TSTP Solution File: LCL095-1 by Gandalf---c-2.6

%------------------------------------------------------------------------------
% File     : Gandalf---c-2.6
% Problem  : LCL095-1 : TPTP v3.4.2. Released v1.0.0.
% Transfm  : add_equality:r
% Format   : otter:hypothesis:set(auto),clear(print_given)
% Command  : gandalf-wrapper -time %d %s

% Computer : art06.cs.miami.edu
% Model    : i686 unknown
% CPU      : Intel(R) Pentium(R) 4 CPU 2.80GHz @ 2793MHz
% Memory   : 1000MB
% OS       : Linux 2.4.22-21mdk-i686-up-4GB
% CPULimit : 600s

% Result   : Unsatisfiable 0.0s
% Output   : Assurance 0.0s
% Verified : 
% SZS Type : None (Parsing solution fails)
% Syntax   : Number of formulae    : 0

% Comments : 
%------------------------------------------------------------------------------
%----NO SOLUTION OUTPUT BY SYSTEM
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 
% Gandalf c-2.6 r1 starting to prove: /home/graph/tptp/TSTP/PreparedTPTP/otter:hypothesis:set(auto),clear(print_given)---add_equality:r/LCL/LCL095-1+noeq.in
% Using automatic strategy selection.
% Time limit in seconds: 600
% 
% prove-all-passes started
% 
% detected problem class: hne
% detected subclass: small
% detected subclass: short
% 
% strategies selected: 
% (hyper 29 #f 5 5)
% (binary-unit 11 #f 5 5)
% (binary-double 17 #f 5 5)
% (hyper 29 #f)
% (binary-unit 34 #f)
% (binary-weightorder 40 #f)
% (binary 17 #t)
% (binary-order 29 #f)
% (binary-posweight-order 111 #f 5 5)
% (binary-posweight-order 283 #f)
% 
% 
% **** EMPTY CLAUSE DERIVED ****
% 
% 
% timer checkpoints: c(3,40,0,6,0,0,12,50,0,15,0,0)
% 
% 
% START OF PROOF
% 13 [] -is_a_theorem(implies(X,Y)) | -is_a_theorem(X) | is_a_theorem(Y).
% 14 [] is_a_theorem(implies(implies(implies(X,Y),implies(Z,U)),implies(implies(U,X),implies(V,implies(Z,X))))).
% 15 [] -is_a_theorem(implies(a,implies(implies(a,b),b))).
% 18 [hyper:13,14,14] is_a_theorem(implies(implies(implies(X,implies(Y,Z)),implies(Z,U)),implies(V,implies(implies(W,Z),implies(Z,U))))).
% 23 [hyper:13,18,18] is_a_theorem(implies(X,implies(implies(Y,Z),implies(Z,implies(implies(U,V),implies(V,Z)))))).
% 25 [hyper:13,18,14] is_a_theorem(implies(implies(implies(implies(X,Y),implies(Y,Z)),implies(U,implies(V,Y))),implies(W,implies(X1,implies(U,implies(V,Y)))))).
% 29 [hyper:13,23,slowcut:25] is_a_theorem(implies(implies(X,Y),implies(Y,implies(implies(Z,U),implies(U,Y))))).
% 34 [hyper:13,29,14] is_a_theorem(implies(implies(implies(implies(X,Y),implies(Y,Z)),U),implies(V,implies(Z,U)))).
% 38 [hyper:13,34,14] is_a_theorem(implies(X,implies(Y,implies(implies(Y,Z),implies(U,implies(V,Z)))))).
% 40 [hyper:13,34,14] is_a_theorem(implies(implies(implies(X,Y),implies(implies(Z,U),implies(U,X))),implies(V,implies(W,implies(implies(Z,U),implies(U,X)))))).
% 41 [hyper:13,34,18] is_a_theorem(implies(X,implies(implies(Y,Z),implies(Z,implies(U,implies(V,Z)))))).
% 42 [?] ?
% 46 [hyper:13,38,slowcut:42] is_a_theorem(implies(X,implies(implies(X,Y),implies(Z,implies(U,Y))))).
% 49 [hyper:13,46,14] is_a_theorem(implies(implies(implies(X,implies(Y,Z)),U),implies(V,implies(implies(implies(U,W),Z),U)))).
% 53 [hyper:13,41,slowcut:49] is_a_theorem(implies(implies(X,Y),implies(Y,implies(Z,implies(U,Y))))).
% 55 [hyper:13,40,14] is_a_theorem(implies(X,implies(Y,implies(implies(Z,U),implies(U,implies(U,U)))))).
% 58 [hyper:13,53,34] is_a_theorem(implies(implies(X,implies(Y,Z)),implies(U,implies(V,implies(X,implies(Y,Z)))))).
% 60 [hyper:13,53,14] is_a_theorem(implies(implies(implies(X,implies(Y,Z)),U),implies(V,implies(Z,U)))).
% 64 [hyper:13,55,slowcut:60] is_a_theorem(implies(X,implies(implies(Y,Z),implies(Z,implies(Z,Z))))).
% 66 [hyper:13,64,slowcut:64] is_a_theorem(implies(implies(X,Y),implies(Y,implies(Y,Y)))).
% 75 [hyper:13,66,14] is_a_theorem(implies(implies(implies(X,X),Y),implies(Z,implies(X,Y)))).
% 88 [hyper:13,75,14] is_a_theorem(implies(implies(implies(X,Y),implies(X,X)),implies(Z,implies(U,implies(X,X))))).
% 179 [hyper:13,88,75] is_a_theorem(implies(X,implies(Y,implies(implies(Z,Z),implies(Z,Z))))).
% 185 [?] ?
% 189 [hyper:13,179,slowcut:185] is_a_theorem(implies(X,implies(implies(Y,Y),implies(Y,Y)))).
% 194 [?] ?
% 197 [hyper:13,189,slowcut:194] is_a_theorem(implies(implies(X,X),implies(X,X))).
% 208 [hyper:13,197,88] is_a_theorem(implies(X,implies(Y,implies(Z,Z)))).
% 220 [?] ?
% 224 [hyper:13,208,slowcut:220] is_a_theorem(implies(X,implies(Y,Y))).
% 226 [hyper:13,208,14] is_a_theorem(implies(implies(implies(X,X),Y),implies(Z,implies(U,Y)))).
% 230 [hyper:13,208,58] is_a_theorem(implies(X,implies(Y,implies(Z,implies(U,implies(V,V)))))).
% 233 [hyper:13,224,slowcut:230] is_a_theorem(implies(X,X)).
% 235 [hyper:13,224,14] is_a_theorem(implies(implies(X,Y),implies(Z,implies(X,Y)))).
% 239 [hyper:13,233,18] is_a_theorem(implies(X,implies(implies(Y,Z),implies(Z,implies(U,Z))))).
% 265 [hyper:13,235,14] is_a_theorem(implies(implies(implies(X,Y),X),implies(Z,implies(U,X)))).
% 278 [hyper:13,226,235] is_a_theorem(implies(X,implies(implies(implies(Y,Y),Z),implies(U,implies(V,Z))))).
% 282 [hyper:13,239,slowcut:278] is_a_theorem(implies(implies(X,Y),implies(Y,implies(Z,Y)))).
% 289 [hyper:13,282,slowcut:233] is_a_theorem(implies(X,implies(Y,X))).
% 291 [hyper:13,282,14] is_a_theorem(implies(implies(implies(X,Y),Z),implies(U,implies(Y,Z)))).
% 310 [hyper:13,265,14] is_a_theorem(implies(implies(implies(X,Y),implies(Y,Z)),implies(U,implies(V,implies(Y,Z))))).
% 313 [hyper:13,265,289] is_a_theorem(implies(X,implies(implies(implies(Y,Z),Y),implies(U,implies(V,Y))))).
% 317 [hyper:13,291,14] is_a_theorem(implies(X,implies(implies(Y,Z),implies(implies(Z,U),implies(V,implies(Y,U)))))).
% 320 [hyper:13,291,14] is_a_theorem(implies(implies(implies(X,Y),implies(Z,X)),implies(U,implies(V,implies(Z,X))))).
% 342 [hyper:13,278,14] is_a_theorem(implies(implies(implies(X,implies(Y,Z)),U),implies(V,implies(implies(implies(W,W),Z),U)))).
% 350 [hyper:13,313,14] is_a_theorem(implies(implies(implies(X,implies(Y,Z)),U),implies(V,implies(implies(implies(Z,W),Z),U)))).
% 364 [hyper:13,310,289] is_a_theorem(implies(X,implies(implies(implies(Y,Z),implies(Z,U)),implies(V,implies(W,implies(Z,U)))))).
% 368 [hyper:13,317,slowcut:364] is_a_theorem(implies(implies(X,Y),implies(implies(Y,Z),implies(U,implies(X,Z))))).
% 388 [hyper:13,320,14] is_a_theorem(implies(implies(implies(X,implies(Y,Z)),implies(Z,U)),implies(V,implies(W,implies(Z,U))))).
% 396 [hyper:13,342,14] is_a_theorem(implies(X,implies(implies(implies(Y,Y),Z),implies(implies(Z,U),implies(V,implies(W,U)))))).
% 409 [hyper:13,350,14] is_a_theorem(implies(X,implies(implies(implies(Y,Z),Y),implies(implies(Y,U),implies(V,implies(W,U)))))).
% 445 [hyper:13,388,289] is_a_theorem(implies(X,implies(implies(implies(Y,implies(Z,U)),implies(U,V)),implies(W,implies(X1,implies(U,V)))))).
% 449 [hyper:13,396,slowcut:445] is_a_theorem(implies(implies(implies(X,X),Y),implies(implies(Y,Z),implies(U,implies(V,Z))))).
% 452 [hyper:13,449,368] is_a_theorem(implies(implies(implies(implies(X,Y),implies(Z,implies(U,Y))),V),implies(W,implies(implies(implies(X1,X1),X),V)))).
% 456 [hyper:13,409,slowcut:452] is_a_theorem(implies(implies(implies(X,Y),X),implies(implies(X,Z),implies(U,implies(V,Z))))).
% 462 [hyper:13,456,320] is_a_theorem(implies(X,implies(Y,implies(implies(Z,U),implies(Z,implies(V,U)))))).
% 466 [hyper:13,462,slowcut:462] is_a_theorem(implies(X,implies(implies(Y,Z),implies(Y,implies(U,Z))))).
% 468 [hyper:13,466,slowcut:466] is_a_theorem(implies(implies(X,Y),implies(X,implies(Z,Y)))).
% 470 [hyper:13,466,14] is_a_theorem(implies(implies(implies(X,implies(Y,Z)),U),implies(V,implies(implies(X,Z),U)))).
% 537 [hyper:13,470,265] is_a_theorem(implies(X,implies(Y,implies(Z,implies(implies(Z,U),U))))).
% 539 [hyper:13,470,468] is_a_theorem(implies(implies(implies(X,implies(Y,Z)),U),implies(V,implies(W,implies(implies(X,Z),U))))).
% 543 [hyper:13,537,slowcut:539] is_a_theorem(implies(X,implies(Y,implies(implies(Y,Z),Z)))).
% 545 [hyper:13,543,slowcut:15,slowcut:543] contradiction
% END OF PROOF
% 
% Proof found by the following strategy:
% 
% using hyperresolution
% not using sos strategy
% using positive unit paramodulation strategy
% using dynamic demodulation
% using ordered paramodulation
% using kb ordering for equality
% preferring bigger arities for lex ordering
% clause length limited to 5
% clause depth limited to 6
% seconds given: 29
% 
% 
% ***GANDALF_FOUND_A_REFUTATION***
% 
% Global statistics over all passes: 
% 
%  given clauses:    119
%  derived clauses:   10917
%  kept clauses:      256
%  kept size sum:     4284
%  kept mid-nuclei:   248
%  kept new demods:   0
%  forw unit-subs:    5236
%  forw double-subs: 0
%  forw overdouble-subs: 0
%  backward subs:     78
%  fast unit cutoff:  0
%  full unit cutoff:  28
%  dbl  unit cutoff:  0
%  real runtime  :  0.9
%  process. runtime:  0.7
% specific non-discr-tree subsumption statistics: 
%  tried:           0
%  length fails:    0
%  strength fails:  0
%  predlist fails:  0
%  aux str. fails:  0
%  by-lit fails:    0
%  full subs tried: 0
%  full subs fail:  0
% 
% ; program args: ("/home/graph/tptp/Systems/Gandalf---c-2.6/gandalf" "-time" "600" "/home/graph/tptp/TSTP/PreparedTPTP/otter:hypothesis:set(auto),clear(print_given)---add_equality:r/LCL/LCL095-1+noeq.in")
% 
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