%------------------------------------------------------------------------------
% File     : Otter---3.3
% Problem  : CSR029+1 : TPTP v8.1.0. Released v3.4.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : otter-tptp-script %s

% Computer : n027.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 12:48:42 EDT 2022

% Result   : Theorem 1.81s 2.00s
% Output   : Refutation 1.81s
% Verified : 
% SZS Type : Refutation
%            Derivation depth      :    4
%            Number of leaves      :   10
% Syntax   : Number of clauses     :   18 (  11 unt;   0 nHn;  18 RR)
%            Number of literals    :   27 (   0 equ;  10 neg)
%            Maximal clause size   :    3 (   1 avg)
%            Maximal term depth    :    1 (   1 avg)
%            Number of predicates  :    6 (   5 usr;   1 prp; 0-2 aty)
%            Number of functors    :    6 (   6 usr;   6 con; 0-0 aty)
%            Number of variables   :    7 (   0 sgn)

% Comments : 
%------------------------------------------------------------------------------
cnf(1,axiom,
    ( ~ geographicalsubregions(A,B)
    | inregion(B,A) ),
    file('CSR029+1.p',unknown),
    [] ).

cnf(2,axiom,
    ( ~ mtvisible(c_worldgeographymt)
    | geolevel_3(c_georegion_l3_x4_y13) ),
    file('CSR029+1.p',unknown),
    [] ).

cnf(3,axiom,
    ( ~ mtvisible(c_tptpgeo_member3_mt)
    | geographicalsubregions(c_georegion_l3_x4_y13,c_georegion_l4_x14_y39) ),
    file('CSR029+1.p',unknown),
    [] ).

cnf(4,axiom,
    ( ~ mtvisible(c_tptpgeo_member3_mt)
    | inregion(c_geolocation_x14_y39,c_georegion_l4_x14_y39) ),
    file('CSR029+1.p',unknown),
    [] ).

cnf(30,axiom,
    ( ~ inregion(A,B)
    | ~ inregion(B,C)
    | inregion(A,C) ),
    file('CSR029+1.p',unknown),
    [] ).

cnf(35,axiom,
    ( ~ mtvisible(A)
    | ~ genlmt(A,B)
    | mtvisible(B) ),
    file('CSR029+1.p',unknown),
    [] ).

cnf(40,axiom,
    ( ~ inregion(c_geolocation_x14_y39,c_georegion_l3_x4_y13)
    | ~ geolevel_3(c_georegion_l3_x4_y13) ),
    file('CSR029+1.p',unknown),
    [] ).

cnf(47,axiom,
    genlmt(c_tptpgeo_spindleheadmt,c_worldgeographymt),
    file('CSR029+1.p',unknown),
    [] ).

cnf(48,axiom,
    genlmt(c_tptpgeo_member3_mt,c_tptpgeo_spindleheadmt),
    file('CSR029+1.p',unknown),
    [] ).

cnf(51,axiom,
    mtvisible(c_tptpgeo_member3_mt),
    file('CSR029+1.p',unknown),
    [] ).

cnf(58,plain,
    inregion(c_geolocation_x14_y39,c_georegion_l4_x14_y39),
    inference(hyper,[status(thm)],[51,4]),
    [iquote('hyper,51,4')] ).

cnf(59,plain,
    geographicalsubregions(c_georegion_l3_x4_y13,c_georegion_l4_x14_y39),
    inference(hyper,[status(thm)],[51,3]),
    [iquote('hyper,51,3')] ).

cnf(73,plain,
    mtvisible(c_tptpgeo_spindleheadmt),
    inference(hyper,[status(thm)],[48,35,51]),
    [iquote('hyper,48,35,51')] ).

cnf(75,plain,
    mtvisible(c_worldgeographymt),
    inference(hyper,[status(thm)],[73,35,47]),
    [iquote('hyper,73,35,47')] ).

cnf(79,plain,
    geolevel_3(c_georegion_l3_x4_y13),
    inference(hyper,[status(thm)],[75,2]),
    [iquote('hyper,75,2')] ).

cnf(88,plain,
    inregion(c_georegion_l4_x14_y39,c_georegion_l3_x4_y13),
    inference(hyper,[status(thm)],[59,1]),
    [iquote('hyper,59,1')] ).

cnf(99,plain,
    inregion(c_geolocation_x14_y39,c_georegion_l3_x4_y13),
    inference(hyper,[status(thm)],[88,30,58]),
    [iquote('hyper,88,30,58')] ).

cnf(102,plain,
    $false,
    inference(hyper,[status(thm)],[99,40,79]),
    [iquote('hyper,99,40,79')] ).

%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.12/0.12  % Problem  : CSR029+1 : TPTP v8.1.0. Released v3.4.0.
% 0.12/0.13  % Command  : otter-tptp-script %s
% 0.13/0.34  % Computer : n027.cluster.edu
% 0.13/0.34  % Model    : x86_64 x86_64
% 0.13/0.34  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.34  % Memory   : 8042.1875MB
% 0.13/0.34  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.13/0.34  % CPULimit : 300
% 0.13/0.34  % WCLimit  : 300
% 0.13/0.34  % DateTime : Wed Jul 27 04:37:36 EDT 2022
% 0.13/0.34  % CPUTime  : 
% 1.81/2.00  ----- Otter 3.3f, August 2004 -----
% 1.81/2.00  The process was started by sandbox2 on n027.cluster.edu,
% 1.81/2.00  Wed Jul 27 04:37:36 2022
% 1.81/2.00  The command was "./otter".  The process ID is 18138.
% 1.81/2.00  
% 1.81/2.00  set(prolog_style_variables).
% 1.81/2.00  set(auto).
% 1.81/2.00     dependent: set(auto1).
% 1.81/2.00     dependent: set(process_input).
% 1.81/2.00     dependent: clear(print_kept).
% 1.81/2.00     dependent: clear(print_new_demod).
% 1.81/2.00     dependent: clear(print_back_demod).
% 1.81/2.00     dependent: clear(print_back_sub).
% 1.81/2.00     dependent: set(control_memory).
% 1.81/2.00     dependent: assign(max_mem, 12000).
% 1.81/2.00     dependent: assign(pick_given_ratio, 4).
% 1.81/2.00     dependent: assign(stats_level, 1).
% 1.81/2.00     dependent: assign(max_seconds, 10800).
% 1.81/2.00  clear(print_given).
% 1.81/2.00  
% 1.81/2.00  formula_list(usable).
% 1.81/2.00  genlmt(c_geographymt,c_basekb).
% 1.81/2.00  transitivebinarypredicate(c_inregion).
% 1.81/2.00  genlmt(c_worldgeographymt,c_geographymt).
% 1.81/2.00  genlinverse(c_geographicalsubregions,c_inregion).
% 1.81/2.00  all ARG1 ARG2 (geographicalsubregions(ARG1,ARG2)->inregion(ARG2,ARG1)).
% 1.81/2.00  transitivebinarypredicate(c_genlmt).
% 1.81/2.00  genlmt(c_basekb,c_universalvocabularymt).
% 1.81/2.00  genlmt(c_tptpgeo_spindleheadmt,c_worldgeographymt).
% 1.81/2.00  genlmt(c_tptpgeo_member3_mt,c_tptpgeo_spindleheadmt).
% 1.81/2.00  mtvisible(c_worldgeographymt)->geolevel_3(c_georegion_l3_x4_y13).
% 1.81/2.00  mtvisible(c_tptpgeo_member3_mt)->geographicalsubregions(c_georegion_l3_x4_y13,c_georegion_l4_x14_y39).
% 1.81/2.00  mtvisible(c_tptpgeo_member3_mt)->inregion(c_geolocation_x14_y39,c_georegion_l4_x14_y39).
% 1.81/2.00  all OBJ COL1 COL2 (-(isa(OBJ,COL1)&isa(OBJ,COL2)&disjointwith(COL1,COL2))).
% 1.81/2.00  all SPECPRED PRED GENLPRED (genlinverse(SPECPRED,PRED)&genlinverse(PRED,GENLPRED)->genlpreds(SPECPRED,GENLPRED)).
% 1.81/2.00  all ARG1 INS (genlpreds(ARG1,INS)->predicate(INS)).
% 1.81/2.00  all ARG1 INS (genlpreds(ARG1,INS)->predicate(INS)).
% 1.81/2.00  all INS ARG2 (genlpreds(INS,ARG2)->predicate(INS)).
% 1.81/2.00  all INS ARG2 (genlpreds(INS,ARG2)->predicate(INS)).
% 1.81/2.00  all X Y Z (genlpreds(X,Y)&genlpreds(Y,Z)->genlpreds(X,Z)).
% 1.81/2.00  all X (predicate(X)->genlpreds(X,X)).
% 1.81/2.00  all X (predicate(X)->genlpreds(X,X)).
% 1.81/2.00  all ARG1 INS (disjointwith(ARG1,INS)->collection(INS)).
% 1.81/2.00  all INS ARG2 (disjointwith(INS,ARG2)->collection(INS)).
% 1.81/2.00  all X Y (disjointwith(X,Y)->disjointwith(Y,X)).
% 1.81/2.00  all ARG1 OLD NEW (disjointwith(ARG1,OLD)&genls(NEW,OLD)->disjointwith(ARG1,NEW)).
% 1.81/2.00  all OLD ARG2 NEW (disjointwith(OLD,ARG2)&genls(NEW,OLD)->disjointwith(NEW,ARG2)).
% 1.81/2.00  all X (isa(X,c_geolevel_3)->geolevel_3(X)).
% 1.81/2.00  all X (geolevel_3(X)->isa(X,c_geolevel_3)).
% 1.81/2.00  all ARG1 INS (geographicalsubregions(ARG1,INS)->geographicalregion(INS)).
% 1.81/2.00  all INS ARG2 (geographicalsubregions(INS,ARG2)->geographicalregion(INS)).
% 1.81/2.00  all X Y Z (geographicalsubregions(X,Y)&geographicalsubregions(Y,Z)->geographicalsubregions(X,Z)).
% 1.81/2.00  all X (geographicalregion(X)->geographicalsubregions(X,X)).
% 1.81/2.00  all ARG1 INS (genlinverse(ARG1,INS)->binarypredicate(INS)).
% 1.81/2.00  all INS ARG2 (genlinverse(INS,ARG2)->binarypredicate(INS)).
% 1.81/2.00  all OLD ARG2 NEW (genlinverse(OLD,ARG2)&genlpreds(NEW,OLD)->genlinverse(NEW,ARG2)).
% 1.81/2.00  all ARG1 OLD NEW (genlinverse(ARG1,OLD)&genlpreds(OLD,NEW)->genlinverse(ARG1,NEW)).
% 1.81/2.00  all X (isa(X,c_transitivebinarypredicate)->transitivebinarypredicate(X)).
% 1.81/2.00  all X (transitivebinarypredicate(X)->isa(X,c_transitivebinarypredicate)).
% 1.81/2.00  all ARG1 INS (inregion(ARG1,INS)->spatialthing_nonsituational(INS)).
% 1.81/2.00  all INS ARG2 (inregion(INS,ARG2)->spatialthing_nonsituational(INS)).
% 1.81/2.00  all X Y Z (inregion(X,Y)&inregion(Y,Z)->inregion(X,Z)).
% 1.81/2.00  all X (spatialthing_nonsituational(X)->inregion(X,X)).
% 1.81/2.00  all ARG1 INS (isa(ARG1,INS)->collection(INS)).
% 1.81/2.00  all ARG1 INS (isa(ARG1,INS)->collection(INS)).
% 1.81/2.00  all INS ARG2 (isa(INS,ARG2)->thing(INS)).
% 1.81/2.00  all INS ARG2 (isa(INS,ARG2)->thing(INS)).
% 1.81/2.00  all ARG1 OLD NEW (isa(ARG1,OLD)&genls(OLD,NEW)->isa(ARG1,NEW)).
% 1.81/2.00  mtvisible(c_universalvocabularymt).
% 1.81/2.00  all SPECMT GENLMT (mtvisible(SPECMT)&genlmt(SPECMT,GENLMT)->mtvisible(GENLMT)).
% 1.81/2.00  all ARG1 INS (genlmt(ARG1,INS)->microtheory(INS)).
% 1.81/2.00  all ARG1 INS (genlmt(ARG1,INS)->microtheory(INS)).
% 1.81/2.00  all INS ARG2 (genlmt(INS,ARG2)->microtheory(INS)).
% 1.81/2.00  all INS ARG2 (genlmt(INS,ARG2)->microtheory(INS)).
% 1.81/2.00  all X Y Z (genlmt(X,Y)&genlmt(Y,Z)->genlmt(X,Z)).
% 1.81/2.00  all X (microtheory(X)->genlmt(X,X)).
% 1.81/2.00  all X (microtheory(X)->genlmt(X,X)).
% 1.81/2.00  mtvisible(c_basekb).
% 1.81/2.00  -(mtvisible(c_tptpgeo_member3_mt)->inregion(c_geolocation_x14_y39,c_georegion_l3_x4_y13)&geolevel_3(c_georegion_l3_x4_y13)).
% 1.81/2.00  end_of_list.
% 1.81/2.00  
% 1.81/2.00  -------> usable clausifies to:
% 1.81/2.00  
% 1.81/2.00  list(usable).
% 1.81/2.00  0 [] genlmt(c_geographymt,c_basekb).
% 1.81/2.00  0 [] transitivebinarypredicate(c_inregion).
% 1.81/2.00  0 [] genlmt(c_worldgeographymt,c_geographymt).
% 1.81/2.00  0 [] genlinverse(c_geographicalsubregions,c_inregion).
% 1.81/2.00  0 [] -geographicalsubregions(ARG1,ARG2)|inregion(ARG2,ARG1).
% 1.81/2.00  0 [] transitivebinarypredicate(c_genlmt).
% 1.81/2.00  0 [] genlmt(c_basekb,c_universalvocabularymt).
% 1.81/2.00  0 [] genlmt(c_tptpgeo_spindleheadmt,c_worldgeographymt).
% 1.81/2.00  0 [] genlmt(c_tptpgeo_member3_mt,c_tptpgeo_spindleheadmt).
% 1.81/2.00  0 [] -mtvisible(c_worldgeographymt)|geolevel_3(c_georegion_l3_x4_y13).
% 1.81/2.00  0 [] -mtvisible(c_tptpgeo_member3_mt)|geographicalsubregions(c_georegion_l3_x4_y13,c_georegion_l4_x14_y39).
% 1.81/2.00  0 [] -mtvisible(c_tptpgeo_member3_mt)|inregion(c_geolocation_x14_y39,c_georegion_l4_x14_y39).
% 1.81/2.00  0 [] -isa(OBJ,COL1)| -isa(OBJ,COL2)| -disjointwith(COL1,COL2).
% 1.81/2.00  0 [] -genlinverse(SPECPRED,PRED)| -genlinverse(PRED,GENLPRED)|genlpreds(SPECPRED,GENLPRED).
% 1.81/2.00  0 [] -genlpreds(ARG1,INS)|predicate(INS).
% 1.81/2.00  0 [] -genlpreds(ARG1,INS)|predicate(INS).
% 1.81/2.00  0 [] -genlpreds(INS,ARG2)|predicate(INS).
% 1.81/2.00  0 [] -genlpreds(INS,ARG2)|predicate(INS).
% 1.81/2.00  0 [] -genlpreds(X,Y)| -genlpreds(Y,Z)|genlpreds(X,Z).
% 1.81/2.00  0 [] -predicate(X)|genlpreds(X,X).
% 1.81/2.00  0 [] -predicate(X)|genlpreds(X,X).
% 1.81/2.00  0 [] -disjointwith(ARG1,INS)|collection(INS).
% 1.81/2.00  0 [] -disjointwith(INS,ARG2)|collection(INS).
% 1.81/2.00  0 [] -disjointwith(X,Y)|disjointwith(Y,X).
% 1.81/2.00  0 [] -disjointwith(ARG1,OLD)| -genls(NEW,OLD)|disjointwith(ARG1,NEW).
% 1.81/2.00  0 [] -disjointwith(OLD,ARG2)| -genls(NEW,OLD)|disjointwith(NEW,ARG2).
% 1.81/2.00  0 [] -isa(X,c_geolevel_3)|geolevel_3(X).
% 1.81/2.00  0 [] -geolevel_3(X)|isa(X,c_geolevel_3).
% 1.81/2.00  0 [] -geographicalsubregions(ARG1,INS)|geographicalregion(INS).
% 1.81/2.00  0 [] -geographicalsubregions(INS,ARG2)|geographicalregion(INS).
% 1.81/2.00  0 [] -geographicalsubregions(X,Y)| -geographicalsubregions(Y,Z)|geographicalsubregions(X,Z).
% 1.81/2.00  0 [] -geographicalregion(X)|geographicalsubregions(X,X).
% 1.81/2.00  0 [] -genlinverse(ARG1,INS)|binarypredicate(INS).
% 1.81/2.00  0 [] -genlinverse(INS,ARG2)|binarypredicate(INS).
% 1.81/2.00  0 [] -genlinverse(OLD,ARG2)| -genlpreds(NEW,OLD)|genlinverse(NEW,ARG2).
% 1.81/2.00  0 [] -genlinverse(ARG1,OLD)| -genlpreds(OLD,NEW)|genlinverse(ARG1,NEW).
% 1.81/2.00  0 [] -isa(X,c_transitivebinarypredicate)|transitivebinarypredicate(X).
% 1.81/2.00  0 [] -transitivebinarypredicate(X)|isa(X,c_transitivebinarypredicate).
% 1.81/2.00  0 [] -inregion(ARG1,INS)|spatialthing_nonsituational(INS).
% 1.81/2.00  0 [] -inregion(INS,ARG2)|spatialthing_nonsituational(INS).
% 1.81/2.00  0 [] -inregion(X,Y)| -inregion(Y,Z)|inregion(X,Z).
% 1.81/2.00  0 [] -spatialthing_nonsituational(X)|inregion(X,X).
% 1.81/2.00  0 [] -isa(ARG1,INS)|collection(INS).
% 1.81/2.00  0 [] -isa(ARG1,INS)|collection(INS).
% 1.81/2.00  0 [] -isa(INS,ARG2)|thing(INS).
% 1.81/2.00  0 [] -isa(INS,ARG2)|thing(INS).
% 1.81/2.00  0 [] -isa(ARG1,OLD)| -genls(OLD,NEW)|isa(ARG1,NEW).
% 1.81/2.00  0 [] mtvisible(c_universalvocabularymt).
% 1.81/2.00  0 [] -mtvisible(SPECMT)| -genlmt(SPECMT,GENLMT)|mtvisible(GENLMT).
% 1.81/2.00  0 [] -genlmt(ARG1,INS)|microtheory(INS).
% 1.81/2.00  0 [] -genlmt(ARG1,INS)|microtheory(INS).
% 1.81/2.00  0 [] -genlmt(INS,ARG2)|microtheory(INS).
% 1.81/2.00  0 [] -genlmt(INS,ARG2)|microtheory(INS).
% 1.81/2.00  0 [] -genlmt(X,Y)| -genlmt(Y,Z)|genlmt(X,Z).
% 1.81/2.00  0 [] -microtheory(X)|genlmt(X,X).
% 1.81/2.00  0 [] -microtheory(X)|genlmt(X,X).
% 1.81/2.00  0 [] mtvisible(c_basekb).
% 1.81/2.00  0 [] mtvisible(c_tptpgeo_member3_mt).
% 1.81/2.00  0 [] -inregion(c_geolocation_x14_y39,c_georegion_l3_x4_y13)| -geolevel_3(c_georegion_l3_x4_y13).
% 1.81/2.00  end_of_list.
% 1.81/2.00  
% 1.81/2.00  SCAN INPUT: prop=0, horn=1, equality=0, symmetry=0, max_lits=3.
% 1.81/2.00  
% 1.81/2.00  This is a Horn set without equality.  The strategy will
% 1.81/2.00  be hyperresolution, with satellites in sos and nuclei
% 1.81/2.00  in usable.
% 1.81/2.00  
% 1.81/2.00     dependent: set(hyper_res).
% 1.81/2.00     dependent: clear(order_hyper).
% 1.81/2.00  
% 1.81/2.00  ------------> process usable:
% 1.81/2.00  ** KEPT (pick-wt=6): 1 [] -geographicalsubregions(A,B)|inregion(B,A).
% 1.81/2.00  ** KEPT (pick-wt=4): 2 [] -mtvisible(c_worldgeographymt)|geolevel_3(c_georegion_l3_x4_y13).
% 1.81/2.00  ** KEPT (pick-wt=5): 3 [] -mtvisible(c_tptpgeo_member3_mt)|geographicalsubregions(c_georegion_l3_x4_y13,c_georegion_l4_x14_y39).
% 1.81/2.00  ** KEPT (pick-wt=5): 4 [] -mtvisible(c_tptpgeo_member3_mt)|inregion(c_geolocation_x14_y39,c_georegion_l4_x14_y39).
% 1.81/2.00  ** KEPT (pick-wt=9): 5 [] -isa(A,B)| -isa(A,C)| -disjointwith(B,C).
% 1.81/2.00  ** KEPT (pick-wt=9): 6 [] -genlinverse(A,B)| -genlinverse(B,C)|genlpreds(A,C).
% 1.81/2.00  ** KEPT (pick-wt=5): 7 [] -genlpreds(A,B)|predicate(B).
% 1.81/2.00    Following clause subsumed by 7 during input processing: 0 [] -genlpreds(A,B)|predicate(B).
% 1.81/2.00  ** KEPT (pick-wt=5): 8 [] -genlpreds(A,B)|predicate(A).
% 1.81/2.00    Following clause subsumed by 8 during input processing: 0 [] -genlpreds(A,B)|predicate(A).
% 1.81/2.00  ** KEPT (pick-wt=9): 9 [] -genlpreds(A,B)| -genlpreds(B,C)|genlpreds(A,C).
% 1.81/2.00  ** KEPT (pick-wt=5): 10 [] -predicate(A)|genlpreds(A,A).
% 1.81/2.00    Following clause subsumed by 10 during input processing: 0 [] -predicate(A)|genlpreds(A,A).
% 1.81/2.00  ** KEPT (pick-wt=5): 11 [] -disjointwith(A,B)|collection(B).
% 1.81/2.00  ** KEPT (pick-wt=5): 12 [] -disjointwith(A,B)|collection(A).
% 1.81/2.00  ** KEPT (pick-wt=6): 13 [] -disjointwith(A,B)|disjointwith(B,A).
% 1.81/2.00  ** KEPT (pick-wt=9): 14 [] -disjointwith(A,B)| -genls(C,B)|disjointwith(A,C).
% 1.81/2.00  ** KEPT (pick-wt=9): 15 [] -disjointwith(A,B)| -genls(C,A)|disjointwith(C,B).
% 1.81/2.00  ** KEPT (pick-wt=5): 16 [] -isa(A,c_geolevel_3)|geolevel_3(A).
% 1.81/2.00  ** KEPT (pick-wt=5): 17 [] -geolevel_3(A)|isa(A,c_geolevel_3).
% 1.81/2.00  ** KEPT (pick-wt=5): 18 [] -geographicalsubregions(A,B)|geographicalregion(B).
% 1.81/2.00  ** KEPT (pick-wt=5): 19 [] -geographicalsubregions(A,B)|geographicalregion(A).
% 1.81/2.00  ** KEPT (pick-wt=9): 20 [] -geographicalsubregions(A,B)| -geographicalsubregions(B,C)|geographicalsubregions(A,C).
% 1.81/2.00  ** KEPT (pick-wt=5): 21 [] -geographicalregion(A)|geographicalsubregions(A,A).
% 1.81/2.00  ** KEPT (pick-wt=5): 22 [] -genlinverse(A,B)|binarypredicate(B).
% 1.81/2.00  ** KEPT (pick-wt=5): 23 [] -genlinverse(A,B)|binarypredicate(A).
% 1.81/2.00  ** KEPT (pick-wt=9): 24 [] -genlinverse(A,B)| -genlpreds(C,A)|genlinverse(C,B).
% 1.81/2.00  ** KEPT (pick-wt=9): 25 [] -genlinverse(A,B)| -genlpreds(B,C)|genlinverse(A,C).
% 1.81/2.00  ** KEPT (pick-wt=5): 26 [] -isa(A,c_transitivebinarypredicate)|transitivebinarypredicate(A).
% 1.81/2.00  ** KEPT (pick-wt=5): 27 [] -transitivebinarypredicate(A)|isa(A,c_transitivebinarypredicate).
% 1.81/2.00  ** KEPT (pick-wt=5): 28 [] -inregion(A,B)|spatialthing_nonsituational(B).
% 1.81/2.00  ** KEPT (pick-wt=5): 29 [] -inregion(A,B)|spatialthing_nonsituational(A).
% 1.81/2.00  ** KEPT (pick-wt=9): 30 [] -inregion(A,B)| -inregion(B,C)|inregion(A,C).
% 1.81/2.00  ** KEPT (pick-wt=5): 31 [] -spatialthing_nonsituational(A)|inregion(A,A).
% 1.81/2.00  ** KEPT (pick-wt=5): 32 [] -isa(A,B)|collection(B).
% 1.81/2.00    Following clause subsumed by 32 during input processing: 0 [] -isa(A,B)|collection(B).
% 1.81/2.00  ** KEPT (pick-wt=5): 33 [] -isa(A,B)|thing(A).
% 1.81/2.00    Following clause subsumed by 33 during input processing: 0 [] -isa(A,B)|thing(A).
% 1.81/2.00  ** KEPT (pick-wt=9): 34 [] -isa(A,B)| -genls(B,C)|isa(A,C).
% 1.81/2.00  ** KEPT (pick-wt=7): 35 [] -mtvisible(A)| -genlmt(A,B)|mtvisible(B).
% 1.81/2.00  ** KEPT (pick-wt=5): 36 [] -genlmt(A,B)|microtheory(B).
% 1.81/2.00    Following clause subsumed by 36 during input processing: 0 [] -genlmt(A,B)|microtheory(B).
% 1.81/2.00  ** KEPT (pick-wt=5): 37 [] -genlmt(A,B)|microtheory(A).
% 1.81/2.00    Following clause subsumed by 37 during input processing: 0 [] -genlmt(A,B)|microtheory(A).
% 1.81/2.00  ** KEPT (pick-wt=9): 38 [] -genlmt(A,B)| -genlmt(B,C)|genlmt(A,C).
% 1.81/2.00  ** KEPT (pick-wt=5): 39 [] -microtheory(A)|genlmt(A,A).
% 1.81/2.00    Following clause subsumed by 39 during input processing: 0 [] -microtheory(A)|genlmt(A,A).
% 1.81/2.00  ** KEPT (pick-wt=5): 40 [] -inregion(c_geolocation_x14_y39,c_georegion_l3_x4_y13)| -geolevel_3(c_georegion_l3_x4_y13).
% 1.81/2.00  
% 1.81/2.00  ------------> process sos:
% 1.81/2.00  ** KEPT (pick-wt=3): 41 [] genlmt(c_geographymt,c_basekb).
% 1.81/2.00  ** KEPT (pick-wt=2): 42 [] transitivebinarypredicate(c_inregion).
% 1.81/2.00  ** KEPT (pick-wt=3): 43 [] genlmt(c_worldgeographymt,c_geographymt).
% 1.81/2.00  ** KEPT (pick-wt=3): 44 [] genlinverse(c_geographicalsubregions,c_inregion).
% 1.81/2.00  ** KEPT (pick-wt=2): 45 [] transitivebinarypredicate(c_genlmt).
% 1.81/2.00  ** KEPT (pick-wt=3): 46 [] genlmt(c_basekb,c_universalvocabularymt).
% 1.81/2.00  ** KEPT (pick-wt=3): 47 [] genlmt(c_tptpgeo_spindleheadmt,c_worldgeographymt).
% 1.81/2.00  ** KEPT (pick-wt=3): 48 [] genlmt(c_tptpgeo_member3_mt,c_tptpgeo_spindleheadmt).
% 1.81/2.00  ** KEPT (pick-wt=2): 49 [] mtvisible(c_universalvocabularymt).
% 1.81/2.00  ** KEPT (pick-wt=2): 50 [] mtvisible(c_basekb).
% 1.81/2.00  ** KEPT (pick-wt=2): 51 [] mtvisible(c_tptpgeo_member3_mt).
% 1.81/2.00  
% 1.81/2.00  ======= end of input processing =======
% 1.81/2.00  
% 1.81/2.00  =========== start of search ===========
% 1.81/2.00  
% 1.81/2.00  -------- PROOF -------- 
% 1.81/2.00  
% 1.81/2.00  -----> EMPTY CLAUSE at   0.01 sec ----> 102 [hyper,99,40,79] $F.
% 1.81/2.00  
% 1.81/2.00  Length of proof is 7.  Level of proof is 3.
% 1.81/2.00  
% 1.81/2.00  ---------------- PROOF ----------------
% 1.81/2.00  % SZS status Theorem
% 1.81/2.00  % SZS output start Refutation
% See solution above
% 1.81/2.00  ------------ end of proof -------------
% 1.81/2.00  
% 1.81/2.00  
% 1.81/2.00  Search stopped by max_proofs option.
% 1.81/2.00  
% 1.81/2.00  
% 1.81/2.00  Search stopped by max_proofs option.
% 1.81/2.00  
% 1.81/2.00  ============ end of search ============
% 1.81/2.00  
% 1.81/2.00  -------------- statistics -------------
% 1.81/2.00  clauses given                 60
% 1.81/2.00  clauses generated            185
% 1.81/2.00  clauses kept                 101
% 1.81/2.00  clauses forward subsumed     142
% 1.81/2.00  clauses back subsumed          3
% 1.81/2.00  Kbytes malloced              976
% 1.81/2.00  
% 1.81/2.00  ----------- times (seconds) -----------
% 1.81/2.00  user CPU time          0.01          (0 hr, 0 min, 0 sec)
% 1.81/2.00  system CPU time        0.00          (0 hr, 0 min, 0 sec)
% 1.81/2.00  wall-clock time        2             (0 hr, 0 min, 2 sec)
% 1.81/2.00  
% 1.81/2.00  That finishes the proof of the theorem.
% 1.81/2.00  
% 1.81/2.00  Process 18138 finished Wed Jul 27 04:37:38 2022
% 1.81/2.00  Otter interrupted
% 1.81/2.00  PROOF FOUND
%------------------------------------------------------------------------------