TSTP Solution File: LCL677+1.015 by Nitpick---2016
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- Process Solution
%------------------------------------------------------------------------------
% File : Nitpick---2016
% Problem : LCL677+1.015 : TPTP v6.4.0. Released v4.0.0.
% Transfm : none
% Format : tptp:raw
% Command : isabelle tptp_nitpick %d %s
% Computer : n083.star.cs.uiowa.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2609 0 2.40GHz
% Memory : 32218.75MB
% OS : Linux 3.10.0-327.36.3.el7.x86_64
% CPULimit : 300s
% DateTime : Tue Jan 17 19:33:44 EST 2017
% Result : CounterSatisfiable 29.41s
% Output : FiniteModel 29.41s
% Verified :
% SZS Type : None (Parsing solution fails)
% Syntax : Number of formulae : 0
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.03 % Problem : LCL677+1.015 : TPTP v6.4.0. Released v4.0.0.
% 0.00/0.04 % Command : isabelle tptp_nitpick %d %s
% 0.03/0.23 % Computer : n083.star.cs.uiowa.edu
% 0.03/0.23 % Model : x86_64 x86_64
% 0.03/0.23 % CPU : Intel(R) Xeon(R) CPU E5-2609 0 @ 2.40GHz
% 0.03/0.23 % Memory : 32218.75MB
% 0.03/0.23 % OS : Linux 3.10.0-327.36.3.el7.x86_64
% 0.03/0.23 % CPULimit : 300
% 0.03/0.23 % DateTime : Sat Jan 14 14:43:03 CST 2017
% 0.03/0.23 % CPUTime :
% 29.41/13.62 Nitpicking formula...
% 29.41/13.62 Timestamp: 14:43:11
% 29.41/13.62 Using SAT solver "Lingeling_JNI" The following solvers are configured:
% 29.41/13.62 "Lingeling_JNI", "CryptoMiniSat_JNI", "MiniSat_JNI", "SAT4J", "SAT4J_Light"
% 29.41/13.62 Batch 1 of 20: Trying 5 scopes:
% 29.41/13.62 card TPTP_Interpret.ind = 1
% 29.41/13.62 card TPTP_Interpret.ind = 2
% 29.41/13.62 card TPTP_Interpret.ind = 3
% 29.41/13.62 card TPTP_Interpret.ind = 4
% 29.41/13.62 card TPTP_Interpret.ind = 5
% 29.41/13.62 % SZS status CounterSatisfiable % SZS output start FiniteModel
% 29.41/13.62 Nitpick found a counterexample for card TPTP_Interpret.ind = 2:
% 29.41/13.62
% 29.41/13.62 Skolem constants:
% 29.41/13.62 X = i1
% 29.41/13.62 \<lambda>Y X Ya. X =
% 29.41/13.62 (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)(i1 := i2, i2 := i2),
% 29.41/13.62 i2 := (\<lambda>x. _)(i1 := i2, i2 := i2)),
% 29.41/13.62 i2 := (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)(i1 := i2, i2 := i2),
% 29.41/13.62 i2 := (\<lambda>x. _)(i1 := i2, i2 := i2)))
% 29.41/13.62 \<lambda>Y. X = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 \<lambda>Y. X = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i1, i2 := i1)
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 \<lambda>X Y. X =
% 29.41/13.62 (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)(i1 := i2, i2 := i2),
% 29.41/13.62 i2 := (\<lambda>x. _)(i1 := i2, i2 := i2))
% 29.41/13.62 \<lambda>X Y. X =
% 29.41/13.62 (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)(i1 := i1, i2 := i2),
% 29.41/13.62 i2 := (\<lambda>x. _)(i1 := i1, i2 := i2))
% 29.41/13.62 \<lambda>X Y. X =
% 29.41/13.62 (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)(i1 := i2, i2 := i2),
% 29.41/13.62 i2 := (\<lambda>x. _)(i1 := i2, i2 := i2))
% 29.41/13.62 X = i2
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 X = i2
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 X = i2
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 X = i2
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 X = i2
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 X = i2
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>X. X = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 X = i2
% 29.41/13.62 X = i2
% 29.41/13.62 X = i2
% 29.41/13.62 X = i2
% 29.41/13.62 \<lambda>Y. X = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i1
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i1
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i1
% 29.41/13.62 \<lambda>Y X Ya. Y =
% 29.41/13.62 (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)(i1 := i1, i2 := i1),
% 29.41/13.62 i2 := (\<lambda>x. _)(i1 := i1, i2 := i1)),
% 29.41/13.62 i2 := (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)(i1 := i1, i2 := i1),
% 29.41/13.62 i2 := (\<lambda>x. _)(i1 := i1, i2 := i1)))
% 29.41/13.62 \<lambda>Y. Y = (\<lambda>x. _)(i1 := i1, i2 := i1)
% 29.41/13.62 Y = i1
% 29.41/13.62 Y = i1
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 \<lambda>X Y. Y =
% 29.41/13.62 (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)(i1 := i1, i2 := i1),
% 29.41/13.62 i2 := (\<lambda>x. _)(i1 := i1, i2 := i1))
% 29.41/13.62 \<lambda>X Y. Y =
% 29.41/13.62 (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)(i1 := i1, i2 := i1),
% 29.41/13.62 i2 := (\<lambda>x. _)(i1 := i1, i2 := i1))
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 Y = i2
% 29.41/13.62 Y = i2
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 29.41/13.62 Y = i2
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 Y = i1
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 Y = i1
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 Y = i1
% 29.41/13.62 \<lambda>X. Y = (\<lambda>x. _)(i1 := i2, i2 := i2)
% 29.41/13.62 Constants:
% 29.41/13.62 bnd_p1 = (\<lambda>x. _)(i1 := False, i2 := True)
% 29.41/13.62 bnd_p2 = (\<lambda>x. _)(i1 := False, i2 := True)
% 29.41/13.62 bnd_p3 = (\<lambda>x. _)(i1 := False, i2 := True)
% 29.41/13.62 bnd_p4 = (\<lambda>x. _)(i1 := True, i2 := False)
% 29.41/13.62 bnd_r1 =
% 29.41/13.62 (\<lambda>x. _)
% 29.41/13.62 (i1 := (\<lambda>x. _)(i1 := True, i2 := True),
% 29.41/13.62 i2 := (\<lambda>x. _)(i1 := False, i2 := True))
% 29.41/13.62 % SZS output end FiniteModel
% 29.41/13.62 Total time: 4.8 s
%------------------------------------------------------------------------------