~spl0_11),
% 9.92/1.65 inference(forward_subsumption_resolution,[status(thm)],[f563,f43])).
% 9.92/1.65 fof(f599,plain,(
% 9.92/1.65 ~spl0_11),
% 9.92/1.65 inference(contradiction_clause,[status(thm)],[f598])).
% 9.92/1.65 fof(f611,plain,(
% 9.92/1.65 bcapacitysn(n0)|~spl0_14),
% 9.92/1.65 inference(resolution,[status(thm)],[f580,f231])).
% 9.92/1.65 fof(f668,plain,(
% 9.92/1.65 ~bcapacityex(n0)|~spl0_17),
% 9.92/1.65 inference(resolution,[status(thm)],[f594,f48])).
% 9.92/1.65 fof(f669,plain,(
% 9.92/1.65 ~spl0_6|~spl0_17),
% 9.92/1.65 inference(split_clause,[status(thm)],[f668,f534,f593])).
% 9.92/1.65 fof(f670,plain,(
% 9.92/1.65 spl0_32 <=> gt(n0,sk0_9(X1))|gt(X1,X2)|s3(X2)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f671,plain,(
% 9.92/1.65 ![X0,X1]: (gt(n0,sk0_9(X0))|gt(X0,X1)|s3(X1)|~spl0_32)),
% 9.92/1.65 inference(component_clause,[status(thm)],[f670])).
% 9.92/1.65 fof(f719,plain,(
% 9.92/1.65 spl0_41 <=> bcapacitysn(n0)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f720,plain,(
% 9.92/1.65 bcapacitysn(n0)|~spl0_41),
% 9.92/1.65 inference(component_clause,[status(thm)],[f719])).
% 9.92/1.65 fof(f738,plain,(
% 9.92/1.65 spl0_44 <=> gt(n0,X0)|conditionnormo(X0)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f739,plain,(
% 9.92/1.65 ![X0]: (gt(n0,X0)|conditionnormo(X0)|~spl0_44)),
% 9.92/1.65 inference(component_clause,[status(thm)],[f738])).
% 9.92/1.65 fof(f773,plain,(
% 9.92/1.65 ~bcapacityex(n0)|~spl0_41),
% 9.92/1.65 inference(resolution,[status(thm)],[f720,f50])).
% 9.92/1.65 fof(f774,plain,(
% 9.92/1.65 ~spl0_6|~spl0_41),
% 9.92/1.65 inference(split_clause,[status(thm)],[f773,f534,f719])).
% 9.92/1.65 fof(f870,plain,(
% 9.92/1.65 ![X0]: (gt(n0,X0)|s3(X0)|~spl0_12)),
% 9.92/1.65 inference(resolution,[status(thm)],[f566,f129])).
% 9.92/1.65 fof(f874,plain,(
% 9.92/1.65 ![X0,X1]: (gt(n0,sk0_9(X0))|gt(X0,X1)|drugi(X1)|~spl0_9)),
% 9.92/1.65 inference(resolution,[status(thm)],[f546,f135])).
% 9.92/1.65 fof(f881,plain,(
% 9.92/1.65 ![X0]: (gt(n0,X0)|~conditionhypo(X0)|~spl0_44)),
% 9.92/1.65 inference(resolution,[status(thm)],[f739,f54])).
% 9.92/1.65 fof(f882,plain,(
% 9.92/1.65 ![X0]: (gt(n0,X0)|~conditionhyper(X0)|~spl0_44)),
% 9.92/1.65 inference(resolution,[status(thm)],[f739,f53])).
% 9.92/1.65 fof(f886,plain,(
% 9.92/1.65 ![X0]: (gt(n0,X0)|~s2(X0)|~spl0_12)),
% 9.92/1.65 inference(resolution,[status(thm)],[f870,f102])).
% 9.92/1.65 fof(f891,plain,(
% 9.92/1.65 gt(n0,n0)|~spl0_12),
% 9.92/1.65 inference(resolution,[status(thm)],[f886,f168])).
% 9.92/1.65 fof(f892,plain,(
% 9.92/1.65 spl0_11|~spl0_12),
% 9.92/1.65 inference(split_clause,[status(thm)],[f891,f562,f565])).
% 9.92/1.65 fof(f903,plain,(
% 9.92/1.65 spl0_62 <=> s2(n0)),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f905,plain,(
% 9.92/1.65 ~s2(n0)|spl0_62),
% 9.92/1.65 inference(component_clause,[status(thm)],[f903])).
% 9.92/1.65 fof(f917,plain,(
% 9.92/1.65 ![X0]: (~s2(n0)|gt(n0,X0)|conditionnormo(X0)|~spl0_1)),
% 9.92/1.65 inference(resolution,[status(thm)],[f502,f162])).
% 9.92/1.65 fof(f918,plain,(
% 9.92/1.65 ~spl0_62|spl0_44|~spl0_1),
% 9.92/1.65 inference(split_clause,[status(thm)],[f917,f903,f738,f501])).
% 9.92/1.65 fof(f928,plain,(
% 9.92/1.65 $false|spl0_62),
% 9.92/1.65 inference(forward_subsumption_resolution,[status(thm)],[f905,f168])).
% 9.92/1.65 fof(f929,plain,(
% 9.92/1.65 spl0_62),
% 9.92/1.65 inference(contradiction_clause,[status(thm)],[f928])).
% 9.92/1.65 fof(f967,plain,(
% 9.92/1.65 ![X0,X1]: (gt(n0,sk0_9(X0))|gt(X0,X1)|~s2(X1)|~spl0_32)),
% 9.92/1.65 inference(resolution,[status(thm)],[f671,f102])).
% 9.92/1.65 fof(f975,plain,(
% 9.92/1.65 spl0_67 <=> gt(n0,sk0_7(n0))),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f976,plain,(
% 9.92/1.65 gt(n0,sk0_7(n0))|~spl0_67),
% 9.92/1.65 inference(component_clause,[status(thm)],[f975])).
% 9.92/1.65 fof(f982,plain,(
% 9.92/1.65 spl0_68 <=> conditionhyper(sk0_7(n0))),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f983,plain,(
% 9.92/1.65 conditionhyper(sk0_7(n0))|~spl0_68),
% 9.92/1.65 inference(component_clause,[status(thm)],[f982])).
% 9.92/1.65 fof(f984,plain,(
% 9.92/1.65 ~conditionhyper(sk0_7(n0))|spl0_68),
% 9.92/1.65 inference(component_clause,[status(thm)],[f982])).
% 9.92/1.65 fof(f991,plain,(
% 9.92/1.65 ~pd0_5(sk0_7(n0),n0)|~spl0_67),
% 9.92/1.65 inference(resolution,[status(thm)],[f976,f197])).
% 9.92/1.65 fof(f994,plain,(
% 9.92/1.65 ![X0]: (pd0_6(n0)|gt(n0,X0)|uptakepg(X0)|~spl0_67)),
% 9.92/1.65 inference(resolution,[status(thm)],[f991,f109])).
% 9.92/1.65 fof(f995,plain,(
% 9.92/1.65 spl0_8|spl0_9|~spl0_67),
% 9.92/1.65 inference(split_clause,[status(thm)],[f994,f542,f545,f975])).
% 9.92/1.65 fof(f1000,plain,(
% 9.92/1.65 spl0_41|~spl0_14),
% 9.92/1.65 inference(split_clause,[status(thm)],[f611,f719,f579])).
% 9.92/1.65 fof(f1036,plain,(
% 9.92/1.65 ![X0]: (gt(n0,sk0_9(X0))|gt(X0,n0)|~spl0_32)),
% 9.92/1.65 inference(resolution,[status(thm)],[f967,f168])).
% 9.92/1.65 fof(f1037,plain,(
% 9.92/1.65 spl0_5|~spl0_32),
% 9.92/1.65 inference(split_clause,[status(thm)],[f1036,f531,f670])).
% 9.92/1.65 fof(f1042,plain,(
% 9.92/1.65 ![X0,X1]: (gt(n0,sk0_9(X0))|gt(X0,X1)|s3(X1)|~spl0_9)),
% 9.92/1.65 inference(resolution,[status(thm)],[f874,f129])).
% 9.92/1.65 fof(f1043,plain,(
% 9.92/1.65 spl0_32|~spl0_9),
% 9.92/1.65 inference(split_clause,[status(thm)],[f1042,f670,f545])).
% 9.92/1.65 fof(f1045,plain,(
% 9.92/1.65 gt(n0,sk0_7(n0))|~spl0_68|~spl0_44),
% 9.92/1.65 inference(resolution,[status(thm)],[f983,f882])).
% 9.92/1.65 fof(f1046,plain,(
% 9.92/1.65 spl0_67|~spl0_68|~spl0_44),
% 9.92/1.65 inference(split_clause,[status(thm)],[f1045,f975,f982,f738])).
% 9.92/1.65 fof(f1048,plain,(
% 9.92/1.65 spl0_70 <=> conditionhypo(sk0_7(n0))),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f1049,plain,(
% 9.92/1.65 conditionhypo(sk0_7(n0))|~spl0_70),
% 9.92/1.65 inference(component_clause,[status(thm)],[f1048])).
% 9.92/1.65 fof(f1051,plain,(
% 9.92/1.65 spl0_71 <=> conditionnormo(sk0_7(n0))),
% 9.92/1.65 introduced(split_symbol_definition)).
% 9.92/1.65 fof(f1052,plain,(
% 9.92/1.65 conditionnormo(sk0_7(n0))|~spl0_71),
% 9.92/1.65 inference(component_clause,[status(thm)],[f1051])).
% 9.92/1.65 fof(f1054,plain,(
% 9.92/1.65 conditionhypo(sk0_7(n0))|conditionnormo(sk0_7(n0))|spl0_68),
% 9.92/1.65 inference(resolution,[status(thm)],[f984,f51])).
% 9.92/1.65 fof(f1055,plain,(
% 9.92/1.65 spl0_70|spl0_71|spl0_68),
% 9.92/1.65 inference(split_clause,[status(thm)],[f1054,f1048,f1051,f982])).
% 9.92/1.65 fof(f1056,plain,(
% 9.92/1.65 gt(n0,sk0_7(n0))|~spl0_70|~spl0_44),
% 9.92/1.65 inference(resolution,[status(thm)],[f1049,f881])).
% 9.92/1.65 fof(f1057,plain,(
% 9.92/1.65 spl0_67|~spl0_70|~spl0_44),
% 9.92/1.65 inference(split_clause,[status(thm)],[f1056,f975,f1048,f738])).
% 9.92/1.65 fof(f1058,plain,(
% 9.92/1.65 ![X0]: (~pd0_5(sk0_7(n0),X0)|~spl0_71)),
% 9.92/1.65 inference(resolution,[status(thm)],[f1052,f198])).
% 9.92/1.65 fof(f1065,plain,(
% 9.92/1.65 ![X0]: (pd0_6(n0)|gt(n0,X0)|uptakepg(X0)|~spl0_71)),
% 9.92/1.65 inference(resolution,[status(thm)],[f1058,f109])).
% 9.92/1.65 fof(f1066,plain,(
% 9.92/1.65 spl0_8|spl0_9|~spl0_71),
% 9.92/1.65 inference(split_clause,[status(thm)],[f1065,f542,f545,f1051])).
% 9.92/1.65 fof(f1071,plain,(
% 9.92/1.65 $false),
% 9.92/1.65 inference(sat_refutation,[status(thm)],[f505,f549,f558,f569,f597,f599,f669,f774,f892,f918,f929,f995,f1000,f1037,f1043,f1046,f1055,f1057,f1066])).
% 9.92/1.65 % SZS output end CNFRefutation for theBenchmark.p
% 9.92/1.67 % Elapsed time: 1.329093 seconds
% 9.92/1.67 % CPU time: 10.363934 seconds
% 9.92/1.67 % Total memory used: 43.746 MB
% 9.92/1.67 % Net memory used: 42.412 MB
%------------------------------------------------------------------------------