TSTP Solution File: ITP012+2 by Otter---3.3

%------------------------------------------------------------------------------
% File     : Otter---3.3
% Problem  : ITP012+2 : TPTP v8.1.0. Bugfixed v7.5.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : otter-tptp-script %s

% Computer : n021.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  : 300s
% DateTime : Wed Jul 27 12:59:01 EDT 2022

% Result   : Unknown 7.34s 7.58s
% Output   : None 
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----No solution output by system
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.10/0.13  % Problem  : ITP012+2 : TPTP v8.1.0. Bugfixed v7.5.0.
% 0.10/0.14  % Command  : otter-tptp-script %s
% 0.13/0.35  % Computer : n021.cluster.edu
% 0.13/0.35  % Model    : x86_64 x86_64
% 0.13/0.35  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.35  % Memory   : 8042.1875MB
% 0.13/0.35  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.13/0.35  % CPULimit : 300
% 0.13/0.35  % WCLimit  : 300
% 0.13/0.35  % DateTime : Wed Jul 27 02:40:08 EDT 2022
% 0.13/0.35  % CPUTime  : 
% 2.28/2.46  ----- Otter 3.3f, August 2004 -----
% 2.28/2.46  The process was started by sandbox on n021.cluster.edu,
% 2.28/2.46  Wed Jul 27 02:40:08 2022
% 2.28/2.46  The command was "./otter".  The process ID is 7195.
% 2.28/2.46  
% 2.28/2.46  set(prolog_style_variables).
% 2.28/2.46  set(auto).
% 2.28/2.46     dependent: set(auto1).
% 2.28/2.46     dependent: set(process_input).
% 2.28/2.46     dependent: clear(print_kept).
% 2.28/2.46     dependent: clear(print_new_demod).
% 2.28/2.46     dependent: clear(print_back_demod).
% 2.28/2.46     dependent: clear(print_back_sub).
% 2.28/2.46     dependent: set(control_memory).
% 2.28/2.46     dependent: assign(max_mem, 12000).
% 2.28/2.46     dependent: assign(pick_given_ratio, 4).
% 2.28/2.46     dependent: assign(stats_level, 1).
% 2.28/2.46     dependent: assign(max_seconds, 10800).
% 2.28/2.46  clear(print_given).
% 2.28/2.46  
% 2.28/2.46  formula_list(usable).
% 2.28/2.46  all A (A=A).
% 2.28/2.46  ne(bool).
% 2.28/2.46  ne(ind).
% 2.28/2.46  all A (ne(A)-> (all B (ne(B)->ne(arr(A,B))))).
% 2.28/2.46  all A B F (mem(F,arr(A,B))-> (all X (mem(X,A)->mem(ap(F,X),B)))).
% 2.28/2.46  all Q (mem(Q,bool)-> (all R (mem(R,bool)-> ((p(Q)<->p(R))->Q=R)))).
% 2.28/2.46  all A B F (mem(F,arr(A,B))-> (all G (mem(G,arr(A,B))-> ((all X (mem(X,A)->ap(F,X)=ap(G,X)))->F=G)))).
% 2.28/2.46  all A Y X (mem(X,A)->ap(k(A,Y),X)=Y).
% 2.28/2.46  all A X (mem(X,A)->ap(i(A),X)=X).
% 2.28/2.46  mem(c_2Ebool_2ET,bool).
% 2.28/2.46  p(c_2Ebool_2ET).
% 2.28/2.46  all A_27a (ne(A_27a)->mem(c_2Ebool_2E_3F(A_27a),arr(arr(A_27a,bool),bool))).
% 2.28/2.46  all A (ne(A)-> (all Q (mem(Q,arr(A,bool))-> (p(ap(c_2Ebool_2E_3F(A),Q))<-> (exists X (mem(X,A)&p(ap(Q,X)))))))).
% 2.28/2.46  ne(ty_2Einteger_2Eint).
% 2.28/2.46  mem(c_2Einteger_2Eint__sub,arr(ty_2Einteger_2Eint,arr(ty_2Einteger_2Eint,ty_2Einteger_2Eint))).
% 2.28/2.46  mem(c_2Einteger_2Eint__add,arr(ty_2Einteger_2Eint,arr(ty_2Einteger_2Eint,ty_2Einteger_2Eint))).
% 2.28/2.46  mem(c_2Einteger_2Eint__neg,arr(ty_2Einteger_2Eint,ty_2Einteger_2Eint)).
% 2.28/2.46  mem(c_2Einteger_2Eint__divides,arr(ty_2Einteger_2Eint,arr(ty_2Einteger_2Eint,bool))).
% 2.28/2.46  mem(c_2Ebool_2EF,bool).
% 2.28/2.46  -p(c_2Ebool_2EF).
% 2.28/2.46  mem(c_2Emin_2E_3D_3D_3E,arr(bool,arr(bool,bool))).
% 2.28/2.46  all Q (mem(Q,bool)-> (all R (mem(R,bool)-> (p(ap(ap(c_2Emin_2E_3D_3D_3E,Q),R))<-> (p(Q)->p(R)))))).
% 2.28/2.46  mem(c_2Ebool_2E_5C_2F,arr(bool,arr(bool,bool))).
% 2.28/2.46  all Q (mem(Q,bool)-> (all R (mem(R,bool)-> (p(ap(ap(c_2Ebool_2E_5C_2F,Q),R))<->p(Q)|p(R))))).
% 2.28/2.46  mem(c_2Ebool_2E_2F_5C,arr(bool,arr(bool,bool))).
% 2.28/2.46  all Q (mem(Q,bool)-> (all R (mem(R,bool)-> (p(ap(ap(c_2Ebool_2E_2F_5C,Q),R))<->p(Q)&p(R))))).
% 2.28/2.46  mem(c_2Ebool_2E_7E,arr(bool,bool)).
% 2.28/2.46  all Q (mem(Q,bool)-> (p(ap(c_2Ebool_2E_7E,Q))<-> -p(Q))).
% 2.28/2.46  all A_27a (ne(A_27a)->mem(c_2Emin_2E_3D(A_27a),arr(A_27a,arr(A_27a,bool)))).
% 2.28/2.46  all A (ne(A)-> (all X (mem(X,A)-> (all Y (mem(Y,A)-> (p(ap(ap(c_2Emin_2E_3D(A),X),Y))<->X=Y)))))).
% 2.28/2.46  all A_27a (ne(A_27a)->mem(c_2Ebool_2E_21(A_27a),arr(arr(A_27a,bool),bool))).
% 2.28/2.46  all A (ne(A)-> (all Q (mem(Q,arr(A,bool))-> (p(ap(c_2Ebool_2E_21(A),Q))<-> (all X (mem(X,A)->p(ap(Q,X)))))))).
% 2.28/2.46  $T.
% 2.28/2.46  all V0t1 (mem(V0t1,bool)-> (all V1t2 (mem(V1t2,bool)-> ((p(V0t1)->p(V1t2))-> ((p(V1t2)->p(V0t1))-> (p(V0t1)<->p(V1t2))))))).
% 2.28/2.46  all V0t (mem(V0t,bool)-> (-p(V0t)-> -p(V0t))).
% 2.28/2.46  all V0t (mem(V0t,bool)-> (-p(V0t)-> -p(V0t))).
% 2.28/2.46  all V0t (mem(V0t,bool)-> (p(V0t)<->p(V0t))& ((p(V0t)->$T)<->$T)& (($F->p(V0t))<->$T)& ((p(V0t)->p(V0t))<->$T)& (-p(V0t)<-> -p(V0t))).
% 2.28/2.46  all V0t (mem(V0t,bool)-> (-(-p(V0t))<->p(V0t))).
% 2.28/2.46  -$T<->$F.
% 2.28/2.46  -$F<->$T.
% 2.28/2.46  all V0t (mem(V0t,bool)-> (($T<->p(V0t))<->p(V0t))& ((p(V0t)<->$T)<->p(V0t))& (($F<->p(V0t))<-> -p(V0t))& ((p(V0t)<->$F)<-> -p(V0t))).
% 2.28/2.46  all A_27a (ne(A_27a)-> (all V0P (mem(V0P,arr(A_27a,bool))-> (-(all V1x (mem(V1x,A_27a)->p(ap(V0P,V1x))))<-> (exists V2x (mem(V2x,A_27a)& -p(ap(V0P,V2x)))))))).
% 2.28/2.46  all A_27a (ne(A_27a)-> (all V0P (mem(V0P,arr(A_27a,bool))-> (all V1Q (mem(V1Q,arr(A_27a,bool))-> ((all V2x (mem(V2x,A_27a)->p(ap(V0P,V2x))&p(ap(V1Q,V2x))))<-> (all V3x (mem(V3x,A_27a)->p(ap(V0P,V3x))))& (all V4x (mem(V4x,A_27a)->p(ap(V1Q,V4x)))))))))).
% 2.28/2.46  all V0A (mem(V0A,bool)-> (all V1B (mem(V1B,bool)-> (all V2C (mem(V2C,bool)-> (p(V0A)|p(V1B)|p(V2C)<->p(V0A)|p(V1B)|p(V2C))))))).
% 2.28/2.46  all V0A (mem(V0A,bool)-> (all V1B (mem(V1B,bool)-> (p(V0A)|p(V1B)<->p(V1B)|p(V0A))))).
% 2.28/2.46  all V0A (mem(V0A,bool)-> (all V1B (mem(V1B,bool)-> (-(p(V0A)&p(V1B))<-> -p(V0A)| -p(V1B))& (-(p(V0A)|p(V1B))<-> -p(V0A)& -p(V1B))))).
% 2.28/2.46  all V0x (mem(V0x,ty_2Einteger_2Eint)-> (all V1y (mem(V1y,ty_2Einteger_2Eint)->ap(ap(c_2Einteger_2Eint__sub,V0x),V1y)=ap(ap(c_2Einteger_2Eint__add,V0x),ap(c_2Einteger_2Eint__neg,V1y))))).
% 2.28/2.46  all V0p (mem(V0p,ty_2Einteger_2Eint)-> (all V1q (mem(V1q,ty_2Einteger_2Eint)-> (all V2r (mem(V2r,ty_2Einteger_2Eint)-> (p(ap(ap(c_2Einteger_2Eint__divides,V0p),V1q))-> (p(ap(ap(c_2Einteger_2Eint__divides,V0p),ap(ap(c_2Einteger_2Eint__add,V2r),V1q)))<->p(ap(ap(c_2Einteger_2Eint__divides,V0p),V2r))))))))).
% 2.28/2.46  all V0p (mem(V0p,ty_2Einteger_2Eint)-> (all V1q (mem(V1q,ty_2Einteger_2Eint)-> (p(ap(ap(c_2Einteger_2Eint__divides,V0p),ap(c_2Einteger_2Eint__neg,V1q)))<->p(ap(ap(c_2Einteger_2Eint__divides,V0p),V1q)))& (p(ap(ap(c_2Einteger_2Eint__divides,ap(c_2Einteger_2Eint__neg,V0p)),V1q))<->p(ap(ap(c_2Einteger_2Eint__divides,V0p),V1q)))))).
% 2.28/2.46  all V0t (mem(V0t,bool)-> (-(-p(V0t))<->p(V0t))).
% 2.28/2.46  all V0A (mem(V0A,bool)-> (p(V0A)-> -(-p(V0A)))).
% 2.28/2.46  all V0A (mem(V0A,bool)-> (all V1B (mem(V1B,bool)-> (-(-(p(V0A)|p(V1B)))<-> (-p(V0A)-> -(-p(V1B))))))).
% 2.28/2.46  all V0A (mem(V0A,bool)-> (all V1B (mem(V1B,bool)-> (-(-(-p(V0A)|p(V1B)))<-> (p(V0A)-> -(-p(V1B))))))).
% 2.28/2.46  all V0A (mem(V0A,bool)-> (-(-p(V0A))-> -(-p(V0A)))).
% 2.28/2.46  all V0p (mem(V0p,bool)-> (all V1q (mem(V1q,bool)-> (all V2r (mem(V2r,bool)-> ((p(V0p)<-> (p(V1q)<->p(V2r)))<-> (p(V0p)|p(V1q)|p(V2r))& (p(V0p)| -p(V2r)| -p(V1q))& (p(V1q)| -p(V2r)| -p(V0p))& (p(V2r)| -p(V1q)| -p(V0p)))))))).
% 2.28/2.46  all V0p (mem(V0p,bool)-> (all V1q (mem(V1q,bool)-> (all V2r (mem(V2r,bool)-> ((p(V0p)<->p(V1q)&p(V2r))<-> (p(V0p)| -p(V1q)| -p(V2r))& (p(V1q)| -p(V0p))& (p(V2r)| -p(V0p)))))))).
% 2.28/2.46  all V0p (mem(V0p,bool)-> (all V1q (mem(V1q,bool)-> (all V2r (mem(V2r,bool)-> ((p(V0p)<->p(V1q)|p(V2r))<-> (p(V0p)| -p(V1q))& (p(V0p)| -p(V2r))& (p(V1q)|p(V2r)| -p(V0p)))))))).
% 2.28/2.46  all V0p (mem(V0p,bool)-> (all V1q (mem(V1q,bool)-> (all V2r (mem(V2r,bool)-> ((p(V0p)<-> (p(V1q)->p(V2r)))<-> (p(V0p)|p(V1q))& (p(V0p)| -p(V2r))& (-p(V1q)|p(V2r)| -p(V0p)))))))).
% 2.28/2.46  all V0p (mem(V0p,bool)-> (all V1q (mem(V1q,bool)-> ((p(V0p)<-> -p(V1q))<-> (p(V0p)|p(V1q))& (-p(V1q)| -p(V0p)))))).
% 2.28/2.46  -(all V0p (mem(V0p,ty_2Einteger_2Eint)-> (all V1q (mem(V1q,ty_2Einteger_2Eint)-> (all V2r (mem(V2r,ty_2Einteger_2Eint)-> (p(ap(ap(c_2Einteger_2Eint__divides,V0p),V1q))-> (p(ap(ap(c_2Einteger_2Eint__divides,V0p),ap(ap(c_2Einteger_2Eint__sub,V2r),V1q)))<->p(ap(ap(c_2Einteger_2Eint__divides,V0p),V2r)))))))))).
% 2.28/2.46  end_of_list.
% 2.28/2.46  
% 2.28/2.46  -------> usable clausifies to:
% 2.28/2.46  
% 2.28/2.46  list(usable).
% 2.28/2.46  0 [] A=A.
% 2.28/2.46  0 [] ne(bool).
% 2.28/2.46  0 [] ne(ind).
% 2.28/2.46  0 [] -ne(A)| -ne(B)|ne(arr(A,B)).
% 2.28/2.46  0 [] -mem(F,arr(A,B))| -mem(X,A)|mem(ap(F,X),B).
% 2.28/2.46  0 [] -mem(Q,bool)| -mem(R,bool)|p(Q)|p(R)|Q=R.
% 2.28/2.46  0 [] -mem(Q,bool)| -mem(R,bool)| -p(Q)| -p(R)|Q=R.
% 2.28/2.46  0 [] -mem(F,arr(A,B))| -mem(G,arr(A,B))|mem($f1(A,B,F,G),A)|F=G.
% 2.28/2.46  0 [] -mem(F,arr(A,B))| -mem(G,arr(A,B))|ap(F,$f1(A,B,F,G))!=ap(G,$f1(A,B,F,G))|F=G.
% 2.28/2.46  0 [] -mem(X,A)|ap(k(A,Y),X)=Y.
% 2.28/2.46  0 [] -mem(X,A)|ap(i(A),X)=X.
% 2.28/2.46  0 [] mem(c_2Ebool_2ET,bool).
% 2.28/2.46  0 [] p(c_2Ebool_2ET).
% 2.28/2.46  0 [] -ne(A_27a)|mem(c_2Ebool_2E_3F(A_27a),arr(arr(A_27a,bool),bool)).
% 2.28/2.46  0 [] -ne(A)| -mem(Q,arr(A,bool))| -p(ap(c_2Ebool_2E_3F(A),Q))|mem($f2(A,Q),A).
% 2.28/2.46  0 [] -ne(A)| -mem(Q,arr(A,bool))| -p(ap(c_2Ebool_2E_3F(A),Q))|p(ap(Q,$f2(A,Q))).
% 2.28/2.46  0 [] -ne(A)| -mem(Q,arr(A,bool))|p(ap(c_2Ebool_2E_3F(A),Q))| -mem(X,A)| -p(ap(Q,X)).
% 2.28/2.46  0 [] ne(ty_2Einteger_2Eint).
% 2.28/2.46  0 [] mem(c_2Einteger_2Eint__sub,arr(ty_2Einteger_2Eint,arr(ty_2Einteger_2Eint,ty_2Einteger_2Eint))).
% 2.28/2.46  0 [] mem(c_2Einteger_2Eint__add,arr(ty_2Einteger_2Eint,arr(ty_2Einteger_2Eint,ty_2Einteger_2Eint))).
% 2.28/2.46  0 [] mem(c_2Einteger_2Eint__neg,arr(ty_2Einteger_2Eint,ty_2Einteger_2Eint)).
% 2.28/2.46  0 [] mem(c_2Einteger_2Eint__divides,arr(ty_2Einteger_2Eint,arr(ty_2Einteger_2Eint,bool))).
% 2.28/2.46  0 [] mem(c_2Ebool_2EF,bool).
% 2.28/2.46  0 [] -p(c_2Ebool_2EF).
% 2.28/2.46  0 [] mem(c_2Emin_2E_3D_3D_3E,arr(bool,arr(bool,bool))).
% 2.28/2.46  0 [] -mem(Q,bool)| -mem(R,bool)| -p(ap(ap(c_2Emin_2E_3D_3D_3E,Q),R))| -p(Q)|p(R).
% 2.28/2.46  0 [] -mem(Q,bool)| -mem(R,bool)|p(ap(ap(c_2Emin_2E_3D_3D_3E,Q),R))|p(Q).
% 2.28/2.46  0 [] -mem(Q,bool)| -mem(R,bool)|p(ap(ap(c_2Emin_2E_3D_3D_3E,Q),R))| -p(R).
% 2.28/2.46  0 [] mem(c_2Ebool_2E_5C_2F,arr(bool,arr(bool,bool))).
% 2.28/2.46  0 [] -mem(Q,bool)| -mem(R,bool)| -p(ap(ap(c_2Ebool_2E_5C_2F,Q),R))|p(Q)|p(R).
% 2.28/2.46  0 [] -mem(Q,bool)| -mem(R,bool)|p(ap(ap(c_2Ebool_2E_5C_2F,Q),R))| -p(Q).
% 2.28/2.46  0 [] -mem(Q,bool)| -mem(R,bool)|p(ap(ap(c_2Ebool_2E_5C_2F,Q),R))| -p(R).
% 2.28/2.46  0 [] mem(c_2Ebool_2E_2F_5C,arr(bool,arr(bool,bool))).
% 2.28/2.46  0 [] -mem(Q,bool)| -mem(R,bool)| -p(ap(ap(c_2Ebool_2E_2F_5C,Q),R))|p(Q).
% 2.28/2.46  0 [] -mem(Q,bool)| -mem(R,bool)| -p(ap(ap(c_2Ebool_2E_2F_5C,Q),R))|p(R).
% 2.28/2.46  0 [] -mem(Q,bool)| -mem(R,bool)|p(ap(ap(c_2Ebool_2E_2F_5C,Q),R))| -p(Q)| -p(R).
% 2.28/2.46  0 [] mem(c_2Ebool_2E_7E,arr(bool,bool)).
% 2.28/2.46  0 [] -mem(Q,bool)| -p(ap(c_2Ebool_2E_7E,Q))| -p(Q).
% 2.28/2.46  0 [] -mem(Q,bool)|p(ap(c_2Ebool_2E_7E,Q))|p(Q).
% 2.28/2.46  0 [] -ne(A_27a)|mem(c_2Emin_2E_3D(A_27a),arr(A_27a,arr(A_27a,bool))).
% 2.28/2.46  0 [] -ne(A)| -mem(X,A)| -mem(Y,A)| -p(ap(ap(c_2Emin_2E_3D(A),X),Y))|X=Y.
% 2.28/2.46  0 [] -ne(A)| -mem(X,A)| -mem(Y,A)|p(ap(ap(c_2Emin_2E_3D(A),X),Y))|X!=Y.
% 2.28/2.46  0 [] -ne(A_27a)|mem(c_2Ebool_2E_21(A_27a),arr(arr(A_27a,bool),bool)).
% 2.28/2.46  0 [] -ne(A)| -mem(Q,arr(A,bool))| -p(ap(c_2Ebool_2E_21(A),Q))| -mem(X,A)|p(ap(Q,X)).
% 2.28/2.46  0 [] -ne(A)| -mem(Q,arr(A,bool))|p(ap(c_2Ebool_2E_21(A),Q))|mem($f3(A,Q),A).
% 2.28/2.46  0 [] -ne(A)| -mem(Q,arr(A,bool))|p(ap(c_2Ebool_2E_21(A),Q))| -p(ap(Q,$f3(A,Q))).
% 2.28/2.46  0 [] $T.
% 2.28/2.46  0 [] -mem(V0t,bool)| -$F|p(V0t)| -$T.
% 2.28/2.46  0 [] -mem(V0t,bool)|$T.
% 2.28/2.46  0 [] $T|$F.
% 2.28/2.46  0 [] -$T| -$F.
% 2.28/2.46  0 [] $F|$T.
% 2.28/2.46  0 [] -$F| -$T.
% 2.28/2.46  0 [] -mem(V0t,bool)|$T|p(V0t).
% 2.28/2.46  0 [] -mem(V0t,bool)|$T| -p(V0t).
% 2.28/2.46  0 [] -mem(V0t,bool)| -$F| -p(V0t).
% 2.28/2.46  0 [] -mem(V0t,bool)| -$F|p(V0t).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1x,A_27a)|p(ap(V0P,V1x))|mem($f4(A_27a,V0P),A_27a).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1x,A_27a)|p(ap(V0P,V1x))| -p(ap(V0P,$f4(A_27a,V0P))).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))|mem($f5(A_27a,V0P),A_27a)| -mem(V2x,A_27a)|p(ap(V0P,V2x)).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -p(ap(V0P,$f5(A_27a,V0P)))| -mem(V2x,A_27a)|p(ap(V0P,V2x)).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))|mem($f6(A_27a,V0P,V1Q),A_27a)| -mem(V3x,A_27a)|p(ap(V0P,V3x)).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))|mem($f6(A_27a,V0P,V1Q),A_27a)| -mem(V4x,A_27a)|p(ap(V1Q,V4x)).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))| -p(ap(V0P,$f6(A_27a,V0P,V1Q)))| -p(ap(V1Q,$f6(A_27a,V0P,V1Q)))| -mem(V3x,A_27a)|p(ap(V0P,V3x)).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))| -p(ap(V0P,$f6(A_27a,V0P,V1Q)))| -p(ap(V1Q,$f6(A_27a,V0P,V1Q)))| -mem(V4x,A_27a)|p(ap(V1Q,V4x)).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))| -mem(V2x,A_27a)|p(ap(V0P,V2x))|mem($f7(A_27a,V0P,V1Q),A_27a)|mem($f8(A_27a,V0P,V1Q),A_27a).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))| -mem(V2x,A_27a)|p(ap(V0P,V2x))|mem($f7(A_27a,V0P,V1Q),A_27a)| -p(ap(V1Q,$f8(A_27a,V0P,V1Q))).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))| -mem(V2x,A_27a)|p(ap(V0P,V2x))| -p(ap(V0P,$f7(A_27a,V0P,V1Q)))|mem($f8(A_27a,V0P,V1Q),A_27a).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))| -mem(V2x,A_27a)|p(ap(V0P,V2x))| -p(ap(V0P,$f7(A_27a,V0P,V1Q)))| -p(ap(V1Q,$f8(A_27a,V0P,V1Q))).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))| -mem(V2x,A_27a)|p(ap(V1Q,V2x))|mem($f7(A_27a,V0P,V1Q),A_27a)|mem($f8(A_27a,V0P,V1Q),A_27a).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))| -mem(V2x,A_27a)|p(ap(V1Q,V2x))|mem($f7(A_27a,V0P,V1Q),A_27a)| -p(ap(V1Q,$f8(A_27a,V0P,V1Q))).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))| -mem(V2x,A_27a)|p(ap(V1Q,V2x))| -p(ap(V0P,$f7(A_27a,V0P,V1Q)))|mem($f8(A_27a,V0P,V1Q),A_27a).
% 2.28/2.46  0 [] -ne(A_27a)| -mem(V0P,arr(A_27a,bool))| -mem(V1Q,arr(A_27a,bool))| -mem(V2x,A_27a)|p(ap(V1Q,V2x))| -p(ap(V0P,$f7(A_27a,V0P,V1Q)))| -p(ap(V1Q,$f8(A_27a,V0P,V1Q))).
% 2.28/2.46  0 [] -mem(V0x,ty_2Einteger_2Eint)| -mem(V1y,ty_2Einteger_2Eint)|ap(ap(c_2Einteger_2Eint__sub,V0x),V1y)=ap(ap(c_2Einteger_2Eint__add,V0x),ap(c_2Einteger_2Eint__neg,V1y)).
% 2.28/2.46  0 [] -mem(V0p,ty_2Einteger_2Eint)| -mem(V1q,ty_2Einteger_2Eint)| -mem(V2r,ty_2Einteger_2Eint)| -p(ap(ap(c_2Einteger_2Eint__divides,V0p),V1q))| -p(ap(ap(c_2Einteger_2Eint__divides,V0p),ap(ap(c_2Einteger_2Eint__add,V2r),V1q)))|p(ap(ap(c_2Einteger_2Eint__divides,V0p),V2r)).
% 2.28/2.46  0 [] -mem(V0p,ty_2Einteger_2Eint)| -mem(V1q,ty_2Einteger_2Eint)| -mem(V2r,ty_2Einteger_2Eint)| -p(ap(ap(c_2Einteger_2Eint__divides,V0p),V1q))|p(ap(ap(c_2Einteger_2Eint__divides,V0p),ap(ap(c_2Einteger_2Eint__add,V2r),V1q)))| -p(ap(ap(c_2Einteger_2Eint__divides,V0p),V2r)).
% 2.28/2.47  0 [] -mem(V0p,ty_2Einteger_2Eint)| -mem(V1q,ty_2Einteger_2Eint)| -p(ap(ap(c_2Einteger_2Eint__divides,V0p),ap(c_2Einteger_2Eint__neg,V1q)))|p(ap(ap(c_2Einteger_2Eint__divides,V0p),V1q)).
% 2.28/2.47  0 [] -mem(V0p,ty_2Einteger_2Eint)| -mem(V1q,ty_2Einteger_2Eint)|p(ap(ap(c_2Einteger_2Eint__divides,V0p),ap(c_2Einteger_2Eint__neg,V1q)))| -p(ap(ap(c_2Einteger_2Eint__divides,V0p),V1q)).
% 2.28/2.47  0 [] -mem(V0p,ty_2Einteger_2Eint)| -mem(V1q,ty_2Einteger_2Eint)| -p(ap(ap(c_2Einteger_2Eint__divides,ap(c_2Einteger_2Eint__neg,V0p)),V1q))|p(ap(ap(c_2Einteger_2Eint__divides,V0p),V1q)).
% 2.28/2.47  0 [] -mem(V0p,ty_2Einteger_2Eint)| -mem(V1q,ty_2Einteger_2Eint)|p(ap(ap(c_2Einteger_2Eint__divides,ap(c_2Einteger_2Eint__neg,V0p)),V1q))| -p(ap(ap(c_2Einteger_2Eint__divides,V0p),V1q)).
% 2.28/2.47  0 [] mem($c3,ty_2Einteger_2Eint).
% 2.28/2.47  0 [] mem($c2,ty_2Einteger_2Eint).
% 2.28/2.47  0 [] mem($c1,ty_2Einteger_2Eint).
% 2.28/2.47  0 [] p(ap(ap(c_2Einteger_2Eint__divides,$c3),$c2)).
% 2.28/2.47  0 [] p(ap(ap(c_2Einteger_2Eint__divides,$c3),ap(ap(c_2Einteger_2Eint__sub,$c1),$c2)))|p(ap(ap(c_2Einteger_2Eint__divides,$c3),$c1)).
% 2.28/2.47  0 [] -p(ap(ap(c_2Einteger_2Eint__divides,$c3),ap(ap(c_2Einteger_2Eint__sub,$c1),$c2)))| -p(ap(ap(c_2Einteger_2Eint__divides,$c3),$c1)).
% 2.28/2.47  end_of_list.
% 2.28/2.47  
% 2.28/2.47  SCAN INPUT: prop=0, horn=0, equality=1, symmetry=0, max_lits=7.
% 2.28/2.47  
% 2.28/2.47  This ia a non-Horn set with equality.  The strategy will be
% 2.28/2.47  Knuth-Bendix, ordered hyper_res, factoring, and unit
% 2.28/2.47  deletion, with positive clauses in sos and nonpositive
% 2.28/2.47  clauses in usable.
% 2.28/2.47  
% 2.28/2.47     dependent: set(knuth_bendix).
% 2.28/2.47     dependent: set(anl_eq).
% 2.28/2.47     dependent: set(para_from).
% 2.28/2.47     dependent: set(para_into).
% 2.28/2.47     dependent: clear(para_from_right).
% 2.28/2.47     dependent: clear(para_into_right).
% 2.28/2.47     dependent: set(para_from_vars).
% 2.28/2.47     dependent: set(eq_units_both_ways).
% 2.28/2.47     dependent: set(dynamic_demod_all).
% 2.28/2.47     dependent: set(dynamic_demod).
% 2.28/2.47     dependent: set(order_eq).
% 2.28/2.47     dependent: set(back_demod).
% 2.28/2.47     dependent: set(lrpo).
% 2.28/2.47     dependent: set(hyper_res).
% 2.28/2.47     dependent: set(unit_deletion).
% 2.28/2.47     dependent: set(factor).
% 2.28/2.47  
% 2.28/2.47  ------------> process usable:
% 2.28/2.47  ** KEPT (pick-wt=8): 1 [] -ne(A)| -ne(B)|ne(arr(A,B)).
% 2.28/2.47  ** KEPT (pick-wt=13): 2 [] -mem(A,arr(B,C))| -mem(D,B)|mem(ap(A,D),C).
% 2.28/2.47  ** KEPT (pick-wt=13): 3 [] -mem(A,bool)| -mem(B,bool)|p(A)|p(B)|A=B.
% 2.28/2.47  ** KEPT (pick-wt=13): 4 [] -mem(A,bool)| -mem(B,bool)| -p(A)| -p(B)|A=B.
% 2.28/2.47  ** KEPT (pick-wt=20): 5 [] -mem(A,arr(B,C))| -mem(D,arr(B,C))|mem($f1(B,C,A,D),B)|A=D.
% 2.28/2.47  ** KEPT (pick-wt=28): 6 [] -mem(A,arr(B,C))| -mem(D,arr(B,C))|ap(A,$f1(B,C,A,D))!=ap(D,$f1(B,C,A,D))|A=D.
% 2.28/2.47  ** KEPT (pick-wt=10): 7 [] -mem(A,B)|ap(k(B,C),A)=C.
% 2.28/2.47  ** KEPT (pick-wt=9): 8 [] -mem(A,B)|ap(i(B),A)=A.
% 2.28/2.47  ** KEPT (pick-wt=10): 9 [] -ne(A)|mem(c_2Ebool_2E_3F(A),arr(arr(A,bool),bool)).
% 2.28/2.47  ** KEPT (pick-wt=17): 10 [] -ne(A)| -mem(B,arr(A,bool))| -p(ap(c_2Ebool_2E_3F(A),B))|mem($f2(A,B),A).
% 2.28/2.47  ** KEPT (pick-wt=18): 11 [] -ne(A)| -mem(B,arr(A,bool))| -p(ap(c_2Ebool_2E_3F(A),B))|p(ap(B,$f2(A,B))).
% 2.28/2.47  ** KEPT (pick-wt=19): 12 [] -ne(A)| -mem(B,arr(A,bool))|p(ap(c_2Ebool_2E_3F(A),B))| -mem(C,A)| -p(ap(B,C)).
% 2.28/2.47  ** KEPT (pick-wt=2): 13 [] -p(c_2Ebool_2EF).
% 2.28/2.47  ** KEPT (pick-wt=16): 14 [] -mem(A,bool)| -mem(B,bool)| -p(ap(ap(c_2Emin_2E_3D_3D_3E,A),B))| -p(A)|p(B).
% 2.28/2.47  ** KEPT (pick-wt=14): 15 [] -mem(A,bool)| -mem(B,bool)|p(ap(ap(c_2Emin_2E_3D_3D_3E,A),B))|p(A).
% 2.28/2.47  ** KEPT (pick-wt=14): 16 [] -mem(A,bool)| -mem(B,bool)|p(ap(ap(c_2Emin_2E_3D_3D_3E,A),B))| -p(B).
% 2.28/2.47  ** KEPT (pick-wt=16): 17 [] -mem(A,bool)| -mem(B,bool)| -p(ap(ap(c_2Ebool_2E_5C_2F,A),B))|p(A)|p(B).
% 2.28/2.47  ** KEPT (pick-wt=14): 18 [] -mem(A,bool)| -mem(B,bool)|p(ap(ap(c_2Ebool_2E_5C_2F,A),B))| -p(A).
% 2.28/2.47  ** KEPT (pick-wt=14): 19 [] -mem(A,bool)| -mem(B,bool)|p(ap(ap(c_2Ebool_2E_5C_2F,A),B))| -p(B).
% 2.28/2.47  ** KEPT (pick-wt=14): 20 [] -mem(A,bool)| -mem(B,bool)| -p(ap(ap(c_2Ebool_2E_2F_5C,A),B))|p(A).
% 2.28/2.47  ** KEPT (pick-wt=14): 21 [] -mem(A,bool)| -mem(B,bool)| -p(ap(ap(c_2Ebool_2E_2F_5C,A),B))|p(B).
% 2.28/2.47  ** KEPT (pick-wt=16): 22 [] -mem(A,bool)| -mem(B,bool)|p(ap(ap(c_2Ebool_2E_2F_5C,A),B))| -p(A)| -p(B).
% 2.28/2.47  ** KEPT (pick-wt=9): 23 [] -mem(A,bool)| -p(ap(c_2Ebool_2E_7E,A))| -p(A).
% 2.28/2.47  ** KEPT (pick-wt=9): 24 [] -mem(A,bool)|p(ap(c_2Ebool_2E_7E,A))|p(A).
% 2.28/2.47  ** KEPT (pick-wt=10): 25 [] -ne(A)|mem(c_2Emin_2E_3D(A),arr(A,arr(A,bool))).
% 2.28/2.47  ** KEPT (pick-wt=18): 26 [] -ne(A)| -mem(B,A)| -mem(C,A)| -p(ap(ap(c_2Emin_2E_3D(A),B),C))|B=C.
% 2.28/2.47  ** KEPT (pick-wt=18): 27 [] -ne(A)| -mem(B,A)| -mem(C,A)|p(ap(ap(c_2Emin_2E_3D(A),B),C))|B!=C.
% 2.28/2.47  ** KEPT (pick-wt=10): 28 [] -ne(A)|mem(c_2Ebool_2E_21(A),arr(arr(A,bool),bool)).
% 2.28/2.47  ** KEPT (pick-wt=19): 29 [] -ne(A)| -mem(B,arr(A,bool))| -p(ap(c_2Ebool_2E_21(A),B))| -mem(C,A)|p(ap(B,C)).
% 2.28/2.47  ** KEPT (pick-wt=17): 30 [] -ne(A)| -mem(B,arr(A,bool))|p(ap(c_2Ebool_2E_21(A),B))|mem($f3(A,B),A).
% 2.28/2.47  ** KEPT (pick-wt=18): 31 [] -ne(A)| -mem(B,arr(A,bool))|p(ap(c_2Ebool_2E_21(A),B))| -p(ap(B,$f3(A,B))).
% 2.28/2.47  ** KEPT (pick-wt=19): 32 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,A)|p(ap(B,C))|mem($f4(A,B),A).
% 2.28/2.47  ** KEPT (pick-wt=20): 33 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,A)|p(ap(B,C))| -p(ap(B,$f4(A,B))).
% 2.28/2.47  ** KEPT (pick-wt=19): 34 [] -ne(A)| -mem(B,arr(A,bool))|mem($f5(A,B),A)| -mem(C,A)|p(ap(B,C)).
% 2.28/2.47  ** KEPT (pick-wt=20): 35 [] -ne(A)| -mem(B,arr(A,bool))| -p(ap(B,$f5(A,B)))| -mem(C,A)|p(ap(B,C)).
% 2.28/2.47  ** KEPT (pick-wt=25): 36 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))|mem($f6(A,B,C),A)| -mem(D,A)|p(ap(B,D)).
% 2.28/2.47  ** KEPT (pick-wt=25): 37 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))|mem($f6(A,B,C),A)| -mem(D,A)|p(ap(C,D)).
% 2.28/2.47  ** KEPT (pick-wt=33): 38 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))| -p(ap(B,$f6(A,B,C)))| -p(ap(C,$f6(A,B,C)))| -mem(D,A)|p(ap(B,D)).
% 2.28/2.47  ** KEPT (pick-wt=33): 39 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))| -p(ap(B,$f6(A,B,C)))| -p(ap(C,$f6(A,B,C)))| -mem(D,A)|p(ap(C,D)).
% 2.28/2.47  ** KEPT (pick-wt=31): 40 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))| -mem(D,A)|p(ap(B,D))|mem($f7(A,B,C),A)|mem($f8(A,B,C),A).
% 2.28/2.47  ** KEPT (pick-wt=32): 41 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))| -mem(D,A)|p(ap(B,D))|mem($f7(A,B,C),A)| -p(ap(C,$f8(A,B,C))).
% 2.28/2.47  ** KEPT (pick-wt=32): 42 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))| -mem(D,A)|p(ap(B,D))| -p(ap(B,$f7(A,B,C)))|mem($f8(A,B,C),A).
% 2.28/2.47  ** KEPT (pick-wt=33): 43 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))| -mem(D,A)|p(ap(B,D))| -p(ap(B,$f7(A,B,C)))| -p(ap(C,$f8(A,B,C))).
% 2.28/2.47  ** KEPT (pick-wt=31): 44 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))| -mem(D,A)|p(ap(C,D))|mem($f7(A,B,C),A)|mem($f8(A,B,C),A).
% 2.28/2.47  ** KEPT (pick-wt=32): 45 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))| -mem(D,A)|p(ap(C,D))|mem($f7(A,B,C),A)| -p(ap(C,$f8(A,B,C))).
% 2.28/2.47  ** KEPT (pick-wt=32): 46 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))| -mem(D,A)|p(ap(C,D))| -p(ap(B,$f7(A,B,C)))|mem($f8(A,B,C),A).
% 2.28/2.47  ** KEPT (pick-wt=33): 47 [] -ne(A)| -mem(B,arr(A,bool))| -mem(C,arr(A,bool))| -mem(D,A)|p(ap(C,D))| -p(ap(B,$f7(A,B,C)))| -p(ap(C,$f8(A,B,C))).
% 2.28/2.47  ** KEPT (pick-wt=19): 48 [] -mem(A,ty_2Einteger_2Eint)| -mem(B,ty_2Einteger_2Eint)|ap(ap(c_2Einteger_2Eint__sub,A),B)=ap(ap(c_2Einteger_2Eint__add,A),ap(c_2Einteger_2Eint__neg,B)).
% 2.28/2.47  ** KEPT (pick-wt=31): 49 [] -mem(A,ty_2Einteger_2Eint)| -mem(B,ty_2Einteger_2Eint)| -mem(C,ty_2Einteger_2Eint)| -p(ap(ap(c_2Einteger_2Eint__divides,A),B))| -p(ap(ap(c_2Einteger_2Eint__divides,A),ap(ap(c_2Einteger_2Eint__add,C),B)))|p(ap(ap(c_2Einteger_2Eint__divides,A),C)).
% 2.28/2.47  ** KEPT (pick-wt=31): 50 [] -mem(A,ty_2Einteger_2Eint)| -mem(B,ty_2Einteger_2Eint)| -mem(C,ty_2Einteger_2Eint)| -p(ap(ap(c_2Einteger_2Eint__divides,A),B))|p(ap(ap(c_2Einteger_2Eint__divides,A),ap(ap(c_2Einteger_2Eint__add,C),B)))| -p(ap(ap(c_2Einteger_2Eint__divides,A),C)).
% 2.28/2.47  ** KEPT (pick-wt=20): 51 [] -mem(A,ty_2Einteger_2Eint)| -mem(B,ty_2Einteger_2Eint)| -p(ap(ap(c_2Einteger_2Eint__divides,A),ap(c_2Einteger_2Eint__neg,B)))|p(ap(ap(c_2Einteger_2Eint__divides,A),B)).
% 2.28/2.47  ** KEPT (pick-wt=20): 52 [] -mem(A,ty_2Einteger_2Eint)| -mem(B,ty_2Einteger_2Eint)|p(ap(ap(c_2Einteger_2Eint__divides,A),ap(c_2Einteger_2Eint__neg,B)))| -p(ap(ap(c_2Einteger_2Eint__divides,A),B)).
% 2.28/2.47  ** KEPT (pick-wt=20): 53 [] -mem(A,ty_2Einteger_2Eint)| -mem(B,ty_2Einteger_2Eint)| -p(ap(ap(c_2Einteger_2Eint__divides,ap(c_2Einteger_2Eint__neg,A)),B))|p(ap(ap(c_2Einteger_2Eint__divides,A),B)).
% 2.28/2.47  ** KEPT (pick-wt=20): 54 [] -mem(A,ty_2Einteger_2Eint)| -mem(B,ty_2Einteger_2Eint)|p(ap(ap(c_2Einteger_2Eint__divides,ap(c_2Einteger_2Eint__neg,A)),B))| -p(ap(ap(c_2Einteger_2Eint__divides,A),B)).
% 7.34/7.58  ** KEPT (pick-wt=16): 55 [] -p(ap(ap(c_2Einteger_2Eint__divides,$c3),ap(ap(c_2Einteger_2Eint__sub,$c1),$c2)))| -p(ap(ap(c_2Einteger_2Eint__divides,$c3),$c1)).
% 7.34/7.58  
% 7.34/7.58  ------------> process sos:
% 7.34/7.58  ** KEPT (pick-wt=3): 86 [] A=A.
% 7.34/7.58  ** KEPT (pick-wt=2): 87 [] ne(bool).
% 7.34/7.58  ** KEPT (pick-wt=2): 88 [] ne(ind).
% 7.34/7.58  ** KEPT (pick-wt=3): 89 [] mem(c_2Ebool_2ET,bool).
% 7.34/7.58  ** KEPT (pick-wt=2): 90 [] p(c_2Ebool_2ET).
% 7.34/7.58  ** KEPT (pick-wt=2): 91 [] ne(ty_2Einteger_2Eint).
% 7.34/7.58  ** KEPT (pick-wt=7): 92 [] mem(c_2Einteger_2Eint__sub,arr(ty_2Einteger_2Eint,arr(ty_2Einteger_2Eint,ty_2Einteger_2Eint))).
% 7.34/7.58  ** KEPT (pick-wt=7): 93 [] mem(c_2Einteger_2Eint__add,arr(ty_2Einteger_2Eint,arr(ty_2Einteger_2Eint,ty_2Einteger_2Eint))).
% 7.34/7.58  ** KEPT (pick-wt=5): 94 [] mem(c_2Einteger_2Eint__neg,arr(ty_2Einteger_2Eint,ty_2Einteger_2Eint)).
% 7.34/7.58  ** KEPT (pick-wt=7): 95 [] mem(c_2Einteger_2Eint__divides,arr(ty_2Einteger_2Eint,arr(ty_2Einteger_2Eint,bool))).
% 7.34/7.58  ** KEPT (pick-wt=3): 96 [] mem(c_2Ebool_2EF,bool).
% 7.34/7.58  ** KEPT (pick-wt=7): 97 [] mem(c_2Emin_2E_3D_3D_3E,arr(bool,arr(bool,bool))).
% 7.34/7.58  ** KEPT (pick-wt=7): 98 [] mem(c_2Ebool_2E_5C_2F,arr(bool,arr(bool,bool))).
% 7.34/7.58  ** KEPT (pick-wt=7): 99 [] mem(c_2Ebool_2E_2F_5C,arr(bool,arr(bool,bool))).
% 7.34/7.58  ** KEPT (pick-wt=5): 100 [] mem(c_2Ebool_2E_7E,arr(bool,bool)).
% 7.34/7.58  ** KEPT (pick-wt=3): 101 [] mem($c3,ty_2Einteger_2Eint).
% 7.34/7.58  ** KEPT (pick-wt=3): 102 [] mem($c2,ty_2Einteger_2Eint).
% 7.34/7.58  ** KEPT (pick-wt=3): 103 [] mem($c1,ty_2Einteger_2Eint).
% 7.34/7.58  ** KEPT (pick-wt=6): 104 [] p(ap(ap(c_2Einteger_2Eint__divides,$c3),$c2)).
% 7.34/7.58  ** KEPT (pick-wt=16): 105 [] p(ap(ap(c_2Einteger_2Eint__divides,$c3),ap(ap(c_2Einteger_2Eint__sub,$c1),$c2)))|p(ap(ap(c_2Einteger_2Eint__divides,$c3),$c1)).
% 7.34/7.58    Following clause subsumed by 86 during input processing: 0 [copy,86,flip.1] A=A.
% 7.34/7.58  86 back subsumes 67.
% 7.34/7.58  86 back subsumes 60.
% 7.34/7.58  86 back subsumes 59.
% 7.34/7.58  86 back subsumes 58.
% 7.34/7.58  86 back subsumes 57.
% 7.34/7.58  
% 7.34/7.58  ======= end of input processing =======
% 7.34/7.58  
% 7.34/7.58  =========== start of search ===========
% 7.34/7.58  
% 7.34/7.58  
% 7.34/7.58  Resetting weight limit to 6.
% 7.34/7.58  
% 7.34/7.58  
% 7.34/7.58  Resetting weight limit to 6.
% 7.34/7.58  
% 7.34/7.58  sos_size=1116
% 7.34/7.58  
% 7.34/7.58  Search stopped because sos empty.
% 7.34/7.58  
% 7.34/7.58  
% 7.34/7.58  Search stopped because sos empty.
% 7.34/7.58  
% 7.34/7.58  ============ end of search ============
% 7.34/7.58  
% 7.34/7.58  -------------- statistics -------------
% 7.34/7.58  clauses given               1129
% 7.34/7.58  clauses generated         133003
% 7.34/7.58  clauses kept                1280
% 7.34/7.58  clauses forward subsumed    1726
% 7.34/7.58  clauses back subsumed         11
% 7.34/7.58  Kbytes malloced             6835
% 7.34/7.58  
% 7.34/7.58  ----------- times (seconds) -----------
% 7.34/7.58  user CPU time          5.12          (0 hr, 0 min, 5 sec)
% 7.34/7.58  system CPU time        0.01          (0 hr, 0 min, 0 sec)
% 7.34/7.58  wall-clock time        7             (0 hr, 0 min, 7 sec)
% 7.34/7.58  
% 7.34/7.58  Process 7195 finished Wed Jul 27 02:40:15 2022
% 7.34/7.58  Otter interrupted
% 7.34/7.58  PROOF NOT FOUND
%------------------------------------------------------------------------------