TSTP Solution File: SYN144-1 by Gandalf---c-2.6
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- Process Solution
%------------------------------------------------------------------------------
% File : Gandalf---c-2.6
% Problem : SYN144-1 : TPTP v3.4.2. Released v1.1.0.
% Transfm : add_equality:r
% Format : otter:hypothesis:set(auto),clear(print_given)
% Command : gandalf-wrapper -time %d %s
% Computer : art05.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/SYN/SYN144-1+noeq.in
% Using automatic strategy selection.
% Time limit in seconds: 600
%
% prove-all-passes started
%
% detected problem class: hne
% detected subclass: big
% detected subclass: long
%
% strategies selected:
% (hyper 25 #t 1 9)
% (binary-unit 25 #f 1 9)
% (binary-double 25 #f 1 9)
% (binary-posweight-order 25 #f 1 9)
% (binary 50 #t 1 9)
% (hyper 25 #t)
% (hyper 116 #f)
% (binary-posweight-order 76 #f)
% (binary-order 25 #f)
% (binary-weightorder 25 #f)
% (binary-posweight-order-sos 76 #t)
% (binary-unit-sos 40 #t)
% (binary 67 #t)
%
%
% **** EMPTY CLAUSE DERIVED ****
%
%
% timer checkpoints: c(369,40,2,738,0,2,738,50,2,1107,0,2,1107,50,2,1476,0,3,1476,50,3,1845,0,4,1845,50,4,2214,0,4,2214,50,4,2583,0,5,2583,50,5,2952,0,5,2952,50,5,3321,0,6,3321,50,6,3690,0,7,3690,50,7,4059,0,7,4059,50,7,4428,0,8,4428,50,8,4797,0,8,4797,50,8,5166,0,8,5166,50,8,5535,0,9,5535,50,9,5904,0,10,5904,50,10,6273,0,10,6273,50,10,6642,0,11,6642,50,11,7011,0,11,7011,50,11,7380,0,11,7380,50,11,7749,0,12,7749,50,12,8118,0,13,8118,50,13,8118,40,13,8487,0,13)
%
%
% START OF PROOF
% 8119 [] s0(d).
% 8125 [] n0(d,b).
% 8131 [] r0(e).
% 8132 [] p0(b,X).
% 8135 [] q0(X,d).
% 8137 [] m0(X,d,Y).
% 8146 [] k0(e).
% 8151 [] q0(d,c).
% 8152 [] n0(c,d).
% 8155 [] n0(b,a).
% 8157 [] -n0(X,Y) | k1(Y).
% 8161 [] -m0(X,X,Y) | m1(Y,X,Y).
% 8192 [] -m0(b,X,Y) | n1(Y,Y,X).
% 8224 [] p1(X,X,X) | -k0(X).
% 8248 [?] ?
% 8262 [] q1(X,X,X) | -s0(X).
% 8280 [?] ?
% 8283 [] -m1(X,Y,Z) | -k2(U,Y) | k2(Z,Y) | -k1(U).
% 8285 [] -q1(X,Y,Y) | k2(Y,Y).
% 8292 [] -k1(b) | m2(b).
% 8293 [] -p1(X,Y,Z) | n2(Z).
% 8297 [?] ?
% 8311 [?] ?
% 8335 [] -n1(X,X,Y) | q2(X,X,X) | -k1(Y).
% 8343 [?] ?
% 8350 [] k3(X,X,Y) | -k2(Y,X).
% 8358 [] -k3(X,Y,Z) | k3(U,U,X) | -k2(U,Z) | -q0(V,X).
% 8390 [?] ?
% 8425 [?] ?
% 8443 [] -k3(X,X,Y) | p4(X,Y,X).
% 8444 [?] ?
% 8459 [] -p4(X,Y,Z) | m5(X,Z) | -r0(X).
% 8487 [] -m5(e,a).
% 8505 [binary:8125,8157] k1(b).
% 8507 [binary:8152,8157] k1(d).
% 8508 [binary:8155,8157] k1(a).
% 8509 [binary:8292,8505] m2(b).
% 8538 [binary:8137,8161] m1(X,d,X).
% 8557 [binary:8146,8224.2] p1(e,e,e).
% 8560 [binary:8119,8262.2] q1(d,d,d).
% 8567 [binary:8557,8293] n2(e).
% 8661 [binary:8137,8192] n1(X,X,d).
% 8913 [input:8248,slowcut:8132] q1(X,Y,X) | -n0(Z,Y).
% 8918 [binary:8155,8913.2] q1(X,a,X).
% 8927 [binary:8560,8285] k2(d,d).
% 8929 [binary:8918,8285] k2(a,a).
% 9061 [input:8280,cut:8119] -q1(d,X,d) | -q0(Y,X) | r1(Y).
% 9062 [binary:8135,9061.2,cut:8560] r1(X).
% 9088 [binary:8927,8283.2,cut:8507,slowcut:8538] k2(X,d).
% 9098 [binary:8350.2,9088] k3(d,d,X).
% 9113 [input:8297,cut:8918] p2(X,a,X).
% 9157 [input:8311,slowcut:8508] -p2(e,X,Y) | p2(X,Y,Y).
% 9158 [binary:9113,9157] p2(a,e,e).
% 9250 [binary:8507,8335.3,cut:8661] q2(X,X,X).
% 9297 [input:8343,cut:9250,cut:9062,slowcut:8137] q2(X,Y,X) | -k0(Y).
% 9298 [binary:8146,9297.2] q2(X,e,X).
% 9347 [binary:8135,8358.4,slowcut:9098,slowcut:9088] k3(X,X,d).
% 9365 [binary:9088,8358.3,slowcut:9347] k3(X,X,Y) | -q0(Z,Y).
% 9373 [binary:8151,9365.2] k3(X,X,c).
% 9442 [input:8390,cut:8567] -p2(X,e,e) | m3(X,e,e).
% 9443 [binary:9158,9442] m3(a,e,e).
% 9640 [input:8425,cut:8929,cut:8509,cut:9298,slowcut:9443] r3(a,a,e).
% 9789 [binary:9373,8443] p4(X,c,X).
% 9791 [input:8444,slowcut:9789] -r3(X,X,Y) | p4(Y,X,X).
% 9792 [binary:9640,9791] p4(e,a,a).
% 9860 [binary:8487,8459.2,cut:8131,slowcut:9792] contradiction
% END OF PROOF
%
% Proof found by the following strategy:
%
% using binary resolution
% not using sos strategy
% using unit strategy
% using dynamic demodulation
% using ordered paramodulation
% using kb ordering for equality
% preferring bigger arities for lex ordering
% using clause demodulation
% clause length limited to 9
% clause depth limited to 1
% seconds given: 25
%
%
% ***GANDALF_FOUND_A_REFUTATION***
%
% Global statistics over all passes:
%
% given clauses: 760
% derived clauses: 2558
% kept clauses: 951
% kept size sum: 5725
% kept mid-nuclei: 0
% kept new demods: 0
% forw unit-subs: 943
% forw double-subs: 165
% forw overdouble-subs: 58
% backward subs: 291
% fast unit cutoff: 234
% full unit cutoff: 73
% dbl unit cutoff: 6
% real runtime: 0.26
% process. runtime: 0.26
% specific non-discr-tree subsumption statistics:
% tried: 281
% length fails: 22
% strength fails: 98
% predlist fails: 0
% aux str. fails: 8
% by-lit fails: 16
% full subs tried: 125
% full subs fail: 64
%
% ; 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/SYN/SYN144-1+noeq.in")
%
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