TSTP Solution File: GRP093-1 by Gandalf---c-2.6
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% File : Gandalf---c-2.6
% Problem : GRP093-1 : TPTP v3.4.2. Bugfixed v2.7.0.
% Transfm : add_equality:r
% Format : otter:hypothesis:set(auto),clear(print_given)
% Command : gandalf-wrapper -time %d %s
% Computer : art10.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 :
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%----NO SOLUTION OUTPUT BY SYSTEM
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%----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/GRP/GRP093-1+eq_r.in
% Using automatic strategy selection.
% Time limit in seconds: 600
%
% prove-all-passes started
%
% detected problem class: peq
%
% strategies selected:
% (hyper 30 #f 6 7)
% (binary-unit 12 #f)
% (binary-unit-uniteq 12 #f)
% (binary-posweight-kb-big-order 60 #f 6 7)
% (binary-posweight-lex-big-order 30 #f 6 7)
% (binary 30 #t)
% (binary-posweight-kb-big-order 156 #f)
% (binary-posweight-lex-big-order 102 #f)
% (binary-posweight-firstpref-order 60 #f)
% (binary-order 30 #f)
% (binary-posweight-kb-small-order 48 #f)
% (binary-posweight-lex-small-order 30 #f)
%
%
% SOS clause
% -equal(multiply(inverse(a1),a1),multiply(inverse(b1),b1)) | -equal(multiply(multiply(inverse(b2),b2),a2),a2) | -equal(multiply(multiply(a3,b3),c3),multiply(a3,multiply(b3,c3))) | -equal(multiply(a4,b4),multiply(b4,a4)).
% was split for some strategies as:
% -equal(multiply(inverse(a1),a1),multiply(inverse(b1),b1)).
% -equal(multiply(multiply(inverse(b2),b2),a2),a2).
% -equal(multiply(multiply(a3,b3),c3),multiply(a3,multiply(b3,c3))).
% -equal(multiply(a4,b4),multiply(b4,a4)).
%
% ********* EMPTY CLAUSE DERIVED *********
%
%
% timer checkpoints: c(6,40,1,12,0,1)
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%
% START OF PROOF
% 7 [] equal(X,X).
% 8 [] equal(divide(divide(identity,divide(divide(divide(X,Y),Z),X)),Z),Y).
% 9 [] equal(multiply(X,Y),divide(X,divide(identity,Y))).
% 10 [] equal(inverse(X),divide(identity,X)).
% 11 [] equal(identity,divide(X,X)).
% 12 [] -equal(multiply(multiply(inverse(b2),b2),a2),a2) | -equal(multiply(multiply(a3,b3),c3),multiply(a3,multiply(b3,c3))) | -equal(multiply(inverse(a1),a1),multiply(inverse(b1),b1)) | -equal(multiply(a4,b4),multiply(b4,a4)).
% 13 [para:10.1.2,11.1.2] equal(identity,inverse(identity)).
% 15 [para:11.1.2,9.1.2.2] equal(multiply(X,identity),divide(X,identity)).
% 16 [para:9.1.2,10.1.2,demod:10] equal(inverse(inverse(X)),multiply(identity,X)).
% 17 [para:10.1.2,9.1.2.2] equal(multiply(X,Y),divide(X,inverse(Y))).
% 23 [para:11.1.2,8.1.1.1.2.1,demod:16,10] equal(divide(multiply(identity,X),divide(X,Y)),Y).
% 24 [para:11.1.2,8.1.1.1.2.1.1,demod:10] equal(divide(inverse(divide(inverse(X),Y)),X),Y).
% 30 [para:13.1.2,24.1.1.1.1.1,demod:16,10] equal(divide(multiply(identity,X),identity),X).
% 34 [para:24.1.1,24.1.1.1.1] equal(divide(inverse(X),divide(inverse(Y),X)),Y).
% 48 [para:10.1.2,23.1.1.2,demod:16,13,10,15] equal(multiply(identity,X),X).
% 49 [para:9.1.2,23.1.1.2,demod:10,48] equal(divide(X,multiply(X,Y)),inverse(Y)).
% 55 [para:48.1.1,30.1.1.1] equal(divide(X,identity),X).
% 58 [para:55.1.1,8.1.1,demod:10,55] equal(inverse(divide(divide(X,Y),X)),Y).
% 61 [para:49.1.1,24.1.1.1.1,demod:48,16] equal(divide(X,Y),multiply(inverse(Y),X)).
% 65 [para:58.1.1,16.1.1.1,demod:48] equal(inverse(X),divide(divide(Y,X),Y)).
% 68 [para:34.1.1,58.1.1.1.1,demod:17] equal(inverse(multiply(X,Y)),divide(inverse(X),Y)).
% 69 [para:23.1.1,58.1.1.1.1,demod:48] equal(inverse(divide(X,Y)),divide(Y,X)).
% 70 [para:16.1.1,61.1.2.1,demod:48,17] equal(multiply(X,Y),multiply(Y,X)).
% 78 [para:65.1.2,23.1.1.2,demod:17,48] equal(multiply(divide(X,Y),Y),X).
% 81 [para:8.1.1,78.1.1.1,demod:69,10] equal(multiply(X,Y),divide(Z,divide(divide(Z,X),Y))).
% 108 [para:68.1.1,17.1.2.2] equal(multiply(X,multiply(Y,Z)),divide(X,divide(inverse(Y),Z))).
% 134 [para:49.1.1,81.1.2.2.1,demod:108] equal(multiply(multiply(X,Y),Z),multiply(X,multiply(Y,Z))).
% 161 [hyper:12,134,demod:48,11,61,cut:7,cut:7,cut:70] 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 7
% clause depth limited to 6
% seconds given: 10
%
%
% ***GANDALF_FOUND_A_REFUTATION***
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% Global statistics over all passes:
%
% given clauses: 97
% derived clauses: 7351
% kept clauses: 145
% kept size sum: 1583
% kept mid-nuclei: 2
% kept new demods: 117
% forw unit-subs: 7197
% forw double-subs: 0
% forw overdouble-subs: 0
% backward subs: 0
% fast unit cutoff: 3
% full unit cutoff: 0
% dbl unit cutoff: 0
% real runtime : 0.11
% process. runtime: 0.9
% 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/GRP/GRP093-1+eq_r.in")
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