TSTP Solution File: SEU134+1 by iProverMo---2.5-0.1
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- Process Solution
%------------------------------------------------------------------------------
% File : iProverMo---2.5-0.1
% Problem : SEU134+1 : TPTP v8.1.0. Released v3.3.0.
% Transfm : none
% Format : tptp:raw
% Command : iprover_modulo %s %d
% Computer : n032.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 : Tue Jul 19 10:25:09 EDT 2022
% Result : Theorem 0.16s 0.47s
% Output : CNFRefutation 0.16s
% Verified :
% SZS Type : ERROR: Analysing output (Could not find formula named input)
% Comments :
%------------------------------------------------------------------------------
% Axioms transformation by autotheo
% Orienting (remaining) axiom formulas using strategy Equiv(ClausalAll)
% Orienting axioms whose shape is orientable
fof(l32_xboole_1,axiom,
! [A,B] :
( set_difference(A,B) = empty_set
<=> subset(A,B) ),
input ).
fof(l32_xboole_1_0,plain,
! [A,B] :
( set_difference(A,B) = empty_set
| ~ subset(A,B) ),
inference(orientation,[status(thm)],[l32_xboole_1]) ).
fof(l32_xboole_1_1,plain,
! [A,B] :
( set_difference(A,B) != empty_set
| subset(A,B) ),
inference(orientation,[status(thm)],[l32_xboole_1]) ).
fof(t6_boole,axiom,
! [A] :
( empty(A)
=> A = empty_set ),
input ).
fof(t6_boole_0,plain,
! [A] :
( ~ empty(A)
| A = empty_set ),
inference(orientation,[status(thm)],[t6_boole]) ).
fof(t4_boole,axiom,
! [A] : set_difference(empty_set,A) = empty_set,
input ).
fof(t4_boole_0,plain,
! [A] :
( set_difference(empty_set,A) = empty_set
| $false ),
inference(orientation,[status(thm)],[t4_boole]) ).
fof(t3_boole,axiom,
! [A] : set_difference(A,empty_set) = A,
input ).
fof(t3_boole_0,plain,
! [A] :
( set_difference(A,empty_set) = A
| $false ),
inference(orientation,[status(thm)],[t3_boole]) ).
fof(fc1_xboole_0,axiom,
empty(empty_set),
input ).
fof(fc1_xboole_0_0,plain,
( empty(empty_set)
| $false ),
inference(orientation,[status(thm)],[fc1_xboole_0]) ).
fof(dt_k4_xboole_0,axiom,
$true,
input ).
fof(dt_k4_xboole_0_0,plain,
( $true
| $false ),
inference(orientation,[status(thm)],[dt_k4_xboole_0]) ).
fof(dt_k1_xboole_0,axiom,
$true,
input ).
fof(dt_k1_xboole_0_0,plain,
( $true
| $false ),
inference(orientation,[status(thm)],[dt_k1_xboole_0]) ).
fof(reflexivity_r1_tarski,axiom,
! [A,B] : subset(A,A),
input ).
fof(reflexivity_r1_tarski_0,plain,
! [A] :
( subset(A,A)
| $false ),
inference(orientation,[status(thm)],[reflexivity_r1_tarski]) ).
fof(antisymmetry_r2_hidden,axiom,
! [A,B] :
( in(A,B)
=> ~ in(B,A) ),
input ).
fof(antisymmetry_r2_hidden_0,plain,
! [A,B] :
( ~ in(A,B)
| ~ in(B,A) ),
inference(orientation,[status(thm)],[antisymmetry_r2_hidden]) ).
fof(def_lhs_atom1,axiom,
! [B,A] :
( lhs_atom1(B,A)
<=> ~ in(A,B) ),
inference(definition,[],]) ).
fof(to_be_clausified_0,plain,
! [A,B] :
( lhs_atom1(B,A)
| ~ in(B,A) ),
inference(fold_definition,[status(thm)],[antisymmetry_r2_hidden_0,def_lhs_atom1]) ).
fof(def_lhs_atom2,axiom,
! [A] :
( lhs_atom2(A)
<=> subset(A,A) ),
inference(definition,[],]) ).
fof(to_be_clausified_1,plain,
! [A] :
( lhs_atom2(A)
| $false ),
inference(fold_definition,[status(thm)],[reflexivity_r1_tarski_0,def_lhs_atom2]) ).
fof(def_lhs_atom3,axiom,
( lhs_atom3
<=> $true ),
inference(definition,[],]) ).
fof(to_be_clausified_2,plain,
( lhs_atom3
| $false ),
inference(fold_definition,[status(thm)],[dt_k1_xboole_0_0,def_lhs_atom3]) ).
fof(to_be_clausified_3,plain,
( lhs_atom3
| $false ),
inference(fold_definition,[status(thm)],[dt_k4_xboole_0_0,def_lhs_atom3]) ).
fof(def_lhs_atom4,axiom,
( lhs_atom4
<=> empty(empty_set) ),
inference(definition,[],]) ).
fof(to_be_clausified_4,plain,
( lhs_atom4
| $false ),
inference(fold_definition,[status(thm)],[fc1_xboole_0_0,def_lhs_atom4]) ).
fof(def_lhs_atom5,axiom,
! [A] :
( lhs_atom5(A)
<=> set_difference(A,empty_set) = A ),
inference(definition,[],]) ).
fof(to_be_clausified_5,plain,
! [A] :
( lhs_atom5(A)
| $false ),
inference(fold_definition,[status(thm)],[t3_boole_0,def_lhs_atom5]) ).
fof(def_lhs_atom6,axiom,
! [A] :
( lhs_atom6(A)
<=> set_difference(empty_set,A) = empty_set ),
inference(definition,[],]) ).
fof(to_be_clausified_6,plain,
! [A] :
( lhs_atom6(A)
| $false ),
inference(fold_definition,[status(thm)],[t4_boole_0,def_lhs_atom6]) ).
fof(def_lhs_atom7,axiom,
! [A] :
( lhs_atom7(A)
<=> ~ empty(A) ),
inference(definition,[],]) ).
fof(to_be_clausified_7,plain,
! [A] :
( lhs_atom7(A)
| A = empty_set ),
inference(fold_definition,[status(thm)],[t6_boole_0,def_lhs_atom7]) ).
fof(def_lhs_atom8,axiom,
! [B,A] :
( lhs_atom8(B,A)
<=> set_difference(A,B) != empty_set ),
inference(definition,[],]) ).
fof(to_be_clausified_8,plain,
! [A,B] :
( lhs_atom8(B,A)
| subset(A,B) ),
inference(fold_definition,[status(thm)],[l32_xboole_1_1,def_lhs_atom8]) ).
fof(def_lhs_atom9,axiom,
! [B,A] :
( lhs_atom9(B,A)
<=> set_difference(A,B) = empty_set ),
inference(definition,[],]) ).
fof(to_be_clausified_9,plain,
! [A,B] :
( lhs_atom9(B,A)
| ~ subset(A,B) ),
inference(fold_definition,[status(thm)],[l32_xboole_1_0,def_lhs_atom9]) ).
% Start CNF derivation
fof(c_0_0,axiom,
! [X1,X2] :
( lhs_atom9(X1,X2)
| ~ subset(X2,X1) ),
file('<stdin>',to_be_clausified_9) ).
fof(c_0_1,axiom,
! [X1,X2] :
( lhs_atom1(X1,X2)
| ~ in(X1,X2) ),
file('<stdin>',to_be_clausified_0) ).
fof(c_0_2,axiom,
! [X1,X2] :
( lhs_atom8(X1,X2)
| subset(X2,X1) ),
file('<stdin>',to_be_clausified_8) ).
fof(c_0_3,axiom,
! [X2] :
( lhs_atom7(X2)
| X2 = empty_set ),
file('<stdin>',to_be_clausified_7) ).
fof(c_0_4,axiom,
! [X2] :
( lhs_atom6(X2)
| ~ $true ),
file('<stdin>',to_be_clausified_6) ).
fof(c_0_5,axiom,
! [X2] :
( lhs_atom5(X2)
| ~ $true ),
file('<stdin>',to_be_clausified_5) ).
fof(c_0_6,axiom,
! [X2] :
( lhs_atom2(X2)
| ~ $true ),
file('<stdin>',to_be_clausified_1) ).
fof(c_0_7,axiom,
( lhs_atom4
| ~ $true ),
file('<stdin>',to_be_clausified_4) ).
fof(c_0_8,axiom,
( lhs_atom3
| ~ $true ),
file('<stdin>',to_be_clausified_3) ).
fof(c_0_9,axiom,
( lhs_atom3
| ~ $true ),
file('<stdin>',to_be_clausified_2) ).
fof(c_0_10,plain,
! [X1,X2] :
( lhs_atom9(X1,X2)
| ~ subset(X2,X1) ),
inference(fof_simplification,[status(thm)],[c_0_0]) ).
fof(c_0_11,plain,
! [X1,X2] :
( lhs_atom1(X1,X2)
| ~ in(X1,X2) ),
inference(fof_simplification,[status(thm)],[c_0_1]) ).
fof(c_0_12,axiom,
! [X1,X2] :
( lhs_atom8(X1,X2)
| subset(X2,X1) ),
c_0_2 ).
fof(c_0_13,axiom,
! [X2] :
( lhs_atom7(X2)
| X2 = empty_set ),
c_0_3 ).
fof(c_0_14,plain,
! [X2] : lhs_atom6(X2),
inference(fof_simplification,[status(thm)],[c_0_4]) ).
fof(c_0_15,plain,
! [X2] : lhs_atom5(X2),
inference(fof_simplification,[status(thm)],[c_0_5]) ).
fof(c_0_16,plain,
! [X2] : lhs_atom2(X2),
inference(fof_simplification,[status(thm)],[c_0_6]) ).
fof(c_0_17,plain,
lhs_atom4,
inference(fof_simplification,[status(thm)],[c_0_7]) ).
fof(c_0_18,plain,
lhs_atom3,
inference(fof_simplification,[status(thm)],[c_0_8]) ).
fof(c_0_19,plain,
lhs_atom3,
inference(fof_simplification,[status(thm)],[c_0_9]) ).
fof(c_0_20,plain,
! [X3,X4] :
( lhs_atom9(X3,X4)
| ~ subset(X4,X3) ),
inference(variable_rename,[status(thm)],[c_0_10]) ).
fof(c_0_21,plain,
! [X3,X4] :
( lhs_atom1(X3,X4)
| ~ in(X3,X4) ),
inference(variable_rename,[status(thm)],[c_0_11]) ).
fof(c_0_22,plain,
! [X3,X4] :
( lhs_atom8(X3,X4)
| subset(X4,X3) ),
inference(variable_rename,[status(thm)],[c_0_12]) ).
fof(c_0_23,plain,
! [X3] :
( lhs_atom7(X3)
| X3 = empty_set ),
inference(variable_rename,[status(thm)],[c_0_13]) ).
fof(c_0_24,plain,
! [X3] : lhs_atom6(X3),
inference(variable_rename,[status(thm)],[c_0_14]) ).
fof(c_0_25,plain,
! [X3] : lhs_atom5(X3),
inference(variable_rename,[status(thm)],[c_0_15]) ).
fof(c_0_26,plain,
! [X3] : lhs_atom2(X3),
inference(variable_rename,[status(thm)],[c_0_16]) ).
fof(c_0_27,plain,
lhs_atom4,
c_0_17 ).
fof(c_0_28,plain,
lhs_atom3,
c_0_18 ).
fof(c_0_29,plain,
lhs_atom3,
c_0_19 ).
cnf(c_0_30,plain,
( lhs_atom9(X2,X1)
| ~ subset(X1,X2) ),
inference(split_conjunct,[status(thm)],[c_0_20]) ).
cnf(c_0_31,plain,
( lhs_atom1(X1,X2)
| ~ in(X1,X2) ),
inference(split_conjunct,[status(thm)],[c_0_21]) ).
cnf(c_0_32,plain,
( subset(X1,X2)
| lhs_atom8(X2,X1) ),
inference(split_conjunct,[status(thm)],[c_0_22]) ).
cnf(c_0_33,plain,
( X1 = empty_set
| lhs_atom7(X1) ),
inference(split_conjunct,[status(thm)],[c_0_23]) ).
cnf(c_0_34,plain,
lhs_atom6(X1),
inference(split_conjunct,[status(thm)],[c_0_24]) ).
cnf(c_0_35,plain,
lhs_atom5(X1),
inference(split_conjunct,[status(thm)],[c_0_25]) ).
cnf(c_0_36,plain,
lhs_atom2(X1),
inference(split_conjunct,[status(thm)],[c_0_26]) ).
cnf(c_0_37,plain,
lhs_atom4,
inference(split_conjunct,[status(thm)],[c_0_27]) ).
cnf(c_0_38,plain,
lhs_atom3,
inference(split_conjunct,[status(thm)],[c_0_28]) ).
cnf(c_0_39,plain,
lhs_atom3,
inference(split_conjunct,[status(thm)],[c_0_29]) ).
cnf(c_0_40,plain,
( lhs_atom9(X2,X1)
| ~ subset(X1,X2) ),
c_0_30,
[final] ).
cnf(c_0_41,plain,
( lhs_atom1(X1,X2)
| ~ in(X1,X2) ),
c_0_31,
[final] ).
cnf(c_0_42,plain,
( subset(X1,X2)
| lhs_atom8(X2,X1) ),
c_0_32,
[final] ).
cnf(c_0_43,plain,
( X1 = empty_set
| lhs_atom7(X1) ),
c_0_33,
[final] ).
cnf(c_0_44,plain,
lhs_atom6(X1),
c_0_34,
[final] ).
cnf(c_0_45,plain,
lhs_atom5(X1),
c_0_35,
[final] ).
cnf(c_0_46,plain,
lhs_atom2(X1),
c_0_36,
[final] ).
cnf(c_0_47,plain,
lhs_atom4,
c_0_37,
[final] ).
cnf(c_0_48,plain,
lhs_atom3,
c_0_38,
[final] ).
cnf(c_0_49,plain,
lhs_atom3,
c_0_39,
[final] ).
% End CNF derivation
cnf(c_0_40_0,axiom,
( set_difference(X1,X2) = empty_set
| ~ subset(X1,X2) ),
inference(unfold_definition,[status(thm)],[c_0_40,def_lhs_atom9]) ).
cnf(c_0_41_0,axiom,
( ~ in(X2,X1)
| ~ in(X1,X2) ),
inference(unfold_definition,[status(thm)],[c_0_41,def_lhs_atom1]) ).
cnf(c_0_42_0,axiom,
( set_difference(X1,X2) != empty_set
| subset(X1,X2) ),
inference(unfold_definition,[status(thm)],[c_0_42,def_lhs_atom8]) ).
cnf(c_0_43_0,axiom,
( ~ empty(X1)
| X1 = empty_set ),
inference(unfold_definition,[status(thm)],[c_0_43,def_lhs_atom7]) ).
cnf(c_0_44_0,axiom,
set_difference(empty_set,X1) = empty_set,
inference(unfold_definition,[status(thm)],[c_0_44,def_lhs_atom6]) ).
cnf(c_0_45_0,axiom,
set_difference(X1,empty_set) = X1,
inference(unfold_definition,[status(thm)],[c_0_45,def_lhs_atom5]) ).
cnf(c_0_46_0,axiom,
subset(X1,X1),
inference(unfold_definition,[status(thm)],[c_0_46,def_lhs_atom2]) ).
cnf(c_0_47_0,axiom,
empty(empty_set),
inference(unfold_definition,[status(thm)],[c_0_47,def_lhs_atom4]) ).
cnf(c_0_48_0,axiom,
$true,
inference(unfold_definition,[status(thm)],[c_0_48,def_lhs_atom3]) ).
cnf(c_0_49_0,axiom,
$true,
inference(unfold_definition,[status(thm)],[c_0_49,def_lhs_atom3]) ).
% Orienting (remaining) axiom formulas using strategy ClausalAll
% CNF of (remaining) axioms:
% Start CNF derivation
fof(c_0_0_001,axiom,
! [X1,X2] :
~ ( in(X1,X2)
& empty(X2) ),
file('<stdin>',t7_boole) ).
fof(c_0_1_002,axiom,
! [X1,X2] :
~ ( empty(X1)
& X1 != X2
& empty(X2) ),
file('<stdin>',t8_boole) ).
fof(c_0_2_003,axiom,
? [X1] : ~ empty(X1),
file('<stdin>',rc2_xboole_0) ).
fof(c_0_3_004,axiom,
? [X1] : empty(X1),
file('<stdin>',rc1_xboole_0) ).
fof(c_0_4_005,axiom,
! [X1,X2] :
~ ( in(X1,X2)
& empty(X2) ),
c_0_0 ).
fof(c_0_5_006,axiom,
! [X1,X2] :
~ ( empty(X1)
& X1 != X2
& empty(X2) ),
c_0_1 ).
fof(c_0_6_007,plain,
? [X1] : ~ empty(X1),
inference(fof_simplification,[status(thm)],[c_0_2]) ).
fof(c_0_7_008,axiom,
? [X1] : empty(X1),
c_0_3 ).
fof(c_0_8_009,plain,
! [X3,X4] :
( ~ in(X3,X4)
| ~ empty(X4) ),
inference(variable_rename,[status(thm)],[inference(fof_nnf,[status(thm)],[c_0_4])]) ).
fof(c_0_9_010,plain,
! [X3,X4] :
( ~ empty(X3)
| X3 = X4
| ~ empty(X4) ),
inference(shift_quantors,[status(thm)],[inference(variable_rename,[status(thm)],[inference(shift_quantors,[status(thm)],[inference(fof_nnf,[status(thm)],[c_0_5])])])]) ).
fof(c_0_10_011,plain,
~ empty(esk1_0),
inference(skolemize,[status(esa)],[inference(variable_rename,[status(thm)],[c_0_6])]) ).
fof(c_0_11_012,plain,
empty(esk2_0),
inference(skolemize,[status(esa)],[inference(variable_rename,[status(thm)],[c_0_7])]) ).
cnf(c_0_12_013,plain,
( ~ empty(X1)
| ~ in(X2,X1) ),
inference(split_conjunct,[status(thm)],[c_0_8]) ).
cnf(c_0_13_014,plain,
( X2 = X1
| ~ empty(X1)
| ~ empty(X2) ),
inference(split_conjunct,[status(thm)],[c_0_9]) ).
cnf(c_0_14_015,plain,
~ empty(esk1_0),
inference(split_conjunct,[status(thm)],[c_0_10]) ).
cnf(c_0_15_016,plain,
empty(esk2_0),
inference(split_conjunct,[status(thm)],[c_0_11]) ).
cnf(c_0_16_017,plain,
( ~ empty(X1)
| ~ in(X2,X1) ),
c_0_12,
[final] ).
cnf(c_0_17_018,plain,
( X2 = X1
| ~ empty(X1)
| ~ empty(X2) ),
c_0_13,
[final] ).
cnf(c_0_18_019,plain,
~ empty(esk1_0),
c_0_14,
[final] ).
cnf(c_0_19_020,plain,
empty(esk2_0),
c_0_15,
[final] ).
% End CNF derivation
% Generating one_way clauses for all literals in the CNF.
cnf(c_0_16_0,axiom,
( ~ empty(X1)
| ~ in(X2,X1) ),
inference(literals_permutation,[status(thm)],[c_0_16]) ).
cnf(c_0_16_1,axiom,
( ~ in(X2,X1)
| ~ empty(X1) ),
inference(literals_permutation,[status(thm)],[c_0_16]) ).
cnf(c_0_17_0,axiom,
( X2 = X1
| ~ empty(X1)
| ~ empty(X2) ),
inference(literals_permutation,[status(thm)],[c_0_17]) ).
cnf(c_0_17_1,axiom,
( ~ empty(X1)
| X2 = X1
| ~ empty(X2) ),
inference(literals_permutation,[status(thm)],[c_0_17]) ).
cnf(c_0_17_2,axiom,
( ~ empty(X2)
| ~ empty(X1)
| X2 = X1 ),
inference(literals_permutation,[status(thm)],[c_0_17]) ).
cnf(c_0_18_0,axiom,
~ empty(sk2_esk1_0),
inference(literals_permutation,[status(thm)],[c_0_18]) ).
cnf(c_0_19_0,axiom,
empty(sk2_esk2_0),
inference(literals_permutation,[status(thm)],[c_0_19]) ).
% CNF of non-axioms
% Start CNF derivation
fof(c_0_0_021,conjecture,
! [X1,X2] :
( set_difference(X1,X2) = empty_set
<=> subset(X1,X2) ),
file('<stdin>',t37_xboole_1) ).
fof(c_0_1_022,negated_conjecture,
~ ! [X1,X2] :
( set_difference(X1,X2) = empty_set
<=> subset(X1,X2) ),
inference(assume_negation,[status(cth)],[c_0_0]) ).
fof(c_0_2_023,negated_conjecture,
( ( set_difference(esk1_0,esk2_0) != empty_set
| ~ subset(esk1_0,esk2_0) )
& ( set_difference(esk1_0,esk2_0) = empty_set
| subset(esk1_0,esk2_0) ) ),
inference(skolemize,[status(esa)],[inference(variable_rename,[status(thm)],[inference(fof_nnf,[status(thm)],[c_0_1])])]) ).
cnf(c_0_3_024,negated_conjecture,
( ~ subset(esk1_0,esk2_0)
| set_difference(esk1_0,esk2_0) != empty_set ),
inference(split_conjunct,[status(thm)],[c_0_2]) ).
cnf(c_0_4_025,negated_conjecture,
( subset(esk1_0,esk2_0)
| set_difference(esk1_0,esk2_0) = empty_set ),
inference(split_conjunct,[status(thm)],[c_0_2]) ).
cnf(c_0_5_026,negated_conjecture,
( ~ subset(esk1_0,esk2_0)
| set_difference(esk1_0,esk2_0) != empty_set ),
c_0_3,
[final] ).
cnf(c_0_6_027,negated_conjecture,
( subset(esk1_0,esk2_0)
| set_difference(esk1_0,esk2_0) = empty_set ),
c_0_4,
[final] ).
% End CNF derivation
%-------------------------------------------------------------
% Proof by iprover
cnf(c_17,negated_conjecture,
( ~ subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) != empty_set ),
file('/export/starexec/sandbox/tmp/iprover_modulo_0d690a.p',c_0_5) ).
cnf(c_25,negated_conjecture,
( ~ subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) != empty_set ),
inference(copy,[status(esa)],[c_17]) ).
cnf(c_33,negated_conjecture,
( ~ subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) != empty_set ),
inference(copy,[status(esa)],[c_25]) ).
cnf(c_36,negated_conjecture,
( ~ subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) != empty_set ),
inference(copy,[status(esa)],[c_33]) ).
cnf(c_37,negated_conjecture,
( ~ subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) != empty_set ),
inference(copy,[status(esa)],[c_36]) ).
cnf(c_90,negated_conjecture,
( ~ subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) != empty_set ),
inference(copy,[status(esa)],[c_37]) ).
cnf(c_18,negated_conjecture,
( subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) = empty_set ),
file('/export/starexec/sandbox/tmp/iprover_modulo_0d690a.p',c_0_6) ).
cnf(c_27,negated_conjecture,
( subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) = empty_set ),
inference(copy,[status(esa)],[c_18]) ).
cnf(c_34,negated_conjecture,
( subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) = empty_set ),
inference(copy,[status(esa)],[c_27]) ).
cnf(c_35,negated_conjecture,
( subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) = empty_set ),
inference(copy,[status(esa)],[c_34]) ).
cnf(c_38,negated_conjecture,
( subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) = empty_set ),
inference(copy,[status(esa)],[c_35]) ).
cnf(c_92,negated_conjecture,
( subset(sk3_esk1_0,sk3_esk2_0)
| set_difference(sk3_esk1_0,sk3_esk2_0) = empty_set ),
inference(copy,[status(esa)],[c_38]) ).
cnf(c_16,plain,
( ~ subset(X0,X1)
| set_difference(X0,X1) = empty_set ),
file('/export/starexec/sandbox/tmp/iprover_modulo_0d690a.p',c_0_40_0) ).
cnf(c_88,plain,
( ~ subset(X0,X1)
| set_difference(X0,X1) = empty_set ),
inference(copy,[status(esa)],[c_16]) ).
cnf(c_96,negated_conjecture,
set_difference(sk3_esk1_0,sk3_esk2_0) = empty_set,
inference(forward_subsumption_resolution,[status(thm)],[c_92,c_88]) ).
cnf(c_97,plain,
set_difference(sk3_esk1_0,sk3_esk2_0) = empty_set,
inference(rewriting,[status(thm)],[c_96]) ).
cnf(c_14,plain,
( subset(X0,X1)
| set_difference(X0,X1) != empty_set ),
file('/export/starexec/sandbox/tmp/iprover_modulo_0d690a.p',c_0_42_0) ).
cnf(c_84,plain,
( subset(X0,X1)
| set_difference(X0,X1) != empty_set ),
inference(copy,[status(esa)],[c_14]) ).
cnf(c_103,plain,
$false,
inference(forward_subsumption_resolution,[status(thm)],[c_90,c_97,c_84]) ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.10 % Problem : SEU134+1 : TPTP v8.1.0. Released v3.3.0.
% 0.00/0.11 % Command : iprover_modulo %s %d
% 0.11/0.31 % Computer : n032.cluster.edu
% 0.11/0.31 % Model : x86_64 x86_64
% 0.11/0.31 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.11/0.31 % Memory : 8042.1875MB
% 0.11/0.31 % OS : Linux 3.10.0-693.el7.x86_64
% 0.11/0.31 % CPULimit : 300
% 0.11/0.31 % WCLimit : 600
% 0.11/0.31 % DateTime : Mon Jun 20 12:06:19 EDT 2022
% 0.11/0.31 % CPUTime :
% 0.16/0.32 % Running in mono-core mode
% 0.16/0.36 % Orienting using strategy Equiv(ClausalAll)
% 0.16/0.36 % FOF problem with conjecture
% 0.16/0.36 % Executing iprover_moduloopt --modulo true --schedule none --sub_typing false --res_to_prop_solver none --res_prop_simpl_given false --res_lit_sel kbo_max --large_theory_mode false --res_time_limit 1000 --res_orphan_elimination false --prep_sem_filter none --prep_unflatten false --comb_res_mult 1000 --comb_inst_mult 300 --clausifier .//eprover --clausifier_options "--tstp-format " --proof_out_file /export/starexec/sandbox/tmp/iprover_proof_8ae692.s --tptp_safe_out true --time_out_real 150 /export/starexec/sandbox/tmp/iprover_modulo_0d690a.p | tee /export/starexec/sandbox/tmp/iprover_modulo_out_ca7b7c | grep -v "SZS"
% 0.16/0.38
% 0.16/0.38 %---------------- iProver v2.5 (CASC-J8 2016) ----------------%
% 0.16/0.38
% 0.16/0.38 %
% 0.16/0.38 % ------ iProver source info
% 0.16/0.38
% 0.16/0.38 % git: sha1: 57accf6c58032223c7708532cf852a99fa48c1b3
% 0.16/0.38 % git: non_committed_changes: true
% 0.16/0.38 % git: last_make_outside_of_git: true
% 0.16/0.38
% 0.16/0.38 %
% 0.16/0.38 % ------ Input Options
% 0.16/0.38
% 0.16/0.38 % --out_options all
% 0.16/0.38 % --tptp_safe_out true
% 0.16/0.38 % --problem_path ""
% 0.16/0.38 % --include_path ""
% 0.16/0.38 % --clausifier .//eprover
% 0.16/0.38 % --clausifier_options --tstp-format
% 0.16/0.38 % --stdin false
% 0.16/0.38 % --dbg_backtrace false
% 0.16/0.38 % --dbg_dump_prop_clauses false
% 0.16/0.38 % --dbg_dump_prop_clauses_file -
% 0.16/0.38 % --dbg_out_stat false
% 0.16/0.38
% 0.16/0.38 % ------ General Options
% 0.16/0.38
% 0.16/0.38 % --fof false
% 0.16/0.38 % --time_out_real 150.
% 0.16/0.38 % --time_out_prep_mult 0.2
% 0.16/0.38 % --time_out_virtual -1.
% 0.16/0.38 % --schedule none
% 0.16/0.38 % --ground_splitting input
% 0.16/0.38 % --splitting_nvd 16
% 0.16/0.38 % --non_eq_to_eq false
% 0.16/0.38 % --prep_gs_sim true
% 0.16/0.38 % --prep_unflatten false
% 0.16/0.38 % --prep_res_sim true
% 0.16/0.38 % --prep_upred true
% 0.16/0.38 % --res_sim_input true
% 0.16/0.38 % --clause_weak_htbl true
% 0.16/0.38 % --gc_record_bc_elim false
% 0.16/0.38 % --symbol_type_check false
% 0.16/0.38 % --clausify_out false
% 0.16/0.38 % --large_theory_mode false
% 0.16/0.38 % --prep_sem_filter none
% 0.16/0.38 % --prep_sem_filter_out false
% 0.16/0.38 % --preprocessed_out false
% 0.16/0.38 % --sub_typing false
% 0.16/0.38 % --brand_transform false
% 0.16/0.38 % --pure_diseq_elim true
% 0.16/0.38 % --min_unsat_core false
% 0.16/0.38 % --pred_elim true
% 0.16/0.38 % --add_important_lit false
% 0.16/0.38 % --soft_assumptions false
% 0.16/0.38 % --reset_solvers false
% 0.16/0.38 % --bc_imp_inh []
% 0.16/0.38 % --conj_cone_tolerance 1.5
% 0.16/0.38 % --prolific_symb_bound 500
% 0.16/0.38 % --lt_threshold 2000
% 0.16/0.38
% 0.16/0.38 % ------ SAT Options
% 0.16/0.38
% 0.16/0.38 % --sat_mode false
% 0.16/0.38 % --sat_fm_restart_options ""
% 0.16/0.38 % --sat_gr_def false
% 0.16/0.38 % --sat_epr_types true
% 0.16/0.38 % --sat_non_cyclic_types false
% 0.16/0.38 % --sat_finite_models false
% 0.16/0.38 % --sat_fm_lemmas false
% 0.16/0.38 % --sat_fm_prep false
% 0.16/0.38 % --sat_fm_uc_incr true
% 0.16/0.38 % --sat_out_model small
% 0.16/0.38 % --sat_out_clauses false
% 0.16/0.38
% 0.16/0.38 % ------ QBF Options
% 0.16/0.38
% 0.16/0.38 % --qbf_mode false
% 0.16/0.38 % --qbf_elim_univ true
% 0.16/0.38 % --qbf_sk_in true
% 0.16/0.38 % --qbf_pred_elim true
% 0.16/0.38 % --qbf_split 32
% 0.16/0.38
% 0.16/0.38 % ------ BMC1 Options
% 0.16/0.38
% 0.16/0.38 % --bmc1_incremental false
% 0.16/0.38 % --bmc1_axioms reachable_all
% 0.16/0.38 % --bmc1_min_bound 0
% 0.16/0.38 % --bmc1_max_bound -1
% 0.16/0.38 % --bmc1_max_bound_default -1
% 0.16/0.38 % --bmc1_symbol_reachability true
% 0.16/0.38 % --bmc1_property_lemmas false
% 0.16/0.38 % --bmc1_k_induction false
% 0.16/0.38 % --bmc1_non_equiv_states false
% 0.16/0.38 % --bmc1_deadlock false
% 0.16/0.38 % --bmc1_ucm false
% 0.16/0.38 % --bmc1_add_unsat_core none
% 0.16/0.38 % --bmc1_unsat_core_children false
% 0.16/0.38 % --bmc1_unsat_core_extrapolate_axioms false
% 0.16/0.38 % --bmc1_out_stat full
% 0.16/0.38 % --bmc1_ground_init false
% 0.16/0.38 % --bmc1_pre_inst_next_state false
% 0.16/0.38 % --bmc1_pre_inst_state false
% 0.16/0.38 % --bmc1_pre_inst_reach_state false
% 0.16/0.38 % --bmc1_out_unsat_core false
% 0.16/0.38 % --bmc1_aig_witness_out false
% 0.16/0.38 % --bmc1_verbose false
% 0.16/0.38 % --bmc1_dump_clauses_tptp false
% 0.16/0.47 % --bmc1_dump_unsat_core_tptp false
% 0.16/0.47 % --bmc1_dump_file -
% 0.16/0.47 % --bmc1_ucm_expand_uc_limit 128
% 0.16/0.47 % --bmc1_ucm_n_expand_iterations 6
% 0.16/0.47 % --bmc1_ucm_extend_mode 1
% 0.16/0.47 % --bmc1_ucm_init_mode 2
% 0.16/0.47 % --bmc1_ucm_cone_mode none
% 0.16/0.47 % --bmc1_ucm_reduced_relation_type 0
% 0.16/0.47 % --bmc1_ucm_relax_model 4
% 0.16/0.47 % --bmc1_ucm_full_tr_after_sat true
% 0.16/0.47 % --bmc1_ucm_expand_neg_assumptions false
% 0.16/0.47 % --bmc1_ucm_layered_model none
% 0.16/0.47 % --bmc1_ucm_max_lemma_size 10
% 0.16/0.47
% 0.16/0.47 % ------ AIG Options
% 0.16/0.47
% 0.16/0.47 % --aig_mode false
% 0.16/0.47
% 0.16/0.47 % ------ Instantiation Options
% 0.16/0.47
% 0.16/0.47 % --instantiation_flag true
% 0.16/0.47 % --inst_lit_sel [+prop;+sign;+ground;-num_var;-num_symb]
% 0.16/0.47 % --inst_solver_per_active 750
% 0.16/0.47 % --inst_solver_calls_frac 0.5
% 0.16/0.47 % --inst_passive_queue_type priority_queues
% 0.16/0.47 % --inst_passive_queues [[-conj_dist;+conj_symb;-num_var];[+age;-num_symb]]
% 0.16/0.47 % --inst_passive_queues_freq [25;2]
% 0.16/0.47 % --inst_dismatching true
% 0.16/0.47 % --inst_eager_unprocessed_to_passive true
% 0.16/0.47 % --inst_prop_sim_given true
% 0.16/0.47 % --inst_prop_sim_new false
% 0.16/0.47 % --inst_orphan_elimination true
% 0.16/0.47 % --inst_learning_loop_flag true
% 0.16/0.47 % --inst_learning_start 3000
% 0.16/0.47 % --inst_learning_factor 2
% 0.16/0.47 % --inst_start_prop_sim_after_learn 3
% 0.16/0.47 % --inst_sel_renew solver
% 0.16/0.47 % --inst_lit_activity_flag true
% 0.16/0.47 % --inst_out_proof true
% 0.16/0.47
% 0.16/0.47 % ------ Resolution Options
% 0.16/0.47
% 0.16/0.47 % --resolution_flag true
% 0.16/0.47 % --res_lit_sel kbo_max
% 0.16/0.47 % --res_to_prop_solver none
% 0.16/0.47 % --res_prop_simpl_new false
% 0.16/0.47 % --res_prop_simpl_given false
% 0.16/0.47 % --res_passive_queue_type priority_queues
% 0.16/0.47 % --res_passive_queues [[-conj_dist;+conj_symb;-num_symb];[+age;-num_symb]]
% 0.16/0.47 % --res_passive_queues_freq [15;5]
% 0.16/0.47 % --res_forward_subs full
% 0.16/0.47 % --res_backward_subs full
% 0.16/0.47 % --res_forward_subs_resolution true
% 0.16/0.47 % --res_backward_subs_resolution true
% 0.16/0.47 % --res_orphan_elimination false
% 0.16/0.47 % --res_time_limit 1000.
% 0.16/0.47 % --res_out_proof true
% 0.16/0.47 % --proof_out_file /export/starexec/sandbox/tmp/iprover_proof_8ae692.s
% 0.16/0.47 % --modulo true
% 0.16/0.47
% 0.16/0.47 % ------ Combination Options
% 0.16/0.47
% 0.16/0.47 % --comb_res_mult 1000
% 0.16/0.47 % --comb_inst_mult 300
% 0.16/0.47 % ------
% 0.16/0.47
% 0.16/0.47 % ------ Parsing...% successful
% 0.16/0.47
% 0.16/0.47 % ------ Preprocessing... gs_s sp: 0 0s gs_e snvd_s sp: 0 0s snvd_e pe_s pe_e snvd_s sp: 0 0s snvd_e %
% 0.16/0.47
% 0.16/0.47 % ------ Proving...
% 0.16/0.47 % ------ Problem Properties
% 0.16/0.47
% 0.16/0.47 %
% 0.16/0.47 % EPR false
% 0.16/0.47 % Horn false
% 0.16/0.47 % Has equality true
% 0.16/0.47
% 0.16/0.47 % % ------ Input Options Time Limit: Unbounded
% 0.16/0.47
% 0.16/0.47
% 0.16/0.47 Compiling...
% 0.16/0.47 Loading plugin: done.
% 0.16/0.47 % % ------ Current options:
% 0.16/0.47
% 0.16/0.47 % ------ Input Options
% 0.16/0.47
% 0.16/0.47 % --out_options all
% 0.16/0.47 % --tptp_safe_out true
% 0.16/0.47 % --problem_path ""
% 0.16/0.47 % --include_path ""
% 0.16/0.47 % --clausifier .//eprover
% 0.16/0.47 % --clausifier_options --tstp-format
% 0.16/0.47 % --stdin false
% 0.16/0.47 % --dbg_backtrace false
% 0.16/0.47 % --dbg_dump_prop_clauses false
% 0.16/0.47 % --dbg_dump_prop_clauses_file -
% 0.16/0.47 % --dbg_out_stat false
% 0.16/0.47
% 0.16/0.47 % ------ General Options
% 0.16/0.47
% 0.16/0.47 % --fof false
% 0.16/0.47 % --time_out_real 150.
% 0.16/0.47 % --time_out_prep_mult 0.2
% 0.16/0.47 % --time_out_virtual -1.
% 0.16/0.47 % --schedule none
% 0.16/0.47 % --ground_splitting input
% 0.16/0.47 % --splitting_nvd 16
% 0.16/0.47 % --non_eq_to_eq false
% 0.16/0.47 % --prep_gs_sim true
% 0.16/0.47 % --prep_unflatten false
% 0.16/0.47 % --prep_res_sim true
% 0.16/0.47 % --prep_upred true
% 0.16/0.47 % --res_sim_input true
% 0.16/0.47 % --clause_weak_htbl true
% 0.16/0.47 % --gc_record_bc_elim false
% 0.16/0.47 % --symbol_type_check false
% 0.16/0.47 % --clausify_out false
% 0.16/0.47 % --large_theory_mode false
% 0.16/0.47 % --prep_sem_filter none
% 0.16/0.47 % --prep_sem_filter_out false
% 0.16/0.47 % --preprocessed_out false
% 0.16/0.47 % --sub_typing false
% 0.16/0.47 % --brand_transform false
% 0.16/0.47 % --pure_diseq_elim true
% 0.16/0.47 % --min_unsat_core false
% 0.16/0.47 % --pred_elim true
% 0.16/0.47 % --add_important_lit false
% 0.16/0.47 % --soft_assumptions false
% 0.16/0.47 % --reset_solvers false
% 0.16/0.47 % --bc_imp_inh []
% 0.16/0.47 % --conj_cone_tolerance 1.5
% 0.16/0.47 % --prolific_symb_bound 500
% 0.16/0.47 % --lt_threshold 2000
% 0.16/0.47
% 0.16/0.47 % ------ SAT Options
% 0.16/0.47
% 0.16/0.47 % --sat_mode false
% 0.16/0.47 % --sat_fm_restart_options ""
% 0.16/0.47 % --sat_gr_def false
% 0.16/0.47 % --sat_epr_types true
% 0.16/0.47 % --sat_non_cyclic_types false
% 0.16/0.47 % --sat_finite_models false
% 0.16/0.47 % --sat_fm_lemmas false
% 0.16/0.47 % --sat_fm_prep false
% 0.16/0.47 % --sat_fm_uc_incr true
% 0.16/0.47 % --sat_out_model small
% 0.16/0.47 % --sat_out_clauses false
% 0.16/0.47
% 0.16/0.47 % ------ QBF Options
% 0.16/0.47
% 0.16/0.47 % --qbf_mode false
% 0.16/0.47 % --qbf_elim_univ true
% 0.16/0.47 % --qbf_sk_in true
% 0.16/0.47 % --qbf_pred_elim true
% 0.16/0.47 % --qbf_split 32
% 0.16/0.47
% 0.16/0.47 % ------ BMC1 Options
% 0.16/0.47
% 0.16/0.47 % --bmc1_incremental false
% 0.16/0.47 % --bmc1_axioms reachable_all
% 0.16/0.47 % --bmc1_min_bound 0
% 0.16/0.47 % --bmc1_max_bound -1
% 0.16/0.47 % --bmc1_max_bound_default -1
% 0.16/0.47 % --bmc1_symbol_reachability true
% 0.16/0.47 % --bmc1_property_lemmas false
% 0.16/0.47 % --bmc1_k_induction false
% 0.16/0.47 % --bmc1_non_equiv_states false
% 0.16/0.47 % --bmc1_deadlock false
% 0.16/0.47 % --bmc1_ucm false
% 0.16/0.47 % --bmc1_add_unsat_core none
% 0.16/0.47 % --bmc1_unsat_core_children false
% 0.16/0.47 % --bmc1_unsat_core_extrapolate_axioms false
% 0.16/0.47 % --bmc1_out_stat full
% 0.16/0.47 % --bmc1_ground_init false
% 0.16/0.47 % --bmc1_pre_inst_next_state false
% 0.16/0.47 % --bmc1_pre_inst_state false
% 0.16/0.47 % --bmc1_pre_inst_reach_state false
% 0.16/0.47 % --bmc1_out_unsat_core false
% 0.16/0.47 % --bmc1_aig_witness_out false
% 0.16/0.47 % --bmc1_verbose false
% 0.16/0.47 % --bmc1_dump_clauses_tptp false
% 0.16/0.47 % --bmc1_dump_unsat_core_tptp false
% 0.16/0.47 % --bmc1_dump_file -
% 0.16/0.47 % --bmc1_ucm_expand_uc_limit 128
% 0.16/0.47 % --bmc1_ucm_n_expand_iterations 6
% 0.16/0.47 % --bmc1_ucm_extend_mode 1
% 0.16/0.47 % --bmc1_ucm_init_mode 2
% 0.16/0.47 % --bmc1_ucm_cone_mode none
% 0.16/0.47 % --bmc1_ucm_reduced_relation_type 0
% 0.16/0.47 % --bmc1_ucm_relax_model 4
% 0.16/0.47 % --bmc1_ucm_full_tr_after_sat true
% 0.16/0.47 % --bmc1_ucm_expand_neg_assumptions false
% 0.16/0.47 % --bmc1_ucm_layered_model none
% 0.16/0.47 % --bmc1_ucm_max_lemma_size 10
% 0.16/0.47
% 0.16/0.47 % ------ AIG Options
% 0.16/0.47
% 0.16/0.47 % --aig_mode false
% 0.16/0.47
% 0.16/0.47 % ------ Instantiation Options
% 0.16/0.47
% 0.16/0.47 % --instantiation_flag true
% 0.16/0.47 % --inst_lit_sel [+prop;+sign;+ground;-num_var;-num_symb]
% 0.16/0.47 % --inst_solver_per_active 750
% 0.16/0.47 % --inst_solver_calls_frac 0.5
% 0.16/0.47 % --inst_passive_queue_type priority_queues
% 0.16/0.47 % --inst_passive_queues [[-conj_dist;+conj_symb;-num_var];[+age;-num_symb]]
% 0.16/0.47 % --inst_passive_queues_freq [25;2]
% 0.16/0.47 % --inst_dismatching true
% 0.16/0.47 % --inst_eager_unprocessed_to_passive true
% 0.16/0.47 % --inst_prop_sim_given true
% 0.16/0.47 % --inst_prop_sim_new false
% 0.16/0.47 % --inst_orphan_elimination true
% 0.16/0.47 % --inst_learning_loop_flag true
% 0.16/0.47 % --inst_learning_start 3000
% 0.16/0.47 % --inst_learning_factor 2
% 0.16/0.47 % --inst_start_prop_sim_after_learn 3
% 0.16/0.47 % --inst_sel_renew solver
% 0.16/0.47 % --inst_lit_activity_flag true
% 0.16/0.47 % --inst_out_proof true
% 0.16/0.47
% 0.16/0.47 % ------ Resolution Options
% 0.16/0.47
% 0.16/0.47 % --resolution_flag true
% 0.16/0.47 % --res_lit_sel kbo_max
% 0.16/0.47 % --res_to_prop_solver none
% 0.16/0.47 % --res_prop_simpl_new false
% 0.16/0.47 % --res_prop_simpl_given false
% 0.16/0.47 % --res_passive_queue_type priority_queues
% 0.16/0.47 % --res_passive_queues [[-conj_dist;+conj_symb;-num_symb];[+age;-num_symb]]
% 0.16/0.47 % --res_passive_queues_freq [15;5]
% 0.16/0.47 % --res_forward_subs full
% 0.16/0.47 % --res_backward_subs full
% 0.16/0.47 % --res_forward_subs_resolution true
% 0.16/0.47 % --res_backward_subs_resolution true
% 0.16/0.47 % --res_orphan_elimination false
% 0.16/0.47 % --res_time_limit 1000.
% 0.16/0.47 % --res_out_proof true
% 0.16/0.47 % --proof_out_file /export/starexec/sandbox/tmp/iprover_proof_8ae692.s
% 0.16/0.47 % --modulo true
% 0.16/0.47
% 0.16/0.47 % ------ Combination Options
% 0.16/0.47
% 0.16/0.47 % --comb_res_mult 1000
% 0.16/0.47 % --comb_inst_mult 300
% 0.16/0.47 % ------
% 0.16/0.47
% 0.16/0.47
% 0.16/0.47
% 0.16/0.47 % ------ Proving...
% 0.16/0.47 %
% 0.16/0.47
% 0.16/0.47
% 0.16/0.47 % Resolution empty clause
% 0.16/0.47
% 0.16/0.47 % ------ Statistics
% 0.16/0.47
% 0.16/0.47 % ------ General
% 0.16/0.47
% 0.16/0.47 % num_of_input_clauses: 19
% 0.16/0.47 % num_of_input_neg_conjectures: 2
% 0.16/0.47 % num_of_splits: 0
% 0.16/0.47 % num_of_split_atoms: 0
% 0.16/0.47 % num_of_sem_filtered_clauses: 0
% 0.16/0.47 % num_of_subtypes: 0
% 0.16/0.47 % monotx_restored_types: 0
% 0.16/0.47 % sat_num_of_epr_types: 0
% 0.16/0.47 % sat_num_of_non_cyclic_types: 0
% 0.16/0.47 % sat_guarded_non_collapsed_types: 0
% 0.16/0.47 % is_epr: 0
% 0.16/0.47 % is_horn: 0
% 0.16/0.47 % has_eq: 1
% 0.16/0.47 % num_pure_diseq_elim: 0
% 0.16/0.47 % simp_replaced_by: 0
% 0.16/0.47 % res_preprocessed: 4
% 0.16/0.47 % prep_upred: 0
% 0.16/0.47 % prep_unflattend: 0
% 0.16/0.47 % pred_elim_cands: 0
% 0.16/0.47 % pred_elim: 0
% 0.16/0.47 % pred_elim_cl: 0
% 0.16/0.47 % pred_elim_cycles: 0
% 0.16/0.47 % forced_gc_time: 0
% 0.16/0.47 % gc_basic_clause_elim: 0
% 0.16/0.47 % parsing_time: 0.
% 0.16/0.47 % sem_filter_time: 0.
% 0.16/0.47 % pred_elim_time: 0.
% 0.16/0.47 % out_proof_time: 0.
% 0.16/0.47 % monotx_time: 0.
% 0.16/0.47 % subtype_inf_time: 0.
% 0.16/0.47 % unif_index_cands_time: 0.
% 0.16/0.47 % unif_index_add_time: 0.
% 0.16/0.47 % total_time: 0.101
% 0.16/0.47 % num_of_symbols: 34
% 0.16/0.47 % num_of_terms: 55
% 0.16/0.47
% 0.16/0.47 % ------ Propositional Solver
% 0.16/0.47
% 0.16/0.47 % prop_solver_calls: 1
% 0.16/0.47 % prop_fast_solver_calls: 12
% 0.16/0.47 % prop_num_of_clauses: 22
% 0.16/0.47 % prop_preprocess_simplified: 56
% 0.16/0.47 % prop_fo_subsumed: 0
% 0.16/0.47 % prop_solver_time: 0.
% 0.16/0.47 % prop_fast_solver_time: 0.
% 0.16/0.47 % prop_unsat_core_time: 0.
% 0.16/0.47
% 0.16/0.47 % ------ QBF
% 0.16/0.47
% 0.16/0.47 % qbf_q_res: 0
% 0.16/0.47 % qbf_num_tautologies: 0
% 0.16/0.47 % qbf_prep_cycles: 0
% 0.16/0.47
% 0.16/0.47 % ------ BMC1
% 0.16/0.47
% 0.16/0.47 % bmc1_current_bound: -1
% 0.16/0.47 % bmc1_last_solved_bound: -1
% 0.16/0.47 % bmc1_unsat_core_size: -1
% 0.16/0.47 % bmc1_unsat_core_parents_size: -1
% 0.16/0.47 % bmc1_merge_next_fun: 0
% 0.16/0.47 % bmc1_unsat_core_clauses_time: 0.
% 0.16/0.47
% 0.16/0.47 % ------ Instantiation
% 0.16/0.47
% 0.16/0.47 % inst_num_of_clauses: 18
% 0.16/0.47 % inst_num_in_passive: 0
% 0.16/0.47 % inst_num_in_active: 0
% 0.16/0.47 % inst_num_in_unprocessed: 19
% 0.16/0.47 % inst_num_of_loops: 0
% 0.16/0.47 % inst_num_of_learning_restarts: 0
% 0.16/0.47 % inst_num_moves_active_passive: 0
% 0.16/0.47 % inst_lit_activity: 0
% 0.16/0.47 % inst_lit_activity_moves: 0
% 0.16/0.47 % inst_num_tautologies: 0
% 0.16/0.47 % inst_num_prop_implied: 0
% 0.16/0.47 % inst_num_existing_simplified: 0
% 0.16/0.47 % inst_num_eq_res_simplified: 0
% 0.16/0.47 % inst_num_child_elim: 0
% 0.16/0.47 % inst_num_of_dismatching_blockings: 0
% 0.16/0.47 % inst_num_of_non_proper_insts: 0
% 0.16/0.47 % inst_num_of_duplicates: 0
% 0.16/0.47 % inst_inst_num_from_inst_to_res: 0
% 0.16/0.47 % inst_dismatching_checking_time: 0.
% 0.16/0.47
% 0.16/0.47 % ------ Resolution
% 0.16/0.47
% 0.16/0.47 % res_num_of_clauses: 21
% 0.16/0.47 % res_num_in_passive: 1
% 0.16/0.47 % res_num_in_active: 13
% 0.16/0.47 % res_num_of_loops: 2
% 0.16/0.47 % res_forward_subset_subsumed: 3
% 0.16/0.47 % res_backward_subset_subsumed: 0
% 0.16/0.47 % res_forward_subsumed: 0
% 0.16/0.47 % res_backward_subsumed: 0
% 0.16/0.47 % res_forward_subsumption_resolution: 3
% 0.16/0.47 % res_backward_subsumption_resolution: 0
% 0.16/0.47 % res_clause_to_clause_subsumption: 5
% 0.16/0.47 % res_orphan_elimination: 0
% 0.16/0.47 % res_tautology_del: 0
% 0.16/0.47 % res_num_eq_res_simplified: 0
% 0.16/0.47 % res_num_sel_changes: 0
% 0.16/0.47 % res_moves_from_active_to_pass: 0
% 0.16/0.47
% 0.16/0.47 % Status Unsatisfiable
% 0.16/0.47 % SZS status Theorem
% 0.16/0.47 % SZS output start CNFRefutation
% See solution above
%------------------------------------------------------------------------------