%------------------------------------------------------------------------------
% File     : SPASS+T---2.2.22
% Problem  : ARI162_1 : TPTP v8.1.0. Released v5.0.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : spasst-tptp-script %s %d

% Computer : n022.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 : Thu Jul 14 22:16:16 EDT 2022

% Result   : Unknown 0.84s 1.12s
% Output   : None 
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----No solution output by system
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.04/0.12  % Problem  : ARI162_1 : TPTP v8.1.0. Released v5.0.0.
% 0.04/0.13  % Command  : spasst-tptp-script %s %d
% 0.14/0.34  % Computer : n022.cluster.edu
% 0.14/0.34  % Model    : x86_64 x86_64
% 0.14/0.34  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.34  % Memory   : 8042.1875MB
% 0.14/0.34  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.14/0.34  % CPULimit : 300
% 0.14/0.34  % WCLimit  : 600
% 0.14/0.34  % DateTime : Fri Jun 17 12:31:17 EDT 2022
% 0.14/0.34  % CPUTime  : 
% 0.20/0.47  % Using integer theory
% 0.84/1.12  
% 0.84/1.12  
% 0.84/1.12  % SZS status Incomplete for /tmp/SPASST_14200_n022.cluster.edu
% 0.84/1.12  
% 0.84/1.12  SPASS V 2.2.22  in combination with yices.
% 0.84/1.12  SPASS beiseite: Unknown (SPASS (with standard axioms): completion, SMT procedure: unknown).
% 0.84/1.12  Problem: /tmp/SPASST_14200_n022.cluster.edu 
% 0.84/1.12  SPASS derived 198 clauses, backtracked 0 clauses and kept 59 clauses.
% 0.84/1.12  SPASS backtracked 0 times (0 times due to theory inconsistency).
% 0.84/1.12  SPASS allocated 6429 KBytes.
% 0.84/1.12  SPASS spent	0:00:00.09 on the problem.
% 0.84/1.12  		0:00:00.00 for the input.
% 0.84/1.12  		0:00:00.00 for the FLOTTER CNF translation.
% 0.84/1.12  		0:00:00.00 for inferences.
% 0.84/1.12  		0:00:00.00 for the backtracking.
% 0.84/1.12  		0:00:00.01 for the reduction.
% 0.84/1.12  		0:00:00.07 for interacting with the SMT procedure.
% 0.84/1.12  		
% 0.84/1.12  
% 0.84/1.12  % SZS output start ListOfCNF for /tmp/SPASST_14200_n022.cluster.edu
% 0.84/1.12  
% 0.84/1.12  The saturated set of worked-off clauses is :
% 0.84/1.12  306[0:SpL:5.0,300.0] || equal(plus(plus(U,uminus(V)),U),-8)** equal(0,V) -> .
% 0.84/1.12  287[0:SpL:5.0,272.0] || equal(plus(U,plus(U,uminus(V))),-8)** equal(V,0) -> .
% 0.84/1.12  236[0:SpL:4.0,180.1] || equal(plus(U,V),-8) equal(plus(uminus(U),V),0)** -> .
% 0.84/1.12  234[0:SpL:5.0,180.1] || equal(-8,U) equal(plus(plus(V,uminus(U)),V),0)** -> .
% 0.84/1.12  233[0:SpL:3.0,180.1] || equal(plus(uminus(U),V),-8)** equal(plus(U,V),0) -> .
% 0.84/1.12  300[0:ArS:288.1] || equal(plus(U,plus(U,V)),-8)** equal(0,V) -> .
% 0.84/1.12  272[0:SpL:4.0,203.1] || equal(plus(plus(U,V),U),-8)** equal(V,0) -> .
% 0.84/1.12  273[0:ArS:268.1] || equal(plus(U,U),-8)** -> .
% 0.84/1.12  203[0:SpL:6.0,111.1] || equal(plus(U,V),-8) equal(plus(uminus(V),U),0)** -> .
% 0.84/1.12  202[0:SpL:5.0,111.1] || equal(plus(U,uminus(V)),-8)** equal(plus(V,U),0) -> .
% 0.84/1.12  201[0:SpL:3.0,111.1] || equal(-8,U) equal(plus(plus(uminus(U),V),V),0)** -> .
% 0.84/1.12  180[0:ArS:168.0] || equal(-8,U) equal(plus(V,plus(V,U)),0)** -> .
% 0.84/1.12  167[0:SpL:5.0,157.1] || equal(U,8) equal(plus(V,plus(V,uminus(U))),0)** -> .
% 0.84/1.12  111[0:ArS:104.0] || equal(-8,U) equal(plus(V,plus(U,V)),0)** -> .
% 0.84/1.12  101[0:SpL:3.0,71.1] || equal(U,8) equal(plus(V,plus(uminus(U),V)),0)** -> .
% 0.84/1.12  157[0:SpL:4.0,84.0] || equal(U,8) equal(plus(plus(V,U),V),0)** -> .
% 0.84/1.12  84[0:SpL:6.0,65.0] || equal(plus(uminus(U),V),8)** equal(plus(V,U),0) -> .
% 0.84/1.12  83[0:SpL:5.0,65.0] || equal(plus(U,V),8) equal(plus(V,uminus(U)),0)** -> .
% 0.84/1.12  82[0:SpL:3.0,65.0] || equal(plus(plus(uminus(U),V),V),8)** equal(0,U) -> .
% 0.84/1.12  55[0:SpL:3.0,39.0] || equal(plus(U,plus(uminus(V),U)),8)** equal(V,0) -> .
% 0.84/1.12  71[0:SpL:6.0,34.0] || equal(U,8) equal(plus(plus(U,V),V),0)** -> .
% 0.84/1.12  65[0:ArS:58.1] || equal(plus(U,plus(V,U)),8)** equal(0,V) -> .
% 0.84/1.12  64[0:ArS:54.0] || equal(-8,U)* equal(U,0) -> .
% 0.84/1.12  34[0:SpL:2.0,33.1] || equal(plus(U,uminus(V)),8)** equal(plus(U,V),0) -> .
% 0.84/1.12  39[0:SpL:6.0,33.1] || equal(plus(plus(U,V),V),8)** equal(U,0) -> .
% 0.84/1.12  41[0:ArS:35.1] || equal(U,8)* equal(0,U) -> .
% 0.84/1.12  40[0:ArS:37.1] || equal(plus(U,U),8)** -> .
% 0.84/1.12  33[0:ArS:1.0] || equal(plus(U,V),8) equal(plus(U,uminus(V)),0)** -> .
% 0.84/1.12  15[0:ThA] ||  -> lesseq(U,V) less(plus(V,W),plus(U,W))*.
% 0.84/1.12  16[0:ThA] ||  -> lesseq(U,V) less(plus(W,V),plus(W,U))*.
% 0.84/1.12  14[0:ThA] ||  -> equal(U,V) less(V,U)* less(U,V)*.
% 0.84/1.12  17[0:ThA] ||  -> lesseq(U,V) less(uminus(U),uminus(V))*.
% 0.84/1.12  3[0:ThA] ||  -> equal(plus(U,plus(uminus(U),V)),V)**.
% 0.84/1.12  4[0:ThA] ||  -> equal(plus(uminus(U),plus(U,V)),V)**.
% 0.84/1.12  6[0:ThA] ||  -> equal(plus(plus(U,V),uminus(V)),U)**.
% 0.84/1.12  5[0:ThA] ||  -> equal(plus(plus(U,uminus(V)),V),U)**.
% 0.84/1.12  26[0:ThA] || evaleq(U,V)* -> equal(U,V).
% 0.84/1.12  22[0:ThA] ||  -> equal(times(U,-1),uminus(U))**.
% 0.84/1.12  7[0:ThA] ||  -> equal(plus(U,uminus(U)),0)**.
% 0.84/1.12  23[0:ThA] ||  -> equal(times(-1,U),uminus(U))**.
% 0.84/1.12  8[0:ThA] ||  -> equal(plus(uminus(U),U),0)**.
% 0.84/1.12  12[0:ThA] ||  -> less(U,plus(U,1))*.
% 0.84/1.12  2[0:ThA] ||  -> equal(uminus(uminus(U)),U)**.
% 0.84/1.12  13[0:ThA] ||  -> less(plus(U,-1),U)*.
% 0.84/1.12  9[0:ThA] ||  -> equal(plus(U,0),U)**.
% 0.84/1.12  20[0:ThA] ||  -> equal(times(U,1),U)**.
% 0.84/1.12  24[0:ThA] ||  -> equal(divide_nat(U,1),U)**.
% 0.84/1.12  18[0:ThA] ||  -> equal(times(U,0),0)**.
% 0.84/1.12  25[0:ThA] ||  -> equal(remainder(U,1),0)**.
% 0.84/1.12  10[0:ThA] ||  -> equal(plus(0,U),U)**.
% 0.84/1.12  21[0:ThA] ||  -> equal(times(1,U),U)**.
% 0.84/1.12  19[0:ThA] ||  -> equal(times(0,U),0)**.
% 0.84/1.12  31[0:ThA] ||  -> equal(floor(U),U)**.
% 0.84/1.12  32[0:ThA] ||  -> equal(ceiling(U),U)**.
% 0.84/1.12  11[0:ThA] ||  -> lesseq(U,U)*.
% 0.84/1.12  27[0:ThA] ||  -> evaleq(0,0)*.
% 0.84/1.12  28[0:ThA] ||  -> evaleq(1,1)*.
% 0.84/1.12  29[0:ThA] ||  -> isint(U)*.
% 0.84/1.12  30[0:ThA] ||  -> israt(U)*.
% 0.84/1.12  
% 0.84/1.12  % SZS output end ListOfCNF for /tmp/SPASST_14200_n022.cluster.edu
% 0.84/1.12  SPASS+T ended
%------------------------------------------------------------------------------