TSTP Solution File: NUM069-1 by Prover9---1109a

View Problem - Process Solution 
%------------------------------------------------------------------------------
% File     : Prover9---1109a
% Problem  : NUM069-1 : TPTP v8.1.0. Bugfixed v2.1.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : tptp2X_and_run_prover9 %d %s

% Computer : n026.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 : Mon Jul 18 13:24:59 EDT 2022

% Result   : Unsatisfiable 22.59s 22.96s
% Output   : Refutation 22.59s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.03/0.12  % Problem  : NUM069-1 : TPTP v8.1.0. Bugfixed v2.1.0.
% 0.03/0.13  % Command  : tptp2X_and_run_prover9 %d %s
% 0.13/0.34  % Computer : n026.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  : 600
% 0.13/0.34  % DateTime : Wed Jul  6 13:34:23 EDT 2022
% 0.13/0.34  % CPUTime  : 
% 0.44/1.05  ============================== Prover9 ===============================
% 0.44/1.05  Prover9 (32) version 2009-11A, November 2009.
% 0.44/1.05  Process 24045 was started by sandbox on n026.cluster.edu,
% 0.44/1.05  Wed Jul  6 13:34:24 2022
% 0.44/1.05  The command was "/export/starexec/sandbox/solver/bin/prover9 -t 300 -f /tmp/Prover9_23660_n026.cluster.edu".
% 0.44/1.05  ============================== end of head ===========================
% 0.44/1.05  
% 0.44/1.05  ============================== INPUT =================================
% 0.44/1.05  
% 0.44/1.05  % Reading from file /tmp/Prover9_23660_n026.cluster.edu
% 0.44/1.05  
% 0.44/1.05  set(prolog_style_variables).
% 0.44/1.05  set(auto2).
% 0.44/1.05      % set(auto2) -> set(auto).
% 0.44/1.05      % set(auto) -> set(auto_inference).
% 0.44/1.05      % set(auto) -> set(auto_setup).
% 0.44/1.05      % set(auto_setup) -> set(predicate_elim).
% 0.44/1.05      % set(auto_setup) -> assign(eq_defs, unfold).
% 0.44/1.05      % set(auto) -> set(auto_limits).
% 0.44/1.05      % set(auto_limits) -> assign(max_weight, "100.000").
% 0.44/1.05      % set(auto_limits) -> assign(sos_limit, 20000).
% 0.44/1.05      % set(auto) -> set(auto_denials).
% 0.44/1.05      % set(auto) -> set(auto_process).
% 0.44/1.05      % set(auto2) -> assign(new_constants, 1).
% 0.44/1.05      % set(auto2) -> assign(fold_denial_max, 3).
% 0.44/1.05      % set(auto2) -> assign(max_weight, "200.000").
% 0.44/1.05      % set(auto2) -> assign(max_hours, 1).
% 0.44/1.05      % assign(max_hours, 1) -> assign(max_seconds, 3600).
% 0.44/1.05      % set(auto2) -> assign(max_seconds, 0).
% 0.44/1.05      % set(auto2) -> assign(max_minutes, 5).
% 0.44/1.05      % assign(max_minutes, 5) -> assign(max_seconds, 300).
% 0.44/1.05      % set(auto2) -> set(sort_initial_sos).
% 0.44/1.05      % set(auto2) -> assign(sos_limit, -1).
% 0.44/1.05      % set(auto2) -> assign(lrs_ticks, 3000).
% 0.44/1.05      % set(auto2) -> assign(max_megs, 400).
% 0.44/1.05      % set(auto2) -> assign(stats, some).
% 0.44/1.05      % set(auto2) -> clear(echo_input).
% 0.44/1.05      % set(auto2) -> set(quiet).
% 0.44/1.05      % set(auto2) -> clear(print_initial_clauses).
% 0.44/1.05      % set(auto2) -> clear(print_given).
% 0.44/1.05  assign(lrs_ticks,-1).
% 0.44/1.05  assign(sos_limit,10000).
% 0.44/1.05  assign(order,kbo).
% 0.44/1.05  set(lex_order_vars).
% 0.44/1.05  clear(print_given).
% 0.44/1.05  
% 0.44/1.05  % formulas(sos).  % not echoed (162 formulas)
% 0.44/1.05  
% 0.44/1.05  ============================== end of input ==========================
% 0.44/1.05  
% 0.44/1.05  % From the command line: assign(max_seconds, 300).
% 0.44/1.05  
% 0.44/1.05  ============================== PROCESS NON-CLAUSAL FORMULAS ==========
% 0.44/1.05  
% 0.44/1.05  % Formulas that are not ordinary clauses:
% 0.44/1.05  
% 0.44/1.05  ============================== end of process non-clausal formulas ===
% 0.44/1.05  
% 0.44/1.05  ============================== PROCESS INITIAL CLAUSES ===============
% 0.44/1.05  
% 0.44/1.05  ============================== PREDICATE ELIMINATION =================
% 0.44/1.05  1 -member(null_class,A) | -subclass(image(successor_relation,A),A) | inductive(A) # label(inductive3) # label(axiom).  [assumption].
% 0.44/1.05  2 -inductive(A) | member(null_class,A) # label(inductive1) # label(axiom).  [assumption].
% 0.44/1.05  3 -inductive(A) | subclass(image(successor_relation,A),A) # label(inductive2) # label(axiom).  [assumption].
% 0.44/1.05  4 inductive(omega) # label(omega_is_inductive1) # label(axiom).  [assumption].
% 0.44/1.05  Derived: member(null_class,omega).  [resolve(4,a,2,a)].
% 0.44/1.05  Derived: subclass(image(successor_relation,omega),omega).  [resolve(4,a,3,a)].
% 0.44/1.05  5 -inductive(A) | subclass(omega,A) # label(omega_is_inductive2) # label(axiom).  [assumption].
% 0.44/1.05  Derived: subclass(omega,A) | -member(null_class,A) | -subclass(image(successor_relation,A),A).  [resolve(5,a,1,c)].
% 0.44/1.05  Derived: subclass(omega,omega).  [resolve(5,a,4,a)].
% 0.44/1.05  6 -subclass(compose(A,inverse(A)),identity_relation) | single_valued_class(A) # label(single_valued_class2) # label(axiom).  [assumption].
% 0.44/1.05  7 -single_valued_class(A) | subclass(compose(A,inverse(A)),identity_relation) # label(single_valued_class1) # label(axiom).  [assumption].
% 0.44/1.05  8 -function(inverse(A)) | -function(A) | one_to_one(A) # label(one_to_one3) # label(axiom).  [assumption].
% 0.44/1.05  9 -one_to_one(A) | function(A) # label(one_to_one1) # label(axiom).  [assumption].
% 0.44/1.05  10 -one_to_one(A) | function(inverse(A)) # label(one_to_one2) # label(axiom).  [assumption].
% 0.44/1.05  11 -function(A) | domain_of(domain_of(B)) != domain_of(A) | -subclass(range_of(A),domain_of(domain_of(C))) | compatible(A,B,C) # label(compatible4) # label(axiom).  [assumption].
% 0.44/1.05  12 -compatible(A,B,C) | function(A) # label(compatible1) # label(axiom).  [assumption].
% 0.44/1.05  13 -compatible(A,B,C) | domain_of(domain_of(B)) = domain_of(A) # label(compatible2) # label(axiom).  [assumption].
% 0.44/1.05  14 -compatible(A,B,C) | subclass(range_of(A),domain_of(domain_of(C))) # label(compatible3) # label(axiom).  [assumption].
% 0.44/1.05  15 -homomorphism(A,B,C) | compatible(A,B,C) # label(homomorphism3) # label(axiom).  [assumption].
% 0.44/1.05  Derived: -homomorphism(A,B,C) | function(A).  [resolve(15,b,12,a)].
% 0.44/1.05  Derived: -homomorphism(A,B,C) | domain_of(domain_of(B)) = domain_of(A).  [resolve(15,b,13,a)].
% 0.44/1.05  Derived: -homomorphism(A,B,C) | subclass(range_of(A),domain_of(domain_of(C))).  [resolve(15,b,14,a)].
% 0.44/1.05  16 -operation(A) | -operation(B) | -compatible(C,A,B) | member(ordered_pair(not_homomorphism1(C,A,B),not_homomorphism2(C,A,B)),domain_of(A)) | homomorphism(C,A,B) # label(homomorphism5) # label(axiom).  [assumption].
% 0.44/1.05  Derived: -operation(A) | -operation(B) | member(ordered_pair(not_homomorphism1(C,A,B),not_homomorphism2(C,A,B)),domain_of(A)) | homomorphism(C,A,B) | -function(C) | domain_of(domain_of(A)) != domain_of(C) | -subclass(range_of(C),domain_of(domain_of(B))).  [resolve(16,c,11,d)].
% 0.44/1.05  17 -operation(A) | -operation(B) | -compatible(C,A,B) | apply(B,ordered_pair(apply(C,not_homomorphism1(C,A,B)),apply(C,not_homomorphism2(C,A,B)))) != apply(C,apply(A,ordered_pair(not_homomorphism1(C,A,B),not_homomorphism2(C,A,B)))) | homomorphism(C,A,B) # label(homomorphism6) # label(axiom).  [assumption].
% 0.44/1.05  Derived: -operation(A) | -operation(B) | apply(B,ordered_pair(apply(C,not_homomorphism1(C,A,B)),apply(C,not_homomorphism2(C,A,B)))) != apply(C,apply(A,ordered_pair(not_homomorphism1(C,A,B),not_homomorphism2(C,A,B)))) | homomorphism(C,A,B) | -function(C) | domain_of(domain_of(A)) != domain_of(C) | -subclass(range_of(C),domain_of(domain_of(B))).  [resolve(17,c,11,d)].
% 0.44/1.05  18 -operation(A) | -operation(B) | member(ordered_pair(not_homomorphism1(C,A,B),not_homomorphism2(C,A,B)),domain_of(A)) | homomorphism(C,A,B) | -function(C) | domain_of(domain_of(A)) != domain_of(C) | -subclass(range_of(C),domain_of(domain_of(B))).  [resolve(16,c,11,d)].
% 0.44/1.05  19 -homomorphism(A,B,C) | operation(B) # label(homomorphism1) # label(axiom).  [assumption].
% 0.44/1.05  20 -homomorphism(A,B,C) | operation(C) # label(homomorphism2) # label(axiom).  [assumption].
% 0.44/1.05  21 -homomorphism(A,B,C) | -member(ordered_pair(D,E),domain_of(B)) | apply(C,ordered_pair(apply(A,D),apply(A,E))) = apply(A,apply(B,ordered_pair(D,E))) # label(homomorphism4) # label(axiom).  [assumption].
% 0.44/1.05  22 -homomorphism(A,B,C) | function(A).  [resolve(15,b,12,a)].
% 0.44/1.05  23 -homomorphism(A,B,C) | domain_of(domain_of(B)) = domain_of(A).  [resolve(15,b,13,a)].
% 0.44/1.05  24 -homomorphism(A,B,C) | subclass(range_of(A),domain_of(domain_of(C))).  [resolve(15,b,14,a)].
% 0.44/1.05  Derived: -operation(A) | -operation(B) | member(ordered_pair(not_homomorphism1(C,A,B),not_homomorphism2(C,A,B)),domain_of(A)) | -function(C) | domain_of(domain_of(A)) != domain_of(C) | -subclass(range_of(C),domain_of(domain_of(B))) | -member(ordered_pair(D,E),domain_of(A)) | apply(B,ordered_pair(apply(C,D),apply(C,E))) = apply(C,apply(A,ordered_pair(D,E))).  [resolve(18,d,21,a)].
% 0.44/1.05  25 -operation(A) | -operation(B) | apply(B,ordered_pair(apply(C,not_homomorphism1(C,A,B)),apply(C,not_homomorphism2(C,A,B)))) != apply(C,apply(A,ordered_pair(not_homomorphism1(C,A,B),not_homomorphism2(C,A,B)))) | homomorphism(C,A,B) | -function(C) | domain_of(domain_of(A)) != domain_of(C) | -subclass(range_of(C),domain_of(domain_of(B))).  [resolve(17,c,11,d)].
% 0.44/1.05  Derived: -operation(A) | -operation(B) | apply(B,ordered_pair(apply(C,not_homomorphism1(C,A,B)),apply(C,not_homomorphism2(C,A,B)))) != apply(C,apply(A,ordered_pair(not_homomorphism1(C,A,B),not_homomorphism2(C,A,B)))) | -function(C) | domain_of(domain_of(A)) != domain_of(C) | -subclass(range_of(C),domain_of(domain_of(B))) | -member(ordered_pair(D,E),domain_of(A)) | apply(B,ordered_pair(apply(C,D),apply(C,E))) = apply(C,apply(A,ordered_pair(D,E))).  [resolve(25,d,21,a)].
% 0.44/1.05  26 -function(A) | -subclass(range_of(A),B) | maps(A,domain_of(A),B) # label(maps4) # label(axiom).  [assumption].
% 0.44/1.05  27 -maps(A,B,C) | function(A) # label(maps1) # label(axiom).  [assumption].
% 0.44/1.05  28 -maps(A,B,C) | domain_of(A) = B # label(maps2) # label(axiom).  [assumption].
% 0.44/1.05  29 -maps(A,B,C) | subclass(range_of(A),C) # label(maps3) # label(axiom).  [assumption].
% 0.81/1.09  Derived: -function(A) | -subclass(range_of(A),B) | domain_of(A) = domain_of(A).  [resolve(26,c,28,a)].
% 0.81/1.09  30 -subclass(restrict(A,B,B),complement(identity_relation)) | irreflexive(A,B) # label(irreflexive2) # label(axiom).  [assumption].
% 0.81/1.09  31 -irreflexive(A,B) | subclass(restrict(A,B,B),complement(identity_relation)) # label(irreflexive1) # label(axiom).  [assumption].
% 0.81/1.09  32 -subclass(cross_product(A,A),union(identity_relation,symmetrization_of(B))) | connected(B,A) # label(connected2) # label(axiom).  [assumption].
% 0.81/1.09  33 -connected(A,B) | subclass(cross_product(B,B),union(identity_relation,symmetrization_of(A))) # label(connected1) # label(axiom).  [assumption].
% 0.81/1.09  34 -well_ordering(A,B) | connected(A,B) # label(well_ordering1) # label(axiom).  [assumption].
% 0.81/1.09  Derived: -well_ordering(A,B) | subclass(cross_product(B,B),union(identity_relation,symmetrization_of(A))).  [resolve(34,b,33,a)].
% 0.81/1.09  35 -connected(A,B) | not_well_ordering(A,B) != null_class | well_ordering(A,B) # label(well_ordering6) # label(axiom).  [assumption].
% 0.81/1.09  Derived: not_well_ordering(A,B) != null_class | well_ordering(A,B) | -subclass(cross_product(B,B),union(identity_relation,symmetrization_of(A))).  [resolve(35,a,32,b)].
% 0.81/1.09  36 -connected(A,B) | subclass(not_well_ordering(A,B),B) | well_ordering(A,B) # label(well_ordering7) # label(axiom).  [assumption].
% 0.81/1.09  Derived: subclass(not_well_ordering(A,B),B) | well_ordering(A,B) | -subclass(cross_product(B,B),union(identity_relation,symmetrization_of(A))).  [resolve(36,a,32,b)].
% 0.81/1.09  37 -member(A,not_well_ordering(B,C)) | segment(B,not_well_ordering(B,C),A) != null_class | -connected(B,C) | well_ordering(B,C) # label(well_ordering8) # label(axiom).  [assumption].
% 0.81/1.09  Derived: -member(A,not_well_ordering(B,C)) | segment(B,not_well_ordering(B,C),A) != null_class | well_ordering(B,C) | -subclass(cross_product(C,C),union(identity_relation,symmetrization_of(B))).  [resolve(37,c,32,b)].
% 0.81/1.09  38 -subclass(compose(restrict(A,B,B),restrict(A,B,B)),restrict(A,B,B)) | transitive(A,B) # label(transitive2) # label(axiom).  [assumption].
% 0.81/1.09  39 -transitive(A,B) | subclass(compose(restrict(A,B,B),restrict(A,B,B)),restrict(A,B,B)) # label(transitive1) # label(axiom).  [assumption].
% 0.81/1.09  40 restrict(intersection(A,inverse(A)),B,B) != null_class | asymmetric(A,B) # label(asymmetric2) # label(axiom).  [assumption].
% 0.81/1.09  41 -asymmetric(A,B) | restrict(intersection(A,inverse(A)),B,B) = null_class # label(asymmetric1) # label(axiom).  [assumption].
% 0.81/1.09  42 -subclass(A,B) | -subclass(domain_of(restrict(C,B,A)),A) | section(C,A,B) # label(section3) # label(axiom).  [assumption].
% 0.81/1.09  43 -section(A,B,C) | subclass(B,C) # label(section1) # label(axiom).  [assumption].
% 0.81/1.09  44 -section(A,B,C) | subclass(domain_of(restrict(A,C,B)),B) # label(section2) # label(axiom).  [assumption].
% 0.81/1.09  
% 0.81/1.09  ============================== end predicate elimination =============
% 0.81/1.09  
% 0.81/1.09  Auto_denials:  (non-Horn, no changes).
% 0.81/1.09  
% 0.81/1.09  Term ordering decisions:
% 0.81/1.09  Function symbol KB weights:  universal_class=1. null_class=1. element_relation=1. identity_relation=1. omega=1. ordinal_numbers=1. successor_relation=1. union_of_range_map=1. application_function=1. composition_function=1. domain_relation=1. rest_relation=1. subset_relation=1. u=1. v=1. y=1. choice=1. kind_1_ordinals=1. add_relation=1. limit_ordinals=1. singleton_relation=1. ordered_pair=1. cross_product=1. apply=1. intersection=1. compose=1. image=1. union=1. unordered_pair=1. not_subclass_element=1. not_well_ordering=1. least=1. ordinal_add=1. ordinal_multiply=1. symmetric_difference=1. domain_of=1. complement=1. singleton=1. inverse=1. range_of=1. rest_of=1. sum_class=1. recursion_equation_functions=1. symmetrization_of=1. flip=1. compose_class=1. first=1. rotate=1. second=1. successor=1. diagonalise=1. integer_of=1. power_class=1. regular=1. single_valued1=1. single_valued2=1. cantor=1. single_valued3=1. restrict=1. not_homomorphism1=1. not_homomorphism2=1. segment=1. domain=1. recursion=1. range=1.
% 0.81/1.09  
% 0.81/1.09  ============================== end of process initial clauses ========
% 0.81/1.09  
% 0.81/1.09  ============================== CLAUSES FOR SEARCH ====================
% 22.59/22.96  
% 22.59/22.96  ============================== end of clauses for search =============
% 22.59/22.96  
% 22.59/22.96  ============================== SEARCH ================================
% 22.59/22.96  
% 22.59/22.96  % Starting search at 0.06 seconds.
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=135.000, iters=4437
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=91.000, iters=4426
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=52.000, iters=4347
% 22.59/22.96  
% 22.59/22.96  NOTE: Back_subsumption disabled, ratio of kept to back_subsumed is 260 (0.00 of 0.72 sec).
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=34.000, iters=5497
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=31.000, iters=5638
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=23.000, iters=5212
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=19.000, iters=3484
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=17.000, iters=3339
% 22.59/22.96  
% 22.59/22.96  Low Water (displace): id=3204, wt=175.000
% 22.59/22.96  
% 22.59/22.96  Low Water (displace): id=3168, wt=171.000
% 22.59/22.96  
% 22.59/22.96  Low Water (displace): id=3165, wt=155.000
% 22.59/22.96  
% 22.59/22.96  Low Water (displace): id=1079, wt=149.000
% 22.59/22.96  
% 22.59/22.96  Low Water (displace): id=10975, wt=16.000
% 22.59/22.96  
% 22.59/22.96  Low Water (displace): id=11007, wt=12.000
% 22.59/22.96  
% 22.59/22.96  Low Water (displace): id=11016, wt=11.000
% 22.59/22.96  
% 22.59/22.96  Low Water (displace): id=12707, wt=10.000
% 22.59/22.96  
% 22.59/22.96  Low Water (displace): id=12822, wt=9.000
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=16.000, iters=3333
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=15.000, iters=3342
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=14.000, iters=3343
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=13.000, iters=5464
% 22.59/22.96  
% 22.59/22.96  Low Water (keep): wt=12.000, iters=4417
% 22.59/22.96  
% 22.59/22.96  ============================== PROOF =================================
% 22.59/22.96  % SZS status Unsatisfiable
% 22.59/22.96  % SZS output start Refutation
% 22.59/22.96  
% 22.59/22.96  % Proof 1 at 20.92 (+ 1.00) seconds.
% 22.59/22.96  % Length of proof is 64.
% 22.59/22.96  % Level of proof is 15.
% 22.59/22.96  % Maximum clause weight is 18.000.
% 22.59/22.96  % Given clauses 9266.
% 22.59/22.96  
% 22.59/22.96  45 -subclass(A,B) | -member(C,A) | member(C,B) # label(subclass_members) # label(axiom).  [assumption].
% 22.59/22.96  48 subclass(A,universal_class) # label(class_elements_are_sets) # label(axiom).  [assumption].
% 22.59/22.96  52 -member(A,unordered_pair(B,C)) | A = B | A = C # label(unordered_pair_member) # label(axiom).  [assumption].
% 22.59/22.96  53 -member(A,universal_class) | member(A,unordered_pair(A,B)) # label(unordered_pair2) # label(axiom).  [assumption].
% 22.59/22.96  54 -member(A,universal_class) | member(A,unordered_pair(B,A)) # label(unordered_pair3) # label(axiom).  [assumption].
% 22.59/22.96  56 unordered_pair(A,A) = singleton(A) # label(singleton_set) # label(axiom).  [assumption].
% 22.59/22.96  57 singleton(A) = unordered_pair(A,A).  [copy(56),flip(a)].
% 22.59/22.96  58 unordered_pair(singleton(A),unordered_pair(A,singleton(B))) = ordered_pair(A,B) # label(ordered_pair) # label(axiom).  [assumption].
% 22.59/22.96  59 ordered_pair(A,B) = unordered_pair(unordered_pair(A,A),unordered_pair(A,unordered_pair(B,B))).  [copy(58),rewrite([57(1),57(2)]),flip(a)].
% 22.59/22.96  60 -member(ordered_pair(A,B),cross_product(C,D)) | member(A,C) # label(cartesian_product1) # label(axiom).  [assumption].
% 22.59/22.96  61 -member(unordered_pair(unordered_pair(A,A),unordered_pair(A,unordered_pair(B,B))),cross_product(C,D)) | member(A,C).  [copy(60),rewrite([59(1)])].
% 22.59/22.96  62 -member(ordered_pair(A,B),cross_product(C,D)) | member(B,D) # label(cartesian_product2) # label(axiom).  [assumption].
% 22.59/22.96  63 -member(unordered_pair(unordered_pair(A,A),unordered_pair(A,unordered_pair(B,B))),cross_product(C,D)) | member(B,D).  [copy(62),rewrite([59(1)])].
% 22.59/22.96  73 -member(A,intersection(B,C)) | member(A,B) # label(intersection1) # label(axiom).  [assumption].
% 22.59/22.96  75 -member(A,B) | -member(A,C) | member(A,intersection(B,C)) # label(intersection3) # label(axiom).  [assumption].
% 22.59/22.96  76 -member(A,complement(B)) | -member(A,B) # label(complement1) # label(axiom).  [assumption].
% 22.59/22.96  82 intersection(A,cross_product(B,C)) = restrict(A,B,C) # label(restriction1) # label(axiom).  [assumption].
% 22.59/22.96  83 restrict(A,B,C) = intersection(A,cross_product(B,C)).  [copy(82),flip(a)].
% 22.59/22.96  86 restrict(A,singleton(B),universal_class) != null_class | -member(B,domain_of(A)) # label(domain1) # label(axiom).  [assumption].
% 22.59/22.96  87 intersection(A,cross_product(unordered_pair(B,B),universal_class)) != null_class | -member(B,domain_of(A)).  [copy(86),rewrite([57(1),83(3)])].
% 22.59/22.96  138 A = null_class | member(regular(A),A) # label(regularity1) # label(axiom).  [assumption].
% 22.59/22.96  139 null_class = A | member(regular(A),A).  [copy(138),flip(a)].
% 22.59/22.96  140 A = null_class | intersection(A,regular(A)) = null_class # label(regularity2) # label(axiom).  [assumption].
% 22.59/22.96  141 null_class = A | intersection(A,regular(A)) = null_class.  [copy(140),flip(a)].
% 22.59/22.96  240 member(ordered_pair(u,v),cross_product(y,y)) # label(prove_corollary_to_well_ordering_property3_2) # label(negated_conjecture).  [assumption].
% 22.59/22.96  241 member(unordered_pair(unordered_pair(u,u),unordered_pair(u,unordered_pair(v,v))),cross_product(y,y)).  [copy(240),rewrite([59(3)])].
% 22.59/22.96  242 member(u,v) # label(prove_corollary_to_well_ordering_property3_3) # label(negated_conjecture).  [assumption].
% 22.59/22.96  243 member(v,u) # label(prove_corollary_to_well_ordering_property3_4) # label(negated_conjecture).  [assumption].
% 22.59/22.96  265 -member(A,B) | member(A,intersection(B,B)).  [factor(75,a,b)].
% 22.59/22.96  272 -member(A,B) | member(A,universal_class).  [resolve(48,a,45,a)].
% 22.59/22.96  322 domain_of(A) = null_class | intersection(A,cross_product(unordered_pair(regular(domain_of(A)),regular(domain_of(A))),universal_class)) != null_class.  [resolve(139,b,87,b),flip(a)].
% 22.59/22.96  324 complement(A) = null_class | -member(regular(complement(A)),A).  [resolve(139,b,76,a),flip(a)].
% 22.59/22.96  328 intersection(A,B) = null_class | member(regular(intersection(A,B)),A).  [resolve(139,b,73,a),flip(a)].
% 22.59/22.96  334 unordered_pair(A,B) = null_class | regular(unordered_pair(A,B)) = A | regular(unordered_pair(A,B)) = B.  [resolve(139,b,52,a),flip(a)].
% 22.59/22.96  335 unordered_pair(A,A) = null_class | regular(unordered_pair(A,A)) = A.  [factor(334,b,c)].
% 22.59/22.96  407 member(v,y).  [resolve(241,a,63,a)].
% 22.59/22.96  408 member(u,y).  [resolve(241,a,61,a)].
% 22.59/22.96  409 -member(u,A) | member(u,intersection(A,v)).  [resolve(242,a,75,b)].
% 22.59/22.96  413 -member(v,A) | member(v,intersection(A,u)).  [resolve(243,a,75,b)].
% 22.59/22.96  472 member(u,universal_class).  [resolve(272,a,408,a)].
% 22.59/22.96  473 member(v,universal_class).  [resolve(272,a,407,a)].
% 22.59/22.96  476 member(regular(A),universal_class) | null_class = A.  [resolve(272,a,139,b)].
% 22.59/22.96  492 member(u,unordered_pair(A,u)).  [resolve(472,a,54,a)].
% 22.59/22.96  493 member(u,unordered_pair(u,A)).  [resolve(472,a,53,a)].
% 22.59/22.96  509 member(v,unordered_pair(A,v)).  [resolve(473,a,54,a)].
% 22.59/22.96  802 null_class = A | member(regular(A),intersection(universal_class,universal_class)).  [resolve(476,a,265,a)].
% 22.59/22.96  1093 member(u,intersection(unordered_pair(u,A),v)).  [resolve(409,a,493,a)].
% 22.59/22.96  1360 member(v,intersection(unordered_pair(A,v),u)).  [resolve(413,a,509,a)].
% 22.59/22.96  3752 unordered_pair(A,B) = null_class | regular(unordered_pair(A,B)) = B | intersection(unordered_pair(A,B),A) = null_class.  [para(334(b,1),141(b,1,2)),flip(c),merge(c)].
% 22.59/22.96  3753 unordered_pair(A,B) = null_class | regular(unordered_pair(A,B)) = A | intersection(unordered_pair(A,B),B) = null_class.  [para(334(c,1),141(b,1,2)),flip(c),merge(c)].
% 22.59/22.96  3886 unordered_pair(A,A) = null_class | intersection(unordered_pair(A,A),A) = null_class.  [para(335(b,1),141(b,1,2)),flip(b),merge(b)].
% 22.59/22.96  6020 complement(intersection(universal_class,universal_class)) = null_class.  [resolve(802,b,324,b),flip(a),merge(b)].
% 22.59/22.96  6036 -member(A,null_class) | -member(A,intersection(universal_class,universal_class)).  [para(6020(a,1),76(a,2))].
% 22.59/22.96  6041 -member(regular(A),null_class) | null_class = A.  [resolve(6036,b,802,b)].
% 22.59/22.96  6051 intersection(null_class,A) = null_class.  [resolve(6041,a,328,b),flip(a),merge(b)].
% 22.59/22.96  6057 domain_of(null_class) = null_class.  [resolve(6051,a,322,b)].
% 22.59/22.96  6060 -member(A,null_class).  [para(6057(a,1),87(b,2)),rewrite([6051(5)]),xx(a)].
% 22.59/22.96  57533 unordered_pair(u,v) = null_class | regular(unordered_pair(u,v)) = v.  [para(3752(c,1),1360(a,2)),unit_del(c,6060)].
% 22.59/22.96  57558 unordered_pair(u,v) = null_class | regular(unordered_pair(u,v)) = u.  [para(3753(c,1),1093(a,2)),unit_del(c,6060)].
% 22.59/22.96  60454 unordered_pair(u,v) = null_class | v = u.  [para(57558(b,1),57533(b,1)),flip(c),merge(b)].
% 22.59/22.96  60457 v = u.  [para(60454(a,1),493(a,2)),unit_del(b,6060)].
% 22.59/22.96  65478 member(u,intersection(unordered_pair(A,u),u)).  [back_rewrite(1360),rewrite([60457(1),60457(2)])].
% 22.59/22.96  65564 unordered_pair(u,u) = null_class.  [para(3886(b,1),65478(a,2)),unit_del(b,6060)].
% 22.59/22.96  65775 $F.  [para(65564(a,1),492(a,2)),unit_del(a,6060)].
% 22.59/22.96  
% 22.59/22.96  % SZS output end Refutation
% 22.59/22.96  ============================== end of proof ==========================
% 22.59/22.96  
% 22.59/22.96  ============================== STATISTICS ============================
% 22.59/22.96  
% 22.59/22.96  Given=9266. Generated=1684282. Kept=65645. proofs=1.
% 22.59/22.96  Usable=3949. Sos=8591. Demods=271. Limbo=3, Disabled=53280. Hints=0.
% 22.59/22.96  Megabytes=41.16.
% 22.59/22.96  User_CPU=20.93, System_CPU=1.00, Wall_clock=22.
% 22.59/22.96  
% 22.59/22.96  ============================== end of statistics =====================
% 22.59/22.96  
% 22.59/22.96  ============================== end of search =========================
% 22.59/22.96  
% 22.59/22.96  THEOREM PROVED
% 22.59/22.96  % SZS status Unsatisfiable
% 22.59/22.96  
% 22.59/22.96  Exiting with 1 proof.
% 22.59/22.96  
% 22.59/22.96  Process 24045 exit (max_proofs) Wed Jul  6 13:34:46 2022
% 22.59/22.96  Prover9 interrupted
%------------------------------------------------------------------------------