TSTP Solution File: GEO230+3 by Crossbow---0.1

View Problem - Process Solution 
%------------------------------------------------------------------------------
% File     : Crossbow---0.1
% Problem  : GEO230+3 : TPTP v8.1.0. Released v4.0.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : do_Crossbow---0.1 %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  : 600s
% DateTime : Sat Jul 16 02:57:47 EDT 2022

% Result   : CounterSatisfiable 5.16s 5.43s
% Output   : FiniteModel 5.16s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.10/0.13  % Problem    : GEO230+3 : TPTP v8.1.0. Released v4.0.0.
% 0.10/0.13  % Command    : do_Crossbow---0.1 %s
% 0.12/0.35  % Computer : n019.cluster.edu
% 0.12/0.35  % Model    : x86_64 x86_64
% 0.12/0.35  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.35  % Memory   : 8042.1875MB
% 0.12/0.35  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.12/0.35  % CPULimit   : 300
% 0.12/0.35  % WCLimit    : 600
% 0.12/0.35  % DateTime   : Sat Jun 18 15:34:39 EDT 2022
% 0.12/0.35  % CPUTime    : 
% 0.12/0.35  /export/starexec/sandbox/solver/bin
% 0.12/0.35  crossbow.opt
% 0.12/0.35  do_Crossbow---0.1
% 0.12/0.35  eprover
% 0.12/0.35  runsolver
% 0.12/0.35  starexec_run_Crossbow---0.1
% 5.16/5.43  % SZS status CounterSatisfiable for theBenchmark.p
% 5.16/5.43  % SZS output start FiniteModel for theBenchmark.p
% 5.16/5.43  % domain size: 2
% 5.16/5.43  fof(interp, fi_domain, ![X] : (X = 0 | X = 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~apart_point_and_line(0, 0) &
% 5.16/5.43    ~apart_point_and_line(0, 1) &
% 5.16/5.43    ~apart_point_and_line(1, 0) &
% 5.16/5.43    ~apart_point_and_line(1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~before_on_line(0, 0, 0) & ~before_on_line(0, 0, 1) &
% 5.16/5.43    ~before_on_line(0, 1, 0) &
% 5.16/5.43    ~before_on_line(0, 1, 1) &
% 5.16/5.43    ~before_on_line(1, 0, 0) &
% 5.16/5.43    ~before_on_line(1, 0, 1) &
% 5.16/5.43    ~before_on_line(1, 1, 0) &
% 5.16/5.43    ~before_on_line(1, 1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~between_on_line(0, 0, 0, 0) &
% 5.16/5.43    ~between_on_line(0, 0, 0, 1) &
% 5.16/5.43    ~between_on_line(0, 0, 1, 0) &
% 5.16/5.43    ~between_on_line(0, 0, 1, 1) &
% 5.16/5.43    ~between_on_line(0, 1, 0, 0) &
% 5.16/5.43    ~between_on_line(0, 1, 0, 1) &
% 5.16/5.43    ~between_on_line(0, 1, 1, 0) &
% 5.16/5.43    ~between_on_line(0, 1, 1, 1) &
% 5.16/5.43    ~between_on_line(1, 0, 0, 0) &
% 5.16/5.43    ~between_on_line(1, 0, 0, 1) &
% 5.16/5.43    ~between_on_line(1, 0, 1, 0) &
% 5.16/5.43    ~between_on_line(1, 0, 1, 1) &
% 5.16/5.43    ~between_on_line(1, 1, 0, 0) &
% 5.16/5.43    ~between_on_line(1, 1, 0, 1) &
% 5.16/5.43    ~between_on_line(1, 1, 1, 0) &
% 5.16/5.43    ~between_on_line(1, 1, 1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~convergent_lines(0, 0) & ~convergent_lines(0, 1) &
% 5.16/5.43    ~convergent_lines(1, 0) &
% 5.16/5.43    ~convergent_lines(1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~distinct_lines(0, 0) & ~distinct_lines(0, 1) &
% 5.16/5.43    ~distinct_lines(1, 0) &
% 5.16/5.43    ~distinct_lines(1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~distinct_points(0, 0) & ~distinct_points(0, 1) &
% 5.16/5.43    ~distinct_points(1, 0) &
% 5.16/5.43    ~distinct_points(1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~divides_points(0, 0, 0) & ~divides_points(0, 0, 1) &
% 5.16/5.43    ~divides_points(0, 1, 0) &
% 5.16/5.43    ~divides_points(0, 1, 1) &
% 5.16/5.43    ~divides_points(1, 0, 0) &
% 5.16/5.43    ~divides_points(1, 0, 1) &
% 5.16/5.43    ~divides_points(1, 1, 0) &
% 5.16/5.43    ~divides_points(1, 1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~equal_lines(0, 0) & ~equal_lines(0, 1) &
% 5.16/5.43    ~equal_lines(1, 0) &
% 5.16/5.43    ~equal_lines(1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, equally_directed_lines(0, 0) &
% 5.16/5.43    ~equally_directed_lines(0, 1) &
% 5.16/5.43    ~equally_directed_lines(1, 0) &
% 5.16/5.43    equally_directed_lines(1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~equally_directed_opposite_lines(0, 0) &
% 5.16/5.43    equally_directed_opposite_lines(0, 1) &
% 5.16/5.43    equally_directed_opposite_lines(1, 0) &
% 5.16/5.43    ~equally_directed_opposite_lines(1, 1)).
% 5.16/5.43  fof(interp, fi_functors, esk1_0 = 0).
% 5.16/5.43  fof(interp, fi_functors, esk2_0 = 1).
% 5.16/5.43  fof(interp, fi_functors, esk3_0 = 0).
% 5.16/5.43  fof(interp, fi_functors, esk4_0 = 0).
% 5.16/5.43  fof(interp, fi_predicates, ~incident_point_and_line(0, 0) &
% 5.16/5.43    ~incident_point_and_line(0, 1) &
% 5.16/5.43    ~incident_point_and_line(1, 0) &
% 5.16/5.43    ~incident_point_and_line(1, 1)).
% 5.16/5.43  fof(interp, fi_functors, intersection_point(0, 0) = 0 &
% 5.16/5.43    intersection_point(0, 1) = 0 &
% 5.16/5.43    intersection_point(1, 0) = 0 &
% 5.16/5.43    intersection_point(1, 1) = 0).
% 5.16/5.43  fof(interp, fi_predicates, ~left_apart_point(0, 0) & ~left_apart_point(0, 1) &
% 5.16/5.43    ~left_apart_point(1, 0) &
% 5.16/5.43    ~left_apart_point(1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~left_convergent_lines(0, 0) &
% 5.16/5.43    ~left_convergent_lines(0, 1) &
% 5.16/5.43    ~left_convergent_lines(1, 0) &
% 5.16/5.43    ~left_convergent_lines(1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~line(0) & ~line(1)).
% 5.16/5.43  fof(interp, fi_functors, line_connecting(0, 0) = 1 & line_connecting(0, 1) = 0 &
% 5.16/5.43    line_connecting(1, 0) = 0 &
% 5.16/5.43    line_connecting(1, 1) = 0).
% 5.16/5.43  fof(interp, fi_functors, parallel_through_point(0, 0) = 0 &
% 5.16/5.43    parallel_through_point(0, 1) = 0 &
% 5.16/5.43    parallel_through_point(1, 0) = 1 &
% 5.16/5.43    parallel_through_point(1, 1) = 1).
% 5.16/5.43  fof(interp, fi_predicates, ~point(0) & ~point(1)).
% 5.16/5.43  fof(interp, fi_functors, reverse_line(0) = 1 & reverse_line(1) = 0).
% 5.16/5.43  fof(interp, fi_predicates, ~right_apart_point(0, 0) & ~right_apart_point(0, 1) &
% 5.16/5.43    ~right_apart_point(1, 0) &
% 5.16/5.43    ~right_apart_point(1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~right_convergent_lines(0, 0) &
% 5.16/5.43    ~right_convergent_lines(0, 1) &
% 5.16/5.43    ~right_convergent_lines(1, 0) &
% 5.16/5.43    ~right_convergent_lines(1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, ~unequally_directed_lines(0, 0) &
% 5.16/5.43    unequally_directed_lines(0, 1) &
% 5.16/5.43    unequally_directed_lines(1, 0) &
% 5.16/5.43    ~unequally_directed_lines(1, 1)).
% 5.16/5.43  fof(interp, fi_predicates, unequally_directed_opposite_lines(0, 0) &
% 5.16/5.43    ~unequally_directed_opposite_lines(0, 1) &
% 5.16/5.43    ~unequally_directed_opposite_lines(1, 0) &
% 5.16/5.43    unequally_directed_opposite_lines(1, 1)).
% 5.16/5.43  % SZS output end FiniteModel for theBenchmark.p
% 5.16/5.43  % 20 lemma(s) from E
% 5.16/5.43  %     cnf(cl, axiom, unequally_directed_opposite_lines(A, A)).
% 5.16/5.43  %     cnf(cl, axiom, ~unequally_directed_lines(A, A)).
% 5.16/5.43  %     cnf(cl, axiom, unequally_directed_lines(reverse_line(A), A)).
% 5.16/5.43  %     cnf(cl, axiom, unequally_directed_opposite_lines(reverse_line(reverse_line(A)), A)).
% 5.16/5.43  %     cnf(cl, axiom, unequally_directed_lines(A, reverse_line(A))).
% 5.16/5.43  %     cnf(cl, axiom, ~right_apart_point(A, B)).
% 5.16/5.43  %     cnf(cl, axiom, ~right_convergent_lines(A, B)).
% 5.16/5.43  %     cnf(cl, axiom, ~apart_point_and_line(A, B)).
% 5.16/5.43  %     cnf(cl, axiom, ~equally_directed_lines(reverse_line(A), A)).
% 5.16/5.43  %     cnf(cl, axiom, ~unequally_directed_opposite_lines(reverse_line(A), A)).
% 5.16/5.43  %     cnf(cl, axiom, ~distinct_lines(reverse_line(A), A)).
% 5.16/5.43  %     cnf(cl, axiom, ~equally_directed_lines(A, reverse_line(A))).
% 5.16/5.43  %     cnf(cl, axiom, ~distinct_lines(A, reverse_line(reverse_line(A)))).
% 5.16/5.43  %     cnf(cl, axiom, ~distinct_lines(reverse_line(reverse_line(A)), A)).
% 5.16/5.43  %     cnf(cl, axiom, ~distinct_lines(A, reverse_line(reverse_line(reverse_line(A))))).
% 5.16/5.43  %     cnf(cl, axiom, ~distinct_lines(reverse_line(reverse_line(reverse_line(A))), A)).
% 5.16/5.43  %     cnf(cl, axiom, equally_directed_lines(A, parallel_through_point(A, B))).
% 5.16/5.43  %     cnf(cl, axiom, unequally_directed_opposite_lines(A, parallel_through_point(A, B))).
% 5.16/5.43  %     cnf(cl, axiom, unequally_directed_opposite_lines(parallel_through_point(A, B), A)).
% 5.16/5.43  %     cnf(cl, axiom, ~unequally_directed_lines(A, parallel_through_point(A, B))).
% 5.16/5.43  % 36 pred(s)
% 5.16/5.43  % 13 func(s)
% 5.16/5.43  % 2 sort(s)
% 5.16/5.43  % 109 clause(s)
% 5.16/5.43  % Instantiating 1 (5046 ms)
% 5.16/5.43  % Solving (5046 ms)
% 5.16/5.43  % Instantiating 2 (5046 ms)
% 5.16/5.43  % Solving (5047 ms)
% 5.16/5.43  % 
% 5.16/5.43  % 1 model found (5049 ms)
%------------------------------------------------------------------------------