TSTP Solution File: MED008+1 by SInE---0.4
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- Process Solution
%------------------------------------------------------------------------------
% File : SInE---0.4
% Problem : MED008+1 : TPTP v5.0.0. Released v3.2.0.
% Transfm : none
% Format : tptp:raw
% Command : Source/sine.py -e eprover -t %d %s
% Computer : art09.cs.miami.edu
% Model : i686 i686
% CPU : Intel(R) Pentium(R) 4 CPU 2.80GHz @ 2793MHz
% Memory : 2018MB
% OS : Linux 2.6.26.8-57.fc8
% CPULimit : 300s
% DateTime : Sat Dec 25 20:59:43 EST 2010
% Result : Theorem 185.44s
% Output : CNFRefutation 185.44s
% Verified :
% SZS Type : Refutation
% Derivation depth : 40
% Number of leaves : 10
% Syntax : Number of formulae : 104 ( 12 unt; 0 def)
% Number of atoms : 935 ( 0 equ)
% Maximal formula atoms : 400 ( 8 avg)
% Number of connectives : 1175 ( 344 ~; 580 |; 185 &)
% ( 0 <=>; 66 =>; 0 <=; 0 <~>)
% Maximal formula depth : 77 ( 6 avg)
% Maximal term depth : 2 ( 1 avg)
% Number of predicates : 16 ( 15 usr; 1 prp; 0-2 aty)
% Number of functors : 4 ( 4 usr; 1 con; 0-1 aty)
% Number of variables : 237 ( 4 sgn 154 !; 6 ?)
% Comments :
%------------------------------------------------------------------------------
fof(5,axiom,
! [X1] :
( ~ conditionhyper(X1)
| ~ conditionnormo(X1) ),
file('/tmp/tmpjwQCSL/sel_MED008+1.p_4',xorcondition3) ).
fof(13,axiom,
! [X1] :
( ~ s1(X1)
| ~ s3(X1) ),
file('/tmp/tmpjwQCSL/sel_MED008+1.p_4',xorstep6) ).
fof(15,axiom,
! [X1,X2] :
( ~ gt(X1,X2)
=> ( uptakelg(X2)
=> ~ releaselg(X2) ) ),
file('/tmp/tmpjwQCSL/sel_MED008+1.p_4',liver_glucose) ).
fof(18,axiom,
! [X1] :
( ( ! [X2] :
( ~ gt(X1,X2)
=> uptakelg(X2) )
| ! [X2] :
( ~ gt(X1,X2)
=> uptakepg(X2) ) )
=> ! [X2] :
( ~ gt(X1,X2)
=> drugi(X2) ) ),
file('/tmp/tmpjwQCSL/sel_MED008+1.p_4',insulin_completion) ).
fof(21,axiom,
! [X1,X2] :
( ~ gt(X1,X2)
=> ( ~ releaselg(X2)
=> uptakelg(X2) ) ),
file('/tmp/tmpjwQCSL/sel_MED008+1.p_4',uptake_completion) ).
fof(24,axiom,
! [X1] :
( ! [X2] :
( ~ gt(X1,X2)
=> conditionnormo(X2) )
=> ( ( ! [X2] :
( ~ gt(X1,X2)
=> bsecretioni(X2) )
& bcapacitysn(X1)
& qilt27(X1)
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) )
| ( ! [X2] :
( ~ gt(X1,X2)
=> ~ releaselg(X2) )
& bcapacitysn(X1)
& ~ qilt27(X1)
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) )
| ( ( ! [X2] :
( ~ gt(X1,X2)
=> ~ releaselg(X2) )
| ! [X2] :
( ~ gt(X1,X2)
=> uptakepg(X2) ) )
& bcapacityne(X1)
& ! [X2] :
( ~ gt(X1,X2)
=> bsecretioni(X2) )
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) )
| ( ! [X2] :
( ~ gt(X1,X2)
=> uptakelg(X2) )
& ! [X2] :
( ~ gt(X1,X2)
=> uptakepg(X2) )
& bcapacityex(X1)
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) ) ) ),
file('/tmp/tmpjwQCSL/sel_MED008+1.p_4',normo) ).
fof(28,axiom,
! [X4] : ~ gt(X4,X4),
file('/tmp/tmpjwQCSL/sel_MED008+1.p_4',irreflexivity_gt) ).
fof(29,axiom,
! [X1] :
( drugi(X1)
=> s3(X1) ),
file('/tmp/tmpjwQCSL/sel_MED008+1.p_4',insulincomp) ).
fof(35,conjecture,
( ( s1(n0)
& ! [X1] :
( gt(n0,X1)
=> conditionhyper(X1) )
& ~ bcapacitysn(n0)
& ~ qilt27(n0) )
=> ~ ! [X1] :
( ~ gt(n0,X1)
=> conditionnormo(X1) ) ),
file('/tmp/tmpjwQCSL/sel_MED008+1.p_4',unsuccessfuls1_qige27) ).
fof(36,negated_conjecture,
~ ( ( s1(n0)
& ! [X1] :
( gt(n0,X1)
=> conditionhyper(X1) )
& ~ bcapacitysn(n0)
& ~ qilt27(n0) )
=> ~ ! [X1] :
( ~ gt(n0,X1)
=> conditionnormo(X1) ) ),
inference(assume_negation,[status(cth)],[35]) ).
fof(41,plain,
! [X1] :
( ~ conditionhyper(X1)
| ~ conditionnormo(X1) ),
inference(fof_simplification,[status(thm)],[5,theory(equality)]) ).
fof(47,plain,
! [X1] :
( ~ s1(X1)
| ~ s3(X1) ),
inference(fof_simplification,[status(thm)],[13,theory(equality)]) ).
fof(49,plain,
! [X1,X2] :
( ~ gt(X1,X2)
=> ( uptakelg(X2)
=> ~ releaselg(X2) ) ),
inference(fof_simplification,[status(thm)],[15,theory(equality)]) ).
fof(50,plain,
! [X1] :
( ( ! [X2] :
( ~ gt(X1,X2)
=> uptakelg(X2) )
| ! [X2] :
( ~ gt(X1,X2)
=> uptakepg(X2) ) )
=> ! [X2] :
( ~ gt(X1,X2)
=> drugi(X2) ) ),
inference(fof_simplification,[status(thm)],[18,theory(equality)]) ).
fof(52,plain,
! [X1,X2] :
( ~ gt(X1,X2)
=> ( ~ releaselg(X2)
=> uptakelg(X2) ) ),
inference(fof_simplification,[status(thm)],[21,theory(equality)]) ).
fof(55,plain,
! [X1] :
( ! [X2] :
( ~ gt(X1,X2)
=> conditionnormo(X2) )
=> ( ( ! [X2] :
( ~ gt(X1,X2)
=> bsecretioni(X2) )
& bcapacitysn(X1)
& qilt27(X1)
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) )
| ( ! [X2] :
( ~ gt(X1,X2)
=> ~ releaselg(X2) )
& bcapacitysn(X1)
& ~ qilt27(X1)
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) )
| ( ( ! [X2] :
( ~ gt(X1,X2)
=> ~ releaselg(X2) )
| ! [X2] :
( ~ gt(X1,X2)
=> uptakepg(X2) ) )
& bcapacityne(X1)
& ! [X2] :
( ~ gt(X1,X2)
=> bsecretioni(X2) )
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) )
| ( ! [X2] :
( ~ gt(X1,X2)
=> uptakelg(X2) )
& ! [X2] :
( ~ gt(X1,X2)
=> uptakepg(X2) )
& bcapacityex(X1)
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) ) ) ),
inference(fof_simplification,[status(thm)],[24,theory(equality)]) ).
fof(59,plain,
! [X4] : ~ gt(X4,X4),
inference(fof_simplification,[status(thm)],[28,theory(equality)]) ).
fof(64,negated_conjecture,
~ ( ( s1(n0)
& ! [X1] :
( gt(n0,X1)
=> conditionhyper(X1) )
& ~ bcapacitysn(n0)
& ~ qilt27(n0) )
=> ~ ! [X1] :
( ~ gt(n0,X1)
=> conditionnormo(X1) ) ),
inference(fof_simplification,[status(thm)],[36,theory(equality)]) ).
fof(65,plain,
! [X1] :
( epred1_1(X1)
=> ( ( ! [X2] :
( ~ gt(X1,X2)
=> bsecretioni(X2) )
& bcapacitysn(X1)
& qilt27(X1)
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) )
| ( ! [X2] :
( ~ gt(X1,X2)
=> ~ releaselg(X2) )
& bcapacitysn(X1)
& ~ qilt27(X1)
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) )
| ( ( ! [X2] :
( ~ gt(X1,X2)
=> ~ releaselg(X2) )
| ! [X2] :
( ~ gt(X1,X2)
=> uptakepg(X2) ) )
& bcapacityne(X1)
& ! [X2] :
( ~ gt(X1,X2)
=> bsecretioni(X2) )
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) ) ) ),
introduced(definition) ).
fof(66,plain,
! [X1] :
( ! [X2] :
( ~ gt(X1,X2)
=> conditionnormo(X2) )
=> ( epred1_1(X1)
| ( ! [X2] :
( ~ gt(X1,X2)
=> uptakelg(X2) )
& ! [X2] :
( ~ gt(X1,X2)
=> uptakepg(X2) )
& bcapacityex(X1)
& ! [X2] :
( gt(X1,X2)
=> conditionhyper(X2) ) ) ) ),
inference(apply_def,[status(esa)],[55,65,theory(equality)]) ).
fof(100,plain,
! [X2] :
( ~ conditionhyper(X2)
| ~ conditionnormo(X2) ),
inference(variable_rename,[status(thm)],[41]) ).
cnf(101,plain,
( ~ conditionnormo(X1)
| ~ conditionhyper(X1) ),
inference(split_conjunct,[status(thm)],[100]) ).
fof(140,plain,
! [X2] :
( ~ s1(X2)
| ~ s3(X2) ),
inference(variable_rename,[status(thm)],[47]) ).
cnf(141,plain,
( ~ s3(X1)
| ~ s1(X1) ),
inference(split_conjunct,[status(thm)],[140]) ).
fof(144,plain,
! [X1,X2] :
( gt(X1,X2)
| ~ uptakelg(X2)
| ~ releaselg(X2) ),
inference(fof_nnf,[status(thm)],[49]) ).
fof(145,plain,
! [X3,X4] :
( gt(X3,X4)
| ~ uptakelg(X4)
| ~ releaselg(X4) ),
inference(variable_rename,[status(thm)],[144]) ).
cnf(146,plain,
( gt(X2,X1)
| ~ releaselg(X1)
| ~ uptakelg(X1) ),
inference(split_conjunct,[status(thm)],[145]) ).
fof(157,plain,
! [X1] :
( ( ? [X2] :
( ~ gt(X1,X2)
& ~ uptakelg(X2) )
& ? [X2] :
( ~ gt(X1,X2)
& ~ uptakepg(X2) ) )
| ! [X2] :
( gt(X1,X2)
| drugi(X2) ) ),
inference(fof_nnf,[status(thm)],[50]) ).
fof(158,plain,
! [X3] :
( ( ? [X4] :
( ~ gt(X3,X4)
& ~ uptakelg(X4) )
& ? [X5] :
( ~ gt(X3,X5)
& ~ uptakepg(X5) ) )
| ! [X6] :
( gt(X3,X6)
| drugi(X6) ) ),
inference(variable_rename,[status(thm)],[157]) ).
fof(159,plain,
! [X3] :
( ( ~ gt(X3,esk12_1(X3))
& ~ uptakelg(esk12_1(X3))
& ~ gt(X3,esk13_1(X3))
& ~ uptakepg(esk13_1(X3)) )
| ! [X6] :
( gt(X3,X6)
| drugi(X6) ) ),
inference(skolemize,[status(esa)],[158]) ).
fof(160,plain,
! [X3,X6] :
( gt(X3,X6)
| drugi(X6)
| ( ~ gt(X3,esk12_1(X3))
& ~ uptakelg(esk12_1(X3))
& ~ gt(X3,esk13_1(X3))
& ~ uptakepg(esk13_1(X3)) ) ),
inference(shift_quantors,[status(thm)],[159]) ).
fof(161,plain,
! [X3,X6] :
( ( ~ gt(X3,esk12_1(X3))
| gt(X3,X6)
| drugi(X6) )
& ( ~ uptakelg(esk12_1(X3))
| gt(X3,X6)
| drugi(X6) )
& ( ~ gt(X3,esk13_1(X3))
| gt(X3,X6)
| drugi(X6) )
& ( ~ uptakepg(esk13_1(X3))
| gt(X3,X6)
| drugi(X6) ) ),
inference(distribute,[status(thm)],[160]) ).
cnf(162,plain,
( drugi(X1)
| gt(X2,X1)
| ~ uptakepg(esk13_1(X2)) ),
inference(split_conjunct,[status(thm)],[161]) ).
cnf(163,plain,
( drugi(X1)
| gt(X2,X1)
| ~ gt(X2,esk13_1(X2)) ),
inference(split_conjunct,[status(thm)],[161]) ).
cnf(164,plain,
( drugi(X1)
| gt(X2,X1)
| ~ uptakelg(esk12_1(X2)) ),
inference(split_conjunct,[status(thm)],[161]) ).
cnf(165,plain,
( drugi(X1)
| gt(X2,X1)
| ~ gt(X2,esk12_1(X2)) ),
inference(split_conjunct,[status(thm)],[161]) ).
fof(176,plain,
! [X1,X2] :
( gt(X1,X2)
| releaselg(X2)
| uptakelg(X2) ),
inference(fof_nnf,[status(thm)],[52]) ).
fof(177,plain,
! [X3,X4] :
( gt(X3,X4)
| releaselg(X4)
| uptakelg(X4) ),
inference(variable_rename,[status(thm)],[176]) ).
cnf(178,plain,
( uptakelg(X1)
| releaselg(X1)
| gt(X2,X1) ),
inference(split_conjunct,[status(thm)],[177]) ).
fof(184,plain,
! [X1] :
( ? [X2] :
( ~ gt(X1,X2)
& ~ conditionnormo(X2) )
| epred1_1(X1)
| ( ! [X2] :
( gt(X1,X2)
| uptakelg(X2) )
& ! [X2] :
( gt(X1,X2)
| uptakepg(X2) )
& bcapacityex(X1)
& ! [X2] :
( ~ gt(X1,X2)
| conditionhyper(X2) ) ) ),
inference(fof_nnf,[status(thm)],[66]) ).
fof(185,plain,
! [X3] :
( ? [X4] :
( ~ gt(X3,X4)
& ~ conditionnormo(X4) )
| epred1_1(X3)
| ( ! [X5] :
( gt(X3,X5)
| uptakelg(X5) )
& ! [X6] :
( gt(X3,X6)
| uptakepg(X6) )
& bcapacityex(X3)
& ! [X7] :
( ~ gt(X3,X7)
| conditionhyper(X7) ) ) ),
inference(variable_rename,[status(thm)],[184]) ).
fof(186,plain,
! [X3] :
( ( ~ gt(X3,esk15_1(X3))
& ~ conditionnormo(esk15_1(X3)) )
| epred1_1(X3)
| ( ! [X5] :
( gt(X3,X5)
| uptakelg(X5) )
& ! [X6] :
( gt(X3,X6)
| uptakepg(X6) )
& bcapacityex(X3)
& ! [X7] :
( ~ gt(X3,X7)
| conditionhyper(X7) ) ) ),
inference(skolemize,[status(esa)],[185]) ).
fof(187,plain,
! [X3,X5,X6,X7] :
( ( ( ~ gt(X3,X7)
| conditionhyper(X7) )
& ( gt(X3,X6)
| uptakepg(X6) )
& ( gt(X3,X5)
| uptakelg(X5) )
& bcapacityex(X3) )
| epred1_1(X3)
| ( ~ gt(X3,esk15_1(X3))
& ~ conditionnormo(esk15_1(X3)) ) ),
inference(shift_quantors,[status(thm)],[186]) ).
fof(188,plain,
! [X3,X5,X6,X7] :
( ( ~ gt(X3,esk15_1(X3))
| ~ gt(X3,X7)
| conditionhyper(X7)
| epred1_1(X3) )
& ( ~ conditionnormo(esk15_1(X3))
| ~ gt(X3,X7)
| conditionhyper(X7)
| epred1_1(X3) )
& ( ~ gt(X3,esk15_1(X3))
| gt(X3,X6)
| uptakepg(X6)
| epred1_1(X3) )
& ( ~ conditionnormo(esk15_1(X3))
| gt(X3,X6)
| uptakepg(X6)
| epred1_1(X3) )
& ( ~ gt(X3,esk15_1(X3))
| gt(X3,X5)
| uptakelg(X5)
| epred1_1(X3) )
& ( ~ conditionnormo(esk15_1(X3))
| gt(X3,X5)
| uptakelg(X5)
| epred1_1(X3) )
& ( ~ gt(X3,esk15_1(X3))
| bcapacityex(X3)
| epred1_1(X3) )
& ( ~ conditionnormo(esk15_1(X3))
| bcapacityex(X3)
| epred1_1(X3) ) ),
inference(distribute,[status(thm)],[187]) ).
cnf(191,plain,
( epred1_1(X1)
| uptakelg(X2)
| gt(X1,X2)
| ~ conditionnormo(esk15_1(X1)) ),
inference(split_conjunct,[status(thm)],[188]) ).
cnf(192,plain,
( epred1_1(X1)
| uptakelg(X2)
| gt(X1,X2)
| ~ gt(X1,esk15_1(X1)) ),
inference(split_conjunct,[status(thm)],[188]) ).
cnf(195,plain,
( epred1_1(X1)
| conditionhyper(X2)
| ~ gt(X1,X2)
| ~ conditionnormo(esk15_1(X1)) ),
inference(split_conjunct,[status(thm)],[188]) ).
fof(206,plain,
! [X5] : ~ gt(X5,X5),
inference(variable_rename,[status(thm)],[59]) ).
cnf(207,plain,
~ gt(X1,X1),
inference(split_conjunct,[status(thm)],[206]) ).
fof(208,plain,
! [X1] :
( ~ drugi(X1)
| s3(X1) ),
inference(fof_nnf,[status(thm)],[29]) ).
fof(209,plain,
! [X2] :
( ~ drugi(X2)
| s3(X2) ),
inference(variable_rename,[status(thm)],[208]) ).
cnf(210,plain,
( s3(X1)
| ~ drugi(X1) ),
inference(split_conjunct,[status(thm)],[209]) ).
fof(255,negated_conjecture,
( s1(n0)
& ! [X1] :
( ~ gt(n0,X1)
| conditionhyper(X1) )
& ~ bcapacitysn(n0)
& ~ qilt27(n0)
& ! [X1] :
( gt(n0,X1)
| conditionnormo(X1) ) ),
inference(fof_nnf,[status(thm)],[64]) ).
fof(256,negated_conjecture,
( s1(n0)
& ! [X2] :
( ~ gt(n0,X2)
| conditionhyper(X2) )
& ~ bcapacitysn(n0)
& ~ qilt27(n0)
& ! [X3] :
( gt(n0,X3)
| conditionnormo(X3) ) ),
inference(variable_rename,[status(thm)],[255]) ).
fof(257,negated_conjecture,
! [X2,X3] :
( ( gt(n0,X3)
| conditionnormo(X3) )
& ( ~ gt(n0,X2)
| conditionhyper(X2) )
& s1(n0)
& ~ bcapacitysn(n0)
& ~ qilt27(n0) ),
inference(shift_quantors,[status(thm)],[256]) ).
cnf(259,negated_conjecture,
~ bcapacitysn(n0),
inference(split_conjunct,[status(thm)],[257]) ).
cnf(260,negated_conjecture,
s1(n0),
inference(split_conjunct,[status(thm)],[257]) ).
cnf(261,negated_conjecture,
( conditionhyper(X1)
| ~ gt(n0,X1) ),
inference(split_conjunct,[status(thm)],[257]) ).
cnf(262,negated_conjecture,
( conditionnormo(X1)
| gt(n0,X1) ),
inference(split_conjunct,[status(thm)],[257]) ).
fof(263,plain,
! [X1] :
( ~ epred1_1(X1)
| ( ! [X2] :
( gt(X1,X2)
| bsecretioni(X2) )
& bcapacitysn(X1)
& qilt27(X1)
& ! [X2] :
( ~ gt(X1,X2)
| conditionhyper(X2) ) )
| ( ! [X2] :
( gt(X1,X2)
| ~ releaselg(X2) )
& bcapacitysn(X1)
& ~ qilt27(X1)
& ! [X2] :
( ~ gt(X1,X2)
| conditionhyper(X2) ) )
| ( ( ! [X2] :
( gt(X1,X2)
| ~ releaselg(X2) )
| ! [X2] :
( gt(X1,X2)
| uptakepg(X2) ) )
& bcapacityne(X1)
& ! [X2] :
( gt(X1,X2)
| bsecretioni(X2) )
& ! [X2] :
( ~ gt(X1,X2)
| conditionhyper(X2) ) ) ),
inference(fof_nnf,[status(thm)],[65]) ).
fof(264,plain,
! [X3] :
( ~ epred1_1(X3)
| ( ! [X4] :
( gt(X3,X4)
| bsecretioni(X4) )
& bcapacitysn(X3)
& qilt27(X3)
& ! [X5] :
( ~ gt(X3,X5)
| conditionhyper(X5) ) )
| ( ! [X6] :
( gt(X3,X6)
| ~ releaselg(X6) )
& bcapacitysn(X3)
& ~ qilt27(X3)
& ! [X7] :
( ~ gt(X3,X7)
| conditionhyper(X7) ) )
| ( ( ! [X8] :
( gt(X3,X8)
| ~ releaselg(X8) )
| ! [X9] :
( gt(X3,X9)
| uptakepg(X9) ) )
& bcapacityne(X3)
& ! [X10] :
( gt(X3,X10)
| bsecretioni(X10) )
& ! [X11] :
( ~ gt(X3,X11)
| conditionhyper(X11) ) ) ),
inference(variable_rename,[status(thm)],[263]) ).
fof(265,plain,
! [X3,X4,X5,X6,X7,X8,X9,X10,X11] :
( ( ( ~ gt(X3,X11)
| conditionhyper(X11) )
& ( gt(X3,X10)
| bsecretioni(X10) )
& ( gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8) )
& bcapacityne(X3) )
| ( ( ~ gt(X3,X7)
| conditionhyper(X7) )
& ( gt(X3,X6)
| ~ releaselg(X6) )
& bcapacitysn(X3)
& ~ qilt27(X3) )
| ( ( ~ gt(X3,X5)
| conditionhyper(X5) )
& ( gt(X3,X4)
| bsecretioni(X4) )
& bcapacitysn(X3)
& qilt27(X3) )
| ~ epred1_1(X3) ),
inference(shift_quantors,[status(thm)],[264]) ).
fof(266,plain,
! [X3,X4,X5,X6,X7,X8,X9,X10,X11] :
( ( ~ gt(X3,X5)
| conditionhyper(X5)
| ~ gt(X3,X7)
| conditionhyper(X7)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| ~ gt(X3,X7)
| conditionhyper(X7)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| ~ gt(X3,X7)
| conditionhyper(X7)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| ~ gt(X3,X7)
| conditionhyper(X7)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| gt(X3,X6)
| ~ releaselg(X6)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| gt(X3,X6)
| ~ releaselg(X6)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| gt(X3,X6)
| ~ releaselg(X6)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| gt(X3,X6)
| ~ releaselg(X6)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| bcapacitysn(X3)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| bcapacitysn(X3)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| bcapacitysn(X3)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| bcapacitysn(X3)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| ~ qilt27(X3)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| ~ qilt27(X3)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| ~ qilt27(X3)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| ~ qilt27(X3)
| ~ gt(X3,X11)
| conditionhyper(X11)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| ~ gt(X3,X7)
| conditionhyper(X7)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| ~ gt(X3,X7)
| conditionhyper(X7)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| ~ gt(X3,X7)
| conditionhyper(X7)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| ~ gt(X3,X7)
| conditionhyper(X7)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| gt(X3,X6)
| ~ releaselg(X6)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| gt(X3,X6)
| ~ releaselg(X6)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| gt(X3,X6)
| ~ releaselg(X6)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| gt(X3,X6)
| ~ releaselg(X6)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| bcapacitysn(X3)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| bcapacitysn(X3)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| bcapacitysn(X3)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| bcapacitysn(X3)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| ~ qilt27(X3)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| ~ qilt27(X3)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| ~ qilt27(X3)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| ~ qilt27(X3)
| gt(X3,X10)
| bsecretioni(X10)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| ~ gt(X3,X7)
| conditionhyper(X7)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| ~ gt(X3,X7)
| conditionhyper(X7)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| ~ gt(X3,X7)
| conditionhyper(X7)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| ~ gt(X3,X7)
| conditionhyper(X7)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| gt(X3,X6)
| ~ releaselg(X6)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| gt(X3,X6)
| ~ releaselg(X6)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| gt(X3,X6)
| ~ releaselg(X6)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| gt(X3,X6)
| ~ releaselg(X6)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| bcapacitysn(X3)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| bcapacitysn(X3)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| bcapacitysn(X3)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| bcapacitysn(X3)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| ~ qilt27(X3)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| ~ qilt27(X3)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| ~ qilt27(X3)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| ~ qilt27(X3)
| gt(X3,X9)
| uptakepg(X9)
| gt(X3,X8)
| ~ releaselg(X8)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| ~ gt(X3,X7)
| conditionhyper(X7)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| ~ gt(X3,X7)
| conditionhyper(X7)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| ~ gt(X3,X7)
| conditionhyper(X7)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| ~ gt(X3,X7)
| conditionhyper(X7)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| gt(X3,X6)
| ~ releaselg(X6)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| gt(X3,X6)
| ~ releaselg(X6)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| gt(X3,X6)
| ~ releaselg(X6)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| gt(X3,X6)
| ~ releaselg(X6)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| bcapacitysn(X3)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| bcapacitysn(X3)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| bcapacitysn(X3)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| bcapacitysn(X3)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( ~ gt(X3,X5)
| conditionhyper(X5)
| ~ qilt27(X3)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( gt(X3,X4)
| bsecretioni(X4)
| ~ qilt27(X3)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( bcapacitysn(X3)
| ~ qilt27(X3)
| bcapacityne(X3)
| ~ epred1_1(X3) )
& ( qilt27(X3)
| ~ qilt27(X3)
| bcapacityne(X3)
| ~ epred1_1(X3) ) ),
inference(distribute,[status(thm)],[265]) ).
cnf(288,plain,
( gt(X1,X2)
| uptakepg(X3)
| gt(X1,X3)
| bcapacitysn(X1)
| bcapacitysn(X1)
| ~ epred1_1(X1)
| ~ releaselg(X2) ),
inference(split_conjunct,[status(thm)],[266]) ).
cnf(331,negated_conjecture,
( gt(n0,X1)
| ~ conditionhyper(X1) ),
inference(spm,[status(thm)],[101,262,theory(equality)]) ).
cnf(336,plain,
( ~ s1(X1)
| ~ drugi(X1) ),
inference(spm,[status(thm)],[141,210,theory(equality)]) ).
cnf(344,plain,
( releaselg(X1)
| uptakelg(X1) ),
inference(spm,[status(thm)],[207,178,theory(equality)]) ).
cnf(380,negated_conjecture,
( epred1_1(X1)
| conditionhyper(X2)
| gt(n0,esk15_1(X1))
| ~ gt(X1,X2) ),
inference(spm,[status(thm)],[195,262,theory(equality)]) ).
cnf(410,negated_conjecture,
( epred1_1(X1)
| uptakelg(X2)
| gt(X1,X2)
| gt(n0,esk15_1(X1)) ),
inference(spm,[status(thm)],[191,262,theory(equality)]) ).
cnf(551,plain,
( drugi(X1)
| gt(X2,X1)
| releaselg(esk12_1(X2)) ),
inference(spm,[status(thm)],[164,344,theory(equality)]) ).
cnf(602,plain,
( bcapacitysn(X1)
| uptakepg(X2)
| gt(X1,esk12_1(X3))
| gt(X1,X2)
| drugi(X4)
| gt(X3,X4)
| ~ epred1_1(X1) ),
inference(spm,[status(thm)],[288,551,theory(equality)]) ).
cnf(626,plain,
( releaselg(esk12_1(X2))
| gt(X2,X1)
| ~ s1(X1) ),
inference(spm,[status(thm)],[336,551,theory(equality)]) ).
cnf(644,negated_conjecture,
( releaselg(esk12_1(X1))
| gt(X1,n0) ),
inference(spm,[status(thm)],[626,260,theory(equality)]) ).
cnf(1064,negated_conjecture,
( epred1_1(X1)
| conditionhyper(X2)
| gt(n0,esk15_1(X1))
| uptakelg(X2) ),
inference(spm,[status(thm)],[380,410,theory(equality)]) ).
cnf(1081,negated_conjecture,
( epred1_1(n0)
| uptakelg(X1)
| gt(n0,X1)
| uptakelg(X2)
| conditionhyper(X2) ),
inference(spm,[status(thm)],[192,1064,theory(equality)]) ).
cnf(1259,negated_conjecture,
( epred1_1(n0)
| uptakelg(X3)
| conditionhyper(X3)
| gt(n0,X3) ),
inference(ef,[status(thm)],[1081,theory(equality)]) ).
cnf(1269,negated_conjecture,
( epred1_1(n0)
| uptakelg(X3)
| conditionhyper(X3) ),
inference(csr,[status(thm)],[1259,261]) ).
cnf(1270,negated_conjecture,
( gt(X1,X2)
| epred1_1(n0)
| conditionhyper(X2)
| ~ releaselg(X2) ),
inference(spm,[status(thm)],[146,1269,theory(equality)]) ).
cnf(1400,negated_conjecture,
( epred1_1(n0)
| conditionhyper(esk12_1(X1))
| gt(X2,esk12_1(X1))
| gt(X1,n0) ),
inference(spm,[status(thm)],[1270,644,theory(equality)]) ).
cnf(1401,negated_conjecture,
( epred1_1(n0)
| conditionhyper(esk12_1(X1))
| gt(X1,n0) ),
inference(spm,[status(thm)],[207,1400,theory(equality)]) ).
cnf(1424,negated_conjecture,
( gt(n0,esk12_1(X1))
| epred1_1(n0)
| gt(X1,n0) ),
inference(spm,[status(thm)],[331,1401,theory(equality)]) ).
cnf(1427,negated_conjecture,
( drugi(X1)
| gt(n0,X1)
| epred1_1(n0)
| gt(n0,n0) ),
inference(spm,[status(thm)],[165,1424,theory(equality)]) ).
cnf(1437,negated_conjecture,
( drugi(X1)
| gt(n0,X1)
| epred1_1(n0) ),
inference(sr,[status(thm)],[1427,207,theory(equality)]) ).
cnf(1440,negated_conjecture,
( epred1_1(n0)
| gt(n0,X1)
| ~ s1(X1) ),
inference(spm,[status(thm)],[336,1437,theory(equality)]) ).
cnf(1442,negated_conjecture,
( epred1_1(n0)
| gt(n0,n0) ),
inference(spm,[status(thm)],[1440,260,theory(equality)]) ).
cnf(1443,negated_conjecture,
epred1_1(n0),
inference(sr,[status(thm)],[1442,207,theory(equality)]) ).
cnf(10660,negated_conjecture,
( drugi(X1)
| bcapacitysn(n0)
| uptakepg(X2)
| gt(n0,esk12_1(X3))
| gt(X3,X1)
| gt(n0,X2) ),
inference(spm,[status(thm)],[602,1443,theory(equality)]) ).
cnf(10662,negated_conjecture,
( drugi(X1)
| uptakepg(X2)
| gt(n0,esk12_1(X3))
| gt(X3,X1)
| gt(n0,X2) ),
inference(sr,[status(thm)],[10660,259,theory(equality)]) ).
cnf(10663,negated_conjecture,
( drugi(X1)
| uptakepg(X2)
| gt(n0,esk12_1(X1))
| gt(n0,X2) ),
inference(spm,[status(thm)],[207,10662,theory(equality)]) ).
cnf(10841,negated_conjecture,
( drugi(X1)
| gt(n0,X1)
| drugi(n0)
| uptakepg(X2)
| gt(n0,X2) ),
inference(spm,[status(thm)],[165,10663,theory(equality)]) ).
cnf(10896,negated_conjecture,
( drugi(n0)
| uptakepg(X3)
| gt(n0,X3)
| gt(n0,n0) ),
inference(ef,[status(thm)],[10841,theory(equality)]) ).
cnf(10913,negated_conjecture,
( drugi(n0)
| uptakepg(X3)
| gt(n0,X3) ),
inference(sr,[status(thm)],[10896,207,theory(equality)]) ).
cnf(10920,negated_conjecture,
( uptakepg(X1)
| gt(n0,X1)
| ~ s1(n0) ),
inference(spm,[status(thm)],[336,10913,theory(equality)]) ).
cnf(10928,negated_conjecture,
( uptakepg(X1)
| gt(n0,X1)
| $false ),
inference(rw,[status(thm)],[10920,260,theory(equality)]) ).
cnf(10929,negated_conjecture,
( uptakepg(X1)
| gt(n0,X1) ),
inference(cn,[status(thm)],[10928,theory(equality)]) ).
cnf(10930,negated_conjecture,
( drugi(X1)
| gt(X2,X1)
| gt(n0,esk13_1(X2)) ),
inference(spm,[status(thm)],[162,10929,theory(equality)]) ).
cnf(10939,negated_conjecture,
( drugi(X1)
| gt(n0,esk13_1(X1)) ),
inference(spm,[status(thm)],[207,10930,theory(equality)]) ).
cnf(11043,negated_conjecture,
( drugi(X1)
| gt(n0,X1)
| drugi(n0) ),
inference(spm,[status(thm)],[163,10939,theory(equality)]) ).
cnf(11079,negated_conjecture,
( drugi(n0)
| gt(n0,n0) ),
inference(ef,[status(thm)],[11043,theory(equality)]) ).
cnf(11087,negated_conjecture,
drugi(n0),
inference(sr,[status(thm)],[11079,207,theory(equality)]) ).
cnf(11092,negated_conjecture,
~ s1(n0),
inference(spm,[status(thm)],[336,11087,theory(equality)]) ).
cnf(11095,negated_conjecture,
$false,
inference(rw,[status(thm)],[11092,260,theory(equality)]) ).
cnf(11096,negated_conjecture,
$false,
inference(cn,[status(thm)],[11095,theory(equality)]) ).
cnf(11097,negated_conjecture,
$false,
11096,
[proof] ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% % SZS status Started for /home/graph/tptp/TPTP/Problems/MED/MED008+1.p
% --creating new selector for [MED001+0.ax, MED001+1.ax]
% eprover: CPU time limit exceeded, terminating
% eprover: CPU time limit exceeded, terminating
% -running prover on /tmp/tmpjwQCSL/sel_MED008+1.p_1 with time limit 29
% -prover status ResourceOut
% -running prover on /tmp/tmpjwQCSL/sel_MED008+1.p_2 with time limit 81
% -prover status ResourceOut
% --creating new selector for [MED001+0.ax, MED001+1.ax]
% eprover: CPU time limit exceeded, terminating
% -running prover on /tmp/tmpjwQCSL/sel_MED008+1.p_3 with time limit 74
% -prover status ResourceOut
% --creating new selector for [MED001+0.ax, MED001+1.ax]
% -running prover on /tmp/tmpjwQCSL/sel_MED008+1.p_4 with time limit 55
% -prover status Theorem
% Problem MED008+1.p solved in phase 3.
% % SZS status Theorem for /home/graph/tptp/TPTP/Problems/MED/MED008+1.p
% % SZS status Ended for /home/graph/tptp/TPTP/Problems/MED/MED008+1.p
% Solved 1 out of 1.
% # Problem is unsatisfiable (or provable), constructing proof object
% # SZS status Theorem
% # SZS output start CNFRefutation.
% See solution above
% # SZS output end CNFRefutation
%
%------------------------------------------------------------------------------