TSTP Solution File: SWW923+1 by Nitpick---2016

%------------------------------------------------------------------------------
% File     : Nitpick---2016
% Problem  : SWW923+1 : TPTP v7.3.0. Released v7.3.0.
% Transfm  : none
% Format   : tptp
% Command  : isabelle tptp_nitpick %d %s

% Computer : n190.star.cs.uiowa.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2609 0 2.40GHz
% Memory   : 32218.5MB
% OS       : Linux 3.10.0-862.11.6.el7.x86_64
% CPULimit : 300s
% DateTime : Wed Feb 27 15:18:59 EST 2019

% Result   : CounterSatisfiable 56.80s
% Output   : FiniteModel 56.80s
% Verified : 
% SZS Type : None (Parsing solution fails)
% Syntax   : Number of formulae    : 0

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.04  % Problem  : SWW923+1 : TPTP v7.3.0. Released v7.3.0.
% 0.00/0.05  % Command  : isabelle tptp_nitpick %d %s
% 0.04/0.26  % Computer : n190.star.cs.uiowa.edu
% 0.04/0.26  % Model    : x86_64 x86_64
% 0.04/0.26  % CPU      : Intel(R) Xeon(R) CPU E5-2609 0 @ 2.40GHz
% 0.04/0.26  % Memory   : 32218.5MB
% 0.04/0.26  % OS       : Linux 3.10.0-862.11.6.el7.x86_64
% 0.04/0.26  % CPULimit : 300
% 0.04/0.26  % DateTime : Tue Feb 26 05:17:44 CST 2019
% 0.04/0.26  % CPUTime  : 
% 16.16/5.02  Building HOL-TPTP ...
% 45.32/22.94  Finished HOL-TPTP (0:00:16 elapsed time, 0:00:27 cpu time, factor 1.70)
% 45.40/23.05  0:00:21 elapsed time, 0:00:27 cpu time, factor 1.28
% 56.80/33.40  Nitpicking formula...
% 56.80/33.40  Timestamp: 05:18:14
% 56.80/33.40  Using SAT solver "Lingeling_JNI" The following solvers are configured:
% 56.80/33.40  "Lingeling_JNI", "CryptoMiniSat_JNI", "MiniSat_JNI", "SAT4J", "SAT4J_Light"
% 56.80/33.40  Batch 1 of 20: Trying 5 scopes:
% 56.80/33.40    card TPTP_Interpret.ind = 1
% 56.80/33.40    card TPTP_Interpret.ind = 2
% 56.80/33.40    card TPTP_Interpret.ind = 3
% 56.80/33.40    card TPTP_Interpret.ind = 4
% 56.80/33.40    card TPTP_Interpret.ind = 5
% 56.80/33.40  % SZS status CounterSatisfiable % SZS output start FiniteModel
% 56.80/33.40  Nitpick found a counterexample for card TPTP_Interpret.ind = 2:
% 56.80/33.40  
% 56.80/33.40    Skolem constants:
% 56.80/33.40      V_27av_27 = i1
% 56.80/33.40      V_27l_27 = i1
% 56.80/33.40      V_27s_27 = i1
% 56.80/33.40    Constants:
% 56.80/33.40      bnd_cF__00 = i1
% 56.80/33.40      bnd_cT__00 = i2
% 56.80/33.40      bnd_c_27const_2ecfHeapsBase_2eARRAY_27__02 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)(i1 := i1, i2 := i1),
% 56.80/33.40         i2 := (\<lambda>x. _)(i1 := i1, i2 := i1))
% 56.80/33.40      bnd_c_27const_2ecfHeapsBase_2eMem_27__02 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)(i1 := i2, i2 := i2),
% 56.80/33.40         i2 := (\<lambda>x. _)(i1 := i1, i2 := i2))
% 56.80/33.40      bnd_c_27const_2ecfHeapsBase_2ecell_27__02 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)(i1 := i2, i2 := i2),
% 56.80/33.40         i2 := (\<lambda>x. _)(i1 := i2, i2 := i2))
% 56.80/33.40      bnd_c_27const_2epred__set_2eEMPTY_27__00 = i1
% 56.80/33.40      bnd_c_27const_2epred__set_2eINSERT_27__02 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)(i1 := i2, i2 := i1),
% 56.80/33.40         i2 := (\<lambda>x. _)(i1 := i1, i2 := i1))
% 56.80/33.40      bnd_c_27const_2esemanticPrimitives_2eClosure_27__03 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)
% 56.80/33.40           (i1 := (\<lambda>x. _)(i1 := i2, i2 := i2),
% 56.80/33.40            i2 := (\<lambda>x. _)(i1 := i2, i2 := i2)),
% 56.80/33.40         i2 := (\<lambda>x. _)
% 56.80/33.40           (i1 := (\<lambda>x. _)(i1 := i1, i2 := i2),
% 56.80/33.40            i2 := (\<lambda>x. _)(i1 := i2, i2 := i1)))
% 56.80/33.40      bnd_c_27const_2esemanticPrimitives_2eConv_27__02 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)(i1 := i2, i2 := i2),
% 56.80/33.40         i2 := (\<lambda>x. _)(i1 := i1, i2 := i2))
% 56.80/33.40      bnd_c_27const_2esemanticPrimitives_2eLitv_27__01 =
% 56.80/33.40        (\<lambda>x. _)(i1 := i2, i2 := i1)
% 56.80/33.40      bnd_c_27const_2esemanticPrimitives_2eLoc_27__01 =
% 56.80/33.40        (\<lambda>x. _)(i1 := i2, i2 := i2)
% 56.80/33.40      bnd_c_27const_2esemanticPrimitives_2eRecclosure_27__03 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)
% 56.80/33.40           (i1 := (\<lambda>x. _)(i1 := i2, i2 := i2),
% 56.80/33.40            i2 := (\<lambda>x. _)(i1 := i2, i2 := i2)),
% 56.80/33.40         i2 := (\<lambda>x. _)
% 56.80/33.40           (i1 := (\<lambda>x. _)(i1 := i1, i2 := i2),
% 56.80/33.40            i2 := (\<lambda>x. _)(i1 := i1, i2 := i2)))
% 56.80/33.40      bnd_c_27const_2esemanticPrimitives_2eVarray_27__01 =
% 56.80/33.40        (\<lambda>x. _)(i1 := i1, i2 := i2)
% 56.80/33.40      bnd_c_27const_2esemanticPrimitives_2eVectorv_27__01 =
% 56.80/33.40        (\<lambda>x. _)(i1 := i1, i2 := i2)
% 56.80/33.40      bnd_c_27const_2eset__sep_2eSEP__EXISTS_27__01 =
% 56.80/33.40        (\<lambda>x. _)(i1 := i2, i2 := i1)
% 56.80/33.40      bnd_c_27const_2eset__sep_2eSTAR_27__02 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)(i1 := i2, i2 := i1),
% 56.80/33.40         i2 := (\<lambda>x. _)(i1 := i1, i2 := i1))
% 56.80/33.40      bnd_c_27const_2eset__sep_2econd_27__01 =
% 56.80/33.40        (\<lambda>x. _)(i1 := i2, i2 := i1)
% 56.80/33.40      bnd_c_27const_2eset__sep_2eone_27__01 =
% 56.80/33.40        (\<lambda>x. _)(i1 := i2, i2 := i2)
% 56.80/33.40      bnd_c_27type_2east_2eexp_27__00 = i1
% 56.80/33.40      bnd_c_27type_2east_2elit_27__00 = i1
% 56.80/33.40      bnd_c_27type_2ecfHeapsBase_2eheap__part_27__00 = i2
% 56.80/33.40      bnd_c_27type_2elist_2elist_27__01 = (\<lambda>x. _)(i1 := i1, i2 := i2)
% 56.80/33.40      bnd_c_27type_2enum_2enum_27__00 = i1
% 56.80/33.40      bnd_c_27type_2eoption_2eoption_27__01 =
% 56.80/33.40        (\<lambda>x. _)(i1 := i1, i2 := i2)
% 56.80/33.40      bnd_c_27type_2epair_2eprod_27__02 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)(i1 := i2, i2 := i2),
% 56.80/33.40         i2 := (\<lambda>x. _)(i1 := i2, i2 := i1))
% 56.80/33.40      bnd_c_27type_2esemanticPrimitives_2esem__env_27__01 =
% 56.80/33.40        (\<lambda>x. _)(i1 := i2, i2 := i1)
% 56.80/33.40      bnd_c_27type_2esemanticPrimitives_2estore__v_27__01 =
% 56.80/33.40        (\<lambda>x. _)(i1 := i2, i2 := i2)
% 56.80/33.40      bnd_c_27type_2esemanticPrimitives_2etid__or__exn_27__00 = i2
% 56.80/33.40      bnd_c_27type_2esemanticPrimitives_2ev_27__00 = i2
% 56.80/33.40      bnd_c_27type_2estring_2echar_27__00 = i2
% 56.80/33.40      bnd_cbool__00 = i2
% 56.80/33.40      bnd_cfun__02 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)(i1 := i1, i2 := i2),
% 56.80/33.40         i2 := (\<lambda>x. _)(i1 := i1, i2 := i2))
% 56.80/33.40      bnd_chapp__02 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)(i1 := i1, i2 := i2),
% 56.80/33.40         i2 := (\<lambda>x. _)(i1 := i1, i2 := i1))
% 56.80/33.40      bnd_p__01 = (\<lambda>x. _)(i1 := True, i2 := False)
% 56.80/33.40      bnd_s__02 =
% 56.80/33.40        (\<lambda>x. _)
% 56.80/33.40        (i1 := (\<lambda>x. _)(i1 := i2, i2 := i2),
% 56.80/33.40         i2 := (\<lambda>x. _)(i1 := i2, i2 := i1))
% 56.80/33.40  % SZS output end FiniteModel
% 56.80/33.40  Total time: 3.5 s
%------------------------------------------------------------------------------