%------------------------------------------------------------------------------
% File     : Refute---2015
% Problem  : GEO121+1 : TPTP v6.4.0. Released v2.4.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : isabelle tptp_refute %d %s

% Computer : n158.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 3.10.0-327.10.1.el7.x86_64
% CPULimit : 300s
% DateTime : Tue Apr 12 14:35:03 EDT 2016

% Result   : Timeout 300.03s
% Output   : None 
% Verified : 
% SZS Type : None (Parsing solution fails)
% Syntax   : Number of formulae    : 0

% Comments : 
%------------------------------------------------------------------------------
%----No solution output by system
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.03  % Problem  : GEO121+1 : TPTP v6.4.0. Released v2.4.0.
% 0.00/0.04  % Command  : isabelle tptp_refute %d %s
% 0.03/0.23  % Computer : n158.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 3.10.0-327.10.1.el7.x86_64
% 0.03/0.23  % CPULimit : 300
% 0.03/0.23  % DateTime : Sat Apr  9 13:13:39 CDT 2016
% 0.03/0.24  % CPUTime  : 
% 6.31/6.03  > val it = (): unit
% 6.51/6.25  Trying to find a model that refutes: bnd_end_point P (bnd_underlying_curve O) -->
% 6.51/6.25  bnd_start_point P O | bnd_finish_point P O
% 7.10/6.84  Unfolded term: [| ALL C O.
% 7.10/6.84        (C = bnd_underlying_curve O) =
% 7.10/6.84        (ALL P. bnd_incident_o P O = bnd_incident_c P C);
% 7.10/6.84     ALL O1 O2.
% 7.10/6.84        (ALL P Q. bnd_ordered_by O1 P Q = bnd_ordered_by O2 P Q) --> O1 = O2;
% 7.10/6.84     ALL P Q C.
% 7.10/6.84        ((bnd_open C & ~ P = Q) & bnd_incident_c P C) & bnd_incident_c Q C -->
% 7.10/6.84        (EX O. (ALL R. bnd_incident_o R O = bnd_incident_c R C) &
% 7.10/6.84               bnd_ordered_by O P Q);
% 7.10/6.84     ALL O. EX P. bnd_start_point P O;
% 7.10/6.84     ALL P Q R O.
% 7.10/6.84        bnd_between_o O P Q R =
% 7.10/6.84        (EX C. (ALL P. bnd_incident_o P O = bnd_incident_c P C) &
% 7.10/6.84               bnd_between_c C P Q R);
% 7.10/6.84     ALL O.
% 7.10/6.84        EX C. bnd_open C & (ALL P. bnd_incident_o P O = bnd_incident_c P C);
% 7.10/6.84     ALL O P Q.
% 7.10/6.84        bnd_ordered_by O P Q --> bnd_incident_o P O & bnd_incident_o Q O;
% 7.10/6.84     ALL P O.
% 7.10/6.84        bnd_finish_point P O =
% 7.10/6.84        (bnd_incident_o P O &
% 7.10/6.84         (ALL Q. ~ P = Q & bnd_incident_o Q O --> bnd_ordered_by O Q P));
% 7.10/6.84     ALL P O.
% 7.10/6.84        bnd_start_point P O =
% 7.10/6.84        (bnd_incident_o P O &
% 7.10/6.84         (ALL Q. ~ P = Q & bnd_incident_o Q O --> bnd_ordered_by O P Q));
% 7.10/6.84     ALL O P Q R.
% 7.10/6.84        bnd_between_o O P Q R =
% 7.10/6.84        (bnd_ordered_by O P Q & bnd_ordered_by O Q R |
% 7.10/6.84         bnd_ordered_by O R Q & bnd_ordered_by O Q P);
% 7.10/6.84     ALL C P Q R.
% 7.10/6.84        bnd_between_c C P Q R =
% 7.10/6.84        (~ P = R &
% 7.10/6.84         (EX Cpp.
% 7.10/6.84             ((bnd_part_of Cpp C & bnd_end_point P Cpp) &
% 7.10/6.84              bnd_end_point R Cpp) &
% 7.10/6.84             bnd_inner_point Q Cpp));
% 7.10/6.84     ALL C C1. (ALL P. bnd_incident_c P C = bnd_incident_c P C1) --> C = C1;
% 7.10/6.84     ALL C1 C2. (EX P. bnd_meet P C1 C2) --> (EX C. C = bnd_sum C1 C2);
% 7.10/6.84     ALL C C1 C2 P.
% 7.10/6.84        (bnd_closed C & bnd_meet P C1 C2) & C = bnd_sum C1 C2 -->
% 7.10/6.84        (ALL Q. bnd_end_point Q C1 --> bnd_meet Q C1 C2);
% 7.10/6.84     ALL C P. bnd_end_point P C --> (EX Q. bnd_end_point Q C & ~ P = Q);
% 7.10/6.84     ALL C P Q R.
% 7.10/6.84        (bnd_end_point P C & bnd_end_point Q C) & bnd_end_point R C -->
% 7.10/6.84        (P = Q | P = R) | Q = R;
% 7.10/6.84     ALL C P.
% 7.10/6.84        bnd_inner_point P C -->
% 7.10/6.84        (EX C1 C2. bnd_meet P C1 C2 & C = bnd_sum C1 C2);
% 7.10/6.84     ALL C. EX P. bnd_inner_point P C;
% 7.10/6.84     ALL C C1 C2 C3.
% 7.10/6.84        ((bnd_part_of C1 C & bnd_part_of C2 C) & bnd_part_of C3 C) &
% 7.10/6.84        (EX P. (bnd_end_point P C1 & bnd_end_point P C2) &
% 7.10/6.84               bnd_end_point P C3) -->
% 7.10/6.84        ((((bnd_part_of C2 C3 | bnd_part_of C3 C2) | bnd_part_of C1 C2) |
% 7.10/6.84          bnd_part_of C2 C1) |
% 7.10/6.84         bnd_part_of C1 C3) |
% 7.10/6.84        bnd_part_of C3 C1;
% 7.10/6.84     ALL C C1. bnd_part_of C1 C & ~ C1 = C --> bnd_open C1;
% 7.10/6.84     ALL C. bnd_open C = (EX P. bnd_end_point P C);
% 7.10/6.84     ALL C. bnd_closed C = (~ (EX P. bnd_end_point P C));
% 7.10/6.84     ALL P C C1.
% 7.10/6.84        bnd_meet P C C1 =
% 7.10/6.84        ((bnd_incident_c P C & bnd_incident_c P C1) &
% 7.10/6.84         (ALL Q.
% 7.10/6.84             bnd_incident_c Q C & bnd_incident_c Q C1 -->
% 7.10/6.84             bnd_end_point Q C & bnd_end_point Q C1));
% 7.10/6.84     ALL P C.
% 7.10/6.84        bnd_inner_point P C = (bnd_incident_c P C & ~ bnd_end_point P C);
% 7.10/6.84     ALL P C.
% 7.10/6.84        bnd_end_point P C =
% 7.10/6.84        (bnd_incident_c P C &
% 7.10/6.84         (ALL C1 C2.
% 7.10/6.84             ((bnd_part_of C1 C & bnd_part_of C2 C) & bnd_incident_c P C1) &
% 7.10/6.84             bnd_incident_c P C2 -->
% 7.10/6.84             bnd_part_of C1 C2 | bnd_part_of C2 C1));
% 7.10/6.84     ALL C C1 C2.
% 7.10/6.84        (C = bnd_sum C1 C2) =
% 7.10/6.84        (ALL Q.
% 7.10/6.84            bnd_incident_c Q C = (bnd_incident_c Q C1 | bnd_incident_c Q C2));
% 7.10/6.84     ALL C C1.
% 7.10/6.84        bnd_part_of C1 C =
% 7.10/6.84        (ALL P. bnd_incident_c P C1 --> bnd_incident_c P C) |]
% 7.10/6.84  ==> bnd_end_point P (bnd_underlying_curve O) -->
% 7.10/6.84      bnd_start_point P O | bnd_finish_point P O
% 7.10/6.84  Adding axioms...
% 7.10/6.85  Typedef.type_definition_def
% 11.51/11.21   ...done.
% 11.51/11.29  Ground types: ?'b, TPTP_Interpret.ind
% 11.51/11.29  Translating term (sizes: 1, 1) ...
% 14.41/14.10  Invoking SAT solver...
% 14.41/14.10  No model exists.
% 14.41/14.10  Translating term (sizes: 2, 1) ...
% 17.94/17.66  Invoking SAT solver...
% 17.94/17.66  No model exists.
% 17.94/17.66  Translating term (sizes: 1, 2) ...
% 45.28/45.00  Invoking SAT solver...
% 45.39/45.01  No model exists.
% 45.39/45.01  Translating term (sizes: 3, 1) ...
% 51.29/50.96  Invoking SAT solver...
% 51.29/50.96  No model exists.
% 51.29/50.96  Translating term (sizes: 2, 2) ...
% 86.39/85.99  Invoking SAT solver...
% 86.49/86.00  No model exists.
% 86.49/86.00  Translating term (sizes: 1, 3) ...
% 236.89/235.66  Invoking SAT solver...
% 237.10/235.88  No model exists.
% 237.10/235.88  Translating term (sizes: 4, 1) ...
% 250.32/248.97  Invoking SAT solver...
% 250.32/248.97  No model exists.
% 250.32/248.97  Translating term (sizes: 3, 2) ...
% 300.03/298.14  /export/starexec/sandbox/solver/lib/scripts/run-polyml-5.5.2: line 82:  7412 CPU time limit exceeded (core dumped) "$ISABELLE_HOME/lib/scripts/feeder" -p -h "$MLTEXT" -t "$MLEXIT" $FEEDER_OPTS
% 300.03/298.14        7413                       (core dumped) | { read FPID; "$POLY" -q -i $ML_OPTIONS; RC="$?"; kill -TERM "$FPID"; exit "$RC"; }
% 300.03/298.15  /export/starexec/sandbox/solver/src/HOL/TPTP/lib/Tools/tptp_refute: line 26:  7358 Exit 152                "$ISABELLE_PROCESS" -q -e "use_thy \"/tmp/$SCRATCH\"; exit 1;" HOL-TPTP
% 300.03/298.15        7359 CPU time limit exceeded (core dumped) | grep --line-buffered -v "^###\|^PROOF FAILED for depth\|^Failure node\|inferences so far.  Searching to depth\|^val \|^Loading theory\|^Warning-The type of\|^   monotype.$"
%------------------------------------------------------------------------------