TSTP Solution File: KLE083+1 by SInE---0.4

View Problem - Process Solution 
%------------------------------------------------------------------------------
% File     : SInE---0.4
% Problem  : KLE083+1 : TPTP v5.0.0. Released v4.0.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : Source/sine.py -e eprover -t %d %s

% Computer : art03.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 12:12:54 EST 2010

% Result   : Theorem 0.17s
% Output   : CNFRefutation 0.17s
% Verified : 
% SZS Type : Refutation
%            Derivation depth      :   10
%            Number of leaves      :    8
% Syntax   : Number of formulae    :   37 (  37 unt;   0 def)
%            Number of atoms       :   37 (  34 equ)
%            Maximal formula atoms :    1 (   1 avg)
%            Number of connectives :    6 (   6   ~;   0   |;   0   &)
%                                         (   0 <=>;   0  =>;   0  <=;   0 <~>)
%            Maximal formula depth :    4 (   2 avg)
%            Maximal term depth    :    4 (   2 avg)
%            Number of predicates  :    2 (   0 usr;   1 prp; 0-2 aty)
%            Number of functors    :    7 (   7 usr;   3 con; 0-2 aty)
%            Number of variables   :   43 (   0 sgn  22   !;   2   ?)

% Comments : 
%------------------------------------------------------------------------------
fof(3,axiom,
    ! [X1] : addition(X1,zero) = X1,
    file('/tmp/tmpnhpdrG/sel_KLE083+1.p_1',additive_identity) ).

fof(4,axiom,
    ! [X1,X2,X3] : multiplication(addition(X1,X2),X3) = addition(multiplication(X1,X3),multiplication(X2,X3)),
    file('/tmp/tmpnhpdrG/sel_KLE083+1.p_1',left_distributivity) ).

fof(5,axiom,
    ! [X1,X2] : addition(X1,X2) = addition(X2,X1),
    file('/tmp/tmpnhpdrG/sel_KLE083+1.p_1',additive_commutativity) ).

fof(13,axiom,
    ! [X4] : addition(antidomain(antidomain(X4)),antidomain(X4)) = one,
    file('/tmp/tmpnhpdrG/sel_KLE083+1.p_1',domain3) ).

fof(16,axiom,
    ! [X4] : multiplication(antidomain(X4),X4) = zero,
    file('/tmp/tmpnhpdrG/sel_KLE083+1.p_1',domain1) ).

fof(17,axiom,
    ! [X1] : multiplication(one,X1) = X1,
    file('/tmp/tmpnhpdrG/sel_KLE083+1.p_1',multiplicative_left_identity) ).

fof(18,axiom,
    ! [X4] : domain(X4) = antidomain(antidomain(X4)),
    file('/tmp/tmpnhpdrG/sel_KLE083+1.p_1',domain4) ).

fof(19,conjecture,
    ! [X4] : X4 = multiplication(domain(X4),X4),
    file('/tmp/tmpnhpdrG/sel_KLE083+1.p_1',goals) ).

fof(20,negated_conjecture,
    ~ ! [X4] : X4 = multiplication(domain(X4),X4),
    inference(assume_negation,[status(cth)],[19]) ).

fof(25,plain,
    ! [X2] : addition(X2,zero) = X2,
    inference(variable_rename,[status(thm)],[3]) ).

cnf(26,plain,
    addition(X1,zero) = X1,
    inference(split_conjunct,[status(thm)],[25]) ).

fof(27,plain,
    ! [X4,X5,X6] : multiplication(addition(X4,X5),X6) = addition(multiplication(X4,X6),multiplication(X5,X6)),
    inference(variable_rename,[status(thm)],[4]) ).

cnf(28,plain,
    multiplication(addition(X1,X2),X3) = addition(multiplication(X1,X3),multiplication(X2,X3)),
    inference(split_conjunct,[status(thm)],[27]) ).

fof(29,plain,
    ! [X3,X4] : addition(X3,X4) = addition(X4,X3),
    inference(variable_rename,[status(thm)],[5]) ).

cnf(30,plain,
    addition(X1,X2) = addition(X2,X1),
    inference(split_conjunct,[status(thm)],[29]) ).

fof(45,plain,
    ! [X5] : addition(antidomain(antidomain(X5)),antidomain(X5)) = one,
    inference(variable_rename,[status(thm)],[13]) ).

cnf(46,plain,
    addition(antidomain(antidomain(X1)),antidomain(X1)) = one,
    inference(split_conjunct,[status(thm)],[45]) ).

fof(51,plain,
    ! [X5] : multiplication(antidomain(X5),X5) = zero,
    inference(variable_rename,[status(thm)],[16]) ).

cnf(52,plain,
    multiplication(antidomain(X1),X1) = zero,
    inference(split_conjunct,[status(thm)],[51]) ).

fof(53,plain,
    ! [X2] : multiplication(one,X2) = X2,
    inference(variable_rename,[status(thm)],[17]) ).

cnf(54,plain,
    multiplication(one,X1) = X1,
    inference(split_conjunct,[status(thm)],[53]) ).

fof(55,plain,
    ! [X5] : domain(X5) = antidomain(antidomain(X5)),
    inference(variable_rename,[status(thm)],[18]) ).

cnf(56,plain,
    domain(X1) = antidomain(antidomain(X1)),
    inference(split_conjunct,[status(thm)],[55]) ).

fof(57,negated_conjecture,
    ? [X4] : X4 != multiplication(domain(X4),X4),
    inference(fof_nnf,[status(thm)],[20]) ).

fof(58,negated_conjecture,
    ? [X5] : X5 != multiplication(domain(X5),X5),
    inference(variable_rename,[status(thm)],[57]) ).

fof(59,negated_conjecture,
    esk1_0 != multiplication(domain(esk1_0),esk1_0),
    inference(skolemize,[status(esa)],[58]) ).

cnf(60,negated_conjecture,
    esk1_0 != multiplication(domain(esk1_0),esk1_0),
    inference(split_conjunct,[status(thm)],[59]) ).

cnf(61,negated_conjecture,
    multiplication(antidomain(antidomain(esk1_0)),esk1_0) != esk1_0,
    inference(rw,[status(thm)],[60,56,theory(equality)]),
    [unfolding] ).

cnf(70,plain,
    addition(antidomain(X1),antidomain(antidomain(X1))) = one,
    inference(rw,[status(thm)],[46,30,theory(equality)]) ).

cnf(141,plain,
    addition(multiplication(X1,X2),zero) = multiplication(addition(X1,antidomain(X2)),X2),
    inference(spm,[status(thm)],[28,52,theory(equality)]) ).

cnf(161,plain,
    multiplication(X1,X2) = multiplication(addition(X1,antidomain(X2)),X2),
    inference(rw,[status(thm)],[141,26,theory(equality)]) ).

cnf(392,plain,
    multiplication(addition(antidomain(X2),X1),X2) = multiplication(X1,X2),
    inference(spm,[status(thm)],[161,30,theory(equality)]) ).

cnf(433,plain,
    multiplication(one,X1) = multiplication(antidomain(antidomain(X1)),X1),
    inference(spm,[status(thm)],[392,70,theory(equality)]) ).

cnf(453,plain,
    X1 = multiplication(antidomain(antidomain(X1)),X1),
    inference(rw,[status(thm)],[433,54,theory(equality)]) ).

cnf(479,negated_conjecture,
    $false,
    inference(rw,[status(thm)],[61,453,theory(equality)]) ).

cnf(480,negated_conjecture,
    $false,
    inference(cn,[status(thm)],[479,theory(equality)]) ).

cnf(481,negated_conjecture,
    $false,
    480,
    [proof] ).

%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% % SZS status Started for /home/graph/tptp/TPTP/Problems/KLE/KLE083+1.p
% --creating new selector for [KLE001+0.ax, KLE001+4.ax]
% -running prover on /tmp/tmpnhpdrG/sel_KLE083+1.p_1 with time limit 29
% -prover status Theorem
% Problem KLE083+1.p solved in phase 0.
% % SZS status Theorem for /home/graph/tptp/TPTP/Problems/KLE/KLE083+1.p
% % SZS status Ended for /home/graph/tptp/TPTP/Problems/KLE/KLE083+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
% 
%------------------------------------------------------------------------------