TSTP Solution File: SEU371+1 by LEO-II---1.7.0
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%------------------------------------------------------------------------------
% File : LEO-II---1.7.0
% Problem : SEU371+1 : TPTP v8.1.0. Released v3.3.0.
% Transfm : none
% Format : tptp
% Command : leo --timeout %d --proofoutput 1 --foatp e --atp e=./eprover %s
% Computer : n007.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 12:11:11 EDT 2022
% Result : Theorem 83.65s 84.08s
% Output : CNFRefutation 86.68s
% Verified :
% SZS Type : Refutation
% Derivation depth : 55
% Number of leaves : 212
% Syntax : Number of formulae : 3156 (1909 unt; 97 typ; 0 def)
% Number of atoms : 30786 (6416 equ; 0 cnn)
% Maximal formula atoms : 17 ( 10 avg)
% Number of connectives : 62766 (19632 ~;14749 |; 888 &;27411 @)
% ( 4 <=>; 82 =>; 0 <=; 0 <~>)
% Maximal formula depth : 20 ( 3 avg)
% Number of types : 2 ( 0 usr)
% Number of type conns : 103 ( 103 >; 0 *; 0 +; 0 <<)
% Number of symbols : 100 ( 97 usr; 24 con; 0-3 aty)
% Number of variables : 5842 ( 0 ^5814 !; 28 ?;5842 :)
% Comments :
%------------------------------------------------------------------------------
thf(tp_a_2_2_lattice3,type,
a_2_2_lattice3: $i > $i > $i ).
thf(tp_antisymmetric,type,
antisymmetric: $i > $o ).
thf(tp_antisymmetric_relstr,type,
antisymmetric_relstr: $i > $o ).
thf(tp_boole_POSet,type,
boole_POSet: $i > $i ).
thf(tp_boole_lattice,type,
boole_lattice: $i > $i ).
thf(tp_boolean_lattstr,type,
boolean_lattstr: $i > $o ).
thf(tp_bottom_of_relstr,type,
bottom_of_relstr: $i > $i ).
thf(tp_bottom_of_semilattstr,type,
bottom_of_semilattstr: $i > $i ).
thf(tp_bounded_lattstr,type,
bounded_lattstr: $i > $o ).
thf(tp_bounded_relstr,type,
bounded_relstr: $i > $o ).
thf(tp_cartesian_product2,type,
cartesian_product2: $i > $i > $i ).
thf(tp_complemented_lattstr,type,
complemented_lattstr: $i > $o ).
thf(tp_complete_latt_str,type,
complete_latt_str: $i > $o ).
thf(tp_complete_relstr,type,
complete_relstr: $i > $o ).
thf(tp_distributive_lattstr,type,
distributive_lattstr: $i > $o ).
thf(tp_element,type,
element: $i > $i > $o ).
thf(tp_empty,type,
empty: $i > $o ).
thf(tp_empty_carrier,type,
empty_carrier: $i > $o ).
thf(tp_empty_set,type,
empty_set: $i ).
thf(tp_function,type,
function: $i > $o ).
thf(tp_in,type,
in: $i > $i > $o ).
thf(tp_join_absorbing,type,
join_absorbing: $i > $o ).
thf(tp_join_associative,type,
join_associative: $i > $o ).
thf(tp_join_commutative,type,
join_commutative: $i > $o ).
thf(tp_join_of_latt_set,type,
join_of_latt_set: $i > $i > $i ).
thf(tp_join_on_relstr,type,
join_on_relstr: $i > $i > $i ).
thf(tp_join_semilatt_str,type,
join_semilatt_str: $i > $o ).
thf(tp_k2_lattice3,type,
k2_lattice3: $i > $i ).
thf(tp_latt_set_smaller,type,
latt_set_smaller: $i > $i > $i > $o ).
thf(tp_latt_str,type,
latt_str: $i > $o ).
thf(tp_latt_str_of,type,
latt_str_of: $i > $i > $i > $i ).
thf(tp_lattice,type,
lattice: $i > $o ).
thf(tp_lower_bounded_relstr,type,
lower_bounded_relstr: $i > $o ).
thf(tp_lower_bounded_semilattstr,type,
lower_bounded_semilattstr: $i > $o ).
thf(tp_meet_absorbing,type,
meet_absorbing: $i > $o ).
thf(tp_meet_associative,type,
meet_associative: $i > $o ).
thf(tp_meet_commutative,type,
meet_commutative: $i > $o ).
thf(tp_meet_of_latt_set,type,
meet_of_latt_set: $i > $i > $i ).
thf(tp_meet_on_relstr,type,
meet_on_relstr: $i > $i > $i ).
thf(tp_meet_semilatt_str,type,
meet_semilatt_str: $i > $o ).
thf(tp_modular_lattstr,type,
modular_lattstr: $i > $o ).
thf(tp_one_sorted_str,type,
one_sorted_str: $i > $o ).
thf(tp_poset_of_lattice,type,
poset_of_lattice: $i > $i ).
thf(tp_powerset,type,
powerset: $i > $i ).
thf(tp_quasi_total,type,
quasi_total: $i > $i > $i > $o ).
thf(tp_reflexive,type,
reflexive: $i > $o ).
thf(tp_reflexive_relstr,type,
reflexive_relstr: $i > $o ).
thf(tp_rel_str,type,
rel_str: $i > $o ).
thf(tp_rel_str_of,type,
rel_str_of: $i > $i > $i ).
thf(tp_relation,type,
relation: $i > $o ).
thf(tp_relation_of2,type,
relation_of2: $i > $i > $i > $o ).
thf(tp_relation_of2_as_subset,type,
relation_of2_as_subset: $i > $i > $i > $o ).
thf(tp_relation_of_lattice,type,
relation_of_lattice: $i > $i ).
thf(tp_sK10_B,type,
sK10_B: $i > $i ).
thf(tp_sK11_C,type,
sK11_C: $i > $i > $i ).
thf(tp_sK12_A,type,
sK12_A: $i ).
thf(tp_sK13_A,type,
sK13_A: $i ).
thf(tp_sK14_A,type,
sK14_A: $i ).
thf(tp_sK15_B,type,
sK15_B: $i > $i ).
thf(tp_sK16_A,type,
sK16_A: $i ).
thf(tp_sK17_A,type,
sK17_A: $i ).
thf(tp_sK18_A,type,
sK18_A: $i ).
thf(tp_sK19_A,type,
sK19_A: $i ).
thf(tp_sK1_A,type,
sK1_A: $i ).
thf(tp_sK20_A,type,
sK20_A: $i ).
thf(tp_sK21_A,type,
sK21_A: $i ).
thf(tp_sK22_D,type,
sK22_D: $i > $i > $i > $i ).
thf(tp_sK23_C,type,
sK23_C: $i > $i > $i ).
thf(tp_sK24_B,type,
sK24_B: $i > $i ).
thf(tp_sK25_C,type,
sK25_C: $i > $i > $i ).
thf(tp_sK26_A,type,
sK26_A: $i ).
thf(tp_sK27_A,type,
sK27_A: $i ).
thf(tp_sK28_A,type,
sK28_A: $i ).
thf(tp_sK29_A,type,
sK29_A: $i ).
thf(tp_sK2_C,type,
sK2_C: $i > $i > $i ).
thf(tp_sK30_A,type,
sK30_A: $i ).
thf(tp_sK3_A,type,
sK3_A: $i ).
thf(tp_sK4_A,type,
sK4_A: $i ).
thf(tp_sK5_B,type,
sK5_B: $i > $i ).
thf(tp_sK6_A,type,
sK6_A: $i ).
thf(tp_sK7_A,type,
sK7_A: $i ).
thf(tp_sK8_A,type,
sK8_A: $i ).
thf(tp_sK9_A,type,
sK9_A: $i ).
thf(tp_strict_latt_str,type,
strict_latt_str: $i > $o ).
thf(tp_strict_rel_str,type,
strict_rel_str: $i > $o ).
thf(tp_subset,type,
subset: $i > $i > $o ).
thf(tp_the_InternalRel,type,
the_InternalRel: $i > $i ).
thf(tp_the_L_join,type,
the_L_join: $i > $i ).
thf(tp_the_L_meet,type,
the_L_meet: $i > $i ).
thf(tp_the_carrier,type,
the_carrier: $i > $i ).
thf(tp_transitive,type,
transitive: $i > $o ).
thf(tp_transitive_relstr,type,
transitive_relstr: $i > $o ).
thf(tp_upper_bounded_relstr,type,
upper_bounded_relstr: $i > $o ).
thf(tp_upper_bounded_semilattstr,type,
upper_bounded_semilattstr: $i > $o ).
thf(tp_v1_partfun1,type,
v1_partfun1: $i > $i > $i > $o ).
thf(tp_with_infima_relstr,type,
with_infima_relstr: $i > $o ).
thf(tp_with_suprema_relstr,type,
with_suprema_relstr: $i > $o ).
thf(1,axiom,
! [A: $i,B: $i] :
~ ( ( empty @ A )
& ( A != B )
& ( empty @ B ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t8_boole) ).
thf(2,axiom,
! [A: $i,B: $i] :
~ ( ( in @ A @ B )
& ( empty @ B ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t7_boole) ).
thf(3,axiom,
! [A: $i] :
( ( empty @ A )
=> ( A = empty_set ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t6_boole) ).
thf(4,axiom,
! [A: $i,B: $i,C: $i] :
~ ( ( in @ A @ B )
& ( element @ B @ ( powerset @ C ) )
& ( empty @ C ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t5_subset) ).
thf(5,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( complete_latt_str @ A )
& ( latt_str @ A ) )
=> ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( lower_bounded_semilattstr @ A )
& ( latt_str @ A )
& ( ( bottom_of_semilattstr @ A )
= ( join_of_latt_set @ A @ empty_set ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t50_lattice3) ).
thf(6,axiom,
! [A: $i,B: $i,C: $i] :
( ( ( in @ A @ B )
& ( element @ B @ ( powerset @ C ) ) )
=> ( element @ A @ C ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t4_subset) ).
thf(7,axiom,
! [A: $i,B: $i] :
( ( element @ A @ ( powerset @ B ) )
<=> ( subset @ A @ B ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t3_subset) ).
thf(8,axiom,
! [A: $i] :
( ( lower_bounded_semilattstr @ ( boole_lattice @ A ) )
& ( ( bottom_of_semilattstr @ ( boole_lattice @ A ) )
= empty_set ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t3_lattice3) ).
thf(9,axiom,
! [A: $i,B: $i] :
( ! [C: $i] :
( ( in @ C @ A )
<=> ( in @ C @ B ) )
=> ( A = B ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t2_tarski) ).
thf(10,axiom,
! [A: $i,B: $i] :
( ( element @ A @ B )
=> ( ( empty @ B )
| ( in @ A @ B ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t2_subset) ).
thf(11,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( complete_latt_str @ A )
& ( latt_str @ A ) )
=> ! [B: $i] :
( ( ( join_of_latt_set @ A @ B )
= ( join_on_relstr @ ( poset_of_lattice @ A ) @ B ) )
& ( ( meet_of_latt_set @ A @ B )
= ( meet_on_relstr @ ( poset_of_lattice @ A ) @ B ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t29_yellow_0) ).
thf(12,axiom,
! [A: $i,B: $i] :
( ( in @ A @ B )
=> ( element @ A @ B ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t1_subset) ).
thf(13,axiom,
! [A: $i,B: $i] : ( subset @ A @ A ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',reflexivity_r1_tarski) ).
thf(14,axiom,
! [A: $i,B: $i,C: $i] :
( ( relation_of2_as_subset @ C @ A @ B )
<=> ( relation_of2 @ C @ A @ B ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',redefinition_m2_relset_1) ).
thf(15,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( latt_str @ A ) )
=> ( ( k2_lattice3 @ A )
= ( relation_of_lattice @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',redefinition_k2_lattice3) ).
thf(16,axiom,
? [A: $i] :
( ( latt_str @ A )
& ~ ( empty_carrier @ A )
& ( strict_latt_str @ A )
& ( join_commutative @ A )
& ( join_associative @ A )
& ( meet_commutative @ A )
& ( meet_associative @ A )
& ( meet_absorbing @ A )
& ( join_absorbing @ A )
& ( lattice @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc9_lattices) ).
thf(17,axiom,
? [A: $i] :
( ( latt_str @ A )
& ~ ( empty_carrier @ A )
& ( strict_latt_str @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc6_lattices) ).
thf(18,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( one_sorted_str @ A ) )
=> ? [B: $i] :
( ( element @ B @ ( powerset @ ( the_carrier @ A ) ) )
& ~ ( empty @ B ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc5_struct_0) ).
thf(19,axiom,
? [A: $i] :
( ( one_sorted_str @ A )
& ~ ( empty_carrier @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc3_struct_0) ).
thf(20,axiom,
? [A: $i] :
( ( latt_str @ A )
& ( strict_latt_str @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc3_lattices) ).
thf(21,axiom,
? [A: $i] :
( ( rel_str @ A )
& ~ ( empty_carrier @ A )
& ( reflexive_relstr @ A )
& ( transitive_relstr @ A )
& ( antisymmetric_relstr @ A )
& ( with_suprema_relstr @ A )
& ( with_infima_relstr @ A )
& ( complete_relstr @ A )
& ( lower_bounded_relstr @ A )
& ( upper_bounded_relstr @ A )
& ( bounded_relstr @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc2_yellow_0) ).
thf(22,axiom,
? [A: $i] :
~ ( empty @ A ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc2_xboole_0) ).
thf(23,axiom,
! [A: $i] :
? [B: $i] :
( ( element @ B @ ( powerset @ A ) )
& ( empty @ B ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc2_subset_1) ).
thf(24,axiom,
! [A: $i,B: $i] :
? [C: $i] :
( ( relation_of2 @ C @ A @ B )
& ( relation @ C )
& ( function @ C ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc2_partfun1) ).
thf(25,axiom,
? [A: $i] :
( ( rel_str @ A )
& ~ ( empty_carrier @ A )
& ( strict_rel_str @ A )
& ( reflexive_relstr @ A )
& ( transitive_relstr @ A )
& ( antisymmetric_relstr @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc2_orders_2) ).
thf(26,axiom,
? [A: $i] :
( ( rel_str @ A )
& ~ ( empty_carrier @ A )
& ( strict_rel_str @ A )
& ( reflexive_relstr @ A )
& ( transitive_relstr @ A )
& ( antisymmetric_relstr @ A )
& ( with_suprema_relstr @ A )
& ( with_infima_relstr @ A )
& ( complete_relstr @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc2_lattice3) ).
thf(27,axiom,
? [A: $i] : ( empty @ A ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc1_xboole_0) ).
thf(28,axiom,
! [A: $i] :
( ~ ( empty @ A )
=> ? [B: $i] :
( ( element @ B @ ( powerset @ A ) )
& ~ ( empty @ B ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc1_subset_1) ).
thf(29,axiom,
? [A: $i] :
( ( rel_str @ A )
& ( strict_rel_str @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc1_orders_2) ).
thf(30,axiom,
? [A: $i] :
( ( rel_str @ A )
& ~ ( empty_carrier @ A )
& ( strict_rel_str @ A )
& ( reflexive_relstr @ A )
& ( transitive_relstr @ A )
& ( antisymmetric_relstr @ A )
& ( complete_relstr @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc1_lattice3) ).
thf(31,axiom,
? [A: $i] :
( ( latt_str @ A )
& ~ ( empty_carrier @ A )
& ( strict_latt_str @ A )
& ( join_commutative @ A )
& ( join_associative @ A )
& ( meet_commutative @ A )
& ( meet_associative @ A )
& ( meet_absorbing @ A )
& ( join_absorbing @ A )
& ( lattice @ A )
& ( distributive_lattstr @ A )
& ( lower_bounded_semilattstr @ A )
& ( upper_bounded_semilattstr @ A )
& ( bounded_lattstr @ A )
& ( complemented_lattstr @ A )
& ( boolean_lattstr @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc13_lattices) ).
thf(32,axiom,
? [A: $i] :
( ( latt_str @ A )
& ~ ( empty_carrier @ A )
& ( strict_latt_str @ A )
& ( join_commutative @ A )
& ( join_associative @ A )
& ( meet_commutative @ A )
& ( meet_associative @ A )
& ( meet_absorbing @ A )
& ( join_absorbing @ A )
& ( lattice @ A )
& ( lower_bounded_semilattstr @ A )
& ( upper_bounded_semilattstr @ A )
& ( bounded_lattstr @ A )
& ( complemented_lattstr @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc12_lattices) ).
thf(33,axiom,
? [A: $i] :
( ( latt_str @ A )
& ~ ( empty_carrier @ A )
& ( strict_latt_str @ A )
& ( join_commutative @ A )
& ( join_associative @ A )
& ( meet_commutative @ A )
& ( meet_associative @ A )
& ( meet_absorbing @ A )
& ( join_absorbing @ A )
& ( lattice @ A )
& ( lower_bounded_semilattstr @ A )
& ( upper_bounded_semilattstr @ A )
& ( bounded_lattstr @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc11_lattices) ).
thf(34,axiom,
? [A: $i] :
( ( latt_str @ A )
& ~ ( empty_carrier @ A )
& ( strict_latt_str @ A )
& ( join_commutative @ A )
& ( join_associative @ A )
& ( meet_commutative @ A )
& ( meet_associative @ A )
& ( meet_absorbing @ A )
& ( join_absorbing @ A )
& ( lattice @ A )
& ( distributive_lattstr @ A )
& ( modular_lattstr @ A )
& ( lower_bounded_semilattstr @ A )
& ( upper_bounded_semilattstr @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',rc10_lattices) ).
thf(35,axiom,
! [A: $i,B: $i,C: $i] :
( ( ( function @ B )
& ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
& ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
& ( function @ C )
& ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
& ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A ) )
=> ! [D: $i,E: $i,F: $i] :
( ( ( latt_str_of @ A @ B @ C )
= ( latt_str_of @ D @ E @ F ) )
=> ( ( A = D )
& ( B = E )
& ( C = F ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',free_g3_lattices) ).
thf(36,axiom,
! [A: $i,B: $i] :
( ( relation_of2 @ B @ A @ A )
=> ! [C: $i,D: $i] :
( ( ( rel_str_of @ A @ B )
= ( rel_str_of @ C @ D ) )
=> ( ( A = C )
& ( B = D ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',free_g1_orders_2) ).
thf(37,axiom,
! [A: $i,B: $i,C: $i] :
( ( ~ ( empty_carrier @ B )
& ( latt_str @ B ) )
=> ( ( in @ A @ ( a_2_2_lattice3 @ B @ C ) )
<=> ? [D: $i] :
( ( element @ D @ ( the_carrier @ B ) )
& ( A = D )
& ( latt_set_smaller @ B @ D @ C ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fraenkel_a_2_2_lattice3) ).
thf(38,axiom,
! [A: $i] :
( ~ ( empty_carrier @ ( boole_POSet @ A ) )
& ( strict_rel_str @ ( boole_POSet @ A ) )
& ( reflexive_relstr @ ( boole_POSet @ A ) )
& ( transitive_relstr @ ( boole_POSet @ A ) )
& ( antisymmetric_relstr @ ( boole_POSet @ A ) )
& ( lower_bounded_relstr @ ( boole_POSet @ A ) )
& ( upper_bounded_relstr @ ( boole_POSet @ A ) )
& ( bounded_relstr @ ( boole_POSet @ A ) )
& ( with_suprema_relstr @ ( boole_POSet @ A ) )
& ( with_infima_relstr @ ( boole_POSet @ A ) )
& ( complete_relstr @ ( boole_POSet @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc8_yellow_1) ).
thf(39,axiom,
! [A: $i] :
( ~ ( empty_carrier @ ( boole_POSet @ A ) )
& ( strict_rel_str @ ( boole_POSet @ A ) )
& ( reflexive_relstr @ ( boole_POSet @ A ) )
& ( transitive_relstr @ ( boole_POSet @ A ) )
& ( antisymmetric_relstr @ ( boole_POSet @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc7_yellow_1) ).
thf(40,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( complete_latt_str @ A )
& ( latt_str @ A ) )
=> ( ~ ( empty_carrier @ ( poset_of_lattice @ A ) )
& ( strict_rel_str @ ( poset_of_lattice @ A ) )
& ( reflexive_relstr @ ( poset_of_lattice @ A ) )
& ( transitive_relstr @ ( poset_of_lattice @ A ) )
& ( antisymmetric_relstr @ ( poset_of_lattice @ A ) )
& ( lower_bounded_relstr @ ( poset_of_lattice @ A ) )
& ( upper_bounded_relstr @ ( poset_of_lattice @ A ) )
& ( bounded_relstr @ ( poset_of_lattice @ A ) )
& ( with_suprema_relstr @ ( poset_of_lattice @ A ) )
& ( with_infima_relstr @ ( poset_of_lattice @ A ) )
& ( complete_relstr @ ( poset_of_lattice @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc4_yellow_1) ).
thf(41,axiom,
! [A: $i,B: $i] :
( ( ~ ( empty @ A )
& ~ ( empty @ B ) )
=> ~ ( empty @ ( cartesian_product2 @ A @ B ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc4_subset_1) ).
thf(42,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( latt_str @ A ) )
=> ( ~ ( empty_carrier @ ( poset_of_lattice @ A ) )
& ( strict_rel_str @ ( poset_of_lattice @ A ) )
& ( reflexive_relstr @ ( poset_of_lattice @ A ) )
& ( transitive_relstr @ ( poset_of_lattice @ A ) )
& ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc4_lattice3) ).
thf(43,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( lower_bounded_semilattstr @ A )
& ( latt_str @ A ) )
=> ( ~ ( empty_carrier @ ( poset_of_lattice @ A ) )
& ( strict_rel_str @ ( poset_of_lattice @ A ) )
& ( reflexive_relstr @ ( poset_of_lattice @ A ) )
& ( transitive_relstr @ ( poset_of_lattice @ A ) )
& ( antisymmetric_relstr @ ( poset_of_lattice @ A ) )
& ( lower_bounded_relstr @ ( poset_of_lattice @ A ) )
& ( with_suprema_relstr @ ( poset_of_lattice @ A ) )
& ( with_infima_relstr @ ( poset_of_lattice @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc3_yellow_1) ).
thf(44,axiom,
! [A: $i,B: $i] :
( ( ( reflexive @ B )
& ( antisymmetric @ B )
& ( transitive @ B )
& ( v1_partfun1 @ B @ A @ A )
& ( relation_of2 @ B @ A @ A ) )
=> ( ( strict_rel_str @ ( rel_str_of @ A @ B ) )
& ( reflexive_relstr @ ( rel_str_of @ A @ B ) )
& ( transitive_relstr @ ( rel_str_of @ A @ B ) )
& ( antisymmetric_relstr @ ( rel_str_of @ A @ B ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc3_orders_2) ).
thf(45,axiom,
! [A: $i,B: $i,C: $i] :
( ( ~ ( empty @ A )
& ( function @ B )
& ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
& ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
& ( function @ C )
& ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
& ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A ) )
=> ( ~ ( empty_carrier @ ( latt_str_of @ A @ B @ C ) )
& ( strict_latt_str @ ( latt_str_of @ A @ B @ C ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc3_lattices) ).
thf(46,axiom,
! [A: $i] :
( ~ ( empty_carrier @ ( boole_lattice @ A ) )
& ( strict_latt_str @ ( boole_lattice @ A ) )
& ( join_commutative @ ( boole_lattice @ A ) )
& ( join_associative @ ( boole_lattice @ A ) )
& ( meet_commutative @ ( boole_lattice @ A ) )
& ( meet_associative @ ( boole_lattice @ A ) )
& ( meet_absorbing @ ( boole_lattice @ A ) )
& ( join_absorbing @ ( boole_lattice @ A ) )
& ( lattice @ ( boole_lattice @ A ) )
& ( distributive_lattstr @ ( boole_lattice @ A ) )
& ( modular_lattstr @ ( boole_lattice @ A ) )
& ( lower_bounded_semilattstr @ ( boole_lattice @ A ) )
& ( upper_bounded_semilattstr @ ( boole_lattice @ A ) )
& ( bounded_lattstr @ ( boole_lattice @ A ) )
& ( complemented_lattstr @ ( boole_lattice @ A ) )
& ( boolean_lattstr @ ( boole_lattice @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc3_lattice3) ).
thf(47,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( upper_bounded_semilattstr @ A )
& ( latt_str @ A ) )
=> ( ~ ( empty_carrier @ ( poset_of_lattice @ A ) )
& ( strict_rel_str @ ( poset_of_lattice @ A ) )
& ( reflexive_relstr @ ( poset_of_lattice @ A ) )
& ( transitive_relstr @ ( poset_of_lattice @ A ) )
& ( antisymmetric_relstr @ ( poset_of_lattice @ A ) )
& ( upper_bounded_relstr @ ( poset_of_lattice @ A ) )
& ( with_suprema_relstr @ ( poset_of_lattice @ A ) )
& ( with_infima_relstr @ ( poset_of_lattice @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc2_yellow_1) ).
thf(48,axiom,
! [A: $i] :
( ( ( reflexive_relstr @ A )
& ( transitive_relstr @ A )
& ( antisymmetric_relstr @ A )
& ( rel_str @ A ) )
=> ( ( relation @ ( the_InternalRel @ A ) )
& ( reflexive @ ( the_InternalRel @ A ) )
& ( antisymmetric @ ( the_InternalRel @ A ) )
& ( transitive @ ( the_InternalRel @ A ) )
& ( v1_partfun1 @ ( the_InternalRel @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc2_orders_2) ).
thf(49,axiom,
! [A: $i] :
( ~ ( empty_carrier @ ( boole_lattice @ A ) )
& ( strict_latt_str @ ( boole_lattice @ A ) )
& ( join_commutative @ ( boole_lattice @ A ) )
& ( join_associative @ ( boole_lattice @ A ) )
& ( meet_commutative @ ( boole_lattice @ A ) )
& ( meet_associative @ ( boole_lattice @ A ) )
& ( meet_absorbing @ ( boole_lattice @ A ) )
& ( join_absorbing @ ( boole_lattice @ A ) )
& ( lattice @ ( boole_lattice @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc2_lattice3) ).
thf(50,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( latt_str @ A ) )
=> ( ~ ( empty_carrier @ ( poset_of_lattice @ A ) )
& ( strict_rel_str @ ( poset_of_lattice @ A ) )
& ( reflexive_relstr @ ( poset_of_lattice @ A ) )
& ( transitive_relstr @ ( poset_of_lattice @ A ) )
& ( antisymmetric_relstr @ ( poset_of_lattice @ A ) )
& ( with_suprema_relstr @ ( poset_of_lattice @ A ) )
& ( with_infima_relstr @ ( poset_of_lattice @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc1_yellow_1) ).
thf(51,axiom,
empty @ empty_set,
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc1_xboole_0) ).
thf(52,axiom,
! [A: $i] :
~ ( empty @ ( powerset @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc1_subset_1) ).
thf(53,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( one_sorted_str @ A ) )
=> ~ ( empty @ ( the_carrier @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc1_struct_0) ).
thf(54,axiom,
! [A: $i,B: $i] :
( ( ~ ( empty @ A )
& ( relation_of2 @ B @ A @ A ) )
=> ( ~ ( empty_carrier @ ( rel_str_of @ A @ B ) )
& ( strict_rel_str @ ( rel_str_of @ A @ B ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc1_orders_2) ).
thf(55,axiom,
! [A: $i] :
( ~ ( empty_carrier @ ( boole_lattice @ A ) )
& ( strict_latt_str @ ( boole_lattice @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc1_lattice3) ).
thf(56,axiom,
! [A: $i] :
( ~ ( empty_carrier @ ( boole_lattice @ A ) )
& ( strict_latt_str @ ( boole_lattice @ A ) )
& ( join_commutative @ ( boole_lattice @ A ) )
& ( join_associative @ ( boole_lattice @ A ) )
& ( meet_commutative @ ( boole_lattice @ A ) )
& ( meet_associative @ ( boole_lattice @ A ) )
& ( meet_absorbing @ ( boole_lattice @ A ) )
& ( join_absorbing @ ( boole_lattice @ A ) )
& ( lattice @ ( boole_lattice @ A ) )
& ( distributive_lattstr @ ( boole_lattice @ A ) )
& ( modular_lattstr @ ( boole_lattice @ A ) )
& ( lower_bounded_semilattstr @ ( boole_lattice @ A ) )
& ( upper_bounded_semilattstr @ ( boole_lattice @ A ) )
& ( bounded_lattstr @ ( boole_lattice @ A ) )
& ( complemented_lattstr @ ( boole_lattice @ A ) )
& ( boolean_lattstr @ ( boole_lattice @ A ) )
& ( complete_latt_str @ ( boole_lattice @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',fc1_knaster) ).
thf(57,axiom,
! [A: $i,B: $i] :
? [C: $i] : ( relation_of2_as_subset @ C @ A @ B ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',existence_m2_relset_1) ).
thf(58,axiom,
! [A: $i] :
? [B: $i] : ( element @ B @ A ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',existence_m1_subset_1) ).
thf(59,axiom,
! [A: $i,B: $i] :
? [C: $i] : ( relation_of2 @ C @ A @ B ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',existence_m1_relset_1) ).
thf(60,axiom,
? [A: $i] : ( latt_str @ A ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',existence_l3_lattices) ).
thf(61,axiom,
? [A: $i] : ( join_semilatt_str @ A ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',existence_l2_lattices) ).
thf(62,axiom,
? [A: $i] : ( one_sorted_str @ A ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',existence_l1_struct_0) ).
thf(63,axiom,
? [A: $i] : ( rel_str @ A ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',existence_l1_orders_2) ).
thf(64,axiom,
? [A: $i] : ( meet_semilatt_str @ A ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',existence_l1_lattices) ).
thf(65,axiom,
! [A: $i] :
( ( join_semilatt_str @ A )
=> ( ( function @ ( the_L_join @ A ) )
& ( quasi_total @ ( the_L_join @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) )
& ( relation_of2_as_subset @ ( the_L_join @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_u2_lattices) ).
thf(66,axiom,
$true,
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_u1_struct_0) ).
thf(67,axiom,
! [A: $i] :
( ( rel_str @ A )
=> ( relation_of2_as_subset @ ( the_InternalRel @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_u1_orders_2) ).
thf(68,axiom,
! [A: $i] :
( ( meet_semilatt_str @ A )
=> ( ( function @ ( the_L_meet @ A ) )
& ( quasi_total @ ( the_L_meet @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) )
& ( relation_of2_as_subset @ ( the_L_meet @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_u1_lattices) ).
thf(69,axiom,
! [A: $i,B: $i,C: $i] :
( ( relation_of2_as_subset @ C @ A @ B )
=> ( element @ C @ ( powerset @ ( cartesian_product2 @ A @ B ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_m2_relset_1) ).
thf(70,axiom,
$true,
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_m1_subset_1) ).
thf(71,axiom,
$true,
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_m1_relset_1) ).
thf(72,axiom,
! [A: $i] :
( ( latt_str @ A )
=> ( ( meet_semilatt_str @ A )
& ( join_semilatt_str @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_l3_lattices) ).
thf(73,axiom,
! [A: $i] :
( ( join_semilatt_str @ A )
=> ( one_sorted_str @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_l2_lattices) ).
thf(74,axiom,
$true,
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_l1_struct_0) ).
thf(75,axiom,
! [A: $i] :
( ( rel_str @ A )
=> ( one_sorted_str @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_l1_orders_2) ).
thf(76,axiom,
! [A: $i] :
( ( meet_semilatt_str @ A )
=> ( one_sorted_str @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_l1_lattices) ).
thf(77,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( latt_str @ A ) )
=> ( relation @ ( relation_of_lattice @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k9_filter_1) ).
thf(78,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( meet_semilatt_str @ A ) )
=> ( element @ ( bottom_of_semilattstr @ A ) @ ( the_carrier @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k5_lattices) ).
thf(79,axiom,
! [A: $i] :
( ( strict_rel_str @ ( boole_POSet @ A ) )
& ( rel_str @ ( boole_POSet @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k3_yellow_1) ).
thf(80,axiom,
! [A: $i] :
( ( rel_str @ A )
=> ( element @ ( bottom_of_relstr @ A ) @ ( the_carrier @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k3_yellow_0) ).
thf(81,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( latt_str @ A ) )
=> ( ( strict_rel_str @ ( poset_of_lattice @ A ) )
& ( reflexive_relstr @ ( poset_of_lattice @ A ) )
& ( transitive_relstr @ ( poset_of_lattice @ A ) )
& ( antisymmetric_relstr @ ( poset_of_lattice @ A ) )
& ( rel_str @ ( poset_of_lattice @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k3_lattice3) ).
thf(82,axiom,
$true,
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k2_zfmisc_1) ).
thf(83,axiom,
! [A: $i,B: $i] :
( ( rel_str @ A )
=> ( element @ ( meet_on_relstr @ A @ B ) @ ( the_carrier @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k2_yellow_0) ).
thf(84,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( latt_str @ A ) )
=> ( ( reflexive @ ( k2_lattice3 @ A ) )
& ( antisymmetric @ ( k2_lattice3 @ A ) )
& ( transitive @ ( k2_lattice3 @ A ) )
& ( v1_partfun1 @ ( k2_lattice3 @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) )
& ( relation_of2_as_subset @ ( k2_lattice3 @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k2_lattice3) ).
thf(85,axiom,
$true,
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k1_zfmisc_1) ).
thf(86,axiom,
! [A: $i,B: $i] :
( ( rel_str @ A )
=> ( element @ ( join_on_relstr @ A @ B ) @ ( the_carrier @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k1_yellow_0) ).
thf(87,axiom,
$true,
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k1_xboole_0) ).
thf(88,axiom,
! [A: $i] :
( ( strict_latt_str @ ( boole_lattice @ A ) )
& ( latt_str @ ( boole_lattice @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k1_lattice3) ).
thf(89,axiom,
! [A: $i,B: $i] :
( ( ~ ( empty_carrier @ A )
& ( latt_str @ A ) )
=> ( element @ ( meet_of_latt_set @ A @ B ) @ ( the_carrier @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k16_lattice3) ).
thf(90,axiom,
! [A: $i,B: $i] :
( ( ~ ( empty_carrier @ A )
& ( latt_str @ A ) )
=> ( element @ ( join_of_latt_set @ A @ B ) @ ( the_carrier @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_k15_lattice3) ).
thf(91,axiom,
! [A: $i,B: $i,C: $i] :
( ( ( function @ B )
& ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
& ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
& ( function @ C )
& ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
& ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A ) )
=> ( ( strict_latt_str @ ( latt_str_of @ A @ B @ C ) )
& ( latt_str @ ( latt_str_of @ A @ B @ C ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_g3_lattices) ).
thf(92,axiom,
! [A: $i,B: $i] :
( ( relation_of2 @ B @ A @ A )
=> ( ( strict_rel_str @ ( rel_str_of @ A @ B ) )
& ( rel_str @ ( rel_str_of @ A @ B ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',dt_g1_orders_2) ).
thf(93,axiom,
! [A: $i] :
( ( boole_POSet @ A )
= ( poset_of_lattice @ ( boole_lattice @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',d2_yellow_1) ).
thf(94,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( latt_str @ A ) )
=> ( ( poset_of_lattice @ A )
= ( rel_str_of @ ( the_carrier @ A ) @ ( k2_lattice3 @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',d2_lattice3) ).
thf(95,axiom,
! [A: $i] :
( ( ~ ( empty_carrier @ A )
& ( latt_str @ A ) )
=> ! [B: $i] :
( ( meet_of_latt_set @ A @ B )
= ( join_of_latt_set @ A @ ( a_2_2_lattice3 @ A @ B ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',d22_lattice3) ).
thf(96,axiom,
! [A: $i] :
( ( rel_str @ A )
=> ( ( bottom_of_relstr @ A )
= ( join_on_relstr @ A @ empty_set ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',d11_yellow_0) ).
thf(97,axiom,
! [A: $i] :
( ( latt_str @ A )
=> ( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( distributive_lattstr @ A ) )
=> ( ~ ( empty_carrier @ A )
& ( join_commutative @ A )
& ( join_associative @ A )
& ( meet_commutative @ A )
& ( meet_associative @ A )
& ( meet_absorbing @ A )
& ( join_absorbing @ A )
& ( lattice @ A )
& ( modular_lattstr @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc7_lattices) ).
thf(98,axiom,
! [A: $i] :
( ( latt_str @ A )
=> ( ( ~ ( empty_carrier @ A )
& ( distributive_lattstr @ A )
& ( bounded_lattstr @ A )
& ( complemented_lattstr @ A ) )
=> ( ~ ( empty_carrier @ A )
& ( boolean_lattstr @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc6_lattices) ).
thf(99,axiom,
! [A: $i] :
( ( rel_str @ A )
=> ( ( ( lower_bounded_relstr @ A )
& ( upper_bounded_relstr @ A ) )
=> ( bounded_relstr @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc5_yellow_0) ).
thf(100,axiom,
! [A: $i] :
( ( latt_str @ A )
=> ( ( ~ ( empty_carrier @ A )
& ( boolean_lattstr @ A ) )
=> ( ~ ( empty_carrier @ A )
& ( distributive_lattstr @ A )
& ( lower_bounded_semilattstr @ A )
& ( upper_bounded_semilattstr @ A )
& ( bounded_lattstr @ A )
& ( complemented_lattstr @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc5_lattices) ).
thf(101,axiom,
! [A: $i] :
( ( rel_str @ A )
=> ( ( bounded_relstr @ A )
=> ( ( lower_bounded_relstr @ A )
& ( upper_bounded_relstr @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc4_yellow_0) ).
thf(102,axiom,
! [A: $i] :
( ( latt_str @ A )
=> ( ( ~ ( empty_carrier @ A )
& ( bounded_lattstr @ A ) )
=> ( ~ ( empty_carrier @ A )
& ( lower_bounded_semilattstr @ A )
& ( upper_bounded_semilattstr @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc4_lattices) ).
thf(103,axiom,
! [A: $i] :
( ( rel_str @ A )
=> ( ( ~ ( empty_carrier @ A )
& ( complete_relstr @ A ) )
=> ( ~ ( empty_carrier @ A )
& ( bounded_relstr @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc3_yellow_0) ).
thf(104,axiom,
! [A: $i] :
( ( latt_str @ A )
=> ( ( ~ ( empty_carrier @ A )
& ( lower_bounded_semilattstr @ A )
& ( upper_bounded_semilattstr @ A ) )
=> ( ~ ( empty_carrier @ A )
& ( bounded_lattstr @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc3_lattices) ).
thf(105,axiom,
! [A: $i] :
( ( latt_str @ A )
=> ( ( ~ ( empty_carrier @ A )
& ( join_commutative @ A )
& ( join_associative @ A )
& ( meet_commutative @ A )
& ( meet_associative @ A )
& ( meet_absorbing @ A )
& ( join_absorbing @ A ) )
=> ( ~ ( empty_carrier @ A )
& ( lattice @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc2_lattices) ).
thf(106,axiom,
! [A: $i] :
( ( rel_str @ A )
=> ( ( with_infima_relstr @ A )
=> ~ ( empty_carrier @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc2_lattice3) ).
thf(107,axiom,
! [A: $i] :
( ( rel_str @ A )
=> ( ( ~ ( empty_carrier @ A )
& ( complete_relstr @ A ) )
=> ( ~ ( empty_carrier @ A )
& ( with_suprema_relstr @ A )
& ( with_infima_relstr @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc1_yellow_0) ).
thf(108,axiom,
! [A: $i,B: $i,C: $i] :
( ( element @ C @ ( powerset @ ( cartesian_product2 @ A @ B ) ) )
=> ( relation @ C ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc1_relset_1) ).
thf(109,axiom,
! [A: $i] :
( ( latt_str @ A )
=> ( ( ~ ( empty_carrier @ A )
& ( lattice @ A ) )
=> ( ~ ( empty_carrier @ A )
& ( join_commutative @ A )
& ( join_associative @ A )
& ( meet_commutative @ A )
& ( meet_associative @ A )
& ( meet_absorbing @ A )
& ( join_absorbing @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc1_lattices) ).
thf(110,axiom,
! [A: $i] :
( ( rel_str @ A )
=> ( ( with_suprema_relstr @ A )
=> ~ ( empty_carrier @ A ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc1_lattice3) ).
thf(111,axiom,
! [A: $i] :
( ( latt_str @ A )
=> ( ( ~ ( empty_carrier @ A )
& ( lattice @ A )
& ( complete_latt_str @ A ) )
=> ( ~ ( empty_carrier @ A )
& ( join_commutative @ A )
& ( join_associative @ A )
& ( meet_commutative @ A )
& ( meet_associative @ A )
& ( meet_absorbing @ A )
& ( join_absorbing @ A )
& ( lattice @ A )
& ( lower_bounded_semilattstr @ A )
& ( upper_bounded_semilattstr @ A )
& ( bounded_lattstr @ A ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',cc1_knaster) ).
thf(112,axiom,
! [A: $i,B: $i] :
( ( in @ A @ B )
=> ~ ( in @ B @ A ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',antisymmetry_r2_hidden) ).
thf(113,axiom,
! [A: $i] :
( ( latt_str @ A )
=> ( ( strict_latt_str @ A )
=> ( A
= ( latt_str_of @ ( the_carrier @ A ) @ ( the_L_join @ A ) @ ( the_L_meet @ A ) ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',abstractness_v3_lattices) ).
thf(114,axiom,
! [A: $i] :
( ( rel_str @ A )
=> ( ( strict_rel_str @ A )
=> ( A
= ( rel_str_of @ ( the_carrier @ A ) @ ( the_InternalRel @ A ) ) ) ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',abstractness_v1_orders_2) ).
thf(115,conjecture,
! [A: $i] :
( ( bottom_of_relstr @ ( boole_POSet @ A ) )
= empty_set ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',t18_yellow_1) ).
thf(116,negated_conjecture,
( ( ! [A: $i] :
( ( bottom_of_relstr @ ( boole_POSet @ A ) )
= empty_set ) )
= $false ),
inference(negate_conjecture,[status(cth)],[115]) ).
thf(117,plain,
( ( ( bottom_of_relstr @ ( boole_POSet @ sK1_A ) )
= empty_set )
= $false ),
inference(extcnf_forall_neg,[status(esa)],[116]) ).
thf(118,plain,
( ( ( ( bottom_of_relstr @ ( boole_POSet @ sK1_A ) )
!= empty_set ) )
= $true ),
inference(polarity_switch,[status(thm)],[117]) ).
thf(119,plain,
( ( ! [A: $i,B: $i] :
( ( A = B )
| ~ ( empty @ A )
| ~ ( empty @ B ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[1]) ).
thf(120,plain,
( ( ! [A: $i,B: $i] :
( ~ ( empty @ B )
| ~ ( in @ A @ B ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[2]) ).
thf(121,plain,
( ( ! [A: $i] :
( ~ ( empty @ A )
| ( A = empty_set ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[3]) ).
thf(122,plain,
( ( ! [A: $i,B: $i,C: $i] :
( ~ ( element @ B @ ( powerset @ C ) )
| ~ ( in @ A @ B )
| ~ ( empty @ C ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[4]) ).
thf(123,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( lattice @ A ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( lower_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( latt_str @ A ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( ( bottom_of_semilattstr @ A )
= ( join_of_latt_set @ A @ empty_set ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[5]) ).
thf(124,plain,
( ( ! [A: $i,B: $i,C: $i] :
( ~ ( element @ B @ ( powerset @ C ) )
| ~ ( in @ A @ B )
| ( element @ A @ C ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[6]) ).
thf(125,plain,
( ( ! [A: $i,B: $i] :
( ~ ( element @ A @ ( powerset @ B ) )
| ( subset @ A @ B ) )
& ! [A: $i,B: $i] :
( ~ ( subset @ A @ B )
| ( element @ A @ ( powerset @ B ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[7]) ).
thf(126,plain,
( ( ! [A: $i] :
( ( bottom_of_semilattstr @ ( boole_lattice @ A ) )
= empty_set )
& ! [A: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[8]) ).
thf(127,plain,
( ( ! [A: $i,B: $i] :
( ( ( ~ ( in @ ( sK2_C @ B @ A ) @ A )
| ~ ( in @ ( sK2_C @ B @ A ) @ B ) )
& ( ( in @ ( sK2_C @ B @ A ) @ A )
| ( in @ ( sK2_C @ B @ A ) @ B ) ) )
| ( A = B ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[9]) ).
thf(128,plain,
( ( ! [A: $i,B: $i] :
( ~ ( element @ A @ B )
| ( empty @ B )
| ( in @ A @ B ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[10]) ).
thf(129,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( ! [B: $i] :
( ( join_of_latt_set @ A @ B )
= ( join_on_relstr @ ( poset_of_lattice @ A ) @ B ) )
& ! [B: $i] :
( ( meet_of_latt_set @ A @ B )
= ( meet_on_relstr @ ( poset_of_lattice @ A ) @ B ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[11]) ).
thf(130,plain,
( ( ! [A: $i,B: $i] :
( ~ ( in @ A @ B )
| ( element @ A @ B ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[12]) ).
thf(131,plain,
( ( ! [A: $i] : ( subset @ A @ A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[13]) ).
thf(132,plain,
( ( ! [A: $i] :
( ! [B: $i,C: $i] :
( ~ ( relation_of2 @ C @ A @ B )
| ( relation_of2_as_subset @ C @ A @ B ) )
& ! [B: $i,C: $i] :
( ~ ( relation_of2_as_subset @ C @ A @ B )
| ( relation_of2 @ C @ A @ B ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[14]) ).
thf(133,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( ( k2_lattice3 @ A )
= ( relation_of_lattice @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[15]) ).
thf(134,plain,
( ( ( latt_str @ sK3_A )
& ~ ( empty_carrier @ sK3_A )
& ( strict_latt_str @ sK3_A )
& ( join_commutative @ sK3_A )
& ( join_associative @ sK3_A )
& ( meet_commutative @ sK3_A )
& ( meet_associative @ sK3_A )
& ( meet_absorbing @ sK3_A )
& ( join_absorbing @ sK3_A )
& ( lattice @ sK3_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[16]) ).
thf(135,plain,
( ( ( latt_str @ sK4_A )
& ~ ( empty_carrier @ sK4_A )
& ( strict_latt_str @ sK4_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[17]) ).
thf(136,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( one_sorted_str @ A )
| ( ( element @ ( sK5_B @ A ) @ ( powerset @ ( the_carrier @ A ) ) )
& ~ ( empty @ ( sK5_B @ A ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[18]) ).
thf(137,plain,
( ( ( one_sorted_str @ sK6_A )
& ~ ( empty_carrier @ sK6_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[19]) ).
thf(138,plain,
( ( ( latt_str @ sK7_A )
& ( strict_latt_str @ sK7_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[20]) ).
thf(139,plain,
( ( ( rel_str @ sK8_A )
& ~ ( empty_carrier @ sK8_A )
& ( reflexive_relstr @ sK8_A )
& ( transitive_relstr @ sK8_A )
& ( antisymmetric_relstr @ sK8_A )
& ( with_suprema_relstr @ sK8_A )
& ( with_infima_relstr @ sK8_A )
& ( complete_relstr @ sK8_A )
& ( lower_bounded_relstr @ sK8_A )
& ( upper_bounded_relstr @ sK8_A )
& ( bounded_relstr @ sK8_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[21]) ).
thf(140,plain,
( ( ~ ( empty @ sK9_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[22]) ).
thf(141,plain,
( ( ! [A: $i] :
( ( element @ ( sK10_B @ A ) @ ( powerset @ A ) )
& ( empty @ ( sK10_B @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[23]) ).
thf(142,plain,
( ( ! [A: $i,B: $i] :
( ( relation @ ( sK11_C @ B @ A ) )
& ( relation_of2 @ ( sK11_C @ B @ A ) @ A @ B )
& ( function @ ( sK11_C @ B @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[24]) ).
thf(143,plain,
( ( ( rel_str @ sK12_A )
& ~ ( empty_carrier @ sK12_A )
& ( strict_rel_str @ sK12_A )
& ( reflexive_relstr @ sK12_A )
& ( transitive_relstr @ sK12_A )
& ( antisymmetric_relstr @ sK12_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[25]) ).
thf(144,plain,
( ( ( rel_str @ sK13_A )
& ~ ( empty_carrier @ sK13_A )
& ( strict_rel_str @ sK13_A )
& ( reflexive_relstr @ sK13_A )
& ( transitive_relstr @ sK13_A )
& ( antisymmetric_relstr @ sK13_A )
& ( with_suprema_relstr @ sK13_A )
& ( with_infima_relstr @ sK13_A )
& ( complete_relstr @ sK13_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[26]) ).
thf(145,plain,
( ( empty @ sK14_A )
= $true ),
inference(extcnf_combined,[status(esa)],[27]) ).
thf(146,plain,
( ( ! [A: $i] :
( ( empty @ A )
| ( ( element @ ( sK15_B @ A ) @ ( powerset @ A ) )
& ~ ( empty @ ( sK15_B @ A ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[28]) ).
thf(147,plain,
( ( ( rel_str @ sK16_A )
& ( strict_rel_str @ sK16_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[29]) ).
thf(148,plain,
( ( ( rel_str @ sK17_A )
& ~ ( empty_carrier @ sK17_A )
& ( strict_rel_str @ sK17_A )
& ( reflexive_relstr @ sK17_A )
& ( transitive_relstr @ sK17_A )
& ( antisymmetric_relstr @ sK17_A )
& ( complete_relstr @ sK17_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[30]) ).
thf(149,plain,
( ( ( latt_str @ sK18_A )
& ~ ( empty_carrier @ sK18_A )
& ( strict_latt_str @ sK18_A )
& ( join_commutative @ sK18_A )
& ( join_associative @ sK18_A )
& ( meet_commutative @ sK18_A )
& ( meet_associative @ sK18_A )
& ( meet_absorbing @ sK18_A )
& ( join_absorbing @ sK18_A )
& ( lattice @ sK18_A )
& ( distributive_lattstr @ sK18_A )
& ( lower_bounded_semilattstr @ sK18_A )
& ( upper_bounded_semilattstr @ sK18_A )
& ( bounded_lattstr @ sK18_A )
& ( complemented_lattstr @ sK18_A )
& ( boolean_lattstr @ sK18_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[31]) ).
thf(150,plain,
( ( ( latt_str @ sK19_A )
& ~ ( empty_carrier @ sK19_A )
& ( strict_latt_str @ sK19_A )
& ( join_commutative @ sK19_A )
& ( join_associative @ sK19_A )
& ( meet_commutative @ sK19_A )
& ( meet_associative @ sK19_A )
& ( meet_absorbing @ sK19_A )
& ( join_absorbing @ sK19_A )
& ( lattice @ sK19_A )
& ( lower_bounded_semilattstr @ sK19_A )
& ( upper_bounded_semilattstr @ sK19_A )
& ( bounded_lattstr @ sK19_A )
& ( complemented_lattstr @ sK19_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[32]) ).
thf(151,plain,
( ( ( latt_str @ sK20_A )
& ~ ( empty_carrier @ sK20_A )
& ( strict_latt_str @ sK20_A )
& ( join_commutative @ sK20_A )
& ( join_associative @ sK20_A )
& ( meet_commutative @ sK20_A )
& ( meet_associative @ sK20_A )
& ( meet_absorbing @ sK20_A )
& ( join_absorbing @ sK20_A )
& ( lattice @ sK20_A )
& ( lower_bounded_semilattstr @ sK20_A )
& ( upper_bounded_semilattstr @ sK20_A )
& ( bounded_lattstr @ sK20_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[33]) ).
thf(152,plain,
( ( ( latt_str @ sK21_A )
& ~ ( empty_carrier @ sK21_A )
& ( strict_latt_str @ sK21_A )
& ( join_commutative @ sK21_A )
& ( join_associative @ sK21_A )
& ( meet_commutative @ sK21_A )
& ( meet_associative @ sK21_A )
& ( meet_absorbing @ sK21_A )
& ( join_absorbing @ sK21_A )
& ( lattice @ sK21_A )
& ( distributive_lattstr @ sK21_A )
& ( modular_lattstr @ sK21_A )
& ( lower_bounded_semilattstr @ sK21_A )
& ( upper_bounded_semilattstr @ sK21_A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[34]) ).
thf(153,plain,
( ( ! [A: $i,B: $i,C: $i] :
( ~ ( function @ B )
| ~ ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( function @ C )
| ~ ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ! [D: $i] :
( ( ! [E: $i,F: $i] :
( ( latt_str_of @ A @ B @ C )
!= ( latt_str_of @ D @ E @ F ) )
| ( A = D ) )
& ! [E: $i] :
( ! [F: $i] :
( ( latt_str_of @ A @ B @ C )
!= ( latt_str_of @ D @ E @ F ) )
| ( B = E ) )
& ! [E: $i,F: $i] :
( ( ( latt_str_of @ A @ B @ C )
!= ( latt_str_of @ D @ E @ F ) )
| ( C = F ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[35]) ).
thf(154,plain,
( ( ! [A: $i,B: $i] :
( ~ ( relation_of2 @ B @ A @ A )
| ( ! [C: $i] :
( ! [D: $i] :
( ( rel_str_of @ A @ B )
!= ( rel_str_of @ C @ D ) )
| ( A = C ) )
& ! [C: $i,D: $i] :
( ( ( rel_str_of @ A @ B )
!= ( rel_str_of @ C @ D ) )
| ( B = D ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[36]) ).
thf(155,plain,
( ( ! [A: $i] :
( ! [B: $i] :
( ( empty_carrier @ B )
| ~ ( latt_str @ B )
| ! [C: $i] :
( ! [D: $i] :
( ( A != D )
| ~ ( element @ D @ ( the_carrier @ B ) )
| ~ ( latt_set_smaller @ B @ D @ C ) )
| ( in @ A @ ( a_2_2_lattice3 @ B @ C ) ) ) )
& ! [B: $i] :
( ( empty_carrier @ B )
| ~ ( latt_str @ B )
| ! [C: $i] :
( ~ ( in @ A @ ( a_2_2_lattice3 @ B @ C ) )
| ( ( A
= ( sK22_D @ C @ B @ A ) )
& ( element @ ( sK22_D @ C @ B @ A ) @ ( the_carrier @ B ) )
& ( latt_set_smaller @ B @ ( sK22_D @ C @ B @ A ) @ C ) ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[37]) ).
thf(156,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_POSet @ A ) )
& ! [A: $i] : ( strict_rel_str @ ( boole_POSet @ A ) )
& ! [A: $i] : ( reflexive_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( transitive_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( antisymmetric_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( lower_bounded_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( upper_bounded_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( bounded_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( with_suprema_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( with_infima_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( complete_relstr @ ( boole_POSet @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[38]) ).
thf(157,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_POSet @ A ) )
& ! [A: $i] : ( strict_rel_str @ ( boole_POSet @ A ) )
& ! [A: $i] : ( reflexive_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( transitive_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( antisymmetric_relstr @ ( boole_POSet @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[39]) ).
thf(158,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( lower_bounded_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( upper_bounded_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( bounded_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( with_suprema_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( with_infima_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( complete_relstr @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[40]) ).
thf(159,plain,
( ( ! [A: $i,B: $i] :
( ( empty @ A )
| ( empty @ B )
| ~ ( empty @ ( cartesian_product2 @ A @ B ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[41]) ).
thf(160,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[42]) ).
thf(161,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( lower_bounded_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( with_suprema_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( with_infima_relstr @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[43]) ).
thf(162,plain,
( ( ! [A: $i,B: $i] :
( ~ ( antisymmetric @ B )
| ~ ( reflexive @ B )
| ~ ( transitive @ B )
| ~ ( v1_partfun1 @ B @ A @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ( reflexive_relstr @ ( rel_str_of @ A @ B ) ) )
& ! [A: $i,B: $i] :
( ~ ( antisymmetric @ B )
| ~ ( reflexive @ B )
| ~ ( transitive @ B )
| ~ ( v1_partfun1 @ B @ A @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ( strict_rel_str @ ( rel_str_of @ A @ B ) ) )
& ! [A: $i,B: $i] :
( ~ ( antisymmetric @ B )
| ~ ( reflexive @ B )
| ~ ( transitive @ B )
| ~ ( v1_partfun1 @ B @ A @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ( transitive_relstr @ ( rel_str_of @ A @ B ) ) )
& ! [A: $i,B: $i] :
( ~ ( antisymmetric @ B )
| ~ ( reflexive @ B )
| ~ ( transitive @ B )
| ~ ( v1_partfun1 @ B @ A @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ( antisymmetric_relstr @ ( rel_str_of @ A @ B ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[44]) ).
thf(163,plain,
( ( ! [A: $i] :
( ! [B: $i,C: $i] :
( ( empty @ A )
| ~ ( function @ B )
| ~ ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( function @ C )
| ~ ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( empty_carrier @ ( latt_str_of @ A @ B @ C ) ) )
& ! [B: $i,C: $i] :
( ( empty @ A )
| ~ ( function @ B )
| ~ ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( function @ C )
| ~ ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ( strict_latt_str @ ( latt_str_of @ A @ B @ C ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[45]) ).
thf(164,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_lattice @ A ) )
& ! [A: $i] : ( strict_latt_str @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( lattice @ ( boole_lattice @ A ) )
& ! [A: $i] : ( distributive_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( modular_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( bounded_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( complemented_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( boolean_lattstr @ ( boole_lattice @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[46]) ).
thf(165,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( upper_bounded_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( with_suprema_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( with_infima_relstr @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[47]) ).
thf(166,plain,
( ( ! [A: $i] :
( ~ ( reflexive_relstr @ A )
| ~ ( transitive_relstr @ A )
| ~ ( antisymmetric_relstr @ A )
| ~ ( rel_str @ A )
| ( reflexive @ ( the_InternalRel @ A ) ) )
& ! [A: $i] :
( ~ ( reflexive_relstr @ A )
| ~ ( transitive_relstr @ A )
| ~ ( antisymmetric_relstr @ A )
| ~ ( rel_str @ A )
| ( relation @ ( the_InternalRel @ A ) ) )
& ! [A: $i] :
( ~ ( reflexive_relstr @ A )
| ~ ( transitive_relstr @ A )
| ~ ( antisymmetric_relstr @ A )
| ~ ( rel_str @ A )
| ( antisymmetric @ ( the_InternalRel @ A ) ) )
& ! [A: $i] :
( ~ ( reflexive_relstr @ A )
| ~ ( transitive_relstr @ A )
| ~ ( antisymmetric_relstr @ A )
| ~ ( rel_str @ A )
| ( transitive @ ( the_InternalRel @ A ) ) )
& ! [A: $i] :
( ~ ( reflexive_relstr @ A )
| ~ ( transitive_relstr @ A )
| ~ ( antisymmetric_relstr @ A )
| ~ ( rel_str @ A )
| ( v1_partfun1 @ ( the_InternalRel @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[48]) ).
thf(167,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_lattice @ A ) )
& ! [A: $i] : ( strict_latt_str @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( lattice @ ( boole_lattice @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[49]) ).
thf(168,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( with_suprema_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( with_infima_relstr @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[50]) ).
thf(169,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( one_sorted_str @ A )
| ~ ( empty @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[53]) ).
thf(170,plain,
( ( ! [A: $i,B: $i] :
( ( empty @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ~ ( empty_carrier @ ( rel_str_of @ A @ B ) ) )
& ! [A: $i,B: $i] :
( ( empty @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ( strict_rel_str @ ( rel_str_of @ A @ B ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[54]) ).
thf(171,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_lattice @ A ) )
& ! [A: $i] : ( strict_latt_str @ ( boole_lattice @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[55]) ).
thf(172,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_lattice @ A ) )
& ! [A: $i] : ( strict_latt_str @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( lattice @ ( boole_lattice @ A ) )
& ! [A: $i] : ( distributive_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( modular_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( bounded_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( complemented_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( boolean_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( complete_latt_str @ ( boole_lattice @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[56]) ).
thf(173,plain,
( ( ! [A: $i,B: $i] : ( relation_of2_as_subset @ ( sK23_C @ B @ A ) @ A @ B ) )
= $true ),
inference(extcnf_combined,[status(esa)],[57]) ).
thf(174,plain,
( ( ! [A: $i] : ( element @ ( sK24_B @ A ) @ A ) )
= $true ),
inference(extcnf_combined,[status(esa)],[58]) ).
thf(175,plain,
( ( ! [A: $i,B: $i] : ( relation_of2 @ ( sK25_C @ B @ A ) @ A @ B ) )
= $true ),
inference(extcnf_combined,[status(esa)],[59]) ).
thf(176,plain,
( ( latt_str @ sK26_A )
= $true ),
inference(extcnf_combined,[status(esa)],[60]) ).
thf(177,plain,
( ( join_semilatt_str @ sK27_A )
= $true ),
inference(extcnf_combined,[status(esa)],[61]) ).
thf(178,plain,
( ( one_sorted_str @ sK28_A )
= $true ),
inference(extcnf_combined,[status(esa)],[62]) ).
thf(179,plain,
( ( rel_str @ sK29_A )
= $true ),
inference(extcnf_combined,[status(esa)],[63]) ).
thf(180,plain,
( ( meet_semilatt_str @ sK30_A )
= $true ),
inference(extcnf_combined,[status(esa)],[64]) ).
thf(181,plain,
( ( ! [A: $i] :
( ~ ( join_semilatt_str @ A )
| ( function @ ( the_L_join @ A ) ) )
& ! [A: $i] :
( ~ ( join_semilatt_str @ A )
| ( quasi_total @ ( the_L_join @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) ) )
& ! [A: $i] :
( ~ ( join_semilatt_str @ A )
| ( relation_of2_as_subset @ ( the_L_join @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[65]) ).
thf(182,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( relation_of2_as_subset @ ( the_InternalRel @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[67]) ).
thf(183,plain,
( ( ! [A: $i] :
( ~ ( meet_semilatt_str @ A )
| ( function @ ( the_L_meet @ A ) ) )
& ! [A: $i] :
( ~ ( meet_semilatt_str @ A )
| ( quasi_total @ ( the_L_meet @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) ) )
& ! [A: $i] :
( ~ ( meet_semilatt_str @ A )
| ( relation_of2_as_subset @ ( the_L_meet @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[68]) ).
thf(184,plain,
( ( ! [A: $i,B: $i,C: $i] :
( ~ ( relation_of2_as_subset @ C @ A @ B )
| ( element @ C @ ( powerset @ ( cartesian_product2 @ A @ B ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[69]) ).
thf(185,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( join_semilatt_str @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( meet_semilatt_str @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[72]) ).
thf(186,plain,
( ( ! [A: $i] :
( ~ ( join_semilatt_str @ A )
| ( one_sorted_str @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[73]) ).
thf(187,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( one_sorted_str @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[75]) ).
thf(188,plain,
( ( ! [A: $i] :
( ~ ( meet_semilatt_str @ A )
| ( one_sorted_str @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[76]) ).
thf(189,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( relation @ ( relation_of_lattice @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[77]) ).
thf(190,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( meet_semilatt_str @ A )
| ( element @ ( bottom_of_semilattstr @ A ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[78]) ).
thf(191,plain,
( ( ! [A: $i] : ( rel_str @ ( boole_POSet @ A ) )
& ! [A: $i] : ( strict_rel_str @ ( boole_POSet @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[79]) ).
thf(192,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( element @ ( bottom_of_relstr @ A ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[80]) ).
thf(193,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( rel_str @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[81]) ).
thf(194,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ! [B: $i] : ( element @ ( meet_on_relstr @ A @ B ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[83]) ).
thf(195,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( antisymmetric @ ( k2_lattice3 @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( reflexive @ ( k2_lattice3 @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( transitive @ ( k2_lattice3 @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( v1_partfun1 @ ( k2_lattice3 @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( relation_of2_as_subset @ ( k2_lattice3 @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[84]) ).
thf(196,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ! [B: $i] : ( element @ ( join_on_relstr @ A @ B ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[86]) ).
thf(197,plain,
( ( ! [A: $i] : ( latt_str @ ( boole_lattice @ A ) )
& ! [A: $i] : ( strict_latt_str @ ( boole_lattice @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[88]) ).
thf(198,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( latt_str @ A )
| ! [B: $i] : ( element @ ( meet_of_latt_set @ A @ B ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[89]) ).
thf(199,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( latt_str @ A )
| ! [B: $i] : ( element @ ( join_of_latt_set @ A @ B ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[90]) ).
thf(200,plain,
( ( ! [A: $i] :
( ! [B: $i,C: $i] :
( ~ ( function @ B )
| ~ ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( function @ C )
| ~ ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ( latt_str @ ( latt_str_of @ A @ B @ C ) ) )
& ! [B: $i,C: $i] :
( ~ ( function @ B )
| ~ ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( function @ C )
| ~ ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ( strict_latt_str @ ( latt_str_of @ A @ B @ C ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[91]) ).
thf(201,plain,
( ( ! [A: $i,B: $i] :
( ~ ( relation_of2 @ B @ A @ A )
| ( rel_str @ ( rel_str_of @ A @ B ) ) )
& ! [A: $i,B: $i] :
( ~ ( relation_of2 @ B @ A @ A )
| ( strict_rel_str @ ( rel_str_of @ A @ B ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[92]) ).
thf(202,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( ( poset_of_lattice @ A )
= ( rel_str_of @ ( the_carrier @ A ) @ ( k2_lattice3 @ A ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[94]) ).
thf(203,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( latt_str @ A )
| ! [B: $i] :
( ( meet_of_latt_set @ A @ B )
= ( join_of_latt_set @ A @ ( a_2_2_lattice3 @ A @ B ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[95]) ).
thf(204,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( ( bottom_of_relstr @ A )
= ( join_on_relstr @ A @ empty_set ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[96]) ).
thf(205,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( join_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( join_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( meet_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( meet_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( meet_absorbing @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( join_absorbing @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( lattice @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( modular_lattstr @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[97]) ).
thf(206,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( distributive_lattstr @ A )
| ~ ( bounded_lattstr @ A )
| ~ ( complemented_lattstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( distributive_lattstr @ A )
| ~ ( bounded_lattstr @ A )
| ~ ( complemented_lattstr @ A )
| ( boolean_lattstr @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[98]) ).
thf(207,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( lower_bounded_relstr @ A )
| ~ ( upper_bounded_relstr @ A )
| ( bounded_relstr @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[99]) ).
thf(208,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ( distributive_lattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ( lower_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ( upper_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ( bounded_lattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ( complemented_lattstr @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[100]) ).
thf(209,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( bounded_relstr @ A )
| ( lower_bounded_relstr @ A ) )
& ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( bounded_relstr @ A )
| ( upper_bounded_relstr @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[101]) ).
thf(210,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( bounded_lattstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( bounded_lattstr @ A )
| ( lower_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( bounded_lattstr @ A )
| ( upper_bounded_semilattstr @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[102]) ).
thf(211,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( empty_carrier @ A )
| ~ ( complete_relstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( rel_str @ A )
| ( empty_carrier @ A )
| ~ ( complete_relstr @ A )
| ( bounded_relstr @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[103]) ).
thf(212,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ( bounded_lattstr @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[104]) ).
thf(213,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( join_commutative @ A )
| ~ ( join_associative @ A )
| ~ ( meet_commutative @ A )
| ~ ( meet_associative @ A )
| ~ ( meet_absorbing @ A )
| ~ ( join_absorbing @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( join_commutative @ A )
| ~ ( join_associative @ A )
| ~ ( meet_commutative @ A )
| ~ ( meet_associative @ A )
| ~ ( meet_absorbing @ A )
| ~ ( join_absorbing @ A )
| ( lattice @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[105]) ).
thf(214,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( with_infima_relstr @ A )
| ~ ( empty_carrier @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[106]) ).
thf(215,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( empty_carrier @ A )
| ~ ( complete_relstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( rel_str @ A )
| ( empty_carrier @ A )
| ~ ( complete_relstr @ A )
| ( with_suprema_relstr @ A ) )
& ! [A: $i] :
( ~ ( rel_str @ A )
| ( empty_carrier @ A )
| ~ ( complete_relstr @ A )
| ( with_infima_relstr @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[107]) ).
thf(216,plain,
( ( ! [A: $i,B: $i,C: $i] :
( ~ ( element @ C @ ( powerset @ ( cartesian_product2 @ A @ B ) ) )
| ( relation @ C ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[108]) ).
thf(217,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( join_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( join_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( meet_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( meet_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( meet_absorbing @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( join_absorbing @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[109]) ).
thf(218,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( with_suprema_relstr @ A )
| ~ ( empty_carrier @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[110]) ).
thf(219,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( join_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( join_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( meet_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( meet_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( meet_absorbing @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( join_absorbing @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( lattice @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( lower_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( upper_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( bounded_lattstr @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[111]) ).
thf(220,plain,
( ( ! [A: $i,B: $i] :
( ~ ( in @ A @ B )
| ~ ( in @ B @ A ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[112]) ).
thf(221,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ~ ( strict_latt_str @ A )
| ( A
= ( latt_str_of @ ( the_carrier @ A ) @ ( the_L_join @ A ) @ ( the_L_meet @ A ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[113]) ).
thf(222,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( strict_rel_str @ A )
| ( A
= ( rel_str_of @ ( the_carrier @ A ) @ ( the_InternalRel @ A ) ) ) ) )
= $true ),
inference(extcnf_combined,[status(esa)],[114]) ).
thf(223,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( strict_rel_str @ A )
| ( A
= ( rel_str_of @ ( the_carrier @ A ) @ ( the_InternalRel @ A ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[222]) ).
thf(224,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ~ ( strict_latt_str @ A )
| ( A
= ( latt_str_of @ ( the_carrier @ A ) @ ( the_L_join @ A ) @ ( the_L_meet @ A ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[221]) ).
thf(225,plain,
( ( ! [A: $i,B: $i] :
( ~ ( in @ A @ B )
| ~ ( in @ B @ A ) ) )
= $true ),
inference(copy,[status(thm)],[220]) ).
thf(226,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( join_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( join_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( meet_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( meet_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( meet_absorbing @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( join_absorbing @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( lattice @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( lower_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( upper_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ( bounded_lattstr @ A ) ) )
= $true ),
inference(copy,[status(thm)],[219]) ).
thf(227,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( with_suprema_relstr @ A )
| ~ ( empty_carrier @ A ) ) )
= $true ),
inference(copy,[status(thm)],[218]) ).
thf(228,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( join_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( join_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( meet_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( meet_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( meet_absorbing @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ( join_absorbing @ A ) ) )
= $true ),
inference(copy,[status(thm)],[217]) ).
thf(229,plain,
( ( ! [A: $i,B: $i,C: $i] :
( ~ ( element @ C @ ( powerset @ ( cartesian_product2 @ A @ B ) ) )
| ( relation @ C ) ) )
= $true ),
inference(copy,[status(thm)],[216]) ).
thf(230,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( empty_carrier @ A )
| ~ ( complete_relstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( rel_str @ A )
| ( empty_carrier @ A )
| ~ ( complete_relstr @ A )
| ( with_suprema_relstr @ A ) )
& ! [A: $i] :
( ~ ( rel_str @ A )
| ( empty_carrier @ A )
| ~ ( complete_relstr @ A )
| ( with_infima_relstr @ A ) ) )
= $true ),
inference(copy,[status(thm)],[215]) ).
thf(231,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( with_infima_relstr @ A )
| ~ ( empty_carrier @ A ) ) )
= $true ),
inference(copy,[status(thm)],[214]) ).
thf(232,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( join_commutative @ A )
| ~ ( join_associative @ A )
| ~ ( meet_commutative @ A )
| ~ ( meet_associative @ A )
| ~ ( meet_absorbing @ A )
| ~ ( join_absorbing @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( join_commutative @ A )
| ~ ( join_associative @ A )
| ~ ( meet_commutative @ A )
| ~ ( meet_associative @ A )
| ~ ( meet_absorbing @ A )
| ~ ( join_absorbing @ A )
| ( lattice @ A ) ) )
= $true ),
inference(copy,[status(thm)],[213]) ).
thf(233,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ( bounded_lattstr @ A ) ) )
= $true ),
inference(copy,[status(thm)],[212]) ).
thf(234,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( empty_carrier @ A )
| ~ ( complete_relstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( rel_str @ A )
| ( empty_carrier @ A )
| ~ ( complete_relstr @ A )
| ( bounded_relstr @ A ) ) )
= $true ),
inference(copy,[status(thm)],[211]) ).
thf(235,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( bounded_lattstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( bounded_lattstr @ A )
| ( lower_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( bounded_lattstr @ A )
| ( upper_bounded_semilattstr @ A ) ) )
= $true ),
inference(copy,[status(thm)],[210]) ).
thf(236,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( bounded_relstr @ A )
| ( lower_bounded_relstr @ A ) )
& ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( bounded_relstr @ A )
| ( upper_bounded_relstr @ A ) ) )
= $true ),
inference(copy,[status(thm)],[209]) ).
thf(237,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ( distributive_lattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ( lower_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ( upper_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ( bounded_lattstr @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( boolean_lattstr @ A )
| ( complemented_lattstr @ A ) ) )
= $true ),
inference(copy,[status(thm)],[208]) ).
thf(238,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ~ ( lower_bounded_relstr @ A )
| ~ ( upper_bounded_relstr @ A )
| ( bounded_relstr @ A ) ) )
= $true ),
inference(copy,[status(thm)],[207]) ).
thf(239,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( distributive_lattstr @ A )
| ~ ( bounded_lattstr @ A )
| ~ ( complemented_lattstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( distributive_lattstr @ A )
| ~ ( bounded_lattstr @ A )
| ~ ( complemented_lattstr @ A )
| ( boolean_lattstr @ A ) ) )
= $true ),
inference(copy,[status(thm)],[206]) ).
thf(240,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( join_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( join_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( meet_commutative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( meet_associative @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( meet_absorbing @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( join_absorbing @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( lattice @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( distributive_lattstr @ A )
| ( modular_lattstr @ A ) ) )
= $true ),
inference(copy,[status(thm)],[205]) ).
thf(241,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( ( bottom_of_relstr @ A )
= ( join_on_relstr @ A @ empty_set ) ) ) )
= $true ),
inference(copy,[status(thm)],[204]) ).
thf(242,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( latt_str @ A )
| ! [B: $i] :
( ( meet_of_latt_set @ A @ B )
= ( join_of_latt_set @ A @ ( a_2_2_lattice3 @ A @ B ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[203]) ).
thf(243,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( ( poset_of_lattice @ A )
= ( rel_str_of @ ( the_carrier @ A ) @ ( k2_lattice3 @ A ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[202]) ).
thf(244,plain,
( ( ! [A: $i] :
( ( boole_POSet @ A )
= ( poset_of_lattice @ ( boole_lattice @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[93]) ).
thf(245,plain,
( ( ! [A: $i,B: $i] :
( ~ ( relation_of2 @ B @ A @ A )
| ( rel_str @ ( rel_str_of @ A @ B ) ) )
& ! [A: $i,B: $i] :
( ~ ( relation_of2 @ B @ A @ A )
| ( strict_rel_str @ ( rel_str_of @ A @ B ) ) ) )
= $true ),
inference(copy,[status(thm)],[201]) ).
thf(246,plain,
( ( ! [A: $i] :
( ! [B: $i,C: $i] :
( ~ ( function @ B )
| ~ ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( function @ C )
| ~ ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ( latt_str @ ( latt_str_of @ A @ B @ C ) ) )
& ! [B: $i,C: $i] :
( ~ ( function @ B )
| ~ ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( function @ C )
| ~ ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ( strict_latt_str @ ( latt_str_of @ A @ B @ C ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[200]) ).
thf(247,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( latt_str @ A )
| ! [B: $i] : ( element @ ( join_of_latt_set @ A @ B ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[199]) ).
thf(248,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( latt_str @ A )
| ! [B: $i] : ( element @ ( meet_of_latt_set @ A @ B ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[198]) ).
thf(249,plain,
( ( ! [A: $i] : ( latt_str @ ( boole_lattice @ A ) )
& ! [A: $i] : ( strict_latt_str @ ( boole_lattice @ A ) ) )
= $true ),
inference(copy,[status(thm)],[197]) ).
thf(250,plain,
$true = $true,
inference(copy,[status(thm)],[87]) ).
thf(251,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ! [B: $i] : ( element @ ( join_on_relstr @ A @ B ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[196]) ).
thf(252,plain,
$true = $true,
inference(copy,[status(thm)],[85]) ).
thf(253,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( antisymmetric @ ( k2_lattice3 @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( reflexive @ ( k2_lattice3 @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( transitive @ ( k2_lattice3 @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( v1_partfun1 @ ( k2_lattice3 @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( relation_of2_as_subset @ ( k2_lattice3 @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[195]) ).
thf(254,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ! [B: $i] : ( element @ ( meet_on_relstr @ A @ B ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[194]) ).
thf(255,plain,
$true = $true,
inference(copy,[status(thm)],[82]) ).
thf(256,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( rel_str @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[193]) ).
thf(257,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( element @ ( bottom_of_relstr @ A ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[192]) ).
thf(258,plain,
( ( ! [A: $i] : ( rel_str @ ( boole_POSet @ A ) )
& ! [A: $i] : ( strict_rel_str @ ( boole_POSet @ A ) ) )
= $true ),
inference(copy,[status(thm)],[191]) ).
thf(259,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( meet_semilatt_str @ A )
| ( element @ ( bottom_of_semilattstr @ A ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[190]) ).
thf(260,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( relation @ ( relation_of_lattice @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[189]) ).
thf(261,plain,
( ( ! [A: $i] :
( ~ ( meet_semilatt_str @ A )
| ( one_sorted_str @ A ) ) )
= $true ),
inference(copy,[status(thm)],[188]) ).
thf(262,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( one_sorted_str @ A ) ) )
= $true ),
inference(copy,[status(thm)],[187]) ).
thf(263,plain,
$true = $true,
inference(copy,[status(thm)],[74]) ).
thf(264,plain,
( ( ! [A: $i] :
( ~ ( join_semilatt_str @ A )
| ( one_sorted_str @ A ) ) )
= $true ),
inference(copy,[status(thm)],[186]) ).
thf(265,plain,
( ( ! [A: $i] :
( ~ ( latt_str @ A )
| ( join_semilatt_str @ A ) )
& ! [A: $i] :
( ~ ( latt_str @ A )
| ( meet_semilatt_str @ A ) ) )
= $true ),
inference(copy,[status(thm)],[185]) ).
thf(266,plain,
$true = $true,
inference(copy,[status(thm)],[71]) ).
thf(267,plain,
$true = $true,
inference(copy,[status(thm)],[70]) ).
thf(268,plain,
( ( ! [A: $i,B: $i,C: $i] :
( ~ ( relation_of2_as_subset @ C @ A @ B )
| ( element @ C @ ( powerset @ ( cartesian_product2 @ A @ B ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[184]) ).
thf(269,plain,
( ( ! [A: $i] :
( ~ ( meet_semilatt_str @ A )
| ( function @ ( the_L_meet @ A ) ) )
& ! [A: $i] :
( ~ ( meet_semilatt_str @ A )
| ( quasi_total @ ( the_L_meet @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) ) )
& ! [A: $i] :
( ~ ( meet_semilatt_str @ A )
| ( relation_of2_as_subset @ ( the_L_meet @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[183]) ).
thf(270,plain,
( ( ! [A: $i] :
( ~ ( rel_str @ A )
| ( relation_of2_as_subset @ ( the_InternalRel @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[182]) ).
thf(271,plain,
$true = $true,
inference(copy,[status(thm)],[66]) ).
thf(272,plain,
( ( ! [A: $i] :
( ~ ( join_semilatt_str @ A )
| ( function @ ( the_L_join @ A ) ) )
& ! [A: $i] :
( ~ ( join_semilatt_str @ A )
| ( quasi_total @ ( the_L_join @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) ) )
& ! [A: $i] :
( ~ ( join_semilatt_str @ A )
| ( relation_of2_as_subset @ ( the_L_join @ A ) @ ( cartesian_product2 @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[181]) ).
thf(273,plain,
( ( meet_semilatt_str @ sK30_A )
= $true ),
inference(copy,[status(thm)],[180]) ).
thf(274,plain,
( ( rel_str @ sK29_A )
= $true ),
inference(copy,[status(thm)],[179]) ).
thf(275,plain,
( ( one_sorted_str @ sK28_A )
= $true ),
inference(copy,[status(thm)],[178]) ).
thf(276,plain,
( ( join_semilatt_str @ sK27_A )
= $true ),
inference(copy,[status(thm)],[177]) ).
thf(277,plain,
( ( latt_str @ sK26_A )
= $true ),
inference(copy,[status(thm)],[176]) ).
thf(278,plain,
( ( ! [A: $i,B: $i] : ( relation_of2 @ ( sK25_C @ B @ A ) @ A @ B ) )
= $true ),
inference(copy,[status(thm)],[175]) ).
thf(279,plain,
( ( ! [A: $i] : ( element @ ( sK24_B @ A ) @ A ) )
= $true ),
inference(copy,[status(thm)],[174]) ).
thf(280,plain,
( ( ! [A: $i,B: $i] : ( relation_of2_as_subset @ ( sK23_C @ B @ A ) @ A @ B ) )
= $true ),
inference(copy,[status(thm)],[173]) ).
thf(281,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_lattice @ A ) )
& ! [A: $i] : ( strict_latt_str @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( lattice @ ( boole_lattice @ A ) )
& ! [A: $i] : ( distributive_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( modular_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( bounded_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( complemented_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( boolean_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( complete_latt_str @ ( boole_lattice @ A ) ) )
= $true ),
inference(copy,[status(thm)],[172]) ).
thf(282,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_lattice @ A ) )
& ! [A: $i] : ( strict_latt_str @ ( boole_lattice @ A ) ) )
= $true ),
inference(copy,[status(thm)],[171]) ).
thf(283,plain,
( ( ! [A: $i,B: $i] :
( ( empty @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ~ ( empty_carrier @ ( rel_str_of @ A @ B ) ) )
& ! [A: $i,B: $i] :
( ( empty @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ( strict_rel_str @ ( rel_str_of @ A @ B ) ) ) )
= $true ),
inference(copy,[status(thm)],[170]) ).
thf(284,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( one_sorted_str @ A )
| ~ ( empty @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[169]) ).
thf(285,plain,
( ( ! [A: $i] :
~ ( empty @ ( powerset @ A ) ) )
= $true ),
inference(copy,[status(thm)],[52]) ).
thf(286,plain,
( ( empty @ empty_set )
= $true ),
inference(copy,[status(thm)],[51]) ).
thf(287,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( with_suprema_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( with_infima_relstr @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[168]) ).
thf(288,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_lattice @ A ) )
& ! [A: $i] : ( strict_latt_str @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( lattice @ ( boole_lattice @ A ) ) )
= $true ),
inference(copy,[status(thm)],[167]) ).
thf(289,plain,
( ( ! [A: $i] :
( ~ ( reflexive_relstr @ A )
| ~ ( transitive_relstr @ A )
| ~ ( antisymmetric_relstr @ A )
| ~ ( rel_str @ A )
| ( reflexive @ ( the_InternalRel @ A ) ) )
& ! [A: $i] :
( ~ ( reflexive_relstr @ A )
| ~ ( transitive_relstr @ A )
| ~ ( antisymmetric_relstr @ A )
| ~ ( rel_str @ A )
| ( relation @ ( the_InternalRel @ A ) ) )
& ! [A: $i] :
( ~ ( reflexive_relstr @ A )
| ~ ( transitive_relstr @ A )
| ~ ( antisymmetric_relstr @ A )
| ~ ( rel_str @ A )
| ( antisymmetric @ ( the_InternalRel @ A ) ) )
& ! [A: $i] :
( ~ ( reflexive_relstr @ A )
| ~ ( transitive_relstr @ A )
| ~ ( antisymmetric_relstr @ A )
| ~ ( rel_str @ A )
| ( transitive @ ( the_InternalRel @ A ) ) )
& ! [A: $i] :
( ~ ( reflexive_relstr @ A )
| ~ ( transitive_relstr @ A )
| ~ ( antisymmetric_relstr @ A )
| ~ ( rel_str @ A )
| ( v1_partfun1 @ ( the_InternalRel @ A ) @ ( the_carrier @ A ) @ ( the_carrier @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[166]) ).
thf(290,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( upper_bounded_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( with_suprema_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( upper_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( with_infima_relstr @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[165]) ).
thf(291,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_lattice @ A ) )
& ! [A: $i] : ( strict_latt_str @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_commutative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_associative @ ( boole_lattice @ A ) )
& ! [A: $i] : ( meet_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( join_absorbing @ ( boole_lattice @ A ) )
& ! [A: $i] : ( lattice @ ( boole_lattice @ A ) )
& ! [A: $i] : ( distributive_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( modular_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( bounded_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( complemented_lattstr @ ( boole_lattice @ A ) )
& ! [A: $i] : ( boolean_lattstr @ ( boole_lattice @ A ) ) )
= $true ),
inference(copy,[status(thm)],[164]) ).
thf(292,plain,
( ( ! [A: $i] :
( ! [B: $i,C: $i] :
( ( empty @ A )
| ~ ( function @ B )
| ~ ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( function @ C )
| ~ ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( empty_carrier @ ( latt_str_of @ A @ B @ C ) ) )
& ! [B: $i,C: $i] :
( ( empty @ A )
| ~ ( function @ B )
| ~ ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( function @ C )
| ~ ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ( strict_latt_str @ ( latt_str_of @ A @ B @ C ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[163]) ).
thf(293,plain,
( ( ! [A: $i,B: $i] :
( ~ ( antisymmetric @ B )
| ~ ( reflexive @ B )
| ~ ( transitive @ B )
| ~ ( v1_partfun1 @ B @ A @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ( reflexive_relstr @ ( rel_str_of @ A @ B ) ) )
& ! [A: $i,B: $i] :
( ~ ( antisymmetric @ B )
| ~ ( reflexive @ B )
| ~ ( transitive @ B )
| ~ ( v1_partfun1 @ B @ A @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ( strict_rel_str @ ( rel_str_of @ A @ B ) ) )
& ! [A: $i,B: $i] :
( ~ ( antisymmetric @ B )
| ~ ( reflexive @ B )
| ~ ( transitive @ B )
| ~ ( v1_partfun1 @ B @ A @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ( transitive_relstr @ ( rel_str_of @ A @ B ) ) )
& ! [A: $i,B: $i] :
( ~ ( antisymmetric @ B )
| ~ ( reflexive @ B )
| ~ ( transitive @ B )
| ~ ( v1_partfun1 @ B @ A @ A )
| ~ ( relation_of2 @ B @ A @ A )
| ( antisymmetric_relstr @ ( rel_str_of @ A @ B ) ) ) )
= $true ),
inference(copy,[status(thm)],[162]) ).
thf(294,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( lower_bounded_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( with_suprema_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( lower_bounded_semilattstr @ A )
| ~ ( latt_str @ A )
| ( with_infima_relstr @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[161]) ).
thf(295,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[160]) ).
thf(296,plain,
( ( ! [A: $i,B: $i] :
( ( empty @ A )
| ( empty @ B )
| ~ ( empty @ ( cartesian_product2 @ A @ B ) ) ) )
= $true ),
inference(copy,[status(thm)],[159]) ).
thf(297,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( strict_rel_str @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( reflexive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( transitive_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( antisymmetric_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( lower_bounded_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( upper_bounded_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( bounded_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( with_suprema_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( with_infima_relstr @ ( poset_of_lattice @ A ) ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( complete_relstr @ ( poset_of_lattice @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[158]) ).
thf(298,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_POSet @ A ) )
& ! [A: $i] : ( strict_rel_str @ ( boole_POSet @ A ) )
& ! [A: $i] : ( reflexive_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( transitive_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( antisymmetric_relstr @ ( boole_POSet @ A ) ) )
= $true ),
inference(copy,[status(thm)],[157]) ).
thf(299,plain,
( ( ! [A: $i] :
~ ( empty_carrier @ ( boole_POSet @ A ) )
& ! [A: $i] : ( strict_rel_str @ ( boole_POSet @ A ) )
& ! [A: $i] : ( reflexive_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( transitive_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( antisymmetric_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( lower_bounded_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( upper_bounded_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( bounded_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( with_suprema_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( with_infima_relstr @ ( boole_POSet @ A ) )
& ! [A: $i] : ( complete_relstr @ ( boole_POSet @ A ) ) )
= $true ),
inference(copy,[status(thm)],[156]) ).
thf(300,plain,
( ( ! [A: $i] :
( ! [B: $i] :
( ( empty_carrier @ B )
| ~ ( latt_str @ B )
| ! [C: $i] :
( ! [D: $i] :
( ( A != D )
| ~ ( element @ D @ ( the_carrier @ B ) )
| ~ ( latt_set_smaller @ B @ D @ C ) )
| ( in @ A @ ( a_2_2_lattice3 @ B @ C ) ) ) )
& ! [B: $i] :
( ( empty_carrier @ B )
| ~ ( latt_str @ B )
| ! [C: $i] :
( ~ ( in @ A @ ( a_2_2_lattice3 @ B @ C ) )
| ( ( A
= ( sK22_D @ C @ B @ A ) )
& ( element @ ( sK22_D @ C @ B @ A ) @ ( the_carrier @ B ) )
& ( latt_set_smaller @ B @ ( sK22_D @ C @ B @ A ) @ C ) ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[155]) ).
thf(301,plain,
( ( ! [A: $i,B: $i] :
( ~ ( relation_of2 @ B @ A @ A )
| ( ! [C: $i] :
( ! [D: $i] :
( ( rel_str_of @ A @ B )
!= ( rel_str_of @ C @ D ) )
| ( A = C ) )
& ! [C: $i,D: $i] :
( ( ( rel_str_of @ A @ B )
!= ( rel_str_of @ C @ D ) )
| ( B = D ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[154]) ).
thf(302,plain,
( ( ! [A: $i,B: $i,C: $i] :
( ~ ( function @ B )
| ~ ( quasi_total @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ B @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( function @ C )
| ~ ( quasi_total @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ~ ( relation_of2 @ C @ ( cartesian_product2 @ A @ A ) @ A )
| ! [D: $i] :
( ( ! [E: $i,F: $i] :
( ( latt_str_of @ A @ B @ C )
!= ( latt_str_of @ D @ E @ F ) )
| ( A = D ) )
& ! [E: $i] :
( ! [F: $i] :
( ( latt_str_of @ A @ B @ C )
!= ( latt_str_of @ D @ E @ F ) )
| ( B = E ) )
& ! [E: $i,F: $i] :
( ( ( latt_str_of @ A @ B @ C )
!= ( latt_str_of @ D @ E @ F ) )
| ( C = F ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[153]) ).
thf(303,plain,
( ( ( latt_str @ sK21_A )
& ~ ( empty_carrier @ sK21_A )
& ( strict_latt_str @ sK21_A )
& ( join_commutative @ sK21_A )
& ( join_associative @ sK21_A )
& ( meet_commutative @ sK21_A )
& ( meet_associative @ sK21_A )
& ( meet_absorbing @ sK21_A )
& ( join_absorbing @ sK21_A )
& ( lattice @ sK21_A )
& ( distributive_lattstr @ sK21_A )
& ( modular_lattstr @ sK21_A )
& ( lower_bounded_semilattstr @ sK21_A )
& ( upper_bounded_semilattstr @ sK21_A ) )
= $true ),
inference(copy,[status(thm)],[152]) ).
thf(304,plain,
( ( ( latt_str @ sK20_A )
& ~ ( empty_carrier @ sK20_A )
& ( strict_latt_str @ sK20_A )
& ( join_commutative @ sK20_A )
& ( join_associative @ sK20_A )
& ( meet_commutative @ sK20_A )
& ( meet_associative @ sK20_A )
& ( meet_absorbing @ sK20_A )
& ( join_absorbing @ sK20_A )
& ( lattice @ sK20_A )
& ( lower_bounded_semilattstr @ sK20_A )
& ( upper_bounded_semilattstr @ sK20_A )
& ( bounded_lattstr @ sK20_A ) )
= $true ),
inference(copy,[status(thm)],[151]) ).
thf(305,plain,
( ( ( latt_str @ sK19_A )
& ~ ( empty_carrier @ sK19_A )
& ( strict_latt_str @ sK19_A )
& ( join_commutative @ sK19_A )
& ( join_associative @ sK19_A )
& ( meet_commutative @ sK19_A )
& ( meet_associative @ sK19_A )
& ( meet_absorbing @ sK19_A )
& ( join_absorbing @ sK19_A )
& ( lattice @ sK19_A )
& ( lower_bounded_semilattstr @ sK19_A )
& ( upper_bounded_semilattstr @ sK19_A )
& ( bounded_lattstr @ sK19_A )
& ( complemented_lattstr @ sK19_A ) )
= $true ),
inference(copy,[status(thm)],[150]) ).
thf(306,plain,
( ( ( latt_str @ sK18_A )
& ~ ( empty_carrier @ sK18_A )
& ( strict_latt_str @ sK18_A )
& ( join_commutative @ sK18_A )
& ( join_associative @ sK18_A )
& ( meet_commutative @ sK18_A )
& ( meet_associative @ sK18_A )
& ( meet_absorbing @ sK18_A )
& ( join_absorbing @ sK18_A )
& ( lattice @ sK18_A )
& ( distributive_lattstr @ sK18_A )
& ( lower_bounded_semilattstr @ sK18_A )
& ( upper_bounded_semilattstr @ sK18_A )
& ( bounded_lattstr @ sK18_A )
& ( complemented_lattstr @ sK18_A )
& ( boolean_lattstr @ sK18_A ) )
= $true ),
inference(copy,[status(thm)],[149]) ).
thf(307,plain,
( ( ( rel_str @ sK17_A )
& ~ ( empty_carrier @ sK17_A )
& ( strict_rel_str @ sK17_A )
& ( reflexive_relstr @ sK17_A )
& ( transitive_relstr @ sK17_A )
& ( antisymmetric_relstr @ sK17_A )
& ( complete_relstr @ sK17_A ) )
= $true ),
inference(copy,[status(thm)],[148]) ).
thf(308,plain,
( ( ( rel_str @ sK16_A )
& ( strict_rel_str @ sK16_A ) )
= $true ),
inference(copy,[status(thm)],[147]) ).
thf(309,plain,
( ( ! [A: $i] :
( ( empty @ A )
| ( ( element @ ( sK15_B @ A ) @ ( powerset @ A ) )
& ~ ( empty @ ( sK15_B @ A ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[146]) ).
thf(310,plain,
( ( empty @ sK14_A )
= $true ),
inference(copy,[status(thm)],[145]) ).
thf(311,plain,
( ( ( rel_str @ sK13_A )
& ~ ( empty_carrier @ sK13_A )
& ( strict_rel_str @ sK13_A )
& ( reflexive_relstr @ sK13_A )
& ( transitive_relstr @ sK13_A )
& ( antisymmetric_relstr @ sK13_A )
& ( with_suprema_relstr @ sK13_A )
& ( with_infima_relstr @ sK13_A )
& ( complete_relstr @ sK13_A ) )
= $true ),
inference(copy,[status(thm)],[144]) ).
thf(312,plain,
( ( ( rel_str @ sK12_A )
& ~ ( empty_carrier @ sK12_A )
& ( strict_rel_str @ sK12_A )
& ( reflexive_relstr @ sK12_A )
& ( transitive_relstr @ sK12_A )
& ( antisymmetric_relstr @ sK12_A ) )
= $true ),
inference(copy,[status(thm)],[143]) ).
thf(313,plain,
( ( ! [A: $i,B: $i] :
( ( relation @ ( sK11_C @ B @ A ) )
& ( relation_of2 @ ( sK11_C @ B @ A ) @ A @ B )
& ( function @ ( sK11_C @ B @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[142]) ).
thf(314,plain,
( ( ! [A: $i] :
( ( element @ ( sK10_B @ A ) @ ( powerset @ A ) )
& ( empty @ ( sK10_B @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[141]) ).
thf(315,plain,
( ( ~ ( empty @ sK9_A ) )
= $true ),
inference(copy,[status(thm)],[140]) ).
thf(316,plain,
( ( ( rel_str @ sK8_A )
& ~ ( empty_carrier @ sK8_A )
& ( reflexive_relstr @ sK8_A )
& ( transitive_relstr @ sK8_A )
& ( antisymmetric_relstr @ sK8_A )
& ( with_suprema_relstr @ sK8_A )
& ( with_infima_relstr @ sK8_A )
& ( complete_relstr @ sK8_A )
& ( lower_bounded_relstr @ sK8_A )
& ( upper_bounded_relstr @ sK8_A )
& ( bounded_relstr @ sK8_A ) )
= $true ),
inference(copy,[status(thm)],[139]) ).
thf(317,plain,
( ( ( latt_str @ sK7_A )
& ( strict_latt_str @ sK7_A ) )
= $true ),
inference(copy,[status(thm)],[138]) ).
thf(318,plain,
( ( ( one_sorted_str @ sK6_A )
& ~ ( empty_carrier @ sK6_A ) )
= $true ),
inference(copy,[status(thm)],[137]) ).
thf(319,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( one_sorted_str @ A )
| ( ( element @ ( sK5_B @ A ) @ ( powerset @ ( the_carrier @ A ) ) )
& ~ ( empty @ ( sK5_B @ A ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[136]) ).
thf(320,plain,
( ( ( latt_str @ sK4_A )
& ~ ( empty_carrier @ sK4_A )
& ( strict_latt_str @ sK4_A ) )
= $true ),
inference(copy,[status(thm)],[135]) ).
thf(321,plain,
( ( ( latt_str @ sK3_A )
& ~ ( empty_carrier @ sK3_A )
& ( strict_latt_str @ sK3_A )
& ( join_commutative @ sK3_A )
& ( join_associative @ sK3_A )
& ( meet_commutative @ sK3_A )
& ( meet_associative @ sK3_A )
& ( meet_absorbing @ sK3_A )
& ( join_absorbing @ sK3_A )
& ( lattice @ sK3_A ) )
= $true ),
inference(copy,[status(thm)],[134]) ).
thf(322,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( latt_str @ A )
| ( ( k2_lattice3 @ A )
= ( relation_of_lattice @ A ) ) ) )
= $true ),
inference(copy,[status(thm)],[133]) ).
thf(323,plain,
( ( ! [A: $i] :
( ! [B: $i,C: $i] :
( ~ ( relation_of2 @ C @ A @ B )
| ( relation_of2_as_subset @ C @ A @ B ) )
& ! [B: $i,C: $i] :
( ~ ( relation_of2_as_subset @ C @ A @ B )
| ( relation_of2 @ C @ A @ B ) ) ) )
= $true ),
inference(copy,[status(thm)],[132]) ).
thf(324,plain,
( ( ! [A: $i] : ( subset @ A @ A ) )
= $true ),
inference(copy,[status(thm)],[131]) ).
thf(325,plain,
( ( ! [A: $i,B: $i] :
( ~ ( in @ A @ B )
| ( element @ A @ B ) ) )
= $true ),
inference(copy,[status(thm)],[130]) ).
thf(326,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( ! [B: $i] :
( ( join_of_latt_set @ A @ B )
= ( join_on_relstr @ ( poset_of_lattice @ A ) @ B ) )
& ! [B: $i] :
( ( meet_of_latt_set @ A @ B )
= ( meet_on_relstr @ ( poset_of_lattice @ A ) @ B ) ) ) ) )
= $true ),
inference(copy,[status(thm)],[129]) ).
thf(327,plain,
( ( ! [A: $i,B: $i] :
( ~ ( element @ A @ B )
| ( empty @ B )
| ( in @ A @ B ) ) )
= $true ),
inference(copy,[status(thm)],[128]) ).
thf(328,plain,
( ( ! [A: $i,B: $i] :
( ( ( ~ ( in @ ( sK2_C @ B @ A ) @ A )
| ~ ( in @ ( sK2_C @ B @ A ) @ B ) )
& ( ( in @ ( sK2_C @ B @ A ) @ A )
| ( in @ ( sK2_C @ B @ A ) @ B ) ) )
| ( A = B ) ) )
= $true ),
inference(copy,[status(thm)],[127]) ).
thf(329,plain,
( ( ! [A: $i] :
( ( bottom_of_semilattstr @ ( boole_lattice @ A ) )
= empty_set )
& ! [A: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ A ) ) )
= $true ),
inference(copy,[status(thm)],[126]) ).
thf(330,plain,
( ( ! [A: $i,B: $i] :
( ~ ( element @ A @ ( powerset @ B ) )
| ( subset @ A @ B ) )
& ! [A: $i,B: $i] :
( ~ ( subset @ A @ B )
| ( element @ A @ ( powerset @ B ) ) ) )
= $true ),
inference(copy,[status(thm)],[125]) ).
thf(331,plain,
( ( ! [A: $i,B: $i,C: $i] :
( ~ ( element @ B @ ( powerset @ C ) )
| ~ ( in @ A @ B )
| ( element @ A @ C ) ) )
= $true ),
inference(copy,[status(thm)],[124]) ).
thf(332,plain,
( ( ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ~ ( empty_carrier @ A ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( lattice @ A ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( lower_bounded_semilattstr @ A ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( latt_str @ A ) )
& ! [A: $i] :
( ( empty_carrier @ A )
| ~ ( lattice @ A )
| ~ ( complete_latt_str @ A )
| ~ ( latt_str @ A )
| ( ( bottom_of_semilattstr @ A )
= ( join_of_latt_set @ A @ empty_set ) ) ) )
= $true ),
inference(copy,[status(thm)],[123]) ).
thf(333,plain,
( ( ! [A: $i,B: $i,C: $i] :
( ~ ( element @ B @ ( powerset @ C ) )
| ~ ( in @ A @ B )
| ~ ( empty @ C ) ) )
= $true ),
inference(copy,[status(thm)],[122]) ).
thf(334,plain,
( ( ! [A: $i] :
( ~ ( empty @ A )
| ( A = empty_set ) ) )
= $true ),
inference(copy,[status(thm)],[121]) ).
thf(335,plain,
( ( ! [A: $i,B: $i] :
( ~ ( empty @ B )
| ~ ( in @ A @ B ) ) )
= $true ),
inference(copy,[status(thm)],[120]) ).
thf(336,plain,
( ( ! [A: $i,B: $i] :
( ( A = B )
| ~ ( empty @ A )
| ~ ( empty @ B ) ) )
= $true ),
inference(copy,[status(thm)],[119]) ).
thf(337,plain,
( ( ( ( bottom_of_relstr @ ( boole_POSet @ sK1_A ) )
!= empty_set ) )
= $true ),
inference(copy,[status(thm)],[118]) ).
thf(338,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[287]) ).
thf(339,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[290]) ).
thf(340,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( join_commutative @ SX0 )
| ~ ( join_associative @ SX0 )
| ~ ( meet_commutative @ SX0 )
| ~ ( meet_associative @ SX0 )
| ~ ( meet_absorbing @ SX0 )
| ~ ( join_absorbing @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( join_commutative @ SX0 )
| ~ ( join_associative @ SX0 )
| ~ ( meet_commutative @ SX0 )
| ~ ( meet_associative @ SX0 )
| ~ ( meet_absorbing @ SX0 )
| ~ ( join_absorbing @ SX0 )
| ( lattice @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[232]) ).
thf(341,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( join_semilatt_str @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( meet_semilatt_str @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[265]) ).
thf(342,plain,
( ( ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[282]) ).
thf(343,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
| ~ ( antisymmetric_relstr @ sK13_A ) )
| ~ ( with_suprema_relstr @ sK13_A ) )
| ~ ( with_infima_relstr @ sK13_A ) )
| ~ ( complete_relstr @ sK13_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[311]) ).
thf(344,plain,
( ( ! [SX0: $i] :
~ ( ~ ! [SX1: $i] :
( ( empty_carrier @ SX1 )
| ~ ( latt_str @ SX1 )
| ! [SX2: $i] :
( ! [SX3: $i] :
( ( SX0 != SX3 )
| ~ ( element @ SX3 @ ( the_carrier @ SX1 ) )
| ~ ( latt_set_smaller @ SX1 @ SX3 @ SX2 ) )
| ( in @ SX0 @ ( a_2_2_lattice3 @ SX1 @ SX2 ) ) ) )
| ~ ! [SX1: $i] :
( ( empty_carrier @ SX1 )
| ~ ( latt_str @ SX1 )
| ! [SX2: $i] :
( ~ ( in @ SX0 @ ( a_2_2_lattice3 @ SX1 @ SX2 ) )
| ~ ( ~ ~ ( ( SX0
!= ( sK22_D @ SX2 @ SX1 @ SX0 ) )
| ~ ( element @ ( sK22_D @ SX2 @ SX1 @ SX0 ) @ ( the_carrier @ SX1 ) ) )
| ~ ( latt_set_smaller @ SX1 @ ( sK22_D @ SX2 @ SX1 @ SX0 ) @ SX2 ) ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[300]) ).
thf(345,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
| ~ ( lattice @ sK20_A ) )
| ~ ( lower_bounded_semilattstr @ sK20_A ) )
| ~ ( upper_bounded_semilattstr @ sK20_A ) )
| ~ ( bounded_lattstr @ sK20_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[304]) ).
thf(346,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
| ~ ( complete_relstr @ sK8_A ) )
| ~ ( lower_bounded_relstr @ sK8_A ) )
| ~ ( upper_bounded_relstr @ sK8_A ) )
| ~ ( bounded_relstr @ sK8_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[316]) ).
thf(347,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
| ~ ( strict_rel_str @ sK12_A ) )
| ~ ( reflexive_relstr @ sK12_A ) )
| ~ ( transitive_relstr @ sK12_A ) )
| ~ ( antisymmetric_relstr @ sK12_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[312]) ).
thf(348,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_suprema_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_infima_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complete_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[299]) ).
thf(349,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ~ ( bounded_relstr @ SX0 )
| ( lower_bounded_relstr @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ~ ( bounded_relstr @ SX0 )
| ( upper_bounded_relstr @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[236]) ).
thf(350,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[288]) ).
thf(351,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ( bottom_of_semilattstr @ ( boole_lattice @ SX0 ) )
= empty_set )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[329]) ).
thf(352,plain,
( ( ! [SX0: $i] :
( ( empty @ SX0 )
| ~ ( ~ ( element @ ( sK15_B @ SX0 ) @ ( powerset @ SX0 ) )
| ~ ~ ( empty @ ( sK15_B @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[309]) ).
thf(353,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ( bounded_lattstr @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[233]) ).
thf(354,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[298]) ).
thf(355,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( boolean_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complete_latt_str @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[281]) ).
thf(356,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( one_sorted_str @ SX0 )
| ~ ( ~ ( element @ ( sK5_B @ SX0 ) @ ( powerset @ ( the_carrier @ SX0 ) ) )
| ~ ~ ( empty @ ( sK5_B @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[319]) ).
thf(357,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( function @ ( the_L_meet @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_meet @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( relation_of2_as_subset @ ( the_L_meet @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[269]) ).
thf(358,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_absorbing @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[228]) ).
thf(359,plain,
( ( ~ ( ~ ~ ( ~ ( latt_str @ sK4_A )
| ~ ~ ( empty_carrier @ sK4_A ) )
| ~ ( strict_latt_str @ sK4_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[320]) ).
thf(360,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
| ~ ( reflexive_relstr @ sK17_A ) )
| ~ ( transitive_relstr @ sK17_A ) )
| ~ ( antisymmetric_relstr @ sK17_A ) )
| ~ ( complete_relstr @ sK17_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[307]) ).
thf(361,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
| ~ ( upper_bounded_semilattstr @ sK18_A ) )
| ~ ( bounded_lattstr @ sK18_A ) )
| ~ ( complemented_lattstr @ sK18_A ) )
| ~ ( boolean_lattstr @ sK18_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[306]) ).
thf(362,plain,
( ( ! [SX0: $i] :
~ ( ~ ! [SX1: $i,SX2: $i] :
( ~ ( relation_of2 @ SX2 @ SX0 @ SX1 )
| ( relation_of2_as_subset @ SX2 @ SX0 @ SX1 ) )
| ~ ! [SX1: $i,SX2: $i] :
( ~ ( relation_of2_as_subset @ SX2 @ SX0 @ SX1 )
| ( relation_of2 @ SX2 @ SX0 @ SX1 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[323]) ).
thf(363,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( latt_str @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( ( bottom_of_semilattstr @ SX0 )
= ( join_of_latt_set @ SX0 @ empty_set ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[332]) ).
thf(364,plain,
( ( ~ ( ~ ! [SX0: $i] : ( rel_str @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[258]) ).
thf(365,plain,
( ( ! [SX0: $i,SX1: $i] :
( ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ~ ( ~ ! [SX2: $i] :
( ! [SX3: $i] :
( ( rel_str_of @ SX0 @ SX1 )
!= ( rel_str_of @ SX2 @ SX3 ) )
| ( SX0 = SX2 ) )
| ~ ! [SX2: $i,SX3: $i] :
( ( ( rel_str_of @ SX0 @ SX1 )
!= ( rel_str_of @ SX2 @ SX3 ) )
| ( SX1 = SX3 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[301]) ).
thf(366,plain,
( ( ~ ( ~ ( one_sorted_str @ sK6_A )
| ~ ~ ( empty_carrier @ sK6_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[318]) ).
thf(367,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( complemented_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( complemented_lattstr @ SX0 )
| ( boolean_lattstr @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[239]) ).
thf(368,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( v1_partfun1 @ ( k2_lattice3 @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( relation_of2_as_subset @ ( k2_lattice3 @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[253]) ).
thf(369,plain,
( ( ~ ( ~ ! [SX0: $i,SX1: $i] :
( ( empty @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ~ ( empty_carrier @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ( empty @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[283]) ).
thf(370,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( with_suprema_relstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( with_infima_relstr @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[230]) ).
thf(371,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( modular_lattstr @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[240]) ).
thf(372,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( reflexive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( transitive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( antisymmetric_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[293]) ).
thf(373,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( bounded_relstr @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[234]) ).
thf(374,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[256]) ).
thf(375,plain,
( ( ~ ( ~ ( rel_str @ sK16_A )
| ~ ( strict_rel_str @ sK16_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[308]) ).
thf(376,plain,
( ( ! [SX0: $i] :
~ ( ~ ( element @ ( sK10_B @ SX0 ) @ ( powerset @ SX0 ) )
| ~ ( empty @ ( sK10_B @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[314]) ).
thf(377,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
| ~ ( meet_associative @ sK3_A ) )
| ~ ( meet_absorbing @ sK3_A ) )
| ~ ( join_absorbing @ sK3_A ) )
| ~ ( lattice @ sK3_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[321]) ).
thf(378,plain,
( ( ~ ( ~ ! [SX0: $i] : ( latt_str @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[249]) ).
thf(379,plain,
( ( ~ ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[245]) ).
thf(380,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
| ~ ( distributive_lattstr @ sK21_A ) )
| ~ ( modular_lattstr @ sK21_A ) )
| ~ ( lower_bounded_semilattstr @ sK21_A ) )
| ~ ( upper_bounded_semilattstr @ sK21_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[303]) ).
thf(381,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( boolean_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[291]) ).
thf(382,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[294]) ).
thf(383,plain,
( ( ! [SX0: $i] :
~ ( ~ ! [SX1: $i,SX2: $i] :
( ( empty @ SX0 )
| ~ ( function @ SX1 )
| ~ ( quasi_total @ SX1 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( relation_of2 @ SX1 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( function @ SX2 )
| ~ ( quasi_total @ SX2 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( relation_of2 @ SX2 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( empty_carrier @ ( latt_str_of @ SX0 @ SX1 @ SX2 ) ) )
| ~ ! [SX1: $i,SX2: $i] :
( ( empty @ SX0 )
| ~ ( function @ SX1 )
| ~ ( quasi_total @ SX1 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( relation_of2 @ SX1 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( function @ SX2 )
| ~ ( quasi_total @ SX2 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( relation_of2 @ SX2 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ( strict_latt_str @ ( latt_str_of @ SX0 @ SX1 @ SX2 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[292]) ).
thf(384,plain,
( ( ~ ( ~ ( latt_str @ sK7_A )
| ~ ( strict_latt_str @ sK7_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[317]) ).
thf(385,plain,
( ( ~ ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( element @ SX0 @ ( powerset @ SX1 ) )
| ( subset @ SX0 @ SX1 ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( subset @ SX0 @ SX1 )
| ( element @ SX0 @ ( powerset @ SX1 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[330]) ).
thf(386,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( antisymmetric @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( transitive @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( v1_partfun1 @ ( the_InternalRel @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[289]) ).
thf(387,plain,
( ( ! [SX0: $i,SX1: $i] :
( ~ ( ~ ( ~ ( in @ ( sK2_C @ SX1 @ SX0 ) @ SX0 )
| ~ ( in @ ( sK2_C @ SX1 @ SX0 ) @ SX1 ) )
| ~ ( ( in @ ( sK2_C @ SX1 @ SX0 ) @ SX0 )
| ( in @ ( sK2_C @ SX1 @ SX0 ) @ SX1 ) ) )
| ( SX0 = SX1 ) ) )
= $true ),
inference(unfold_def,[status(thm)],[328]) ).
thf(388,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[295]) ).
thf(389,plain,
( ( ! [SX0: $i,SX1: $i] :
~ ( ~ ~ ( ~ ( relation @ ( sK11_C @ SX1 @ SX0 ) )
| ~ ( relation_of2 @ ( sK11_C @ SX1 @ SX0 ) @ SX0 @ SX1 ) )
| ~ ( function @ ( sK11_C @ SX1 @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[313]) ).
thf(390,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( bounded_lattstr @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[226]) ).
thf(391,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( ~ ! [SX1: $i] :
( ( join_of_latt_set @ SX0 @ SX1 )
= ( join_on_relstr @ ( poset_of_lattice @ SX0 ) @ SX1 ) )
| ~ ! [SX1: $i] :
( ( meet_of_latt_set @ SX0 @ SX1 )
= ( meet_on_relstr @ ( poset_of_lattice @ SX0 ) @ SX1 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[326]) ).
thf(392,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( complete_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[297]) ).
thf(393,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( bounded_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( complemented_lattstr @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[237]) ).
thf(394,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
| ~ ( lower_bounded_semilattstr @ sK19_A ) )
| ~ ( upper_bounded_semilattstr @ sK19_A ) )
| ~ ( bounded_lattstr @ sK19_A ) )
| ~ ( complemented_lattstr @ sK19_A ) ) )
= $true ),
inference(unfold_def,[status(thm)],[305]) ).
thf(395,plain,
( ( ! [SX0: $i] :
~ ( ~ ! [SX1: $i,SX2: $i] :
( ~ ( function @ SX1 )
| ~ ( quasi_total @ SX1 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( relation_of2 @ SX1 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( function @ SX2 )
| ~ ( quasi_total @ SX2 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( relation_of2 @ SX2 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ( latt_str @ ( latt_str_of @ SX0 @ SX1 @ SX2 ) ) )
| ~ ! [SX1: $i,SX2: $i] :
( ~ ( function @ SX1 )
| ~ ( quasi_total @ SX1 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( relation_of2 @ SX1 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( function @ SX2 )
| ~ ( quasi_total @ SX2 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( relation_of2 @ SX2 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ( strict_latt_str @ ( latt_str_of @ SX0 @ SX1 @ SX2 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[246]) ).
thf(396,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[235]) ).
thf(397,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( function @ ( the_L_join @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_join @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( relation_of2_as_subset @ ( the_L_join @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[272]) ).
thf(398,plain,
( ( ! [SX0: $i,SX1: $i,SX2: $i] :
( ~ ( function @ SX1 )
| ~ ( quasi_total @ SX1 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( relation_of2 @ SX1 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( function @ SX2 )
| ~ ( quasi_total @ SX2 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ~ ( relation_of2 @ SX2 @ ( cartesian_product2 @ SX0 @ SX0 ) @ SX0 )
| ! [SX3: $i] :
~ ( ~ ~ ( ~ ( ! [SX4: $i,SX5: $i] :
( ( latt_str_of @ SX0 @ SX1 @ SX2 )
!= ( latt_str_of @ SX3 @ SX4 @ SX5 ) )
| ( SX0 = SX3 ) )
| ~ ! [SX4: $i] :
( ! [SX5: $i] :
( ( latt_str_of @ SX0 @ SX1 @ SX2 )
!= ( latt_str_of @ SX3 @ SX4 @ SX5 ) )
| ( SX1 = SX4 ) ) )
| ~ ! [SX4: $i,SX5: $i] :
( ( ( latt_str_of @ SX0 @ SX1 @ SX2 )
!= ( latt_str_of @ SX3 @ SX4 @ SX5 ) )
| ( SX2 = SX5 ) ) ) ) )
= $true ),
inference(unfold_def,[status(thm)],[302]) ).
thf(399,plain,
! [SV1: $i] :
( ( ~ ( rel_str @ SV1 )
| ~ ( strict_rel_str @ SV1 )
| ( SV1
= ( rel_str_of @ ( the_carrier @ SV1 ) @ ( the_InternalRel @ SV1 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[223]) ).
thf(400,plain,
! [SV2: $i] :
( ( ~ ( latt_str @ SV2 )
| ~ ( strict_latt_str @ SV2 )
| ( SV2
= ( latt_str_of @ ( the_carrier @ SV2 ) @ ( the_L_join @ SV2 ) @ ( the_L_meet @ SV2 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[224]) ).
thf(401,plain,
! [SV3: $i] :
( ( ! [SY20: $i] :
( ~ ( in @ SV3 @ SY20 )
| ~ ( in @ SY20 @ SV3 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[225]) ).
thf(402,plain,
! [SV4: $i] :
( ( ~ ( rel_str @ SV4 )
| ~ ( with_suprema_relstr @ SV4 )
| ~ ( empty_carrier @ SV4 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[227]) ).
thf(403,plain,
! [SV5: $i] :
( ( ! [SY21: $i,SY22: $i] :
( ~ ( element @ SY22 @ ( powerset @ ( cartesian_product2 @ SV5 @ SY21 ) ) )
| ( relation @ SY22 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[229]) ).
thf(404,plain,
! [SV6: $i] :
( ( ~ ( rel_str @ SV6 )
| ~ ( with_infima_relstr @ SV6 )
| ~ ( empty_carrier @ SV6 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[231]) ).
thf(405,plain,
! [SV7: $i] :
( ( ~ ( rel_str @ SV7 )
| ~ ( lower_bounded_relstr @ SV7 )
| ~ ( upper_bounded_relstr @ SV7 )
| ( bounded_relstr @ SV7 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[238]) ).
thf(406,plain,
! [SV8: $i] :
( ( ~ ( rel_str @ SV8 )
| ( ( bottom_of_relstr @ SV8 )
= ( join_on_relstr @ SV8 @ empty_set ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[241]) ).
thf(407,plain,
! [SV9: $i] :
( ( ( empty_carrier @ SV9 )
| ~ ( latt_str @ SV9 )
| ! [SY23: $i] :
( ( meet_of_latt_set @ SV9 @ SY23 )
= ( join_of_latt_set @ SV9 @ ( a_2_2_lattice3 @ SV9 @ SY23 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[242]) ).
thf(408,plain,
! [SV10: $i] :
( ( ( empty_carrier @ SV10 )
| ~ ( lattice @ SV10 )
| ~ ( latt_str @ SV10 )
| ( ( poset_of_lattice @ SV10 )
= ( rel_str_of @ ( the_carrier @ SV10 ) @ ( k2_lattice3 @ SV10 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[243]) ).
thf(409,plain,
! [SV11: $i] :
( ( ( boole_POSet @ SV11 )
= ( poset_of_lattice @ ( boole_lattice @ SV11 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[244]) ).
thf(410,plain,
! [SV12: $i] :
( ( ( empty_carrier @ SV12 )
| ~ ( latt_str @ SV12 )
| ! [SY24: $i] : ( element @ ( join_of_latt_set @ SV12 @ SY24 ) @ ( the_carrier @ SV12 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[247]) ).
thf(411,plain,
! [SV13: $i] :
( ( ( empty_carrier @ SV13 )
| ~ ( latt_str @ SV13 )
| ! [SY25: $i] : ( element @ ( meet_of_latt_set @ SV13 @ SY25 ) @ ( the_carrier @ SV13 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[248]) ).
thf(412,plain,
! [SV14: $i] :
( ( ~ ( rel_str @ SV14 )
| ! [SY26: $i] : ( element @ ( join_on_relstr @ SV14 @ SY26 ) @ ( the_carrier @ SV14 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[251]) ).
thf(413,plain,
! [SV15: $i] :
( ( ~ ( rel_str @ SV15 )
| ! [SY27: $i] : ( element @ ( meet_on_relstr @ SV15 @ SY27 ) @ ( the_carrier @ SV15 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[254]) ).
thf(414,plain,
! [SV16: $i] :
( ( ~ ( rel_str @ SV16 )
| ( element @ ( bottom_of_relstr @ SV16 ) @ ( the_carrier @ SV16 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[257]) ).
thf(415,plain,
! [SV17: $i] :
( ( ( empty_carrier @ SV17 )
| ~ ( meet_semilatt_str @ SV17 )
| ( element @ ( bottom_of_semilattstr @ SV17 ) @ ( the_carrier @ SV17 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[259]) ).
thf(416,plain,
! [SV18: $i] :
( ( ( empty_carrier @ SV18 )
| ~ ( lattice @ SV18 )
| ~ ( latt_str @ SV18 )
| ( relation @ ( relation_of_lattice @ SV18 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[260]) ).
thf(417,plain,
! [SV19: $i] :
( ( ~ ( meet_semilatt_str @ SV19 )
| ( one_sorted_str @ SV19 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[261]) ).
thf(418,plain,
! [SV20: $i] :
( ( ~ ( rel_str @ SV20 )
| ( one_sorted_str @ SV20 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[262]) ).
thf(419,plain,
! [SV21: $i] :
( ( ~ ( join_semilatt_str @ SV21 )
| ( one_sorted_str @ SV21 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[264]) ).
thf(420,plain,
! [SV22: $i] :
( ( ! [SY28: $i,SY29: $i] :
( ~ ( relation_of2_as_subset @ SY29 @ SV22 @ SY28 )
| ( element @ SY29 @ ( powerset @ ( cartesian_product2 @ SV22 @ SY28 ) ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[268]) ).
thf(421,plain,
! [SV23: $i] :
( ( ~ ( rel_str @ SV23 )
| ( relation_of2_as_subset @ ( the_InternalRel @ SV23 ) @ ( the_carrier @ SV23 ) @ ( the_carrier @ SV23 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[270]) ).
thf(422,plain,
! [SV24: $i] :
( ( ! [SY30: $i] : ( relation_of2 @ ( sK25_C @ SY30 @ SV24 ) @ SV24 @ SY30 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[278]) ).
thf(423,plain,
! [SV25: $i] :
( ( element @ ( sK24_B @ SV25 ) @ SV25 )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[279]) ).
thf(424,plain,
! [SV26: $i] :
( ( ! [SY31: $i] : ( relation_of2_as_subset @ ( sK23_C @ SY31 @ SV26 ) @ SV26 @ SY31 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[280]) ).
thf(425,plain,
! [SV27: $i] :
( ( ( empty_carrier @ SV27 )
| ~ ( one_sorted_str @ SV27 )
| ~ ( empty @ ( the_carrier @ SV27 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[284]) ).
thf(426,plain,
! [SV28: $i] :
( ( ~ ( empty @ ( powerset @ SV28 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[285]) ).
thf(427,plain,
! [SV29: $i] :
( ( ! [SY32: $i] :
( ( empty @ SV29 )
| ( empty @ SY32 )
| ~ ( empty @ ( cartesian_product2 @ SV29 @ SY32 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[296]) ).
thf(428,plain,
( ( empty @ sK9_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[315]) ).
thf(429,plain,
! [SV30: $i] :
( ( ( empty_carrier @ SV30 )
| ~ ( lattice @ SV30 )
| ~ ( latt_str @ SV30 )
| ( ( k2_lattice3 @ SV30 )
= ( relation_of_lattice @ SV30 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[322]) ).
thf(430,plain,
! [SV31: $i] :
( ( subset @ SV31 @ SV31 )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[324]) ).
thf(431,plain,
! [SV32: $i] :
( ( ! [SY33: $i] :
( ~ ( in @ SV32 @ SY33 )
| ( element @ SV32 @ SY33 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[325]) ).
thf(432,plain,
! [SV33: $i] :
( ( ! [SY34: $i] :
( ~ ( element @ SV33 @ SY34 )
| ( empty @ SY34 )
| ( in @ SV33 @ SY34 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[327]) ).
thf(433,plain,
! [SV34: $i] :
( ( ! [SY35: $i,SY36: $i] :
( ~ ( element @ SY35 @ ( powerset @ SY36 ) )
| ~ ( in @ SV34 @ SY35 )
| ( element @ SV34 @ SY36 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[331]) ).
thf(434,plain,
! [SV35: $i] :
( ( ! [SY37: $i,SY38: $i] :
( ~ ( element @ SY37 @ ( powerset @ SY38 ) )
| ~ ( in @ SV35 @ SY37 )
| ~ ( empty @ SY38 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[333]) ).
thf(435,plain,
! [SV36: $i] :
( ( ~ ( empty @ SV36 )
| ( SV36 = empty_set ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[334]) ).
thf(436,plain,
! [SV37: $i] :
( ( ! [SY39: $i] :
( ~ ( empty @ SY39 )
| ~ ( in @ SV37 @ SY39 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[335]) ).
thf(437,plain,
! [SV38: $i] :
( ( ! [SY40: $i] :
( ( SV38 = SY40 )
| ~ ( empty @ SV38 )
| ~ ( empty @ SY40 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[336]) ).
thf(438,plain,
( ( ( bottom_of_relstr @ ( boole_POSet @ sK1_A ) )
= empty_set )
= $false ),
inference(extcnf_not_pos,[status(thm)],[337]) ).
thf(439,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[338]) ).
thf(440,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[339]) ).
thf(441,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( join_commutative @ SX0 )
| ~ ( join_associative @ SX0 )
| ~ ( meet_commutative @ SX0 )
| ~ ( meet_associative @ SX0 )
| ~ ( meet_absorbing @ SX0 )
| ~ ( join_absorbing @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( join_commutative @ SX0 )
| ~ ( join_associative @ SX0 )
| ~ ( meet_commutative @ SX0 )
| ~ ( meet_associative @ SX0 )
| ~ ( meet_absorbing @ SX0 )
| ~ ( join_absorbing @ SX0 )
| ( lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[340]) ).
thf(442,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( join_semilatt_str @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( meet_semilatt_str @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[341]) ).
thf(443,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[342]) ).
thf(444,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
| ~ ( antisymmetric_relstr @ sK13_A ) )
| ~ ( with_suprema_relstr @ sK13_A ) )
| ~ ( with_infima_relstr @ sK13_A ) )
| ~ ( complete_relstr @ sK13_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[343]) ).
thf(445,plain,
! [SV39: $i] :
( ( ~ ( ~ ! [SY41: $i] :
( ( empty_carrier @ SY41 )
| ~ ( latt_str @ SY41 )
| ! [SY42: $i] :
( ! [SY43: $i] :
( ( SV39 != SY43 )
| ~ ( element @ SY43 @ ( the_carrier @ SY41 ) )
| ~ ( latt_set_smaller @ SY41 @ SY43 @ SY42 ) )
| ( in @ SV39 @ ( a_2_2_lattice3 @ SY41 @ SY42 ) ) ) )
| ~ ! [SY44: $i] :
( ( empty_carrier @ SY44 )
| ~ ( latt_str @ SY44 )
| ! [SY45: $i] :
( ~ ( in @ SV39 @ ( a_2_2_lattice3 @ SY44 @ SY45 ) )
| ~ ( ~ ~ ( ( SV39
!= ( sK22_D @ SY45 @ SY44 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SY45 @ SY44 @ SV39 ) @ ( the_carrier @ SY44 ) ) )
| ~ ( latt_set_smaller @ SY44 @ ( sK22_D @ SY45 @ SY44 @ SV39 ) @ SY45 ) ) ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[344]) ).
thf(446,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
| ~ ( lattice @ sK20_A ) )
| ~ ( lower_bounded_semilattstr @ sK20_A ) )
| ~ ( upper_bounded_semilattstr @ sK20_A ) )
| ~ ( bounded_lattstr @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[345]) ).
thf(447,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
| ~ ( complete_relstr @ sK8_A ) )
| ~ ( lower_bounded_relstr @ sK8_A ) )
| ~ ( upper_bounded_relstr @ sK8_A ) )
| ~ ( bounded_relstr @ sK8_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[346]) ).
thf(448,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
| ~ ( strict_rel_str @ sK12_A ) )
| ~ ( reflexive_relstr @ sK12_A ) )
| ~ ( transitive_relstr @ sK12_A ) )
| ~ ( antisymmetric_relstr @ sK12_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[347]) ).
thf(449,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_suprema_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_infima_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complete_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[348]) ).
thf(450,plain,
( ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ~ ( bounded_relstr @ SX0 )
| ( lower_bounded_relstr @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ~ ( bounded_relstr @ SX0 )
| ( upper_bounded_relstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[349]) ).
thf(451,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[350]) ).
thf(452,plain,
( ( ~ ! [SX0: $i] :
( ( bottom_of_semilattstr @ ( boole_lattice @ SX0 ) )
= empty_set )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[351]) ).
thf(453,plain,
! [SV40: $i] :
( ( ( empty @ SV40 )
| ~ ( ~ ( element @ ( sK15_B @ SV40 ) @ ( powerset @ SV40 ) )
| ~ ~ ( empty @ ( sK15_B @ SV40 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[352]) ).
thf(454,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ( bounded_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[353]) ).
thf(455,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[354]) ).
thf(456,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( boolean_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complete_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[355]) ).
thf(457,plain,
! [SV41: $i] :
( ( ( empty_carrier @ SV41 )
| ~ ( one_sorted_str @ SV41 )
| ~ ( ~ ( element @ ( sK5_B @ SV41 ) @ ( powerset @ ( the_carrier @ SV41 ) ) )
| ~ ~ ( empty @ ( sK5_B @ SV41 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[356]) ).
thf(458,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( function @ ( the_L_meet @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_meet @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( relation_of2_as_subset @ ( the_L_meet @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[357]) ).
thf(459,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[358]) ).
thf(460,plain,
( ( ~ ~ ( ~ ( latt_str @ sK4_A )
| ~ ~ ( empty_carrier @ sK4_A ) )
| ~ ( strict_latt_str @ sK4_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[359]) ).
thf(461,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
| ~ ( reflexive_relstr @ sK17_A ) )
| ~ ( transitive_relstr @ sK17_A ) )
| ~ ( antisymmetric_relstr @ sK17_A ) )
| ~ ( complete_relstr @ sK17_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[360]) ).
thf(462,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
| ~ ( upper_bounded_semilattstr @ sK18_A ) )
| ~ ( bounded_lattstr @ sK18_A ) )
| ~ ( complemented_lattstr @ sK18_A ) )
| ~ ( boolean_lattstr @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[361]) ).
thf(463,plain,
! [SV42: $i] :
( ( ~ ( ~ ! [SY46: $i,SY47: $i] :
( ~ ( relation_of2 @ SY47 @ SV42 @ SY46 )
| ( relation_of2_as_subset @ SY47 @ SV42 @ SY46 ) )
| ~ ! [SY48: $i,SY49: $i] :
( ~ ( relation_of2_as_subset @ SY49 @ SV42 @ SY48 )
| ( relation_of2 @ SY49 @ SV42 @ SY48 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[362]) ).
thf(464,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( latt_str @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( ( bottom_of_semilattstr @ SX0 )
= ( join_of_latt_set @ SX0 @ empty_set ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[363]) ).
thf(465,plain,
( ( ~ ! [SX0: $i] : ( rel_str @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[364]) ).
thf(466,plain,
! [SV43: $i] :
( ( ! [SY50: $i] :
( ~ ( relation_of2 @ SY50 @ SV43 @ SV43 )
| ~ ( ~ ! [SY51: $i] :
( ! [SY52: $i] :
( ( rel_str_of @ SV43 @ SY50 )
!= ( rel_str_of @ SY51 @ SY52 ) )
| ( SV43 = SY51 ) )
| ~ ! [SY53: $i,SY54: $i] :
( ( ( rel_str_of @ SV43 @ SY50 )
!= ( rel_str_of @ SY53 @ SY54 ) )
| ( SY50 = SY54 ) ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[365]) ).
thf(467,plain,
( ( ~ ( one_sorted_str @ sK6_A )
| ~ ~ ( empty_carrier @ sK6_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[366]) ).
thf(468,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( complemented_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( complemented_lattstr @ SX0 )
| ( boolean_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[367]) ).
thf(469,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( v1_partfun1 @ ( k2_lattice3 @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( relation_of2_as_subset @ ( k2_lattice3 @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[368]) ).
thf(470,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ( empty @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ~ ( empty_carrier @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ( empty @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[369]) ).
thf(471,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( with_suprema_relstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( with_infima_relstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[370]) ).
thf(472,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( modular_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[371]) ).
thf(473,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( reflexive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( transitive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( antisymmetric_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[372]) ).
thf(474,plain,
( ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( bounded_relstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[373]) ).
thf(475,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[374]) ).
thf(476,plain,
( ( ~ ( rel_str @ sK16_A )
| ~ ( strict_rel_str @ sK16_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[375]) ).
thf(477,plain,
! [SV44: $i] :
( ( ~ ( ~ ( element @ ( sK10_B @ SV44 ) @ ( powerset @ SV44 ) )
| ~ ( empty @ ( sK10_B @ SV44 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[376]) ).
thf(478,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
| ~ ( meet_associative @ sK3_A ) )
| ~ ( meet_absorbing @ sK3_A ) )
| ~ ( join_absorbing @ sK3_A ) )
| ~ ( lattice @ sK3_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[377]) ).
thf(479,plain,
( ( ~ ! [SX0: $i] : ( latt_str @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[378]) ).
thf(480,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[379]) ).
thf(481,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
| ~ ( distributive_lattstr @ sK21_A ) )
| ~ ( modular_lattstr @ sK21_A ) )
| ~ ( lower_bounded_semilattstr @ sK21_A ) )
| ~ ( upper_bounded_semilattstr @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[380]) ).
thf(482,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( boolean_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[381]) ).
thf(483,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[382]) ).
thf(484,plain,
! [SV45: $i] :
( ( ~ ( ~ ! [SY55: $i,SY56: $i] :
( ( empty @ SV45 )
| ~ ( function @ SY55 )
| ~ ( quasi_total @ SY55 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY55 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SY56 )
| ~ ( quasi_total @ SY56 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY56 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SY55 @ SY56 ) ) )
| ~ ! [SY57: $i,SY58: $i] :
( ( empty @ SV45 )
| ~ ( function @ SY57 )
| ~ ( quasi_total @ SY57 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY57 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SY58 )
| ~ ( quasi_total @ SY58 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY58 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ( strict_latt_str @ ( latt_str_of @ SV45 @ SY57 @ SY58 ) ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[383]) ).
thf(485,plain,
( ( ~ ( latt_str @ sK7_A )
| ~ ( strict_latt_str @ sK7_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[384]) ).
thf(486,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( element @ SX0 @ ( powerset @ SX1 ) )
| ( subset @ SX0 @ SX1 ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( subset @ SX0 @ SX1 )
| ( element @ SX0 @ ( powerset @ SX1 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[385]) ).
thf(487,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( antisymmetric @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( transitive @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( v1_partfun1 @ ( the_InternalRel @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[386]) ).
thf(488,plain,
! [SV46: $i] :
( ( ! [SY59: $i] :
( ~ ( ~ ( ~ ( in @ ( sK2_C @ SY59 @ SV46 ) @ SV46 )
| ~ ( in @ ( sK2_C @ SY59 @ SV46 ) @ SY59 ) )
| ~ ( ( in @ ( sK2_C @ SY59 @ SV46 ) @ SV46 )
| ( in @ ( sK2_C @ SY59 @ SV46 ) @ SY59 ) ) )
| ( SV46 = SY59 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[387]) ).
thf(489,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[388]) ).
thf(490,plain,
! [SV47: $i] :
( ( ! [SY60: $i] :
~ ( ~ ~ ( ~ ( relation @ ( sK11_C @ SY60 @ SV47 ) )
| ~ ( relation_of2 @ ( sK11_C @ SY60 @ SV47 ) @ SV47 @ SY60 ) )
| ~ ( function @ ( sK11_C @ SY60 @ SV47 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[389]) ).
thf(491,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( bounded_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[390]) ).
thf(492,plain,
! [SV48: $i] :
( ( ( empty_carrier @ SV48 )
| ~ ( lattice @ SV48 )
| ~ ( complete_latt_str @ SV48 )
| ~ ( latt_str @ SV48 )
| ~ ( ~ ! [SY61: $i] :
( ( join_of_latt_set @ SV48 @ SY61 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY61 ) )
| ~ ! [SY62: $i] :
( ( meet_of_latt_set @ SV48 @ SY62 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY62 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[391]) ).
thf(493,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( complete_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[392]) ).
thf(494,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( bounded_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( complemented_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[393]) ).
thf(495,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
| ~ ( lower_bounded_semilattstr @ sK19_A ) )
| ~ ( upper_bounded_semilattstr @ sK19_A ) )
| ~ ( bounded_lattstr @ sK19_A ) )
| ~ ( complemented_lattstr @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[394]) ).
thf(496,plain,
! [SV49: $i] :
( ( ~ ( ~ ! [SY63: $i,SY64: $i] :
( ~ ( function @ SY63 )
| ~ ( quasi_total @ SY63 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY63 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SY64 )
| ~ ( quasi_total @ SY64 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY64 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( latt_str @ ( latt_str_of @ SV49 @ SY63 @ SY64 ) ) )
| ~ ! [SY65: $i,SY66: $i] :
( ~ ( function @ SY65 )
| ~ ( quasi_total @ SY65 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY65 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SY66 )
| ~ ( quasi_total @ SY66 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY66 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( strict_latt_str @ ( latt_str_of @ SV49 @ SY65 @ SY66 ) ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[395]) ).
thf(497,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[396]) ).
thf(498,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( function @ ( the_L_join @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_join @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( relation_of2_as_subset @ ( the_L_join @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[397]) ).
thf(499,plain,
! [SV50: $i] :
( ( ! [SY67: $i,SY68: $i] :
( ~ ( function @ SY67 )
| ~ ( quasi_total @ SY67 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( relation_of2 @ SY67 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( function @ SY68 )
| ~ ( quasi_total @ SY68 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( relation_of2 @ SY68 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ! [SY69: $i] :
~ ( ~ ~ ( ~ ( ! [SY70: $i,SY71: $i] :
( ( latt_str_of @ SV50 @ SY67 @ SY68 )
!= ( latt_str_of @ SY69 @ SY70 @ SY71 ) )
| ( SV50 = SY69 ) )
| ~ ! [SY72: $i] :
( ! [SY73: $i] :
( ( latt_str_of @ SV50 @ SY67 @ SY68 )
!= ( latt_str_of @ SY69 @ SY72 @ SY73 ) )
| ( SY67 = SY72 ) ) )
| ~ ! [SY74: $i,SY75: $i] :
( ( ( latt_str_of @ SV50 @ SY67 @ SY68 )
!= ( latt_str_of @ SY69 @ SY74 @ SY75 ) )
| ( SY68 = SY75 ) ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[398]) ).
thf(500,plain,
! [SV1: $i] :
( ( ( ~ ( rel_str @ SV1 ) )
= $true )
| ( ( ~ ( strict_rel_str @ SV1 )
| ( SV1
= ( rel_str_of @ ( the_carrier @ SV1 ) @ ( the_InternalRel @ SV1 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[399]) ).
thf(501,plain,
! [SV2: $i] :
( ( ( ~ ( latt_str @ SV2 ) )
= $true )
| ( ( ~ ( strict_latt_str @ SV2 )
| ( SV2
= ( latt_str_of @ ( the_carrier @ SV2 ) @ ( the_L_join @ SV2 ) @ ( the_L_meet @ SV2 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[400]) ).
thf(502,plain,
! [SV51: $i,SV3: $i] :
( ( ~ ( in @ SV3 @ SV51 )
| ~ ( in @ SV51 @ SV3 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[401]) ).
thf(503,plain,
! [SV4: $i] :
( ( ( ~ ( rel_str @ SV4 ) )
= $true )
| ( ( ~ ( with_suprema_relstr @ SV4 )
| ~ ( empty_carrier @ SV4 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[402]) ).
thf(504,plain,
! [SV52: $i,SV5: $i] :
( ( ! [SY76: $i] :
( ~ ( element @ SY76 @ ( powerset @ ( cartesian_product2 @ SV5 @ SV52 ) ) )
| ( relation @ SY76 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[403]) ).
thf(505,plain,
! [SV6: $i] :
( ( ( ~ ( rel_str @ SV6 ) )
= $true )
| ( ( ~ ( with_infima_relstr @ SV6 )
| ~ ( empty_carrier @ SV6 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[404]) ).
thf(506,plain,
! [SV7: $i] :
( ( ( ~ ( rel_str @ SV7 ) )
= $true )
| ( ( ~ ( lower_bounded_relstr @ SV7 )
| ~ ( upper_bounded_relstr @ SV7 )
| ( bounded_relstr @ SV7 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[405]) ).
thf(507,plain,
! [SV8: $i] :
( ( ( ~ ( rel_str @ SV8 ) )
= $true )
| ( ( ( bottom_of_relstr @ SV8 )
= ( join_on_relstr @ SV8 @ empty_set ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[406]) ).
thf(508,plain,
! [SV9: $i] :
( ( ( ( empty_carrier @ SV9 )
| ~ ( latt_str @ SV9 ) )
= $true )
| ( ( ! [SY23: $i] :
( ( meet_of_latt_set @ SV9 @ SY23 )
= ( join_of_latt_set @ SV9 @ ( a_2_2_lattice3 @ SV9 @ SY23 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[407]) ).
thf(509,plain,
! [SV10: $i] :
( ( ( ( empty_carrier @ SV10 )
| ~ ( lattice @ SV10 )
| ~ ( latt_str @ SV10 ) )
= $true )
| ( ( ( poset_of_lattice @ SV10 )
= ( rel_str_of @ ( the_carrier @ SV10 ) @ ( k2_lattice3 @ SV10 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[408]) ).
thf(510,plain,
! [SV12: $i] :
( ( ( ( empty_carrier @ SV12 )
| ~ ( latt_str @ SV12 ) )
= $true )
| ( ( ! [SY24: $i] : ( element @ ( join_of_latt_set @ SV12 @ SY24 ) @ ( the_carrier @ SV12 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[410]) ).
thf(511,plain,
! [SV13: $i] :
( ( ( ( empty_carrier @ SV13 )
| ~ ( latt_str @ SV13 ) )
= $true )
| ( ( ! [SY25: $i] : ( element @ ( meet_of_latt_set @ SV13 @ SY25 ) @ ( the_carrier @ SV13 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[411]) ).
thf(512,plain,
! [SV14: $i] :
( ( ( ~ ( rel_str @ SV14 ) )
= $true )
| ( ( ! [SY26: $i] : ( element @ ( join_on_relstr @ SV14 @ SY26 ) @ ( the_carrier @ SV14 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[412]) ).
thf(513,plain,
! [SV15: $i] :
( ( ( ~ ( rel_str @ SV15 ) )
= $true )
| ( ( ! [SY27: $i] : ( element @ ( meet_on_relstr @ SV15 @ SY27 ) @ ( the_carrier @ SV15 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[413]) ).
thf(514,plain,
! [SV16: $i] :
( ( ( ~ ( rel_str @ SV16 ) )
= $true )
| ( ( element @ ( bottom_of_relstr @ SV16 ) @ ( the_carrier @ SV16 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[414]) ).
thf(515,plain,
! [SV17: $i] :
( ( ( ( empty_carrier @ SV17 )
| ~ ( meet_semilatt_str @ SV17 ) )
= $true )
| ( ( element @ ( bottom_of_semilattstr @ SV17 ) @ ( the_carrier @ SV17 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[415]) ).
thf(516,plain,
! [SV18: $i] :
( ( ( ( empty_carrier @ SV18 )
| ~ ( lattice @ SV18 )
| ~ ( latt_str @ SV18 ) )
= $true )
| ( ( relation @ ( relation_of_lattice @ SV18 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[416]) ).
thf(517,plain,
! [SV19: $i] :
( ( ( ~ ( meet_semilatt_str @ SV19 ) )
= $true )
| ( ( one_sorted_str @ SV19 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[417]) ).
thf(518,plain,
! [SV20: $i] :
( ( ( ~ ( rel_str @ SV20 ) )
= $true )
| ( ( one_sorted_str @ SV20 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[418]) ).
thf(519,plain,
! [SV21: $i] :
( ( ( ~ ( join_semilatt_str @ SV21 ) )
= $true )
| ( ( one_sorted_str @ SV21 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[419]) ).
thf(520,plain,
! [SV53: $i,SV22: $i] :
( ( ! [SY77: $i] :
( ~ ( relation_of2_as_subset @ SY77 @ SV22 @ SV53 )
| ( element @ SY77 @ ( powerset @ ( cartesian_product2 @ SV22 @ SV53 ) ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[420]) ).
thf(521,plain,
! [SV23: $i] :
( ( ( ~ ( rel_str @ SV23 ) )
= $true )
| ( ( relation_of2_as_subset @ ( the_InternalRel @ SV23 ) @ ( the_carrier @ SV23 ) @ ( the_carrier @ SV23 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[421]) ).
thf(522,plain,
! [SV24: $i,SV54: $i] :
( ( relation_of2 @ ( sK25_C @ SV54 @ SV24 ) @ SV24 @ SV54 )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[422]) ).
thf(523,plain,
! [SV26: $i,SV55: $i] :
( ( relation_of2_as_subset @ ( sK23_C @ SV55 @ SV26 ) @ SV26 @ SV55 )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[424]) ).
thf(524,plain,
! [SV27: $i] :
( ( ( ( empty_carrier @ SV27 )
| ~ ( one_sorted_str @ SV27 ) )
= $true )
| ( ( ~ ( empty @ ( the_carrier @ SV27 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[425]) ).
thf(525,plain,
! [SV28: $i] :
( ( empty @ ( powerset @ SV28 ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[426]) ).
thf(526,plain,
! [SV56: $i,SV29: $i] :
( ( ( empty @ SV29 )
| ( empty @ SV56 )
| ~ ( empty @ ( cartesian_product2 @ SV29 @ SV56 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[427]) ).
thf(527,plain,
! [SV30: $i] :
( ( ( ( empty_carrier @ SV30 )
| ~ ( lattice @ SV30 )
| ~ ( latt_str @ SV30 ) )
= $true )
| ( ( ( k2_lattice3 @ SV30 )
= ( relation_of_lattice @ SV30 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[429]) ).
thf(528,plain,
! [SV57: $i,SV32: $i] :
( ( ~ ( in @ SV32 @ SV57 )
| ( element @ SV32 @ SV57 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[431]) ).
thf(529,plain,
! [SV58: $i,SV33: $i] :
( ( ~ ( element @ SV33 @ SV58 )
| ( empty @ SV58 )
| ( in @ SV33 @ SV58 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[432]) ).
thf(530,plain,
! [SV34: $i,SV59: $i] :
( ( ! [SY78: $i] :
( ~ ( element @ SV59 @ ( powerset @ SY78 ) )
| ~ ( in @ SV34 @ SV59 )
| ( element @ SV34 @ SY78 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[433]) ).
thf(531,plain,
! [SV35: $i,SV60: $i] :
( ( ! [SY79: $i] :
( ~ ( element @ SV60 @ ( powerset @ SY79 ) )
| ~ ( in @ SV35 @ SV60 )
| ~ ( empty @ SY79 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[434]) ).
thf(532,plain,
! [SV36: $i] :
( ( ( ~ ( empty @ SV36 ) )
= $true )
| ( ( SV36 = empty_set )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[435]) ).
thf(533,plain,
! [SV37: $i,SV61: $i] :
( ( ~ ( empty @ SV61 )
| ~ ( in @ SV37 @ SV61 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[436]) ).
thf(534,plain,
! [SV62: $i,SV38: $i] :
( ( ( SV38 = SV62 )
| ~ ( empty @ SV38 )
| ~ ( empty @ SV62 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[437]) ).
thf(535,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[439]) ).
thf(536,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[439]) ).
thf(537,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[440]) ).
thf(538,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[440]) ).
thf(539,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( join_commutative @ SX0 )
| ~ ( join_associative @ SX0 )
| ~ ( meet_commutative @ SX0 )
| ~ ( meet_associative @ SX0 )
| ~ ( meet_absorbing @ SX0 )
| ~ ( join_absorbing @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[441]) ).
thf(540,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( join_commutative @ SX0 )
| ~ ( join_associative @ SX0 )
| ~ ( meet_commutative @ SX0 )
| ~ ( meet_associative @ SX0 )
| ~ ( meet_absorbing @ SX0 )
| ~ ( join_absorbing @ SX0 )
| ( lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[441]) ).
thf(541,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( join_semilatt_str @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[442]) ).
thf(542,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( meet_semilatt_str @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[442]) ).
thf(543,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[443]) ).
thf(544,plain,
( ( ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[443]) ).
thf(545,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
| ~ ( antisymmetric_relstr @ sK13_A ) )
| ~ ( with_suprema_relstr @ sK13_A ) )
| ~ ( with_infima_relstr @ sK13_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[444]) ).
thf(546,plain,
( ( ~ ( complete_relstr @ sK13_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[444]) ).
thf(547,plain,
! [SV39: $i] :
( ( ~ ! [SY41: $i] :
( ( empty_carrier @ SY41 )
| ~ ( latt_str @ SY41 )
| ! [SY42: $i] :
( ! [SY43: $i] :
( ( SV39 != SY43 )
| ~ ( element @ SY43 @ ( the_carrier @ SY41 ) )
| ~ ( latt_set_smaller @ SY41 @ SY43 @ SY42 ) )
| ( in @ SV39 @ ( a_2_2_lattice3 @ SY41 @ SY42 ) ) ) )
| ~ ! [SY44: $i] :
( ( empty_carrier @ SY44 )
| ~ ( latt_str @ SY44 )
| ! [SY45: $i] :
( ~ ( in @ SV39 @ ( a_2_2_lattice3 @ SY44 @ SY45 ) )
| ~ ( ~ ~ ( ( SV39
!= ( sK22_D @ SY45 @ SY44 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SY45 @ SY44 @ SV39 ) @ ( the_carrier @ SY44 ) ) )
| ~ ( latt_set_smaller @ SY44 @ ( sK22_D @ SY45 @ SY44 @ SV39 ) @ SY45 ) ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[445]) ).
thf(548,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
| ~ ( lattice @ sK20_A ) )
| ~ ( lower_bounded_semilattstr @ sK20_A ) )
| ~ ( upper_bounded_semilattstr @ sK20_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[446]) ).
thf(549,plain,
( ( ~ ( bounded_lattstr @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[446]) ).
thf(550,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
| ~ ( complete_relstr @ sK8_A ) )
| ~ ( lower_bounded_relstr @ sK8_A ) )
| ~ ( upper_bounded_relstr @ sK8_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[447]) ).
thf(551,plain,
( ( ~ ( bounded_relstr @ sK8_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[447]) ).
thf(552,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
| ~ ( strict_rel_str @ sK12_A ) )
| ~ ( reflexive_relstr @ sK12_A ) )
| ~ ( transitive_relstr @ sK12_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[448]) ).
thf(553,plain,
( ( ~ ( antisymmetric_relstr @ sK12_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[448]) ).
thf(554,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_suprema_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_infima_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[449]) ).
thf(555,plain,
( ( ~ ! [SX0: $i] : ( complete_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[449]) ).
thf(556,plain,
( ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ~ ( bounded_relstr @ SX0 )
| ( lower_bounded_relstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[450]) ).
thf(557,plain,
( ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ~ ( bounded_relstr @ SX0 )
| ( upper_bounded_relstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[450]) ).
thf(558,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[451]) ).
thf(559,plain,
( ( ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[451]) ).
thf(560,plain,
( ( ~ ! [SX0: $i] :
( ( bottom_of_semilattstr @ ( boole_lattice @ SX0 ) )
= empty_set ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[452]) ).
thf(561,plain,
( ( ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[452]) ).
thf(562,plain,
! [SV40: $i] :
( ( ( empty @ SV40 )
= $true )
| ( ( ~ ( ~ ( element @ ( sK15_B @ SV40 ) @ ( powerset @ SV40 ) )
| ~ ~ ( empty @ ( sK15_B @ SV40 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[453]) ).
thf(563,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[454]) ).
thf(564,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ( bounded_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[454]) ).
thf(565,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[455]) ).
thf(566,plain,
( ( ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[455]) ).
thf(567,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( boolean_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[456]) ).
thf(568,plain,
( ( ~ ! [SX0: $i] : ( complete_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[456]) ).
thf(569,plain,
! [SV41: $i] :
( ( ( ( empty_carrier @ SV41 )
| ~ ( one_sorted_str @ SV41 ) )
= $true )
| ( ( ~ ( ~ ( element @ ( sK5_B @ SV41 ) @ ( powerset @ ( the_carrier @ SV41 ) ) )
| ~ ~ ( empty @ ( sK5_B @ SV41 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[457]) ).
thf(570,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( function @ ( the_L_meet @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_meet @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[458]) ).
thf(571,plain,
( ( ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( relation_of2_as_subset @ ( the_L_meet @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[458]) ).
thf(572,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_absorbing @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[459]) ).
thf(573,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[459]) ).
thf(574,plain,
( ( ~ ~ ( ~ ( latt_str @ sK4_A )
| ~ ~ ( empty_carrier @ sK4_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[460]) ).
thf(575,plain,
( ( ~ ( strict_latt_str @ sK4_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[460]) ).
thf(576,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
| ~ ( reflexive_relstr @ sK17_A ) )
| ~ ( transitive_relstr @ sK17_A ) )
| ~ ( antisymmetric_relstr @ sK17_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[461]) ).
thf(577,plain,
( ( ~ ( complete_relstr @ sK17_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[461]) ).
thf(578,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
| ~ ( upper_bounded_semilattstr @ sK18_A ) )
| ~ ( bounded_lattstr @ sK18_A ) )
| ~ ( complemented_lattstr @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[462]) ).
thf(579,plain,
( ( ~ ( boolean_lattstr @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[462]) ).
thf(580,plain,
! [SV42: $i] :
( ( ~ ! [SY46: $i,SY47: $i] :
( ~ ( relation_of2 @ SY47 @ SV42 @ SY46 )
| ( relation_of2_as_subset @ SY47 @ SV42 @ SY46 ) )
| ~ ! [SY48: $i,SY49: $i] :
( ~ ( relation_of2_as_subset @ SY49 @ SV42 @ SY48 )
| ( relation_of2 @ SY49 @ SV42 @ SY48 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[463]) ).
thf(581,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( latt_str @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[464]) ).
thf(582,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( ( bottom_of_semilattstr @ SX0 )
= ( join_of_latt_set @ SX0 @ empty_set ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[464]) ).
thf(583,plain,
( ( ~ ! [SX0: $i] : ( rel_str @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[465]) ).
thf(584,plain,
( ( ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[465]) ).
thf(585,plain,
! [SV43: $i,SV63: $i] :
( ( ~ ( relation_of2 @ SV63 @ SV43 @ SV43 )
| ~ ( ~ ! [SY80: $i] :
( ! [SY81: $i] :
( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY80 @ SY81 ) )
| ( SV43 = SY80 ) )
| ~ ! [SY82: $i,SY83: $i] :
( ( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY82 @ SY83 ) )
| ( SV63 = SY83 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[466]) ).
thf(586,plain,
( ( ~ ( one_sorted_str @ sK6_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[467]) ).
thf(587,plain,
( ( ~ ~ ( empty_carrier @ sK6_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[467]) ).
thf(588,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( complemented_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[468]) ).
thf(589,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( complemented_lattstr @ SX0 )
| ( boolean_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[468]) ).
thf(590,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( v1_partfun1 @ ( k2_lattice3 @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[469]) ).
thf(591,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( relation_of2_as_subset @ ( k2_lattice3 @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[469]) ).
thf(592,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ( empty @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ~ ( empty_carrier @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[470]) ).
thf(593,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ( empty @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[470]) ).
thf(594,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( with_suprema_relstr @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[471]) ).
thf(595,plain,
( ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( with_infima_relstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[471]) ).
thf(596,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[472]) ).
thf(597,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( modular_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[472]) ).
thf(598,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( reflexive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( transitive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[473]) ).
thf(599,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( antisymmetric_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[473]) ).
thf(600,plain,
( ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[474]) ).
thf(601,plain,
( ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( bounded_relstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[474]) ).
thf(602,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[475]) ).
thf(603,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[475]) ).
thf(604,plain,
( ( ~ ( rel_str @ sK16_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[476]) ).
thf(605,plain,
( ( ~ ( strict_rel_str @ sK16_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[476]) ).
thf(606,plain,
! [SV44: $i] :
( ( ~ ( element @ ( sK10_B @ SV44 ) @ ( powerset @ SV44 ) )
| ~ ( empty @ ( sK10_B @ SV44 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[477]) ).
thf(607,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
| ~ ( meet_associative @ sK3_A ) )
| ~ ( meet_absorbing @ sK3_A ) )
| ~ ( join_absorbing @ sK3_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[478]) ).
thf(608,plain,
( ( ~ ( lattice @ sK3_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[478]) ).
thf(609,plain,
( ( ~ ! [SX0: $i] : ( latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[479]) ).
thf(610,plain,
( ( ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[479]) ).
thf(611,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[480]) ).
thf(612,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[480]) ).
thf(613,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
| ~ ( distributive_lattstr @ sK21_A ) )
| ~ ( modular_lattstr @ sK21_A ) )
| ~ ( lower_bounded_semilattstr @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[481]) ).
thf(614,plain,
( ( ~ ( upper_bounded_semilattstr @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[481]) ).
thf(615,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[482]) ).
thf(616,plain,
( ( ~ ! [SX0: $i] : ( boolean_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[482]) ).
thf(617,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[483]) ).
thf(618,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[483]) ).
thf(619,plain,
! [SV45: $i] :
( ( ~ ! [SY55: $i,SY56: $i] :
( ( empty @ SV45 )
| ~ ( function @ SY55 )
| ~ ( quasi_total @ SY55 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY55 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SY56 )
| ~ ( quasi_total @ SY56 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY56 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SY55 @ SY56 ) ) )
| ~ ! [SY57: $i,SY58: $i] :
( ( empty @ SV45 )
| ~ ( function @ SY57 )
| ~ ( quasi_total @ SY57 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY57 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SY58 )
| ~ ( quasi_total @ SY58 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY58 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ( strict_latt_str @ ( latt_str_of @ SV45 @ SY57 @ SY58 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[484]) ).
thf(620,plain,
( ( ~ ( latt_str @ sK7_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[485]) ).
thf(621,plain,
( ( ~ ( strict_latt_str @ sK7_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[485]) ).
thf(622,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( element @ SX0 @ ( powerset @ SX1 ) )
| ( subset @ SX0 @ SX1 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[486]) ).
thf(623,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( subset @ SX0 @ SX1 )
| ( element @ SX0 @ ( powerset @ SX1 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[486]) ).
thf(624,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( antisymmetric @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( transitive @ ( the_InternalRel @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[487]) ).
thf(625,plain,
( ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( v1_partfun1 @ ( the_InternalRel @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[487]) ).
thf(626,plain,
! [SV46: $i,SV64: $i] :
( ( ~ ( ~ ( ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
| ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) )
| ~ ( ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
| ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) ) )
| ( SV46 = SV64 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[488]) ).
thf(627,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[489]) ).
thf(628,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[489]) ).
thf(629,plain,
! [SV47: $i,SV65: $i] :
( ( ~ ( ~ ~ ( ~ ( relation @ ( sK11_C @ SV65 @ SV47 ) )
| ~ ( relation_of2 @ ( sK11_C @ SV65 @ SV47 ) @ SV47 @ SV65 ) )
| ~ ( function @ ( sK11_C @ SV65 @ SV47 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[490]) ).
thf(630,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[491]) ).
thf(631,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( bounded_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[491]) ).
thf(632,plain,
! [SV48: $i] :
( ( ( ( empty_carrier @ SV48 )
| ~ ( lattice @ SV48 )
| ~ ( complete_latt_str @ SV48 )
| ~ ( latt_str @ SV48 ) )
= $true )
| ( ( ~ ( ~ ! [SY61: $i] :
( ( join_of_latt_set @ SV48 @ SY61 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY61 ) )
| ~ ! [SY62: $i] :
( ( meet_of_latt_set @ SV48 @ SY62 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY62 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[492]) ).
thf(633,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[493]) ).
thf(634,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( complete_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[493]) ).
thf(635,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( bounded_lattstr @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[494]) ).
thf(636,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( complemented_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[494]) ).
thf(637,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
| ~ ( lower_bounded_semilattstr @ sK19_A ) )
| ~ ( upper_bounded_semilattstr @ sK19_A ) )
| ~ ( bounded_lattstr @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[495]) ).
thf(638,plain,
( ( ~ ( complemented_lattstr @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[495]) ).
thf(639,plain,
! [SV49: $i] :
( ( ~ ! [SY63: $i,SY64: $i] :
( ~ ( function @ SY63 )
| ~ ( quasi_total @ SY63 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY63 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SY64 )
| ~ ( quasi_total @ SY64 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY64 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( latt_str @ ( latt_str_of @ SV49 @ SY63 @ SY64 ) ) )
| ~ ! [SY65: $i,SY66: $i] :
( ~ ( function @ SY65 )
| ~ ( quasi_total @ SY65 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY65 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SY66 )
| ~ ( quasi_total @ SY66 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY66 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( strict_latt_str @ ( latt_str_of @ SV49 @ SY65 @ SY66 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[496]) ).
thf(640,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[497]) ).
thf(641,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[497]) ).
thf(642,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( function @ ( the_L_join @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_join @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[498]) ).
thf(643,plain,
( ( ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( relation_of2_as_subset @ ( the_L_join @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[498]) ).
thf(644,plain,
! [SV50: $i,SV66: $i] :
( ( ! [SY84: $i] :
( ~ ( function @ SV66 )
| ~ ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( function @ SY84 )
| ~ ( quasi_total @ SY84 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( relation_of2 @ SY84 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ! [SY85: $i] :
~ ( ~ ~ ( ~ ( ! [SY86: $i,SY87: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SY84 )
!= ( latt_str_of @ SY85 @ SY86 @ SY87 ) )
| ( SV50 = SY85 ) )
| ~ ! [SY88: $i] :
( ! [SY89: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SY84 )
!= ( latt_str_of @ SY85 @ SY88 @ SY89 ) )
| ( SV66 = SY88 ) ) )
| ~ ! [SY90: $i,SY91: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SY84 )
!= ( latt_str_of @ SY85 @ SY90 @ SY91 ) )
| ( SY84 = SY91 ) ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[499]) ).
thf(645,plain,
! [SV1: $i] :
( ( ( rel_str @ SV1 )
= $false )
| ( ( ~ ( strict_rel_str @ SV1 )
| ( SV1
= ( rel_str_of @ ( the_carrier @ SV1 ) @ ( the_InternalRel @ SV1 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[500]) ).
thf(646,plain,
! [SV2: $i] :
( ( ( latt_str @ SV2 )
= $false )
| ( ( ~ ( strict_latt_str @ SV2 )
| ( SV2
= ( latt_str_of @ ( the_carrier @ SV2 ) @ ( the_L_join @ SV2 ) @ ( the_L_meet @ SV2 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[501]) ).
thf(647,plain,
! [SV51: $i,SV3: $i] :
( ( ( ~ ( in @ SV3 @ SV51 ) )
= $true )
| ( ( ~ ( in @ SV51 @ SV3 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[502]) ).
thf(648,plain,
! [SV4: $i] :
( ( ( rel_str @ SV4 )
= $false )
| ( ( ~ ( with_suprema_relstr @ SV4 )
| ~ ( empty_carrier @ SV4 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[503]) ).
thf(649,plain,
! [SV52: $i,SV5: $i,SV67: $i] :
( ( ~ ( element @ SV67 @ ( powerset @ ( cartesian_product2 @ SV5 @ SV52 ) ) )
| ( relation @ SV67 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[504]) ).
thf(650,plain,
! [SV6: $i] :
( ( ( rel_str @ SV6 )
= $false )
| ( ( ~ ( with_infima_relstr @ SV6 )
| ~ ( empty_carrier @ SV6 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[505]) ).
thf(651,plain,
! [SV7: $i] :
( ( ( rel_str @ SV7 )
= $false )
| ( ( ~ ( lower_bounded_relstr @ SV7 )
| ~ ( upper_bounded_relstr @ SV7 )
| ( bounded_relstr @ SV7 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[506]) ).
thf(652,plain,
! [SV8: $i] :
( ( ( rel_str @ SV8 )
= $false )
| ( ( ( bottom_of_relstr @ SV8 )
= ( join_on_relstr @ SV8 @ empty_set ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[507]) ).
thf(653,plain,
! [SV9: $i] :
( ( ( empty_carrier @ SV9 )
= $true )
| ( ( ~ ( latt_str @ SV9 ) )
= $true )
| ( ( ! [SY23: $i] :
( ( meet_of_latt_set @ SV9 @ SY23 )
= ( join_of_latt_set @ SV9 @ ( a_2_2_lattice3 @ SV9 @ SY23 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[508]) ).
thf(654,plain,
! [SV10: $i] :
( ( ( ( empty_carrier @ SV10 )
| ~ ( lattice @ SV10 ) )
= $true )
| ( ( ~ ( latt_str @ SV10 ) )
= $true )
| ( ( ( poset_of_lattice @ SV10 )
= ( rel_str_of @ ( the_carrier @ SV10 ) @ ( k2_lattice3 @ SV10 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[509]) ).
thf(655,plain,
! [SV12: $i] :
( ( ( empty_carrier @ SV12 )
= $true )
| ( ( ~ ( latt_str @ SV12 ) )
= $true )
| ( ( ! [SY24: $i] : ( element @ ( join_of_latt_set @ SV12 @ SY24 ) @ ( the_carrier @ SV12 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[510]) ).
thf(656,plain,
! [SV13: $i] :
( ( ( empty_carrier @ SV13 )
= $true )
| ( ( ~ ( latt_str @ SV13 ) )
= $true )
| ( ( ! [SY25: $i] : ( element @ ( meet_of_latt_set @ SV13 @ SY25 ) @ ( the_carrier @ SV13 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[511]) ).
thf(657,plain,
! [SV14: $i] :
( ( ( rel_str @ SV14 )
= $false )
| ( ( ! [SY26: $i] : ( element @ ( join_on_relstr @ SV14 @ SY26 ) @ ( the_carrier @ SV14 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[512]) ).
thf(658,plain,
! [SV15: $i] :
( ( ( rel_str @ SV15 )
= $false )
| ( ( ! [SY27: $i] : ( element @ ( meet_on_relstr @ SV15 @ SY27 ) @ ( the_carrier @ SV15 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[513]) ).
thf(659,plain,
! [SV16: $i] :
( ( ( rel_str @ SV16 )
= $false )
| ( ( element @ ( bottom_of_relstr @ SV16 ) @ ( the_carrier @ SV16 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[514]) ).
thf(660,plain,
! [SV17: $i] :
( ( ( empty_carrier @ SV17 )
= $true )
| ( ( ~ ( meet_semilatt_str @ SV17 ) )
= $true )
| ( ( element @ ( bottom_of_semilattstr @ SV17 ) @ ( the_carrier @ SV17 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[515]) ).
thf(661,plain,
! [SV18: $i] :
( ( ( ( empty_carrier @ SV18 )
| ~ ( lattice @ SV18 ) )
= $true )
| ( ( ~ ( latt_str @ SV18 ) )
= $true )
| ( ( relation @ ( relation_of_lattice @ SV18 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[516]) ).
thf(662,plain,
! [SV19: $i] :
( ( ( meet_semilatt_str @ SV19 )
= $false )
| ( ( one_sorted_str @ SV19 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[517]) ).
thf(663,plain,
! [SV20: $i] :
( ( ( rel_str @ SV20 )
= $false )
| ( ( one_sorted_str @ SV20 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[518]) ).
thf(664,plain,
! [SV21: $i] :
( ( ( join_semilatt_str @ SV21 )
= $false )
| ( ( one_sorted_str @ SV21 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[519]) ).
thf(665,plain,
! [SV53: $i,SV22: $i,SV68: $i] :
( ( ~ ( relation_of2_as_subset @ SV68 @ SV22 @ SV53 )
| ( element @ SV68 @ ( powerset @ ( cartesian_product2 @ SV22 @ SV53 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[520]) ).
thf(666,plain,
! [SV23: $i] :
( ( ( rel_str @ SV23 )
= $false )
| ( ( relation_of2_as_subset @ ( the_InternalRel @ SV23 ) @ ( the_carrier @ SV23 ) @ ( the_carrier @ SV23 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[521]) ).
thf(667,plain,
! [SV27: $i] :
( ( ( empty_carrier @ SV27 )
= $true )
| ( ( ~ ( one_sorted_str @ SV27 ) )
= $true )
| ( ( ~ ( empty @ ( the_carrier @ SV27 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[524]) ).
thf(668,plain,
! [SV56: $i,SV29: $i] :
( ( ( ( empty @ SV29 )
| ( empty @ SV56 ) )
= $true )
| ( ( ~ ( empty @ ( cartesian_product2 @ SV29 @ SV56 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[526]) ).
thf(669,plain,
! [SV30: $i] :
( ( ( ( empty_carrier @ SV30 )
| ~ ( lattice @ SV30 ) )
= $true )
| ( ( ~ ( latt_str @ SV30 ) )
= $true )
| ( ( ( k2_lattice3 @ SV30 )
= ( relation_of_lattice @ SV30 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[527]) ).
thf(670,plain,
! [SV57: $i,SV32: $i] :
( ( ( ~ ( in @ SV32 @ SV57 ) )
= $true )
| ( ( element @ SV32 @ SV57 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[528]) ).
thf(671,plain,
! [SV58: $i,SV33: $i] :
( ( ( ~ ( element @ SV33 @ SV58 ) )
= $true )
| ( ( ( empty @ SV58 )
| ( in @ SV33 @ SV58 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[529]) ).
thf(672,plain,
! [SV34: $i,SV69: $i,SV59: $i] :
( ( ~ ( element @ SV59 @ ( powerset @ SV69 ) )
| ~ ( in @ SV34 @ SV59 )
| ( element @ SV34 @ SV69 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[530]) ).
thf(673,plain,
! [SV35: $i,SV70: $i,SV60: $i] :
( ( ~ ( element @ SV60 @ ( powerset @ SV70 ) )
| ~ ( in @ SV35 @ SV60 )
| ~ ( empty @ SV70 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[531]) ).
thf(674,plain,
! [SV36: $i] :
( ( ( empty @ SV36 )
= $false )
| ( ( SV36 = empty_set )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[532]) ).
thf(675,plain,
! [SV37: $i,SV61: $i] :
( ( ( ~ ( empty @ SV61 ) )
= $true )
| ( ( ~ ( in @ SV37 @ SV61 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[533]) ).
thf(676,plain,
! [SV62: $i,SV38: $i] :
( ( ( ( SV38 = SV62 )
| ~ ( empty @ SV38 ) )
= $true )
| ( ( ~ ( empty @ SV62 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[534]) ).
thf(677,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[535]) ).
thf(678,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[536]) ).
thf(679,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[537]) ).
thf(680,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[538]) ).
thf(681,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( join_commutative @ SX0 )
| ~ ( join_associative @ SX0 )
| ~ ( meet_commutative @ SX0 )
| ~ ( meet_associative @ SX0 )
| ~ ( meet_absorbing @ SX0 )
| ~ ( join_absorbing @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[539]) ).
thf(682,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( join_commutative @ SX0 )
| ~ ( join_associative @ SX0 )
| ~ ( meet_commutative @ SX0 )
| ~ ( meet_associative @ SX0 )
| ~ ( meet_absorbing @ SX0 )
| ~ ( join_absorbing @ SX0 )
| ( lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[540]) ).
thf(683,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( join_semilatt_str @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[541]) ).
thf(684,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( meet_semilatt_str @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[542]) ).
thf(685,plain,
( ( ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[543]) ).
thf(686,plain,
( ( ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[544]) ).
thf(687,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
| ~ ( antisymmetric_relstr @ sK13_A ) )
| ~ ( with_suprema_relstr @ sK13_A ) )
| ~ ( with_infima_relstr @ sK13_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[545]) ).
thf(688,plain,
( ( complete_relstr @ sK13_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[546]) ).
thf(689,plain,
! [SV39: $i] :
( ( ~ ! [SY41: $i] :
( ( empty_carrier @ SY41 )
| ~ ( latt_str @ SY41 )
| ! [SY42: $i] :
( ! [SY43: $i] :
( ( SV39 != SY43 )
| ~ ( element @ SY43 @ ( the_carrier @ SY41 ) )
| ~ ( latt_set_smaller @ SY41 @ SY43 @ SY42 ) )
| ( in @ SV39 @ ( a_2_2_lattice3 @ SY41 @ SY42 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[547]) ).
thf(690,plain,
! [SV39: $i] :
( ( ~ ! [SY44: $i] :
( ( empty_carrier @ SY44 )
| ~ ( latt_str @ SY44 )
| ! [SY45: $i] :
( ~ ( in @ SV39 @ ( a_2_2_lattice3 @ SY44 @ SY45 ) )
| ~ ( ~ ~ ( ( SV39
!= ( sK22_D @ SY45 @ SY44 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SY45 @ SY44 @ SV39 ) @ ( the_carrier @ SY44 ) ) )
| ~ ( latt_set_smaller @ SY44 @ ( sK22_D @ SY45 @ SY44 @ SV39 ) @ SY45 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[547]) ).
thf(691,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
| ~ ( lattice @ sK20_A ) )
| ~ ( lower_bounded_semilattstr @ sK20_A ) )
| ~ ( upper_bounded_semilattstr @ sK20_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[548]) ).
thf(692,plain,
( ( bounded_lattstr @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[549]) ).
thf(693,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
| ~ ( complete_relstr @ sK8_A ) )
| ~ ( lower_bounded_relstr @ sK8_A ) )
| ~ ( upper_bounded_relstr @ sK8_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[550]) ).
thf(694,plain,
( ( bounded_relstr @ sK8_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[551]) ).
thf(695,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
| ~ ( strict_rel_str @ sK12_A ) )
| ~ ( reflexive_relstr @ sK12_A ) )
| ~ ( transitive_relstr @ sK12_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[552]) ).
thf(696,plain,
( ( antisymmetric_relstr @ sK12_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[553]) ).
thf(697,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_suprema_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_infima_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[554]) ).
thf(698,plain,
( ( ! [SX0: $i] : ( complete_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[555]) ).
thf(699,plain,
( ( ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ~ ( bounded_relstr @ SX0 )
| ( lower_bounded_relstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[556]) ).
thf(700,plain,
( ( ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ~ ( bounded_relstr @ SX0 )
| ( upper_bounded_relstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[557]) ).
thf(701,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[558]) ).
thf(702,plain,
( ( ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[559]) ).
thf(703,plain,
( ( ! [SX0: $i] :
( ( bottom_of_semilattstr @ ( boole_lattice @ SX0 ) )
= empty_set ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[560]) ).
thf(704,plain,
( ( ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[561]) ).
thf(705,plain,
! [SV40: $i] :
( ( ( ~ ( element @ ( sK15_B @ SV40 ) @ ( powerset @ SV40 ) )
| ~ ~ ( empty @ ( sK15_B @ SV40 ) ) )
= $false )
| ( ( empty @ SV40 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[562]) ).
thf(706,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[563]) ).
thf(707,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ( bounded_lattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[564]) ).
thf(708,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[565]) ).
thf(709,plain,
( ( ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[566]) ).
thf(710,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( boolean_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[567]) ).
thf(711,plain,
( ( ! [SX0: $i] : ( complete_latt_str @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[568]) ).
thf(712,plain,
! [SV41: $i] :
( ( ( empty_carrier @ SV41 )
= $true )
| ( ( ~ ( one_sorted_str @ SV41 ) )
= $true )
| ( ( ~ ( ~ ( element @ ( sK5_B @ SV41 ) @ ( powerset @ ( the_carrier @ SV41 ) ) )
| ~ ~ ( empty @ ( sK5_B @ SV41 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[569]) ).
thf(713,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( function @ ( the_L_meet @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_meet @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[570]) ).
thf(714,plain,
( ( ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( relation_of2_as_subset @ ( the_L_meet @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[571]) ).
thf(715,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_absorbing @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[572]) ).
thf(716,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_absorbing @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[573]) ).
thf(717,plain,
( ( ~ ( ~ ( latt_str @ sK4_A )
| ~ ~ ( empty_carrier @ sK4_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[574]) ).
thf(718,plain,
( ( strict_latt_str @ sK4_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[575]) ).
thf(719,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
| ~ ( reflexive_relstr @ sK17_A ) )
| ~ ( transitive_relstr @ sK17_A ) )
| ~ ( antisymmetric_relstr @ sK17_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[576]) ).
thf(720,plain,
( ( complete_relstr @ sK17_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[577]) ).
thf(721,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
| ~ ( upper_bounded_semilattstr @ sK18_A ) )
| ~ ( bounded_lattstr @ sK18_A ) )
| ~ ( complemented_lattstr @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[578]) ).
thf(722,plain,
( ( boolean_lattstr @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[579]) ).
thf(723,plain,
! [SV42: $i] :
( ( ~ ! [SY46: $i,SY47: $i] :
( ~ ( relation_of2 @ SY47 @ SV42 @ SY46 )
| ( relation_of2_as_subset @ SY47 @ SV42 @ SY46 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[580]) ).
thf(724,plain,
! [SV42: $i] :
( ( ~ ! [SY48: $i,SY49: $i] :
( ~ ( relation_of2_as_subset @ SY49 @ SV42 @ SY48 )
| ( relation_of2 @ SY49 @ SV42 @ SY48 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[580]) ).
thf(725,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( latt_str @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[581]) ).
thf(726,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( ( bottom_of_semilattstr @ SX0 )
= ( join_of_latt_set @ SX0 @ empty_set ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[582]) ).
thf(727,plain,
( ( ! [SX0: $i] : ( rel_str @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[583]) ).
thf(728,plain,
( ( ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[584]) ).
thf(729,plain,
! [SV43: $i,SV63: $i] :
( ( ( ~ ( relation_of2 @ SV63 @ SV43 @ SV43 ) )
= $true )
| ( ( ~ ( ~ ! [SY80: $i] :
( ! [SY81: $i] :
( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY80 @ SY81 ) )
| ( SV43 = SY80 ) )
| ~ ! [SY82: $i,SY83: $i] :
( ( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY82 @ SY83 ) )
| ( SV63 = SY83 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[585]) ).
thf(730,plain,
( ( one_sorted_str @ sK6_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[586]) ).
thf(731,plain,
( ( ~ ( empty_carrier @ sK6_A ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[587]) ).
thf(732,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( complemented_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[588]) ).
thf(733,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( complemented_lattstr @ SX0 )
| ( boolean_lattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[589]) ).
thf(734,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( v1_partfun1 @ ( k2_lattice3 @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[590]) ).
thf(735,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( relation_of2_as_subset @ ( k2_lattice3 @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[591]) ).
thf(736,plain,
( ( ! [SX0: $i,SX1: $i] :
( ( empty @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ~ ( empty_carrier @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[592]) ).
thf(737,plain,
( ( ! [SX0: $i,SX1: $i] :
( ( empty @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[593]) ).
thf(738,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( with_suprema_relstr @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[594]) ).
thf(739,plain,
( ( ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( with_infima_relstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[595]) ).
thf(740,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[596]) ).
thf(741,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( modular_lattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[597]) ).
thf(742,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( reflexive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( transitive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[598]) ).
thf(743,plain,
( ( ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( antisymmetric_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[599]) ).
thf(744,plain,
( ( ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[600]) ).
thf(745,plain,
( ( ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( bounded_relstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[601]) ).
thf(746,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[602]) ).
thf(747,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[603]) ).
thf(748,plain,
( ( rel_str @ sK16_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[604]) ).
thf(749,plain,
( ( strict_rel_str @ sK16_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[605]) ).
thf(750,plain,
! [SV44: $i] :
( ( ~ ( element @ ( sK10_B @ SV44 ) @ ( powerset @ SV44 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[606]) ).
thf(751,plain,
! [SV44: $i] :
( ( ~ ( empty @ ( sK10_B @ SV44 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[606]) ).
thf(752,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
| ~ ( meet_associative @ sK3_A ) )
| ~ ( meet_absorbing @ sK3_A ) )
| ~ ( join_absorbing @ sK3_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[607]) ).
thf(753,plain,
( ( lattice @ sK3_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[608]) ).
thf(754,plain,
( ( ! [SX0: $i] : ( latt_str @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[609]) ).
thf(755,plain,
( ( ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[610]) ).
thf(756,plain,
( ( ! [SX0: $i,SX1: $i] :
( ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[611]) ).
thf(757,plain,
( ( ! [SX0: $i,SX1: $i] :
( ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[612]) ).
thf(758,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
| ~ ( distributive_lattstr @ sK21_A ) )
| ~ ( modular_lattstr @ sK21_A ) )
| ~ ( lower_bounded_semilattstr @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[613]) ).
thf(759,plain,
( ( upper_bounded_semilattstr @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[614]) ).
thf(760,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[615]) ).
thf(761,plain,
( ( ! [SX0: $i] : ( boolean_lattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[616]) ).
thf(762,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[617]) ).
thf(763,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[618]) ).
thf(764,plain,
! [SV45: $i] :
( ( ~ ! [SY55: $i,SY56: $i] :
( ( empty @ SV45 )
| ~ ( function @ SY55 )
| ~ ( quasi_total @ SY55 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY55 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SY56 )
| ~ ( quasi_total @ SY56 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY56 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SY55 @ SY56 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[619]) ).
thf(765,plain,
! [SV45: $i] :
( ( ~ ! [SY57: $i,SY58: $i] :
( ( empty @ SV45 )
| ~ ( function @ SY57 )
| ~ ( quasi_total @ SY57 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY57 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SY58 )
| ~ ( quasi_total @ SY58 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY58 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ( strict_latt_str @ ( latt_str_of @ SV45 @ SY57 @ SY58 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[619]) ).
thf(766,plain,
( ( latt_str @ sK7_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[620]) ).
thf(767,plain,
( ( strict_latt_str @ sK7_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[621]) ).
thf(768,plain,
( ( ! [SX0: $i,SX1: $i] :
( ~ ( element @ SX0 @ ( powerset @ SX1 ) )
| ( subset @ SX0 @ SX1 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[622]) ).
thf(769,plain,
( ( ! [SX0: $i,SX1: $i] :
( ~ ( subset @ SX0 @ SX1 )
| ( element @ SX0 @ ( powerset @ SX1 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[623]) ).
thf(770,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( antisymmetric @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( transitive @ ( the_InternalRel @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[624]) ).
thf(771,plain,
( ( ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( v1_partfun1 @ ( the_InternalRel @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[625]) ).
thf(772,plain,
! [SV46: $i,SV64: $i] :
( ( ( ~ ( ~ ( ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
| ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) )
| ~ ( ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
| ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) ) ) )
= $true )
| ( ( SV46 = SV64 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[626]) ).
thf(773,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[627]) ).
thf(774,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[628]) ).
thf(775,plain,
! [SV47: $i,SV65: $i] :
( ( ~ ~ ( ~ ( relation @ ( sK11_C @ SV65 @ SV47 ) )
| ~ ( relation_of2 @ ( sK11_C @ SV65 @ SV47 ) @ SV47 @ SV65 ) )
| ~ ( function @ ( sK11_C @ SV65 @ SV47 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[629]) ).
thf(776,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[630]) ).
thf(777,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( bounded_lattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[631]) ).
thf(778,plain,
! [SV48: $i] :
( ( ( ( empty_carrier @ SV48 )
| ~ ( lattice @ SV48 )
| ~ ( complete_latt_str @ SV48 ) )
= $true )
| ( ( ~ ( latt_str @ SV48 ) )
= $true )
| ( ( ~ ( ~ ! [SY61: $i] :
( ( join_of_latt_set @ SV48 @ SY61 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY61 ) )
| ~ ! [SY62: $i] :
( ( meet_of_latt_set @ SV48 @ SY62 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY62 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[632]) ).
thf(779,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[633]) ).
thf(780,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( complete_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[634]) ).
thf(781,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( bounded_lattstr @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[635]) ).
thf(782,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( complemented_lattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[636]) ).
thf(783,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
| ~ ( lower_bounded_semilattstr @ sK19_A ) )
| ~ ( upper_bounded_semilattstr @ sK19_A ) )
| ~ ( bounded_lattstr @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[637]) ).
thf(784,plain,
( ( complemented_lattstr @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[638]) ).
thf(785,plain,
! [SV49: $i] :
( ( ~ ! [SY63: $i,SY64: $i] :
( ~ ( function @ SY63 )
| ~ ( quasi_total @ SY63 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY63 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SY64 )
| ~ ( quasi_total @ SY64 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY64 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( latt_str @ ( latt_str_of @ SV49 @ SY63 @ SY64 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[639]) ).
thf(786,plain,
! [SV49: $i] :
( ( ~ ! [SY65: $i,SY66: $i] :
( ~ ( function @ SY65 )
| ~ ( quasi_total @ SY65 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY65 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SY66 )
| ~ ( quasi_total @ SY66 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY66 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( strict_latt_str @ ( latt_str_of @ SV49 @ SY65 @ SY66 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[639]) ).
thf(787,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[640]) ).
thf(788,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[641]) ).
thf(789,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( function @ ( the_L_join @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_join @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[642]) ).
thf(790,plain,
( ( ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( relation_of2_as_subset @ ( the_L_join @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[643]) ).
thf(791,plain,
! [SV71: $i,SV50: $i,SV66: $i] :
( ( ~ ( function @ SV66 )
| ~ ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( function @ SV71 )
| ~ ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[644]) ).
thf(792,plain,
! [SV1: $i] :
( ( ( ~ ( strict_rel_str @ SV1 ) )
= $true )
| ( ( SV1
= ( rel_str_of @ ( the_carrier @ SV1 ) @ ( the_InternalRel @ SV1 ) ) )
= $true )
| ( ( rel_str @ SV1 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[645]) ).
thf(793,plain,
! [SV2: $i] :
( ( ( ~ ( strict_latt_str @ SV2 ) )
= $true )
| ( ( SV2
= ( latt_str_of @ ( the_carrier @ SV2 ) @ ( the_L_join @ SV2 ) @ ( the_L_meet @ SV2 ) ) )
= $true )
| ( ( latt_str @ SV2 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[646]) ).
thf(794,plain,
! [SV51: $i,SV3: $i] :
( ( ( in @ SV3 @ SV51 )
= $false )
| ( ( ~ ( in @ SV51 @ SV3 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[647]) ).
thf(795,plain,
! [SV4: $i] :
( ( ( ~ ( with_suprema_relstr @ SV4 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV4 ) )
= $true )
| ( ( rel_str @ SV4 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[648]) ).
thf(796,plain,
! [SV52: $i,SV5: $i,SV67: $i] :
( ( ( ~ ( element @ SV67 @ ( powerset @ ( cartesian_product2 @ SV5 @ SV52 ) ) ) )
= $true )
| ( ( relation @ SV67 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[649]) ).
thf(797,plain,
! [SV6: $i] :
( ( ( ~ ( with_infima_relstr @ SV6 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV6 ) )
= $true )
| ( ( rel_str @ SV6 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[650]) ).
thf(798,plain,
! [SV7: $i] :
( ( ( ~ ( lower_bounded_relstr @ SV7 )
| ~ ( upper_bounded_relstr @ SV7 ) )
= $true )
| ( ( bounded_relstr @ SV7 )
= $true )
| ( ( rel_str @ SV7 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[651]) ).
thf(799,plain,
! [SV9: $i] :
( ( ( latt_str @ SV9 )
= $false )
| ( ( empty_carrier @ SV9 )
= $true )
| ( ( ! [SY23: $i] :
( ( meet_of_latt_set @ SV9 @ SY23 )
= ( join_of_latt_set @ SV9 @ ( a_2_2_lattice3 @ SV9 @ SY23 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[653]) ).
thf(800,plain,
! [SV10: $i] :
( ( ( empty_carrier @ SV10 )
= $true )
| ( ( ~ ( lattice @ SV10 ) )
= $true )
| ( ( ~ ( latt_str @ SV10 ) )
= $true )
| ( ( ( poset_of_lattice @ SV10 )
= ( rel_str_of @ ( the_carrier @ SV10 ) @ ( k2_lattice3 @ SV10 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[654]) ).
thf(801,plain,
! [SV12: $i] :
( ( ( latt_str @ SV12 )
= $false )
| ( ( empty_carrier @ SV12 )
= $true )
| ( ( ! [SY24: $i] : ( element @ ( join_of_latt_set @ SV12 @ SY24 ) @ ( the_carrier @ SV12 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[655]) ).
thf(802,plain,
! [SV13: $i] :
( ( ( latt_str @ SV13 )
= $false )
| ( ( empty_carrier @ SV13 )
= $true )
| ( ( ! [SY25: $i] : ( element @ ( meet_of_latt_set @ SV13 @ SY25 ) @ ( the_carrier @ SV13 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[656]) ).
thf(803,plain,
! [SV72: $i,SV14: $i] :
( ( ( element @ ( join_on_relstr @ SV14 @ SV72 ) @ ( the_carrier @ SV14 ) )
= $true )
| ( ( rel_str @ SV14 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[657]) ).
thf(804,plain,
! [SV73: $i,SV15: $i] :
( ( ( element @ ( meet_on_relstr @ SV15 @ SV73 ) @ ( the_carrier @ SV15 ) )
= $true )
| ( ( rel_str @ SV15 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[658]) ).
thf(805,plain,
! [SV17: $i] :
( ( ( meet_semilatt_str @ SV17 )
= $false )
| ( ( empty_carrier @ SV17 )
= $true )
| ( ( element @ ( bottom_of_semilattstr @ SV17 ) @ ( the_carrier @ SV17 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[660]) ).
thf(806,plain,
! [SV18: $i] :
( ( ( empty_carrier @ SV18 )
= $true )
| ( ( ~ ( lattice @ SV18 ) )
= $true )
| ( ( ~ ( latt_str @ SV18 ) )
= $true )
| ( ( relation @ ( relation_of_lattice @ SV18 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[661]) ).
thf(807,plain,
! [SV53: $i,SV22: $i,SV68: $i] :
( ( ( ~ ( relation_of2_as_subset @ SV68 @ SV22 @ SV53 ) )
= $true )
| ( ( element @ SV68 @ ( powerset @ ( cartesian_product2 @ SV22 @ SV53 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[665]) ).
thf(808,plain,
! [SV27: $i] :
( ( ( one_sorted_str @ SV27 )
= $false )
| ( ( empty_carrier @ SV27 )
= $true )
| ( ( ~ ( empty @ ( the_carrier @ SV27 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[667]) ).
thf(809,plain,
! [SV56: $i,SV29: $i] :
( ( ( empty @ SV29 )
= $true )
| ( ( empty @ SV56 )
= $true )
| ( ( ~ ( empty @ ( cartesian_product2 @ SV29 @ SV56 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[668]) ).
thf(810,plain,
! [SV30: $i] :
( ( ( empty_carrier @ SV30 )
= $true )
| ( ( ~ ( lattice @ SV30 ) )
= $true )
| ( ( ~ ( latt_str @ SV30 ) )
= $true )
| ( ( ( k2_lattice3 @ SV30 )
= ( relation_of_lattice @ SV30 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[669]) ).
thf(811,plain,
! [SV57: $i,SV32: $i] :
( ( ( in @ SV32 @ SV57 )
= $false )
| ( ( element @ SV32 @ SV57 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[670]) ).
thf(812,plain,
! [SV58: $i,SV33: $i] :
( ( ( element @ SV33 @ SV58 )
= $false )
| ( ( ( empty @ SV58 )
| ( in @ SV33 @ SV58 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[671]) ).
thf(813,plain,
! [SV34: $i,SV69: $i,SV59: $i] :
( ( ( ~ ( element @ SV59 @ ( powerset @ SV69 ) )
| ~ ( in @ SV34 @ SV59 ) )
= $true )
| ( ( element @ SV34 @ SV69 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[672]) ).
thf(814,plain,
! [SV35: $i,SV70: $i,SV60: $i] :
( ( ( ~ ( element @ SV60 @ ( powerset @ SV70 ) )
| ~ ( in @ SV35 @ SV60 ) )
= $true )
| ( ( ~ ( empty @ SV70 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[673]) ).
thf(815,plain,
! [SV37: $i,SV61: $i] :
( ( ( empty @ SV61 )
= $false )
| ( ( ~ ( in @ SV37 @ SV61 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[675]) ).
thf(816,plain,
! [SV62: $i,SV38: $i] :
( ( ( SV38 = SV62 )
= $true )
| ( ( ~ ( empty @ SV38 ) )
= $true )
| ( ( ~ ( empty @ SV62 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[676]) ).
thf(817,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[677]) ).
thf(818,plain,
! [SV74: $i] :
( ( ( empty_carrier @ SV74 )
| ~ ( lattice @ SV74 )
| ~ ( latt_str @ SV74 )
| ( with_infima_relstr @ ( poset_of_lattice @ SV74 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[678]) ).
thf(819,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[679]) ).
thf(820,plain,
! [SV75: $i] :
( ( ( empty_carrier @ SV75 )
| ~ ( lattice @ SV75 )
| ~ ( upper_bounded_semilattstr @ SV75 )
| ~ ( latt_str @ SV75 )
| ( with_infima_relstr @ ( poset_of_lattice @ SV75 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[680]) ).
thf(821,plain,
! [SV76: $i] :
( ( ~ ( latt_str @ SV76 )
| ( empty_carrier @ SV76 )
| ~ ( join_commutative @ SV76 )
| ~ ( join_associative @ SV76 )
| ~ ( meet_commutative @ SV76 )
| ~ ( meet_associative @ SV76 )
| ~ ( meet_absorbing @ SV76 )
| ~ ( join_absorbing @ SV76 )
| ~ ( empty_carrier @ SV76 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[681]) ).
thf(822,plain,
! [SV77: $i] :
( ( ~ ( latt_str @ SV77 )
| ( empty_carrier @ SV77 )
| ~ ( join_commutative @ SV77 )
| ~ ( join_associative @ SV77 )
| ~ ( meet_commutative @ SV77 )
| ~ ( meet_associative @ SV77 )
| ~ ( meet_absorbing @ SV77 )
| ~ ( join_absorbing @ SV77 )
| ( lattice @ SV77 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[682]) ).
thf(823,plain,
! [SV78: $i] :
( ( ~ ( latt_str @ SV78 )
| ( join_semilatt_str @ SV78 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[683]) ).
thf(824,plain,
! [SV79: $i] :
( ( ~ ( latt_str @ SV79 )
| ( meet_semilatt_str @ SV79 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[684]) ).
thf(825,plain,
! [SV80: $i] :
( ( ~ ( empty_carrier @ ( boole_lattice @ SV80 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[685]) ).
thf(826,plain,
! [SV81: $i] :
( ( strict_latt_str @ ( boole_lattice @ SV81 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[686]) ).
thf(827,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
| ~ ( antisymmetric_relstr @ sK13_A ) )
| ~ ( with_suprema_relstr @ sK13_A ) )
| ~ ( with_infima_relstr @ sK13_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[687]) ).
thf(828,plain,
! [SV39: $i] :
( ( ! [SY41: $i] :
( ( empty_carrier @ SY41 )
| ~ ( latt_str @ SY41 )
| ! [SY42: $i] :
( ! [SY43: $i] :
( ( SV39 != SY43 )
| ~ ( element @ SY43 @ ( the_carrier @ SY41 ) )
| ~ ( latt_set_smaller @ SY41 @ SY43 @ SY42 ) )
| ( in @ SV39 @ ( a_2_2_lattice3 @ SY41 @ SY42 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[689]) ).
thf(829,plain,
! [SV39: $i] :
( ( ! [SY44: $i] :
( ( empty_carrier @ SY44 )
| ~ ( latt_str @ SY44 )
| ! [SY45: $i] :
( ~ ( in @ SV39 @ ( a_2_2_lattice3 @ SY44 @ SY45 ) )
| ~ ( ~ ~ ( ( SV39
!= ( sK22_D @ SY45 @ SY44 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SY45 @ SY44 @ SV39 ) @ ( the_carrier @ SY44 ) ) )
| ~ ( latt_set_smaller @ SY44 @ ( sK22_D @ SY45 @ SY44 @ SV39 ) @ SY45 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[690]) ).
thf(830,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
| ~ ( lattice @ sK20_A ) )
| ~ ( lower_bounded_semilattstr @ sK20_A ) )
| ~ ( upper_bounded_semilattstr @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[691]) ).
thf(831,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
| ~ ( complete_relstr @ sK8_A ) )
| ~ ( lower_bounded_relstr @ sK8_A ) )
| ~ ( upper_bounded_relstr @ sK8_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[693]) ).
thf(832,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
| ~ ( strict_rel_str @ sK12_A ) )
| ~ ( reflexive_relstr @ sK12_A ) )
| ~ ( transitive_relstr @ sK12_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[695]) ).
thf(833,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_suprema_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_infima_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[697]) ).
thf(834,plain,
! [SV82: $i] :
( ( complete_relstr @ ( boole_POSet @ SV82 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[698]) ).
thf(835,plain,
! [SV83: $i] :
( ( ~ ( rel_str @ SV83 )
| ~ ( bounded_relstr @ SV83 )
| ( lower_bounded_relstr @ SV83 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[699]) ).
thf(836,plain,
! [SV84: $i] :
( ( ~ ( rel_str @ SV84 )
| ~ ( bounded_relstr @ SV84 )
| ( upper_bounded_relstr @ SV84 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[700]) ).
thf(837,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[701]) ).
thf(838,plain,
! [SV85: $i] :
( ( lattice @ ( boole_lattice @ SV85 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[702]) ).
thf(839,plain,
! [SV86: $i] :
( ( ( bottom_of_semilattstr @ ( boole_lattice @ SV86 ) )
= empty_set )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[703]) ).
thf(840,plain,
! [SV87: $i] :
( ( lower_bounded_semilattstr @ ( boole_lattice @ SV87 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[704]) ).
thf(841,plain,
! [SV40: $i] :
( ( ( ~ ( element @ ( sK15_B @ SV40 ) @ ( powerset @ SV40 ) ) )
= $false )
| ( ( empty @ SV40 )
= $true ) ),
inference(extcnf_or_neg,[status(thm)],[705]) ).
thf(842,plain,
! [SV40: $i] :
( ( ( ~ ~ ( empty @ ( sK15_B @ SV40 ) ) )
= $false )
| ( ( empty @ SV40 )
= $true ) ),
inference(extcnf_or_neg,[status(thm)],[705]) ).
thf(843,plain,
! [SV88: $i] :
( ( ~ ( latt_str @ SV88 )
| ( empty_carrier @ SV88 )
| ~ ( lower_bounded_semilattstr @ SV88 )
| ~ ( upper_bounded_semilattstr @ SV88 )
| ~ ( empty_carrier @ SV88 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[706]) ).
thf(844,plain,
! [SV89: $i] :
( ( ~ ( latt_str @ SV89 )
| ( empty_carrier @ SV89 )
| ~ ( lower_bounded_semilattstr @ SV89 )
| ~ ( upper_bounded_semilattstr @ SV89 )
| ( bounded_lattstr @ SV89 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[707]) ).
thf(845,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[708]) ).
thf(846,plain,
! [SV90: $i] :
( ( antisymmetric_relstr @ ( boole_POSet @ SV90 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[709]) ).
thf(847,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( boolean_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[710]) ).
thf(848,plain,
! [SV91: $i] :
( ( complete_latt_str @ ( boole_lattice @ SV91 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[711]) ).
thf(849,plain,
! [SV41: $i] :
( ( ( one_sorted_str @ SV41 )
= $false )
| ( ( empty_carrier @ SV41 )
= $true )
| ( ( ~ ( ~ ( element @ ( sK5_B @ SV41 ) @ ( powerset @ ( the_carrier @ SV41 ) ) )
| ~ ~ ( empty @ ( sK5_B @ SV41 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[712]) ).
thf(850,plain,
( ( ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( function @ ( the_L_meet @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_meet @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[713]) ).
thf(851,plain,
! [SV92: $i] :
( ( ~ ( meet_semilatt_str @ SV92 )
| ( relation_of2_as_subset @ ( the_L_meet @ SV92 ) @ ( cartesian_product2 @ ( the_carrier @ SV92 ) @ ( the_carrier @ SV92 ) ) @ ( the_carrier @ SV92 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[714]) ).
thf(852,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[715]) ).
thf(853,plain,
! [SV93: $i] :
( ( ~ ( latt_str @ SV93 )
| ( empty_carrier @ SV93 )
| ~ ( lattice @ SV93 )
| ( join_absorbing @ SV93 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[716]) ).
thf(854,plain,
( ( ~ ( latt_str @ sK4_A )
| ~ ~ ( empty_carrier @ sK4_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[717]) ).
thf(855,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
| ~ ( reflexive_relstr @ sK17_A ) )
| ~ ( transitive_relstr @ sK17_A ) )
| ~ ( antisymmetric_relstr @ sK17_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[719]) ).
thf(856,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
| ~ ( upper_bounded_semilattstr @ sK18_A ) )
| ~ ( bounded_lattstr @ sK18_A ) )
| ~ ( complemented_lattstr @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[721]) ).
thf(857,plain,
! [SV42: $i] :
( ( ! [SY46: $i,SY47: $i] :
( ~ ( relation_of2 @ SY47 @ SV42 @ SY46 )
| ( relation_of2_as_subset @ SY47 @ SV42 @ SY46 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[723]) ).
thf(858,plain,
! [SV42: $i] :
( ( ! [SY48: $i,SY49: $i] :
( ~ ( relation_of2_as_subset @ SY49 @ SV42 @ SY48 )
| ( relation_of2 @ SY49 @ SV42 @ SY48 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[724]) ).
thf(859,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( latt_str @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[725]) ).
thf(860,plain,
! [SV94: $i] :
( ( ( empty_carrier @ SV94 )
| ~ ( lattice @ SV94 )
| ~ ( complete_latt_str @ SV94 )
| ~ ( latt_str @ SV94 )
| ( ( bottom_of_semilattstr @ SV94 )
= ( join_of_latt_set @ SV94 @ empty_set ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[726]) ).
thf(861,plain,
! [SV95: $i] :
( ( rel_str @ ( boole_POSet @ SV95 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[727]) ).
thf(862,plain,
! [SV96: $i] :
( ( strict_rel_str @ ( boole_POSet @ SV96 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[728]) ).
thf(863,plain,
! [SV43: $i,SV63: $i] :
( ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false )
| ( ( ~ ( ~ ! [SY80: $i] :
( ! [SY81: $i] :
( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY80 @ SY81 ) )
| ( SV43 = SY80 ) )
| ~ ! [SY82: $i,SY83: $i] :
( ( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY82 @ SY83 ) )
| ( SV63 = SY83 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[729]) ).
thf(864,plain,
( ( empty_carrier @ sK6_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[731]) ).
thf(865,plain,
! [SV97: $i] :
( ( ~ ( latt_str @ SV97 )
| ( empty_carrier @ SV97 )
| ~ ( distributive_lattstr @ SV97 )
| ~ ( bounded_lattstr @ SV97 )
| ~ ( complemented_lattstr @ SV97 )
| ~ ( empty_carrier @ SV97 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[732]) ).
thf(866,plain,
! [SV98: $i] :
( ( ~ ( latt_str @ SV98 )
| ( empty_carrier @ SV98 )
| ~ ( distributive_lattstr @ SV98 )
| ~ ( bounded_lattstr @ SV98 )
| ~ ( complemented_lattstr @ SV98 )
| ( boolean_lattstr @ SV98 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[733]) ).
thf(867,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( v1_partfun1 @ ( k2_lattice3 @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[734]) ).
thf(868,plain,
! [SV99: $i] :
( ( ( empty_carrier @ SV99 )
| ~ ( lattice @ SV99 )
| ~ ( latt_str @ SV99 )
| ( relation_of2_as_subset @ ( k2_lattice3 @ SV99 ) @ ( the_carrier @ SV99 ) @ ( the_carrier @ SV99 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[735]) ).
thf(869,plain,
! [SV100: $i] :
( ( ! [SY99: $i] :
( ( empty @ SV100 )
| ~ ( relation_of2 @ SY99 @ SV100 @ SV100 )
| ~ ( empty_carrier @ ( rel_str_of @ SV100 @ SY99 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[736]) ).
thf(870,plain,
! [SV101: $i] :
( ( ! [SY100: $i] :
( ( empty @ SV101 )
| ~ ( relation_of2 @ SY100 @ SV101 @ SV101 )
| ( strict_rel_str @ ( rel_str_of @ SV101 @ SY100 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[737]) ).
thf(871,plain,
( ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( with_suprema_relstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[738]) ).
thf(872,plain,
! [SV102: $i] :
( ( ~ ( rel_str @ SV102 )
| ( empty_carrier @ SV102 )
| ~ ( complete_relstr @ SV102 )
| ( with_infima_relstr @ SV102 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[739]) ).
thf(873,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[740]) ).
thf(874,plain,
! [SV103: $i] :
( ( ~ ( latt_str @ SV103 )
| ( empty_carrier @ SV103 )
| ~ ( lattice @ SV103 )
| ~ ( distributive_lattstr @ SV103 )
| ( modular_lattstr @ SV103 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[741]) ).
thf(875,plain,
( ( ~ ~ ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( reflexive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( transitive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[742]) ).
thf(876,plain,
! [SV104: $i] :
( ( ! [SY101: $i] :
( ~ ( antisymmetric @ SY101 )
| ~ ( reflexive @ SY101 )
| ~ ( transitive @ SY101 )
| ~ ( v1_partfun1 @ SY101 @ SV104 @ SV104 )
| ~ ( relation_of2 @ SY101 @ SV104 @ SV104 )
| ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SY101 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[743]) ).
thf(877,plain,
! [SV105: $i] :
( ( ~ ( rel_str @ SV105 )
| ( empty_carrier @ SV105 )
| ~ ( complete_relstr @ SV105 )
| ~ ( empty_carrier @ SV105 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[744]) ).
thf(878,plain,
! [SV106: $i] :
( ( ~ ( rel_str @ SV106 )
| ( empty_carrier @ SV106 )
| ~ ( complete_relstr @ SV106 )
| ( bounded_relstr @ SV106 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[745]) ).
thf(879,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[746]) ).
thf(880,plain,
! [SV107: $i] :
( ( ( empty_carrier @ SV107 )
| ~ ( lattice @ SV107 )
| ~ ( latt_str @ SV107 )
| ( rel_str @ ( poset_of_lattice @ SV107 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[747]) ).
thf(881,plain,
! [SV44: $i] :
( ( element @ ( sK10_B @ SV44 ) @ ( powerset @ SV44 ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[750]) ).
thf(882,plain,
! [SV44: $i] :
( ( empty @ ( sK10_B @ SV44 ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[751]) ).
thf(883,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
| ~ ( meet_associative @ sK3_A ) )
| ~ ( meet_absorbing @ sK3_A ) )
| ~ ( join_absorbing @ sK3_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[752]) ).
thf(884,plain,
! [SV108: $i] :
( ( latt_str @ ( boole_lattice @ SV108 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[754]) ).
thf(885,plain,
! [SV109: $i] :
( ( strict_latt_str @ ( boole_lattice @ SV109 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[755]) ).
thf(886,plain,
! [SV110: $i] :
( ( ! [SY102: $i] :
( ~ ( relation_of2 @ SY102 @ SV110 @ SV110 )
| ( rel_str @ ( rel_str_of @ SV110 @ SY102 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[756]) ).
thf(887,plain,
! [SV111: $i] :
( ( ! [SY103: $i] :
( ~ ( relation_of2 @ SY103 @ SV111 @ SV111 )
| ( strict_rel_str @ ( rel_str_of @ SV111 @ SY103 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[757]) ).
thf(888,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
| ~ ( distributive_lattstr @ sK21_A ) )
| ~ ( modular_lattstr @ sK21_A ) )
| ~ ( lower_bounded_semilattstr @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[758]) ).
thf(889,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[760]) ).
thf(890,plain,
! [SV112: $i] :
( ( boolean_lattstr @ ( boole_lattice @ SV112 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[761]) ).
thf(891,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[762]) ).
thf(892,plain,
! [SV113: $i] :
( ( ( empty_carrier @ SV113 )
| ~ ( lattice @ SV113 )
| ~ ( lower_bounded_semilattstr @ SV113 )
| ~ ( latt_str @ SV113 )
| ( with_infima_relstr @ ( poset_of_lattice @ SV113 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[763]) ).
thf(893,plain,
! [SV45: $i] :
( ( ! [SY55: $i,SY56: $i] :
( ( empty @ SV45 )
| ~ ( function @ SY55 )
| ~ ( quasi_total @ SY55 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY55 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SY56 )
| ~ ( quasi_total @ SY56 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY56 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SY55 @ SY56 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[764]) ).
thf(894,plain,
! [SV45: $i] :
( ( ! [SY57: $i,SY58: $i] :
( ( empty @ SV45 )
| ~ ( function @ SY57 )
| ~ ( quasi_total @ SY57 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY57 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SY58 )
| ~ ( quasi_total @ SY58 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY58 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ( strict_latt_str @ ( latt_str_of @ SV45 @ SY57 @ SY58 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[765]) ).
thf(895,plain,
! [SV114: $i] :
( ( ! [SY104: $i] :
( ~ ( element @ SV114 @ ( powerset @ SY104 ) )
| ( subset @ SV114 @ SY104 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[768]) ).
thf(896,plain,
! [SV115: $i] :
( ( ! [SY105: $i] :
( ~ ( subset @ SV115 @ SY105 )
| ( element @ SV115 @ ( powerset @ SY105 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[769]) ).
thf(897,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( antisymmetric @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( transitive @ ( the_InternalRel @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[770]) ).
thf(898,plain,
! [SV116: $i] :
( ( ~ ( reflexive_relstr @ SV116 )
| ~ ( transitive_relstr @ SV116 )
| ~ ( antisymmetric_relstr @ SV116 )
| ~ ( rel_str @ SV116 )
| ( v1_partfun1 @ ( the_InternalRel @ SV116 ) @ ( the_carrier @ SV116 ) @ ( the_carrier @ SV116 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[771]) ).
thf(899,plain,
! [SV46: $i,SV64: $i] :
( ( ( ~ ( ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
| ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) )
| ~ ( ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
| ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) ) )
= $false )
| ( ( SV46 = SV64 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[772]) ).
thf(900,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[773]) ).
thf(901,plain,
! [SV117: $i] :
( ( ( empty_carrier @ SV117 )
| ~ ( lattice @ SV117 )
| ~ ( latt_str @ SV117 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SV117 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[774]) ).
thf(902,plain,
! [SV47: $i,SV65: $i] :
( ( ~ ~ ( ~ ( relation @ ( sK11_C @ SV65 @ SV47 ) )
| ~ ( relation_of2 @ ( sK11_C @ SV65 @ SV47 ) @ SV47 @ SV65 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[775]) ).
thf(903,plain,
! [SV47: $i,SV65: $i] :
( ( ~ ( function @ ( sK11_C @ SV65 @ SV47 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[775]) ).
thf(904,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[776]) ).
thf(905,plain,
! [SV118: $i] :
( ( ~ ( latt_str @ SV118 )
| ( empty_carrier @ SV118 )
| ~ ( lattice @ SV118 )
| ~ ( complete_latt_str @ SV118 )
| ( bounded_lattstr @ SV118 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[777]) ).
thf(906,plain,
! [SV48: $i] :
( ( ( ( empty_carrier @ SV48 )
| ~ ( lattice @ SV48 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV48 ) )
= $true )
| ( ( ~ ( latt_str @ SV48 ) )
= $true )
| ( ( ~ ( ~ ! [SY61: $i] :
( ( join_of_latt_set @ SV48 @ SY61 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY61 ) )
| ~ ! [SY62: $i] :
( ( meet_of_latt_set @ SV48 @ SY62 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY62 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[778]) ).
thf(907,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[779]) ).
thf(908,plain,
! [SV119: $i] :
( ( ( empty_carrier @ SV119 )
| ~ ( lattice @ SV119 )
| ~ ( complete_latt_str @ SV119 )
| ~ ( latt_str @ SV119 )
| ( complete_relstr @ ( poset_of_lattice @ SV119 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[780]) ).
thf(909,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( bounded_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[781]) ).
thf(910,plain,
! [SV120: $i] :
( ( ~ ( latt_str @ SV120 )
| ( empty_carrier @ SV120 )
| ~ ( boolean_lattstr @ SV120 )
| ( complemented_lattstr @ SV120 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[782]) ).
thf(911,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
| ~ ( lower_bounded_semilattstr @ sK19_A ) )
| ~ ( upper_bounded_semilattstr @ sK19_A ) )
| ~ ( bounded_lattstr @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[783]) ).
thf(912,plain,
! [SV49: $i] :
( ( ! [SY63: $i,SY64: $i] :
( ~ ( function @ SY63 )
| ~ ( quasi_total @ SY63 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY63 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SY64 )
| ~ ( quasi_total @ SY64 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY64 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( latt_str @ ( latt_str_of @ SV49 @ SY63 @ SY64 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[785]) ).
thf(913,plain,
! [SV49: $i] :
( ( ! [SY65: $i,SY66: $i] :
( ~ ( function @ SY65 )
| ~ ( quasi_total @ SY65 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY65 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SY66 )
| ~ ( quasi_total @ SY66 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY66 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( strict_latt_str @ ( latt_str_of @ SV49 @ SY65 @ SY66 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[786]) ).
thf(914,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[787]) ).
thf(915,plain,
! [SV121: $i] :
( ( ~ ( latt_str @ SV121 )
| ( empty_carrier @ SV121 )
| ~ ( bounded_lattstr @ SV121 )
| ( upper_bounded_semilattstr @ SV121 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[788]) ).
thf(916,plain,
( ( ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( function @ ( the_L_join @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_join @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[789]) ).
thf(917,plain,
! [SV122: $i] :
( ( ~ ( join_semilatt_str @ SV122 )
| ( relation_of2_as_subset @ ( the_L_join @ SV122 ) @ ( cartesian_product2 @ ( the_carrier @ SV122 ) @ ( the_carrier @ SV122 ) ) @ ( the_carrier @ SV122 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[790]) ).
thf(918,plain,
! [SV71: $i,SV50: $i,SV66: $i] :
( ( ( ~ ( function @ SV66 )
| ~ ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( function @ SV71 )
| ~ ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[791]) ).
thf(919,plain,
! [SV1: $i] :
( ( ( strict_rel_str @ SV1 )
= $false )
| ( ( SV1
= ( rel_str_of @ ( the_carrier @ SV1 ) @ ( the_InternalRel @ SV1 ) ) )
= $true )
| ( ( rel_str @ SV1 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[792]) ).
thf(920,plain,
! [SV2: $i] :
( ( ( strict_latt_str @ SV2 )
= $false )
| ( ( SV2
= ( latt_str_of @ ( the_carrier @ SV2 ) @ ( the_L_join @ SV2 ) @ ( the_L_meet @ SV2 ) ) )
= $true )
| ( ( latt_str @ SV2 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[793]) ).
thf(921,plain,
! [SV3: $i,SV51: $i] :
( ( ( in @ SV51 @ SV3 )
= $false )
| ( ( in @ SV3 @ SV51 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[794]) ).
thf(922,plain,
! [SV4: $i] :
( ( ( with_suprema_relstr @ SV4 )
= $false )
| ( ( ~ ( empty_carrier @ SV4 ) )
= $true )
| ( ( rel_str @ SV4 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[795]) ).
thf(923,plain,
! [SV52: $i,SV5: $i,SV67: $i] :
( ( ( element @ SV67 @ ( powerset @ ( cartesian_product2 @ SV5 @ SV52 ) ) )
= $false )
| ( ( relation @ SV67 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[796]) ).
thf(924,plain,
! [SV6: $i] :
( ( ( with_infima_relstr @ SV6 )
= $false )
| ( ( ~ ( empty_carrier @ SV6 ) )
= $true )
| ( ( rel_str @ SV6 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[797]) ).
thf(925,plain,
! [SV7: $i] :
( ( ( ~ ( lower_bounded_relstr @ SV7 ) )
= $true )
| ( ( ~ ( upper_bounded_relstr @ SV7 ) )
= $true )
| ( ( bounded_relstr @ SV7 )
= $true )
| ( ( rel_str @ SV7 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[798]) ).
thf(926,plain,
! [SV123: $i,SV9: $i] :
( ( ( ( meet_of_latt_set @ SV9 @ SV123 )
= ( join_of_latt_set @ SV9 @ ( a_2_2_lattice3 @ SV9 @ SV123 ) ) )
= $true )
| ( ( empty_carrier @ SV9 )
= $true )
| ( ( latt_str @ SV9 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[799]) ).
thf(927,plain,
! [SV10: $i] :
( ( ( lattice @ SV10 )
= $false )
| ( ( empty_carrier @ SV10 )
= $true )
| ( ( ~ ( latt_str @ SV10 ) )
= $true )
| ( ( ( poset_of_lattice @ SV10 )
= ( rel_str_of @ ( the_carrier @ SV10 ) @ ( k2_lattice3 @ SV10 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[800]) ).
thf(928,plain,
! [SV124: $i,SV12: $i] :
( ( ( element @ ( join_of_latt_set @ SV12 @ SV124 ) @ ( the_carrier @ SV12 ) )
= $true )
| ( ( empty_carrier @ SV12 )
= $true )
| ( ( latt_str @ SV12 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[801]) ).
thf(929,plain,
! [SV125: $i,SV13: $i] :
( ( ( element @ ( meet_of_latt_set @ SV13 @ SV125 ) @ ( the_carrier @ SV13 ) )
= $true )
| ( ( empty_carrier @ SV13 )
= $true )
| ( ( latt_str @ SV13 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[802]) ).
thf(930,plain,
! [SV18: $i] :
( ( ( lattice @ SV18 )
= $false )
| ( ( empty_carrier @ SV18 )
= $true )
| ( ( ~ ( latt_str @ SV18 ) )
= $true )
| ( ( relation @ ( relation_of_lattice @ SV18 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[806]) ).
thf(931,plain,
! [SV53: $i,SV22: $i,SV68: $i] :
( ( ( relation_of2_as_subset @ SV68 @ SV22 @ SV53 )
= $false )
| ( ( element @ SV68 @ ( powerset @ ( cartesian_product2 @ SV22 @ SV53 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[807]) ).
thf(932,plain,
! [SV27: $i] :
( ( ( empty @ ( the_carrier @ SV27 ) )
= $false )
| ( ( empty_carrier @ SV27 )
= $true )
| ( ( one_sorted_str @ SV27 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[808]) ).
thf(933,plain,
! [SV56: $i,SV29: $i] :
( ( ( empty @ ( cartesian_product2 @ SV29 @ SV56 ) )
= $false )
| ( ( empty @ SV56 )
= $true )
| ( ( empty @ SV29 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[809]) ).
thf(934,plain,
! [SV30: $i] :
( ( ( lattice @ SV30 )
= $false )
| ( ( empty_carrier @ SV30 )
= $true )
| ( ( ~ ( latt_str @ SV30 ) )
= $true )
| ( ( ( k2_lattice3 @ SV30 )
= ( relation_of_lattice @ SV30 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[810]) ).
thf(935,plain,
! [SV33: $i,SV58: $i] :
( ( ( empty @ SV58 )
= $true )
| ( ( in @ SV33 @ SV58 )
= $true )
| ( ( element @ SV33 @ SV58 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[812]) ).
thf(936,plain,
! [SV34: $i,SV69: $i,SV59: $i] :
( ( ( ~ ( element @ SV59 @ ( powerset @ SV69 ) ) )
= $true )
| ( ( ~ ( in @ SV34 @ SV59 ) )
= $true )
| ( ( element @ SV34 @ SV69 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[813]) ).
thf(937,plain,
! [SV35: $i,SV70: $i,SV60: $i] :
( ( ( ~ ( element @ SV60 @ ( powerset @ SV70 ) ) )
= $true )
| ( ( ~ ( in @ SV35 @ SV60 ) )
= $true )
| ( ( ~ ( empty @ SV70 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[814]) ).
thf(938,plain,
! [SV61: $i,SV37: $i] :
( ( ( in @ SV37 @ SV61 )
= $false )
| ( ( empty @ SV61 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[815]) ).
thf(939,plain,
! [SV62: $i,SV38: $i] :
( ( ( empty @ SV38 )
= $false )
| ( ( SV38 = SV62 )
= $true )
| ( ( ~ ( empty @ SV62 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[816]) ).
thf(940,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[817]) ).
thf(941,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[817]) ).
thf(942,plain,
! [SV74: $i] :
( ( ( ( empty_carrier @ SV74 )
| ~ ( lattice @ SV74 )
| ~ ( latt_str @ SV74 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV74 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[818]) ).
thf(943,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[819]) ).
thf(944,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[819]) ).
thf(945,plain,
! [SV75: $i] :
( ( ( ( empty_carrier @ SV75 )
| ~ ( lattice @ SV75 )
| ~ ( upper_bounded_semilattstr @ SV75 )
| ~ ( latt_str @ SV75 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV75 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[820]) ).
thf(946,plain,
! [SV76: $i] :
( ( ( ~ ( latt_str @ SV76 ) )
= $true )
| ( ( ( empty_carrier @ SV76 )
| ~ ( join_commutative @ SV76 )
| ~ ( join_associative @ SV76 )
| ~ ( meet_commutative @ SV76 )
| ~ ( meet_associative @ SV76 )
| ~ ( meet_absorbing @ SV76 )
| ~ ( join_absorbing @ SV76 )
| ~ ( empty_carrier @ SV76 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[821]) ).
thf(947,plain,
! [SV77: $i] :
( ( ( ~ ( latt_str @ SV77 ) )
= $true )
| ( ( ( empty_carrier @ SV77 )
| ~ ( join_commutative @ SV77 )
| ~ ( join_associative @ SV77 )
| ~ ( meet_commutative @ SV77 )
| ~ ( meet_associative @ SV77 )
| ~ ( meet_absorbing @ SV77 )
| ~ ( join_absorbing @ SV77 )
| ( lattice @ SV77 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[822]) ).
thf(948,plain,
! [SV78: $i] :
( ( ( ~ ( latt_str @ SV78 ) )
= $true )
| ( ( join_semilatt_str @ SV78 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[823]) ).
thf(949,plain,
! [SV79: $i] :
( ( ( ~ ( latt_str @ SV79 ) )
= $true )
| ( ( meet_semilatt_str @ SV79 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[824]) ).
thf(950,plain,
! [SV80: $i] :
( ( empty_carrier @ ( boole_lattice @ SV80 ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[825]) ).
thf(951,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
| ~ ( antisymmetric_relstr @ sK13_A ) )
| ~ ( with_suprema_relstr @ sK13_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[827]) ).
thf(952,plain,
( ( ~ ( with_infima_relstr @ sK13_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[827]) ).
thf(953,plain,
! [SV39: $i,SV126: $i] :
( ( ( empty_carrier @ SV126 )
| ~ ( latt_str @ SV126 )
| ! [SY106: $i] :
( ! [SY107: $i] :
( ( SV39 != SY107 )
| ~ ( element @ SY107 @ ( the_carrier @ SV126 ) )
| ~ ( latt_set_smaller @ SV126 @ SY107 @ SY106 ) )
| ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SY106 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[828]) ).
thf(954,plain,
! [SV39: $i,SV127: $i] :
( ( ( empty_carrier @ SV127 )
| ~ ( latt_str @ SV127 )
| ! [SY108: $i] :
( ~ ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SY108 ) )
| ~ ( ~ ~ ( ( SV39
!= ( sK22_D @ SY108 @ SV127 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SY108 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) )
| ~ ( latt_set_smaller @ SV127 @ ( sK22_D @ SY108 @ SV127 @ SV39 ) @ SY108 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[829]) ).
thf(955,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
| ~ ( lattice @ sK20_A ) )
| ~ ( lower_bounded_semilattstr @ sK20_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[830]) ).
thf(956,plain,
( ( ~ ( upper_bounded_semilattstr @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[830]) ).
thf(957,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
| ~ ( complete_relstr @ sK8_A ) )
| ~ ( lower_bounded_relstr @ sK8_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[831]) ).
thf(958,plain,
( ( ~ ( upper_bounded_relstr @ sK8_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[831]) ).
thf(959,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
| ~ ( strict_rel_str @ sK12_A ) )
| ~ ( reflexive_relstr @ sK12_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[832]) ).
thf(960,plain,
( ( ~ ( transitive_relstr @ sK12_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[832]) ).
thf(961,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_suprema_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[833]) ).
thf(962,plain,
( ( ~ ! [SX0: $i] : ( with_infima_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[833]) ).
thf(963,plain,
! [SV83: $i] :
( ( ( ~ ( rel_str @ SV83 ) )
= $true )
| ( ( ~ ( bounded_relstr @ SV83 )
| ( lower_bounded_relstr @ SV83 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[835]) ).
thf(964,plain,
! [SV84: $i] :
( ( ( ~ ( rel_str @ SV84 ) )
= $true )
| ( ( ~ ( bounded_relstr @ SV84 )
| ( upper_bounded_relstr @ SV84 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[836]) ).
thf(965,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[837]) ).
thf(966,plain,
( ( ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[837]) ).
thf(967,plain,
! [SV40: $i] :
( ( ( element @ ( sK15_B @ SV40 ) @ ( powerset @ SV40 ) )
= $true )
| ( ( empty @ SV40 )
= $true ) ),
inference(extcnf_not_neg,[status(thm)],[841]) ).
thf(968,plain,
! [SV40: $i] :
( ( ( ~ ( empty @ ( sK15_B @ SV40 ) ) )
= $true )
| ( ( empty @ SV40 )
= $true ) ),
inference(extcnf_not_neg,[status(thm)],[842]) ).
thf(969,plain,
! [SV88: $i] :
( ( ( ~ ( latt_str @ SV88 ) )
= $true )
| ( ( ( empty_carrier @ SV88 )
| ~ ( lower_bounded_semilattstr @ SV88 )
| ~ ( upper_bounded_semilattstr @ SV88 )
| ~ ( empty_carrier @ SV88 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[843]) ).
thf(970,plain,
! [SV89: $i] :
( ( ( ~ ( latt_str @ SV89 ) )
= $true )
| ( ( ( empty_carrier @ SV89 )
| ~ ( lower_bounded_semilattstr @ SV89 )
| ~ ( upper_bounded_semilattstr @ SV89 )
| ( bounded_lattstr @ SV89 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[844]) ).
thf(971,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[845]) ).
thf(972,plain,
( ( ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[845]) ).
thf(973,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[847]) ).
thf(974,plain,
( ( ~ ! [SX0: $i] : ( boolean_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[847]) ).
thf(975,plain,
! [SV41: $i] :
( ( ( ~ ( element @ ( sK5_B @ SV41 ) @ ( powerset @ ( the_carrier @ SV41 ) ) )
| ~ ~ ( empty @ ( sK5_B @ SV41 ) ) )
= $false )
| ( ( empty_carrier @ SV41 )
= $true )
| ( ( one_sorted_str @ SV41 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[849]) ).
thf(976,plain,
( ( ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( function @ ( the_L_meet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[850]) ).
thf(977,plain,
( ( ~ ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_meet @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[850]) ).
thf(978,plain,
! [SV92: $i] :
( ( ( ~ ( meet_semilatt_str @ SV92 ) )
= $true )
| ( ( relation_of2_as_subset @ ( the_L_meet @ SV92 ) @ ( cartesian_product2 @ ( the_carrier @ SV92 ) @ ( the_carrier @ SV92 ) ) @ ( the_carrier @ SV92 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[851]) ).
thf(979,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_associative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[852]) ).
thf(980,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[852]) ).
thf(981,plain,
! [SV93: $i] :
( ( ( ~ ( latt_str @ SV93 ) )
= $true )
| ( ( ( empty_carrier @ SV93 )
| ~ ( lattice @ SV93 )
| ( join_absorbing @ SV93 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[853]) ).
thf(982,plain,
( ( ~ ( latt_str @ sK4_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[854]) ).
thf(983,plain,
( ( ~ ~ ( empty_carrier @ sK4_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[854]) ).
thf(984,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
| ~ ( reflexive_relstr @ sK17_A ) )
| ~ ( transitive_relstr @ sK17_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[855]) ).
thf(985,plain,
( ( ~ ( antisymmetric_relstr @ sK17_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[855]) ).
thf(986,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
| ~ ( upper_bounded_semilattstr @ sK18_A ) )
| ~ ( bounded_lattstr @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[856]) ).
thf(987,plain,
( ( ~ ( complemented_lattstr @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[856]) ).
thf(988,plain,
! [SV128: $i,SV42: $i] :
( ( ! [SY109: $i] :
( ~ ( relation_of2 @ SY109 @ SV42 @ SV128 )
| ( relation_of2_as_subset @ SY109 @ SV42 @ SV128 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[857]) ).
thf(989,plain,
! [SV129: $i,SV42: $i] :
( ( ! [SY110: $i] :
( ~ ( relation_of2_as_subset @ SY110 @ SV42 @ SV129 )
| ( relation_of2 @ SY110 @ SV42 @ SV129 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[858]) ).
thf(990,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[859]) ).
thf(991,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( latt_str @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[859]) ).
thf(992,plain,
! [SV94: $i] :
( ( ( ( empty_carrier @ SV94 )
| ~ ( lattice @ SV94 )
| ~ ( complete_latt_str @ SV94 )
| ~ ( latt_str @ SV94 ) )
= $true )
| ( ( ( bottom_of_semilattstr @ SV94 )
= ( join_of_latt_set @ SV94 @ empty_set ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[860]) ).
thf(993,plain,
! [SV63: $i,SV43: $i] :
( ( ( ~ ! [SY80: $i] :
( ! [SY81: $i] :
( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY80 @ SY81 ) )
| ( SV43 = SY80 ) )
| ~ ! [SY82: $i,SY83: $i] :
( ( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY82 @ SY83 ) )
| ( SV63 = SY83 ) ) )
= $false )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[863]) ).
thf(994,plain,
! [SV97: $i] :
( ( ( ~ ( latt_str @ SV97 ) )
= $true )
| ( ( ( empty_carrier @ SV97 )
| ~ ( distributive_lattstr @ SV97 )
| ~ ( bounded_lattstr @ SV97 )
| ~ ( complemented_lattstr @ SV97 )
| ~ ( empty_carrier @ SV97 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[865]) ).
thf(995,plain,
! [SV98: $i] :
( ( ( ~ ( latt_str @ SV98 ) )
= $true )
| ( ( ( empty_carrier @ SV98 )
| ~ ( distributive_lattstr @ SV98 )
| ~ ( bounded_lattstr @ SV98 )
| ~ ( complemented_lattstr @ SV98 )
| ( boolean_lattstr @ SV98 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[866]) ).
thf(996,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive @ ( k2_lattice3 @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[867]) ).
thf(997,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( v1_partfun1 @ ( k2_lattice3 @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[867]) ).
thf(998,plain,
! [SV99: $i] :
( ( ( ( empty_carrier @ SV99 )
| ~ ( lattice @ SV99 )
| ~ ( latt_str @ SV99 ) )
= $true )
| ( ( relation_of2_as_subset @ ( k2_lattice3 @ SV99 ) @ ( the_carrier @ SV99 ) @ ( the_carrier @ SV99 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[868]) ).
thf(999,plain,
! [SV130: $i,SV100: $i] :
( ( ( empty @ SV100 )
| ~ ( relation_of2 @ SV130 @ SV100 @ SV100 )
| ~ ( empty_carrier @ ( rel_str_of @ SV100 @ SV130 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[869]) ).
thf(1000,plain,
! [SV131: $i,SV101: $i] :
( ( ( empty @ SV101 )
| ~ ( relation_of2 @ SV131 @ SV101 @ SV101 )
| ( strict_rel_str @ ( rel_str_of @ SV101 @ SV131 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[870]) ).
thf(1001,plain,
( ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[871]) ).
thf(1002,plain,
( ( ~ ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( with_suprema_relstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[871]) ).
thf(1003,plain,
! [SV102: $i] :
( ( ( ~ ( rel_str @ SV102 ) )
= $true )
| ( ( ( empty_carrier @ SV102 )
| ~ ( complete_relstr @ SV102 )
| ( with_infima_relstr @ SV102 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[872]) ).
thf(1004,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_absorbing @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[873]) ).
thf(1005,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[873]) ).
thf(1006,plain,
! [SV103: $i] :
( ( ( ~ ( latt_str @ SV103 ) )
= $true )
| ( ( ( empty_carrier @ SV103 )
| ~ ( lattice @ SV103 )
| ~ ( distributive_lattstr @ SV103 )
| ( modular_lattstr @ SV103 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[874]) ).
thf(1007,plain,
( ( ~ ~ ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( reflexive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[875]) ).
thf(1008,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( transitive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[875]) ).
thf(1009,plain,
! [SV104: $i,SV132: $i] :
( ( ~ ( antisymmetric @ SV132 )
| ~ ( reflexive @ SV132 )
| ~ ( transitive @ SV132 )
| ~ ( v1_partfun1 @ SV132 @ SV104 @ SV104 )
| ~ ( relation_of2 @ SV132 @ SV104 @ SV104 )
| ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SV132 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[876]) ).
thf(1010,plain,
! [SV105: $i] :
( ( ( ~ ( rel_str @ SV105 ) )
= $true )
| ( ( ( empty_carrier @ SV105 )
| ~ ( complete_relstr @ SV105 )
| ~ ( empty_carrier @ SV105 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[877]) ).
thf(1011,plain,
! [SV106: $i] :
( ( ( ~ ( rel_str @ SV106 ) )
= $true )
| ( ( ( empty_carrier @ SV106 )
| ~ ( complete_relstr @ SV106 )
| ( bounded_relstr @ SV106 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[878]) ).
thf(1012,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[879]) ).
thf(1013,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[879]) ).
thf(1014,plain,
! [SV107: $i] :
( ( ( ( empty_carrier @ SV107 )
| ~ ( lattice @ SV107 )
| ~ ( latt_str @ SV107 ) )
= $true )
| ( ( rel_str @ ( poset_of_lattice @ SV107 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[880]) ).
thf(1015,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
| ~ ( meet_associative @ sK3_A ) )
| ~ ( meet_absorbing @ sK3_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[883]) ).
thf(1016,plain,
( ( ~ ( join_absorbing @ sK3_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[883]) ).
thf(1017,plain,
! [SV110: $i,SV133: $i] :
( ( ~ ( relation_of2 @ SV133 @ SV110 @ SV110 )
| ( rel_str @ ( rel_str_of @ SV110 @ SV133 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[886]) ).
thf(1018,plain,
! [SV111: $i,SV134: $i] :
( ( ~ ( relation_of2 @ SV134 @ SV111 @ SV111 )
| ( strict_rel_str @ ( rel_str_of @ SV111 @ SV134 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[887]) ).
thf(1019,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
| ~ ( distributive_lattstr @ sK21_A ) )
| ~ ( modular_lattstr @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[888]) ).
thf(1020,plain,
( ( ~ ( lower_bounded_semilattstr @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[888]) ).
thf(1021,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[889]) ).
thf(1022,plain,
( ( ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[889]) ).
thf(1023,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[891]) ).
thf(1024,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[891]) ).
thf(1025,plain,
! [SV113: $i] :
( ( ( ( empty_carrier @ SV113 )
| ~ ( lattice @ SV113 )
| ~ ( lower_bounded_semilattstr @ SV113 )
| ~ ( latt_str @ SV113 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV113 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[892]) ).
thf(1026,plain,
! [SV135: $i,SV45: $i] :
( ( ! [SY111: $i] :
( ( empty @ SV45 )
| ~ ( function @ SV135 )
| ~ ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SY111 )
| ~ ( quasi_total @ SY111 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY111 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SY111 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[893]) ).
thf(1027,plain,
! [SV136: $i,SV45: $i] :
( ( ! [SY112: $i] :
( ( empty @ SV45 )
| ~ ( function @ SV136 )
| ~ ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SY112 )
| ~ ( quasi_total @ SY112 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SY112 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SY112 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[894]) ).
thf(1028,plain,
! [SV137: $i,SV114: $i] :
( ( ~ ( element @ SV114 @ ( powerset @ SV137 ) )
| ( subset @ SV114 @ SV137 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[895]) ).
thf(1029,plain,
! [SV138: $i,SV115: $i] :
( ( ~ ( subset @ SV115 @ SV138 )
| ( element @ SV115 @ ( powerset @ SV138 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[896]) ).
thf(1030,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( antisymmetric @ ( the_InternalRel @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[897]) ).
thf(1031,plain,
( ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( transitive @ ( the_InternalRel @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[897]) ).
thf(1032,plain,
! [SV116: $i] :
( ( ( ~ ( reflexive_relstr @ SV116 )
| ~ ( transitive_relstr @ SV116 )
| ~ ( antisymmetric_relstr @ SV116 )
| ~ ( rel_str @ SV116 ) )
= $true )
| ( ( v1_partfun1 @ ( the_InternalRel @ SV116 ) @ ( the_carrier @ SV116 ) @ ( the_carrier @ SV116 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[898]) ).
thf(1033,plain,
! [SV46: $i,SV64: $i] :
( ( ( ~ ( ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
| ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) ) )
= $false )
| ( ( SV46 = SV64 )
= $true ) ),
inference(extcnf_or_neg,[status(thm)],[899]) ).
thf(1034,plain,
! [SV46: $i,SV64: $i] :
( ( ( ~ ( ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
| ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) ) )
= $false )
| ( ( SV46 = SV64 )
= $true ) ),
inference(extcnf_or_neg,[status(thm)],[899]) ).
thf(1035,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[900]) ).
thf(1036,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[900]) ).
thf(1037,plain,
! [SV117: $i] :
( ( ( ( empty_carrier @ SV117 )
| ~ ( lattice @ SV117 )
| ~ ( latt_str @ SV117 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV117 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[901]) ).
thf(1038,plain,
! [SV47: $i,SV65: $i] :
( ( ~ ( ~ ( relation @ ( sK11_C @ SV65 @ SV47 ) )
| ~ ( relation_of2 @ ( sK11_C @ SV65 @ SV47 ) @ SV47 @ SV65 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[902]) ).
thf(1039,plain,
! [SV47: $i,SV65: $i] :
( ( function @ ( sK11_C @ SV65 @ SV47 ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[903]) ).
thf(1040,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[904]) ).
thf(1041,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[904]) ).
thf(1042,plain,
! [SV118: $i] :
( ( ( ~ ( latt_str @ SV118 ) )
= $true )
| ( ( ( empty_carrier @ SV118 )
| ~ ( lattice @ SV118 )
| ~ ( complete_latt_str @ SV118 )
| ( bounded_lattstr @ SV118 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[905]) ).
thf(1043,plain,
! [SV48: $i] :
( ( ( empty_carrier @ SV48 )
= $true )
| ( ( ~ ( lattice @ SV48 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV48 ) )
= $true )
| ( ( ~ ( latt_str @ SV48 ) )
= $true )
| ( ( ~ ( ~ ! [SY61: $i] :
( ( join_of_latt_set @ SV48 @ SY61 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY61 ) )
| ~ ! [SY62: $i] :
( ( meet_of_latt_set @ SV48 @ SY62 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY62 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[906]) ).
thf(1044,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[907]) ).
thf(1045,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[907]) ).
thf(1046,plain,
! [SV119: $i] :
( ( ( ( empty_carrier @ SV119 )
| ~ ( lattice @ SV119 )
| ~ ( complete_latt_str @ SV119 )
| ~ ( latt_str @ SV119 ) )
= $true )
| ( ( complete_relstr @ ( poset_of_lattice @ SV119 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[908]) ).
thf(1047,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[909]) ).
thf(1048,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( bounded_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[909]) ).
thf(1049,plain,
! [SV120: $i] :
( ( ( ~ ( latt_str @ SV120 ) )
= $true )
| ( ( ( empty_carrier @ SV120 )
| ~ ( boolean_lattstr @ SV120 )
| ( complemented_lattstr @ SV120 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[910]) ).
thf(1050,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
| ~ ( lower_bounded_semilattstr @ sK19_A ) )
| ~ ( upper_bounded_semilattstr @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[911]) ).
thf(1051,plain,
( ( ~ ( bounded_lattstr @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[911]) ).
thf(1052,plain,
! [SV49: $i,SV139: $i] :
( ( ! [SY113: $i] :
( ~ ( function @ SV139 )
| ~ ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SY113 )
| ~ ( quasi_total @ SY113 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY113 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SY113 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[912]) ).
thf(1053,plain,
! [SV49: $i,SV140: $i] :
( ( ! [SY114: $i] :
( ~ ( function @ SV140 )
| ~ ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SY114 )
| ~ ( quasi_total @ SY114 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SY114 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SY114 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[913]) ).
thf(1054,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[914]) ).
thf(1055,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[914]) ).
thf(1056,plain,
! [SV121: $i] :
( ( ( ~ ( latt_str @ SV121 ) )
= $true )
| ( ( ( empty_carrier @ SV121 )
| ~ ( bounded_lattstr @ SV121 )
| ( upper_bounded_semilattstr @ SV121 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[915]) ).
thf(1057,plain,
( ( ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( function @ ( the_L_join @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[916]) ).
thf(1058,plain,
( ( ~ ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_join @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[916]) ).
thf(1059,plain,
! [SV122: $i] :
( ( ( ~ ( join_semilatt_str @ SV122 ) )
= $true )
| ( ( relation_of2_as_subset @ ( the_L_join @ SV122 ) @ ( cartesian_product2 @ ( the_carrier @ SV122 ) @ ( the_carrier @ SV122 ) ) @ ( the_carrier @ SV122 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[917]) ).
thf(1060,plain,
! [SV71: $i,SV50: $i,SV66: $i] :
( ( ( ~ ( function @ SV66 )
| ~ ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( function @ SV71 )
| ~ ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[918]) ).
thf(1061,plain,
! [SV4: $i] :
( ( ( empty_carrier @ SV4 )
= $false )
| ( ( with_suprema_relstr @ SV4 )
= $false )
| ( ( rel_str @ SV4 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[922]) ).
thf(1062,plain,
! [SV6: $i] :
( ( ( empty_carrier @ SV6 )
= $false )
| ( ( with_infima_relstr @ SV6 )
= $false )
| ( ( rel_str @ SV6 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[924]) ).
thf(1063,plain,
! [SV7: $i] :
( ( ( lower_bounded_relstr @ SV7 )
= $false )
| ( ( ~ ( upper_bounded_relstr @ SV7 ) )
= $true )
| ( ( bounded_relstr @ SV7 )
= $true )
| ( ( rel_str @ SV7 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[925]) ).
thf(1064,plain,
! [SV10: $i] :
( ( ( latt_str @ SV10 )
= $false )
| ( ( empty_carrier @ SV10 )
= $true )
| ( ( lattice @ SV10 )
= $false )
| ( ( ( poset_of_lattice @ SV10 )
= ( rel_str_of @ ( the_carrier @ SV10 ) @ ( k2_lattice3 @ SV10 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[927]) ).
thf(1065,plain,
! [SV18: $i] :
( ( ( latt_str @ SV18 )
= $false )
| ( ( empty_carrier @ SV18 )
= $true )
| ( ( lattice @ SV18 )
= $false )
| ( ( relation @ ( relation_of_lattice @ SV18 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[930]) ).
thf(1066,plain,
! [SV30: $i] :
( ( ( latt_str @ SV30 )
= $false )
| ( ( empty_carrier @ SV30 )
= $true )
| ( ( lattice @ SV30 )
= $false )
| ( ( ( k2_lattice3 @ SV30 )
= ( relation_of_lattice @ SV30 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[934]) ).
thf(1067,plain,
! [SV34: $i,SV69: $i,SV59: $i] :
( ( ( element @ SV59 @ ( powerset @ SV69 ) )
= $false )
| ( ( ~ ( in @ SV34 @ SV59 ) )
= $true )
| ( ( element @ SV34 @ SV69 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[936]) ).
thf(1068,plain,
! [SV35: $i,SV70: $i,SV60: $i] :
( ( ( element @ SV60 @ ( powerset @ SV70 ) )
= $false )
| ( ( ~ ( in @ SV35 @ SV60 ) )
= $true )
| ( ( ~ ( empty @ SV70 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[937]) ).
thf(1069,plain,
! [SV38: $i,SV62: $i] :
( ( ( empty @ SV62 )
= $false )
| ( ( SV38 = SV62 )
= $true )
| ( ( empty @ SV38 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[939]) ).
thf(1070,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[940]) ).
thf(1071,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[941]) ).
thf(1072,plain,
! [SV74: $i] :
( ( ( ( empty_carrier @ SV74 )
| ~ ( lattice @ SV74 ) )
= $true )
| ( ( ~ ( latt_str @ SV74 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV74 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[942]) ).
thf(1073,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[943]) ).
thf(1074,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[944]) ).
thf(1075,plain,
! [SV75: $i] :
( ( ( ( empty_carrier @ SV75 )
| ~ ( lattice @ SV75 )
| ~ ( upper_bounded_semilattstr @ SV75 ) )
= $true )
| ( ( ~ ( latt_str @ SV75 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV75 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[945]) ).
thf(1076,plain,
! [SV76: $i] :
( ( ( latt_str @ SV76 )
= $false )
| ( ( ( empty_carrier @ SV76 )
| ~ ( join_commutative @ SV76 )
| ~ ( join_associative @ SV76 )
| ~ ( meet_commutative @ SV76 )
| ~ ( meet_associative @ SV76 )
| ~ ( meet_absorbing @ SV76 )
| ~ ( join_absorbing @ SV76 )
| ~ ( empty_carrier @ SV76 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[946]) ).
thf(1077,plain,
! [SV77: $i] :
( ( ( latt_str @ SV77 )
= $false )
| ( ( ( empty_carrier @ SV77 )
| ~ ( join_commutative @ SV77 )
| ~ ( join_associative @ SV77 )
| ~ ( meet_commutative @ SV77 )
| ~ ( meet_associative @ SV77 )
| ~ ( meet_absorbing @ SV77 )
| ~ ( join_absorbing @ SV77 )
| ( lattice @ SV77 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[947]) ).
thf(1078,plain,
! [SV78: $i] :
( ( ( latt_str @ SV78 )
= $false )
| ( ( join_semilatt_str @ SV78 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[948]) ).
thf(1079,plain,
! [SV79: $i] :
( ( ( latt_str @ SV79 )
= $false )
| ( ( meet_semilatt_str @ SV79 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[949]) ).
thf(1080,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
| ~ ( antisymmetric_relstr @ sK13_A ) )
| ~ ( with_suprema_relstr @ sK13_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[951]) ).
thf(1081,plain,
( ( with_infima_relstr @ sK13_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[952]) ).
thf(1082,plain,
! [SV39: $i,SV126: $i] :
( ( ( ( empty_carrier @ SV126 )
| ~ ( latt_str @ SV126 ) )
= $true )
| ( ( ! [SY106: $i] :
( ! [SY107: $i] :
( ( SV39 != SY107 )
| ~ ( element @ SY107 @ ( the_carrier @ SV126 ) )
| ~ ( latt_set_smaller @ SV126 @ SY107 @ SY106 ) )
| ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SY106 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[953]) ).
thf(1083,plain,
! [SV39: $i,SV127: $i] :
( ( ( ( empty_carrier @ SV127 )
| ~ ( latt_str @ SV127 ) )
= $true )
| ( ( ! [SY108: $i] :
( ~ ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SY108 ) )
| ~ ( ~ ~ ( ( SV39
!= ( sK22_D @ SY108 @ SV127 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SY108 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) )
| ~ ( latt_set_smaller @ SV127 @ ( sK22_D @ SY108 @ SV127 @ SV39 ) @ SY108 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[954]) ).
thf(1084,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
| ~ ( lattice @ sK20_A ) )
| ~ ( lower_bounded_semilattstr @ sK20_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[955]) ).
thf(1085,plain,
( ( upper_bounded_semilattstr @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[956]) ).
thf(1086,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
| ~ ( complete_relstr @ sK8_A ) )
| ~ ( lower_bounded_relstr @ sK8_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[957]) ).
thf(1087,plain,
( ( upper_bounded_relstr @ sK8_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[958]) ).
thf(1088,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
| ~ ( strict_rel_str @ sK12_A ) )
| ~ ( reflexive_relstr @ sK12_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[959]) ).
thf(1089,plain,
( ( transitive_relstr @ sK12_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[960]) ).
thf(1090,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_suprema_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[961]) ).
thf(1091,plain,
( ( ! [SX0: $i] : ( with_infima_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[962]) ).
thf(1092,plain,
! [SV83: $i] :
( ( ( rel_str @ SV83 )
= $false )
| ( ( ~ ( bounded_relstr @ SV83 )
| ( lower_bounded_relstr @ SV83 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[963]) ).
thf(1093,plain,
! [SV84: $i] :
( ( ( rel_str @ SV84 )
= $false )
| ( ( ~ ( bounded_relstr @ SV84 )
| ( upper_bounded_relstr @ SV84 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[964]) ).
thf(1094,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[965]) ).
thf(1095,plain,
( ( ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[966]) ).
thf(1096,plain,
! [SV40: $i] :
( ( ( empty @ ( sK15_B @ SV40 ) )
= $false )
| ( ( empty @ SV40 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[968]) ).
thf(1097,plain,
! [SV88: $i] :
( ( ( latt_str @ SV88 )
= $false )
| ( ( ( empty_carrier @ SV88 )
| ~ ( lower_bounded_semilattstr @ SV88 )
| ~ ( upper_bounded_semilattstr @ SV88 )
| ~ ( empty_carrier @ SV88 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[969]) ).
thf(1098,plain,
! [SV89: $i] :
( ( ( latt_str @ SV89 )
= $false )
| ( ( ( empty_carrier @ SV89 )
| ~ ( lower_bounded_semilattstr @ SV89 )
| ~ ( upper_bounded_semilattstr @ SV89 )
| ( bounded_lattstr @ SV89 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[970]) ).
thf(1099,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[971]) ).
thf(1100,plain,
( ( ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[972]) ).
thf(1101,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[973]) ).
thf(1102,plain,
( ( ! [SX0: $i] : ( boolean_lattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[974]) ).
thf(1103,plain,
! [SV41: $i] :
( ( ( ~ ( element @ ( sK5_B @ SV41 ) @ ( powerset @ ( the_carrier @ SV41 ) ) ) )
= $false )
| ( ( empty_carrier @ SV41 )
= $true )
| ( ( one_sorted_str @ SV41 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[975]) ).
thf(1104,plain,
! [SV41: $i] :
( ( ( ~ ~ ( empty @ ( sK5_B @ SV41 ) ) )
= $false )
| ( ( empty_carrier @ SV41 )
= $true )
| ( ( one_sorted_str @ SV41 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[975]) ).
thf(1105,plain,
( ( ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( function @ ( the_L_meet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[976]) ).
thf(1106,plain,
( ( ! [SX0: $i] :
( ~ ( meet_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_meet @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[977]) ).
thf(1107,plain,
! [SV92: $i] :
( ( ( meet_semilatt_str @ SV92 )
= $false )
| ( ( relation_of2_as_subset @ ( the_L_meet @ SV92 ) @ ( cartesian_product2 @ ( the_carrier @ SV92 ) @ ( the_carrier @ SV92 ) ) @ ( the_carrier @ SV92 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[978]) ).
thf(1108,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_associative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[979]) ).
thf(1109,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[980]) ).
thf(1110,plain,
! [SV93: $i] :
( ( ( latt_str @ SV93 )
= $false )
| ( ( ( empty_carrier @ SV93 )
| ~ ( lattice @ SV93 )
| ( join_absorbing @ SV93 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[981]) ).
thf(1111,plain,
( ( latt_str @ sK4_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[982]) ).
thf(1112,plain,
( ( ~ ( empty_carrier @ sK4_A ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[983]) ).
thf(1113,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
| ~ ( reflexive_relstr @ sK17_A ) )
| ~ ( transitive_relstr @ sK17_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[984]) ).
thf(1114,plain,
( ( antisymmetric_relstr @ sK17_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[985]) ).
thf(1115,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
| ~ ( upper_bounded_semilattstr @ sK18_A ) )
| ~ ( bounded_lattstr @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[986]) ).
thf(1116,plain,
( ( complemented_lattstr @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[987]) ).
thf(1117,plain,
! [SV128: $i,SV42: $i,SV141: $i] :
( ( ~ ( relation_of2 @ SV141 @ SV42 @ SV128 )
| ( relation_of2_as_subset @ SV141 @ SV42 @ SV128 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[988]) ).
thf(1118,plain,
! [SV129: $i,SV42: $i,SV142: $i] :
( ( ~ ( relation_of2_as_subset @ SV142 @ SV42 @ SV129 )
| ( relation_of2 @ SV142 @ SV42 @ SV129 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[989]) ).
thf(1119,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[990]) ).
thf(1120,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( latt_str @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[991]) ).
thf(1121,plain,
! [SV94: $i] :
( ( ( ( empty_carrier @ SV94 )
| ~ ( lattice @ SV94 )
| ~ ( complete_latt_str @ SV94 ) )
= $true )
| ( ( ~ ( latt_str @ SV94 ) )
= $true )
| ( ( ( bottom_of_semilattstr @ SV94 )
= ( join_of_latt_set @ SV94 @ empty_set ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[992]) ).
thf(1122,plain,
! [SV63: $i,SV43: $i] :
( ( ( ~ ! [SY80: $i] :
( ! [SY81: $i] :
( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY80 @ SY81 ) )
| ( SV43 = SY80 ) ) )
= $false )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[993]) ).
thf(1123,plain,
! [SV63: $i,SV43: $i] :
( ( ( ~ ! [SY82: $i,SY83: $i] :
( ( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY82 @ SY83 ) )
| ( SV63 = SY83 ) ) )
= $false )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[993]) ).
thf(1124,plain,
! [SV97: $i] :
( ( ( latt_str @ SV97 )
= $false )
| ( ( ( empty_carrier @ SV97 )
| ~ ( distributive_lattstr @ SV97 )
| ~ ( bounded_lattstr @ SV97 )
| ~ ( complemented_lattstr @ SV97 )
| ~ ( empty_carrier @ SV97 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[994]) ).
thf(1125,plain,
! [SV98: $i] :
( ( ( latt_str @ SV98 )
= $false )
| ( ( ( empty_carrier @ SV98 )
| ~ ( distributive_lattstr @ SV98 )
| ~ ( bounded_lattstr @ SV98 )
| ~ ( complemented_lattstr @ SV98 )
| ( boolean_lattstr @ SV98 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[995]) ).
thf(1126,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive @ ( k2_lattice3 @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[996]) ).
thf(1127,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( v1_partfun1 @ ( k2_lattice3 @ SX0 ) @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[997]) ).
thf(1128,plain,
! [SV99: $i] :
( ( ( ( empty_carrier @ SV99 )
| ~ ( lattice @ SV99 ) )
= $true )
| ( ( ~ ( latt_str @ SV99 ) )
= $true )
| ( ( relation_of2_as_subset @ ( k2_lattice3 @ SV99 ) @ ( the_carrier @ SV99 ) @ ( the_carrier @ SV99 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[998]) ).
thf(1129,plain,
! [SV130: $i,SV100: $i] :
( ( ( ( empty @ SV100 )
| ~ ( relation_of2 @ SV130 @ SV100 @ SV100 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( rel_str_of @ SV100 @ SV130 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[999]) ).
thf(1130,plain,
! [SV131: $i,SV101: $i] :
( ( ( ( empty @ SV101 )
| ~ ( relation_of2 @ SV131 @ SV101 @ SV101 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV101 @ SV131 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1000]) ).
thf(1131,plain,
( ( ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1001]) ).
thf(1132,plain,
( ( ! [SX0: $i] :
( ~ ( rel_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( complete_relstr @ SX0 )
| ( with_suprema_relstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1002]) ).
thf(1133,plain,
! [SV102: $i] :
( ( ( rel_str @ SV102 )
= $false )
| ( ( ( empty_carrier @ SV102 )
| ~ ( complete_relstr @ SV102 )
| ( with_infima_relstr @ SV102 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1003]) ).
thf(1134,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_absorbing @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1004]) ).
thf(1135,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1005]) ).
thf(1136,plain,
! [SV103: $i] :
( ( ( latt_str @ SV103 )
= $false )
| ( ( ( empty_carrier @ SV103 )
| ~ ( lattice @ SV103 )
| ~ ( distributive_lattstr @ SV103 )
| ( modular_lattstr @ SV103 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1006]) ).
thf(1137,plain,
( ( ~ ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( reflexive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1007]) ).
thf(1138,plain,
( ( ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( transitive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1008]) ).
thf(1139,plain,
! [SV104: $i,SV132: $i] :
( ( ( ~ ( antisymmetric @ SV132 )
| ~ ( reflexive @ SV132 )
| ~ ( transitive @ SV132 )
| ~ ( v1_partfun1 @ SV132 @ SV104 @ SV104 )
| ~ ( relation_of2 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SV132 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1009]) ).
thf(1140,plain,
! [SV105: $i] :
( ( ( rel_str @ SV105 )
= $false )
| ( ( ( empty_carrier @ SV105 )
| ~ ( complete_relstr @ SV105 )
| ~ ( empty_carrier @ SV105 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1010]) ).
thf(1141,plain,
! [SV106: $i] :
( ( ( rel_str @ SV106 )
= $false )
| ( ( ( empty_carrier @ SV106 )
| ~ ( complete_relstr @ SV106 )
| ( bounded_relstr @ SV106 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1011]) ).
thf(1142,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1012]) ).
thf(1143,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1013]) ).
thf(1144,plain,
! [SV107: $i] :
( ( ( ( empty_carrier @ SV107 )
| ~ ( lattice @ SV107 ) )
= $true )
| ( ( ~ ( latt_str @ SV107 ) )
= $true )
| ( ( rel_str @ ( poset_of_lattice @ SV107 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1014]) ).
thf(1145,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
| ~ ( meet_associative @ sK3_A ) )
| ~ ( meet_absorbing @ sK3_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1015]) ).
thf(1146,plain,
( ( join_absorbing @ sK3_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1016]) ).
thf(1147,plain,
! [SV110: $i,SV133: $i] :
( ( ( ~ ( relation_of2 @ SV133 @ SV110 @ SV110 ) )
= $true )
| ( ( rel_str @ ( rel_str_of @ SV110 @ SV133 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1017]) ).
thf(1148,plain,
! [SV111: $i,SV134: $i] :
( ( ( ~ ( relation_of2 @ SV134 @ SV111 @ SV111 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV111 @ SV134 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1018]) ).
thf(1149,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
| ~ ( distributive_lattstr @ sK21_A ) )
| ~ ( modular_lattstr @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1019]) ).
thf(1150,plain,
( ( lower_bounded_semilattstr @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1020]) ).
thf(1151,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1021]) ).
thf(1152,plain,
( ( ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1022]) ).
thf(1153,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1023]) ).
thf(1154,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1024]) ).
thf(1155,plain,
! [SV113: $i] :
( ( ( ( empty_carrier @ SV113 )
| ~ ( lattice @ SV113 )
| ~ ( lower_bounded_semilattstr @ SV113 ) )
= $true )
| ( ( ~ ( latt_str @ SV113 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV113 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1025]) ).
thf(1156,plain,
! [SV143: $i,SV135: $i,SV45: $i] :
( ( ( empty @ SV45 )
| ~ ( function @ SV135 )
| ~ ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SV143 )
| ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1026]) ).
thf(1157,plain,
! [SV144: $i,SV136: $i,SV45: $i] :
( ( ( empty @ SV45 )
| ~ ( function @ SV136 )
| ~ ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SV144 )
| ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1027]) ).
thf(1158,plain,
! [SV137: $i,SV114: $i] :
( ( ( ~ ( element @ SV114 @ ( powerset @ SV137 ) ) )
= $true )
| ( ( subset @ SV114 @ SV137 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1028]) ).
thf(1159,plain,
! [SV138: $i,SV115: $i] :
( ( ( ~ ( subset @ SV115 @ SV138 ) )
= $true )
| ( ( element @ SV115 @ ( powerset @ SV138 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1029]) ).
thf(1160,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( antisymmetric @ ( the_InternalRel @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1030]) ).
thf(1161,plain,
( ( ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( transitive @ ( the_InternalRel @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1031]) ).
thf(1162,plain,
! [SV116: $i] :
( ( ( ~ ( reflexive_relstr @ SV116 )
| ~ ( transitive_relstr @ SV116 )
| ~ ( antisymmetric_relstr @ SV116 ) )
= $true )
| ( ( ~ ( rel_str @ SV116 ) )
= $true )
| ( ( v1_partfun1 @ ( the_InternalRel @ SV116 ) @ ( the_carrier @ SV116 ) @ ( the_carrier @ SV116 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1032]) ).
thf(1163,plain,
! [SV46: $i,SV64: $i] :
( ( ( ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
| ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) )
= $true )
| ( ( SV46 = SV64 )
= $true ) ),
inference(extcnf_not_neg,[status(thm)],[1033]) ).
thf(1164,plain,
! [SV46: $i,SV64: $i] :
( ( ( ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
| ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) )
= $true )
| ( ( SV46 = SV64 )
= $true ) ),
inference(extcnf_not_neg,[status(thm)],[1034]) ).
thf(1165,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1035]) ).
thf(1166,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1036]) ).
thf(1167,plain,
! [SV117: $i] :
( ( ( ( empty_carrier @ SV117 )
| ~ ( lattice @ SV117 ) )
= $true )
| ( ( ~ ( latt_str @ SV117 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV117 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1037]) ).
thf(1168,plain,
! [SV47: $i,SV65: $i] :
( ( ~ ( relation @ ( sK11_C @ SV65 @ SV47 ) )
| ~ ( relation_of2 @ ( sK11_C @ SV65 @ SV47 ) @ SV47 @ SV65 ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1038]) ).
thf(1169,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1040]) ).
thf(1170,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1041]) ).
thf(1171,plain,
! [SV118: $i] :
( ( ( latt_str @ SV118 )
= $false )
| ( ( ( empty_carrier @ SV118 )
| ~ ( lattice @ SV118 )
| ~ ( complete_latt_str @ SV118 )
| ( bounded_lattstr @ SV118 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1042]) ).
thf(1172,plain,
! [SV48: $i] :
( ( ( lattice @ SV48 )
= $false )
| ( ( empty_carrier @ SV48 )
= $true )
| ( ( ~ ( complete_latt_str @ SV48 ) )
= $true )
| ( ( ~ ( latt_str @ SV48 ) )
= $true )
| ( ( ~ ( ~ ! [SY61: $i] :
( ( join_of_latt_set @ SV48 @ SY61 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY61 ) )
| ~ ! [SY62: $i] :
( ( meet_of_latt_set @ SV48 @ SY62 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY62 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1043]) ).
thf(1173,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1044]) ).
thf(1174,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_infima_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1045]) ).
thf(1175,plain,
! [SV119: $i] :
( ( ( ( empty_carrier @ SV119 )
| ~ ( lattice @ SV119 )
| ~ ( complete_latt_str @ SV119 ) )
= $true )
| ( ( ~ ( latt_str @ SV119 ) )
= $true )
| ( ( complete_relstr @ ( poset_of_lattice @ SV119 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1046]) ).
thf(1176,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1047]) ).
thf(1177,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( bounded_lattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1048]) ).
thf(1178,plain,
! [SV120: $i] :
( ( ( latt_str @ SV120 )
= $false )
| ( ( ( empty_carrier @ SV120 )
| ~ ( boolean_lattstr @ SV120 )
| ( complemented_lattstr @ SV120 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1049]) ).
thf(1179,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
| ~ ( lower_bounded_semilattstr @ sK19_A ) )
| ~ ( upper_bounded_semilattstr @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1050]) ).
thf(1180,plain,
( ( bounded_lattstr @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1051]) ).
thf(1181,plain,
! [SV145: $i,SV49: $i,SV139: $i] :
( ( ~ ( function @ SV139 )
| ~ ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SV145 )
| ~ ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1052]) ).
thf(1182,plain,
! [SV146: $i,SV49: $i,SV140: $i] :
( ( ~ ( function @ SV140 )
| ~ ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SV146 )
| ~ ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1053]) ).
thf(1183,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1054]) ).
thf(1184,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( bounded_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1055]) ).
thf(1185,plain,
! [SV121: $i] :
( ( ( latt_str @ SV121 )
= $false )
| ( ( ( empty_carrier @ SV121 )
| ~ ( bounded_lattstr @ SV121 )
| ( upper_bounded_semilattstr @ SV121 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1056]) ).
thf(1186,plain,
( ( ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( function @ ( the_L_join @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1057]) ).
thf(1187,plain,
( ( ! [SX0: $i] :
( ~ ( join_semilatt_str @ SX0 )
| ( quasi_total @ ( the_L_join @ SX0 ) @ ( cartesian_product2 @ ( the_carrier @ SX0 ) @ ( the_carrier @ SX0 ) ) @ ( the_carrier @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1058]) ).
thf(1188,plain,
! [SV122: $i] :
( ( ( join_semilatt_str @ SV122 )
= $false )
| ( ( relation_of2_as_subset @ ( the_L_join @ SV122 ) @ ( cartesian_product2 @ ( the_carrier @ SV122 ) @ ( the_carrier @ SV122 ) ) @ ( the_carrier @ SV122 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1059]) ).
thf(1189,plain,
! [SV71: $i,SV50: $i,SV66: $i] :
( ( ( ~ ( function @ SV66 )
| ~ ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( function @ SV71 ) )
= $true )
| ( ( ~ ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1060]) ).
thf(1190,plain,
! [SV7: $i] :
( ( ( upper_bounded_relstr @ SV7 )
= $false )
| ( ( lower_bounded_relstr @ SV7 )
= $false )
| ( ( bounded_relstr @ SV7 )
= $true )
| ( ( rel_str @ SV7 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1063]) ).
thf(1191,plain,
! [SV69: $i,SV59: $i,SV34: $i] :
( ( ( in @ SV34 @ SV59 )
= $false )
| ( ( element @ SV59 @ ( powerset @ SV69 ) )
= $false )
| ( ( element @ SV34 @ SV69 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1067]) ).
thf(1192,plain,
! [SV70: $i,SV60: $i,SV35: $i] :
( ( ( in @ SV35 @ SV60 )
= $false )
| ( ( element @ SV60 @ ( powerset @ SV70 ) )
= $false )
| ( ( ~ ( empty @ SV70 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1068]) ).
thf(1193,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1070]) ).
thf(1194,plain,
! [SV147: $i] :
( ( ( empty_carrier @ SV147 )
| ~ ( lattice @ SV147 )
| ~ ( latt_str @ SV147 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SV147 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1071]) ).
thf(1195,plain,
! [SV74: $i] :
( ( ( empty_carrier @ SV74 )
= $true )
| ( ( ~ ( lattice @ SV74 ) )
= $true )
| ( ( ~ ( latt_str @ SV74 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV74 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1072]) ).
thf(1196,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1073]) ).
thf(1197,plain,
! [SV148: $i] :
( ( ( empty_carrier @ SV148 )
| ~ ( lattice @ SV148 )
| ~ ( upper_bounded_semilattstr @ SV148 )
| ~ ( latt_str @ SV148 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SV148 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1074]) ).
thf(1198,plain,
! [SV75: $i] :
( ( ( ( empty_carrier @ SV75 )
| ~ ( lattice @ SV75 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV75 ) )
= $true )
| ( ( ~ ( latt_str @ SV75 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV75 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1075]) ).
thf(1199,plain,
! [SV76: $i] :
( ( ( ( empty_carrier @ SV76 )
| ~ ( join_commutative @ SV76 )
| ~ ( join_associative @ SV76 )
| ~ ( meet_commutative @ SV76 )
| ~ ( meet_associative @ SV76 )
| ~ ( meet_absorbing @ SV76 )
| ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1076]) ).
thf(1200,plain,
! [SV77: $i] :
( ( ( ( empty_carrier @ SV77 )
| ~ ( join_commutative @ SV77 )
| ~ ( join_associative @ SV77 )
| ~ ( meet_commutative @ SV77 )
| ~ ( meet_associative @ SV77 )
| ~ ( meet_absorbing @ SV77 )
| ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1077]) ).
thf(1201,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
| ~ ( antisymmetric_relstr @ sK13_A ) )
| ~ ( with_suprema_relstr @ sK13_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1080]) ).
thf(1202,plain,
! [SV39: $i,SV126: $i] :
( ( ( empty_carrier @ SV126 )
= $true )
| ( ( ~ ( latt_str @ SV126 ) )
= $true )
| ( ( ! [SY106: $i] :
( ! [SY107: $i] :
( ( SV39 != SY107 )
| ~ ( element @ SY107 @ ( the_carrier @ SV126 ) )
| ~ ( latt_set_smaller @ SV126 @ SY107 @ SY106 ) )
| ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SY106 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1082]) ).
thf(1203,plain,
! [SV39: $i,SV127: $i] :
( ( ( empty_carrier @ SV127 )
= $true )
| ( ( ~ ( latt_str @ SV127 ) )
= $true )
| ( ( ! [SY108: $i] :
( ~ ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SY108 ) )
| ~ ( ~ ~ ( ( SV39
!= ( sK22_D @ SY108 @ SV127 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SY108 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) )
| ~ ( latt_set_smaller @ SV127 @ ( sK22_D @ SY108 @ SV127 @ SV39 ) @ SY108 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1083]) ).
thf(1204,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
| ~ ( lattice @ sK20_A ) )
| ~ ( lower_bounded_semilattstr @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1084]) ).
thf(1205,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
| ~ ( complete_relstr @ sK8_A ) )
| ~ ( lower_bounded_relstr @ sK8_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1086]) ).
thf(1206,plain,
( ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
| ~ ( strict_rel_str @ sK12_A ) )
| ~ ( reflexive_relstr @ sK12_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1088]) ).
thf(1207,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( with_suprema_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1090]) ).
thf(1208,plain,
! [SV149: $i] :
( ( with_infima_relstr @ ( boole_POSet @ SV149 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1091]) ).
thf(1209,plain,
! [SV83: $i] :
( ( ( ~ ( bounded_relstr @ SV83 ) )
= $true )
| ( ( lower_bounded_relstr @ SV83 )
= $true )
| ( ( rel_str @ SV83 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1092]) ).
thf(1210,plain,
! [SV84: $i] :
( ( ( ~ ( bounded_relstr @ SV84 ) )
= $true )
| ( ( upper_bounded_relstr @ SV84 )
= $true )
| ( ( rel_str @ SV84 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1093]) ).
thf(1211,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1094]) ).
thf(1212,plain,
! [SV150: $i] :
( ( join_absorbing @ ( boole_lattice @ SV150 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1095]) ).
thf(1213,plain,
! [SV88: $i] :
( ( ( ( empty_carrier @ SV88 )
| ~ ( lower_bounded_semilattstr @ SV88 )
| ~ ( upper_bounded_semilattstr @ SV88 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV88 ) )
= $true )
| ( ( latt_str @ SV88 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1097]) ).
thf(1214,plain,
! [SV89: $i] :
( ( ( ( empty_carrier @ SV89 )
| ~ ( lower_bounded_semilattstr @ SV89 )
| ~ ( upper_bounded_semilattstr @ SV89 ) )
= $true )
| ( ( bounded_lattstr @ SV89 )
= $true )
| ( ( latt_str @ SV89 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1098]) ).
thf(1215,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1099]) ).
thf(1216,plain,
! [SV151: $i] :
( ( transitive_relstr @ ( boole_POSet @ SV151 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1100]) ).
thf(1217,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1101]) ).
thf(1218,plain,
! [SV152: $i] :
( ( boolean_lattstr @ ( boole_lattice @ SV152 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1102]) ).
thf(1219,plain,
! [SV41: $i] :
( ( ( element @ ( sK5_B @ SV41 ) @ ( powerset @ ( the_carrier @ SV41 ) ) )
= $true )
| ( ( empty_carrier @ SV41 )
= $true )
| ( ( one_sorted_str @ SV41 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[1103]) ).
thf(1220,plain,
! [SV41: $i] :
( ( ( ~ ( empty @ ( sK5_B @ SV41 ) ) )
= $true )
| ( ( empty_carrier @ SV41 )
= $true )
| ( ( one_sorted_str @ SV41 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[1104]) ).
thf(1221,plain,
! [SV153: $i] :
( ( ~ ( meet_semilatt_str @ SV153 )
| ( function @ ( the_L_meet @ SV153 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1105]) ).
thf(1222,plain,
! [SV154: $i] :
( ( ~ ( meet_semilatt_str @ SV154 )
| ( quasi_total @ ( the_L_meet @ SV154 ) @ ( cartesian_product2 @ ( the_carrier @ SV154 ) @ ( the_carrier @ SV154 ) ) @ ( the_carrier @ SV154 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1106]) ).
thf(1223,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_associative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1108]) ).
thf(1224,plain,
! [SV155: $i] :
( ( ~ ( latt_str @ SV155 )
| ( empty_carrier @ SV155 )
| ~ ( lattice @ SV155 )
| ( meet_absorbing @ SV155 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1109]) ).
thf(1225,plain,
! [SV93: $i] :
( ( ( ( empty_carrier @ SV93 )
| ~ ( lattice @ SV93 ) )
= $true )
| ( ( join_absorbing @ SV93 )
= $true )
| ( ( latt_str @ SV93 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1110]) ).
thf(1226,plain,
( ( empty_carrier @ sK4_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1112]) ).
thf(1227,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
| ~ ( reflexive_relstr @ sK17_A ) )
| ~ ( transitive_relstr @ sK17_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1113]) ).
thf(1228,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
| ~ ( upper_bounded_semilattstr @ sK18_A ) )
| ~ ( bounded_lattstr @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1115]) ).
thf(1229,plain,
! [SV128: $i,SV42: $i,SV141: $i] :
( ( ( ~ ( relation_of2 @ SV141 @ SV42 @ SV128 ) )
= $true )
| ( ( relation_of2_as_subset @ SV141 @ SV42 @ SV128 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1117]) ).
thf(1230,plain,
! [SV129: $i,SV42: $i,SV142: $i] :
( ( ( ~ ( relation_of2_as_subset @ SV142 @ SV42 @ SV129 ) )
= $true )
| ( ( relation_of2 @ SV142 @ SV42 @ SV129 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1118]) ).
thf(1231,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1119]) ).
thf(1232,plain,
! [SV156: $i] :
( ( ( empty_carrier @ SV156 )
| ~ ( lattice @ SV156 )
| ~ ( complete_latt_str @ SV156 )
| ~ ( latt_str @ SV156 )
| ( latt_str @ SV156 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1120]) ).
thf(1233,plain,
! [SV94: $i] :
( ( ( ( empty_carrier @ SV94 )
| ~ ( lattice @ SV94 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV94 ) )
= $true )
| ( ( ~ ( latt_str @ SV94 ) )
= $true )
| ( ( ( bottom_of_semilattstr @ SV94 )
= ( join_of_latt_set @ SV94 @ empty_set ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1121]) ).
thf(1234,plain,
! [SV63: $i,SV43: $i] :
( ( ( ! [SY80: $i] :
( ! [SY81: $i] :
( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY80 @ SY81 ) )
| ( SV43 = SY80 ) ) )
= $true )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[1122]) ).
thf(1235,plain,
! [SV63: $i,SV43: $i] :
( ( ( ! [SY82: $i,SY83: $i] :
( ( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SY82 @ SY83 ) )
| ( SV63 = SY83 ) ) )
= $true )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[1123]) ).
thf(1236,plain,
! [SV97: $i] :
( ( ( ( empty_carrier @ SV97 )
| ~ ( distributive_lattstr @ SV97 )
| ~ ( bounded_lattstr @ SV97 )
| ~ ( complemented_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV97 ) )
= $true )
| ( ( latt_str @ SV97 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1124]) ).
thf(1237,plain,
! [SV98: $i] :
( ( ( ( empty_carrier @ SV98 )
| ~ ( distributive_lattstr @ SV98 )
| ~ ( bounded_lattstr @ SV98 )
| ~ ( complemented_lattstr @ SV98 ) )
= $true )
| ( ( boolean_lattstr @ SV98 )
= $true )
| ( ( latt_str @ SV98 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1125]) ).
thf(1238,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive @ ( k2_lattice3 @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1126]) ).
thf(1239,plain,
! [SV157: $i] :
( ( ( empty_carrier @ SV157 )
| ~ ( lattice @ SV157 )
| ~ ( latt_str @ SV157 )
| ( v1_partfun1 @ ( k2_lattice3 @ SV157 ) @ ( the_carrier @ SV157 ) @ ( the_carrier @ SV157 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1127]) ).
thf(1240,plain,
! [SV99: $i] :
( ( ( empty_carrier @ SV99 )
= $true )
| ( ( ~ ( lattice @ SV99 ) )
= $true )
| ( ( ~ ( latt_str @ SV99 ) )
= $true )
| ( ( relation_of2_as_subset @ ( k2_lattice3 @ SV99 ) @ ( the_carrier @ SV99 ) @ ( the_carrier @ SV99 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1128]) ).
thf(1241,plain,
! [SV130: $i,SV100: $i] :
( ( ( empty @ SV100 )
= $true )
| ( ( ~ ( relation_of2 @ SV130 @ SV100 @ SV100 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( rel_str_of @ SV100 @ SV130 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1129]) ).
thf(1242,plain,
! [SV131: $i,SV101: $i] :
( ( ( empty @ SV101 )
= $true )
| ( ( ~ ( relation_of2 @ SV131 @ SV101 @ SV101 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV101 @ SV131 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1130]) ).
thf(1243,plain,
! [SV158: $i] :
( ( ~ ( rel_str @ SV158 )
| ( empty_carrier @ SV158 )
| ~ ( complete_relstr @ SV158 )
| ~ ( empty_carrier @ SV158 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1131]) ).
thf(1244,plain,
! [SV159: $i] :
( ( ~ ( rel_str @ SV159 )
| ( empty_carrier @ SV159 )
| ~ ( complete_relstr @ SV159 )
| ( with_suprema_relstr @ SV159 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1132]) ).
thf(1245,plain,
! [SV102: $i] :
( ( ( ( empty_carrier @ SV102 )
| ~ ( complete_relstr @ SV102 ) )
= $true )
| ( ( with_infima_relstr @ SV102 )
= $true )
| ( ( rel_str @ SV102 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1133]) ).
thf(1246,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1134]) ).
thf(1247,plain,
! [SV160: $i] :
( ( ~ ( latt_str @ SV160 )
| ( empty_carrier @ SV160 )
| ~ ( lattice @ SV160 )
| ~ ( distributive_lattstr @ SV160 )
| ( lattice @ SV160 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1135]) ).
thf(1248,plain,
! [SV103: $i] :
( ( ( ( empty_carrier @ SV103 )
| ~ ( lattice @ SV103 )
| ~ ( distributive_lattstr @ SV103 ) )
= $true )
| ( ( modular_lattstr @ SV103 )
= $true )
| ( ( latt_str @ SV103 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1136]) ).
thf(1249,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( reflexive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) )
| ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1137]) ).
thf(1250,plain,
! [SV161: $i] :
( ( ! [SY115: $i] :
( ~ ( antisymmetric @ SY115 )
| ~ ( reflexive @ SY115 )
| ~ ( transitive @ SY115 )
| ~ ( v1_partfun1 @ SY115 @ SV161 @ SV161 )
| ~ ( relation_of2 @ SY115 @ SV161 @ SV161 )
| ( transitive_relstr @ ( rel_str_of @ SV161 @ SY115 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1138]) ).
thf(1251,plain,
! [SV104: $i,SV132: $i] :
( ( ( ~ ( antisymmetric @ SV132 )
| ~ ( reflexive @ SV132 )
| ~ ( transitive @ SV132 )
| ~ ( v1_partfun1 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SV132 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1139]) ).
thf(1252,plain,
! [SV105: $i] :
( ( ( ( empty_carrier @ SV105 )
| ~ ( complete_relstr @ SV105 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV105 ) )
= $true )
| ( ( rel_str @ SV105 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1140]) ).
thf(1253,plain,
! [SV106: $i] :
( ( ( ( empty_carrier @ SV106 )
| ~ ( complete_relstr @ SV106 ) )
= $true )
| ( ( bounded_relstr @ SV106 )
= $true )
| ( ( rel_str @ SV106 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1141]) ).
thf(1254,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1142]) ).
thf(1255,plain,
! [SV162: $i] :
( ( ( empty_carrier @ SV162 )
| ~ ( lattice @ SV162 )
| ~ ( latt_str @ SV162 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SV162 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1143]) ).
thf(1256,plain,
! [SV107: $i] :
( ( ( empty_carrier @ SV107 )
= $true )
| ( ( ~ ( lattice @ SV107 ) )
= $true )
| ( ( ~ ( latt_str @ SV107 ) )
= $true )
| ( ( rel_str @ ( poset_of_lattice @ SV107 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1144]) ).
thf(1257,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
| ~ ( meet_associative @ sK3_A ) )
| ~ ( meet_absorbing @ sK3_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1145]) ).
thf(1258,plain,
! [SV110: $i,SV133: $i] :
( ( ( relation_of2 @ SV133 @ SV110 @ SV110 )
= $false )
| ( ( rel_str @ ( rel_str_of @ SV110 @ SV133 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1147]) ).
thf(1259,plain,
! [SV111: $i,SV134: $i] :
( ( ( relation_of2 @ SV134 @ SV111 @ SV111 )
= $false )
| ( ( strict_rel_str @ ( rel_str_of @ SV111 @ SV134 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1148]) ).
thf(1260,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
| ~ ( distributive_lattstr @ sK21_A ) )
| ~ ( modular_lattstr @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1149]) ).
thf(1261,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1151]) ).
thf(1262,plain,
! [SV163: $i] :
( ( complemented_lattstr @ ( boole_lattice @ SV163 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1152]) ).
thf(1263,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1153]) ).
thf(1264,plain,
! [SV164: $i] :
( ( ( empty_carrier @ SV164 )
| ~ ( lattice @ SV164 )
| ~ ( lower_bounded_semilattstr @ SV164 )
| ~ ( latt_str @ SV164 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SV164 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1154]) ).
thf(1265,plain,
! [SV113: $i] :
( ( ( ( empty_carrier @ SV113 )
| ~ ( lattice @ SV113 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV113 ) )
= $true )
| ( ( ~ ( latt_str @ SV113 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV113 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1155]) ).
thf(1266,plain,
! [SV143: $i,SV135: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV135 )
| ~ ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SV143 )
| ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1156]) ).
thf(1267,plain,
! [SV144: $i,SV136: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV136 )
| ~ ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SV144 )
| ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1157]) ).
thf(1268,plain,
! [SV137: $i,SV114: $i] :
( ( ( element @ SV114 @ ( powerset @ SV137 ) )
= $false )
| ( ( subset @ SV114 @ SV137 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1158]) ).
thf(1269,plain,
! [SV138: $i,SV115: $i] :
( ( ( subset @ SV115 @ SV138 )
= $false )
| ( ( element @ SV115 @ ( powerset @ SV138 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1159]) ).
thf(1270,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( antisymmetric @ ( the_InternalRel @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1160]) ).
thf(1271,plain,
! [SV165: $i] :
( ( ~ ( reflexive_relstr @ SV165 )
| ~ ( transitive_relstr @ SV165 )
| ~ ( antisymmetric_relstr @ SV165 )
| ~ ( rel_str @ SV165 )
| ( transitive @ ( the_InternalRel @ SV165 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1161]) ).
thf(1272,plain,
! [SV116: $i] :
( ( ( ~ ( reflexive_relstr @ SV116 )
| ~ ( transitive_relstr @ SV116 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV116 ) )
= $true )
| ( ( ~ ( rel_str @ SV116 ) )
= $true )
| ( ( v1_partfun1 @ ( the_InternalRel @ SV116 ) @ ( the_carrier @ SV116 ) @ ( the_carrier @ SV116 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1162]) ).
thf(1273,plain,
! [SV46: $i,SV64: $i] :
( ( ( ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 ) )
= $true )
| ( ( ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) )
= $true )
| ( ( SV46 = SV64 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1163]) ).
thf(1274,plain,
! [SV46: $i,SV64: $i] :
( ( ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
= $true )
| ( ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 )
= $true )
| ( ( SV46 = SV64 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1164]) ).
thf(1275,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1165]) ).
thf(1276,plain,
! [SV166: $i] :
( ( ( empty_carrier @ SV166 )
| ~ ( lattice @ SV166 )
| ~ ( latt_str @ SV166 )
| ( transitive_relstr @ ( poset_of_lattice @ SV166 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1166]) ).
thf(1277,plain,
! [SV117: $i] :
( ( ( empty_carrier @ SV117 )
= $true )
| ( ( ~ ( lattice @ SV117 ) )
= $true )
| ( ( ~ ( latt_str @ SV117 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV117 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1167]) ).
thf(1278,plain,
! [SV47: $i,SV65: $i] :
( ( ~ ( relation @ ( sK11_C @ SV65 @ SV47 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1168]) ).
thf(1279,plain,
! [SV47: $i,SV65: $i] :
( ( ~ ( relation_of2 @ ( sK11_C @ SV65 @ SV47 ) @ SV47 @ SV65 ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1168]) ).
thf(1280,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1169]) ).
thf(1281,plain,
! [SV167: $i] :
( ( ~ ( latt_str @ SV167 )
| ( empty_carrier @ SV167 )
| ~ ( lattice @ SV167 )
| ~ ( complete_latt_str @ SV167 )
| ( upper_bounded_semilattstr @ SV167 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1170]) ).
thf(1282,plain,
! [SV118: $i] :
( ( ( ( empty_carrier @ SV118 )
| ~ ( lattice @ SV118 )
| ~ ( complete_latt_str @ SV118 ) )
= $true )
| ( ( bounded_lattstr @ SV118 )
= $true )
| ( ( latt_str @ SV118 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1171]) ).
thf(1283,plain,
! [SV48: $i] :
( ( ( complete_latt_str @ SV48 )
= $false )
| ( ( empty_carrier @ SV48 )
= $true )
| ( ( lattice @ SV48 )
= $false )
| ( ( ~ ( latt_str @ SV48 ) )
= $true )
| ( ( ~ ( ~ ! [SY61: $i] :
( ( join_of_latt_set @ SV48 @ SY61 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY61 ) )
| ~ ! [SY62: $i] :
( ( meet_of_latt_set @ SV48 @ SY62 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY62 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1172]) ).
thf(1284,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1173]) ).
thf(1285,plain,
! [SV168: $i] :
( ( ( empty_carrier @ SV168 )
| ~ ( lattice @ SV168 )
| ~ ( complete_latt_str @ SV168 )
| ~ ( latt_str @ SV168 )
| ( with_infima_relstr @ ( poset_of_lattice @ SV168 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1174]) ).
thf(1286,plain,
! [SV119: $i] :
( ( ( ( empty_carrier @ SV119 )
| ~ ( lattice @ SV119 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV119 ) )
= $true )
| ( ( ~ ( latt_str @ SV119 ) )
= $true )
| ( ( complete_relstr @ ( poset_of_lattice @ SV119 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1175]) ).
thf(1287,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1176]) ).
thf(1288,plain,
! [SV169: $i] :
( ( ~ ( latt_str @ SV169 )
| ( empty_carrier @ SV169 )
| ~ ( boolean_lattstr @ SV169 )
| ( bounded_lattstr @ SV169 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1177]) ).
thf(1289,plain,
! [SV120: $i] :
( ( ( ( empty_carrier @ SV120 )
| ~ ( boolean_lattstr @ SV120 ) )
= $true )
| ( ( complemented_lattstr @ SV120 )
= $true )
| ( ( latt_str @ SV120 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1178]) ).
thf(1290,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
| ~ ( lower_bounded_semilattstr @ sK19_A ) )
| ~ ( upper_bounded_semilattstr @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1179]) ).
thf(1291,plain,
! [SV145: $i,SV49: $i,SV139: $i] :
( ( ( ~ ( function @ SV139 )
| ~ ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SV145 )
| ~ ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1181]) ).
thf(1292,plain,
! [SV146: $i,SV49: $i,SV140: $i] :
( ( ( ~ ( function @ SV140 )
| ~ ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SV146 )
| ~ ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1182]) ).
thf(1293,plain,
! [SV170: $i] :
( ( ~ ( latt_str @ SV170 )
| ( empty_carrier @ SV170 )
| ~ ( bounded_lattstr @ SV170 )
| ~ ( empty_carrier @ SV170 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1183]) ).
thf(1294,plain,
! [SV171: $i] :
( ( ~ ( latt_str @ SV171 )
| ( empty_carrier @ SV171 )
| ~ ( bounded_lattstr @ SV171 )
| ( lower_bounded_semilattstr @ SV171 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1184]) ).
thf(1295,plain,
! [SV121: $i] :
( ( ( ( empty_carrier @ SV121 )
| ~ ( bounded_lattstr @ SV121 ) )
= $true )
| ( ( upper_bounded_semilattstr @ SV121 )
= $true )
| ( ( latt_str @ SV121 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1185]) ).
thf(1296,plain,
! [SV172: $i] :
( ( ~ ( join_semilatt_str @ SV172 )
| ( function @ ( the_L_join @ SV172 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1186]) ).
thf(1297,plain,
! [SV173: $i] :
( ( ~ ( join_semilatt_str @ SV173 )
| ( quasi_total @ ( the_L_join @ SV173 ) @ ( cartesian_product2 @ ( the_carrier @ SV173 ) @ ( the_carrier @ SV173 ) ) @ ( the_carrier @ SV173 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1187]) ).
thf(1298,plain,
! [SV71: $i,SV50: $i,SV66: $i] :
( ( ( ~ ( function @ SV66 )
| ~ ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
| ~ ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( function @ SV71 ) )
= $true )
| ( ( ~ ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1189]) ).
thf(1299,plain,
! [SV35: $i,SV60: $i,SV70: $i] :
( ( ( empty @ SV70 )
= $false )
| ( ( element @ SV60 @ ( powerset @ SV70 ) )
= $false )
| ( ( in @ SV35 @ SV60 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1192]) ).
thf(1300,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1193]) ).
thf(1301,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1193]) ).
thf(1302,plain,
! [SV147: $i] :
( ( ( ( empty_carrier @ SV147 )
| ~ ( lattice @ SV147 )
| ~ ( latt_str @ SV147 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV147 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1194]) ).
thf(1303,plain,
! [SV74: $i] :
( ( ( lattice @ SV74 )
= $false )
| ( ( empty_carrier @ SV74 )
= $true )
| ( ( ~ ( latt_str @ SV74 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV74 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1195]) ).
thf(1304,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1196]) ).
thf(1305,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1196]) ).
thf(1306,plain,
! [SV148: $i] :
( ( ( ( empty_carrier @ SV148 )
| ~ ( lattice @ SV148 )
| ~ ( upper_bounded_semilattstr @ SV148 )
| ~ ( latt_str @ SV148 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV148 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1197]) ).
thf(1307,plain,
! [SV75: $i] :
( ( ( empty_carrier @ SV75 )
= $true )
| ( ( ~ ( lattice @ SV75 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV75 ) )
= $true )
| ( ( ~ ( latt_str @ SV75 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV75 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1198]) ).
thf(1308,plain,
! [SV76: $i] :
( ( ( ( empty_carrier @ SV76 )
| ~ ( join_commutative @ SV76 )
| ~ ( join_associative @ SV76 )
| ~ ( meet_commutative @ SV76 )
| ~ ( meet_associative @ SV76 )
| ~ ( meet_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1199]) ).
thf(1309,plain,
! [SV77: $i] :
( ( ( ( empty_carrier @ SV77 )
| ~ ( join_commutative @ SV77 )
| ~ ( join_associative @ SV77 )
| ~ ( meet_commutative @ SV77 )
| ~ ( meet_associative @ SV77 )
| ~ ( meet_absorbing @ SV77 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1200]) ).
thf(1310,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
| ~ ( antisymmetric_relstr @ sK13_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1201]) ).
thf(1311,plain,
( ( ~ ( with_suprema_relstr @ sK13_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1201]) ).
thf(1312,plain,
! [SV39: $i,SV126: $i] :
( ( ( latt_str @ SV126 )
= $false )
| ( ( empty_carrier @ SV126 )
= $true )
| ( ( ! [SY106: $i] :
( ! [SY107: $i] :
( ( SV39 != SY107 )
| ~ ( element @ SY107 @ ( the_carrier @ SV126 ) )
| ~ ( latt_set_smaller @ SV126 @ SY107 @ SY106 ) )
| ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SY106 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1202]) ).
thf(1313,plain,
! [SV39: $i,SV127: $i] :
( ( ( latt_str @ SV127 )
= $false )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( ! [SY108: $i] :
( ~ ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SY108 ) )
| ~ ( ~ ~ ( ( SV39
!= ( sK22_D @ SY108 @ SV127 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SY108 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) )
| ~ ( latt_set_smaller @ SV127 @ ( sK22_D @ SY108 @ SV127 @ SV39 ) @ SY108 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1203]) ).
thf(1314,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
| ~ ( lattice @ sK20_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1204]) ).
thf(1315,plain,
( ( ~ ( lower_bounded_semilattstr @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1204]) ).
thf(1316,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
| ~ ( complete_relstr @ sK8_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1205]) ).
thf(1317,plain,
( ( ~ ( lower_bounded_relstr @ sK8_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1205]) ).
thf(1318,plain,
( ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
| ~ ( strict_rel_str @ sK12_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1206]) ).
thf(1319,plain,
( ( ~ ( reflexive_relstr @ sK12_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1206]) ).
thf(1320,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1207]) ).
thf(1321,plain,
( ( ~ ! [SX0: $i] : ( with_suprema_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1207]) ).
thf(1322,plain,
! [SV83: $i] :
( ( ( bounded_relstr @ SV83 )
= $false )
| ( ( lower_bounded_relstr @ SV83 )
= $true )
| ( ( rel_str @ SV83 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1209]) ).
thf(1323,plain,
! [SV84: $i] :
( ( ( bounded_relstr @ SV84 )
= $false )
| ( ( upper_bounded_relstr @ SV84 )
= $true )
| ( ( rel_str @ SV84 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1210]) ).
thf(1324,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1211]) ).
thf(1325,plain,
( ( ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1211]) ).
thf(1326,plain,
! [SV88: $i] :
( ( ( ( empty_carrier @ SV88 )
| ~ ( lower_bounded_semilattstr @ SV88 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV88 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV88 ) )
= $true )
| ( ( latt_str @ SV88 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1213]) ).
thf(1327,plain,
! [SV89: $i] :
( ( ( ( empty_carrier @ SV89 )
| ~ ( lower_bounded_semilattstr @ SV89 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV89 ) )
= $true )
| ( ( bounded_lattstr @ SV89 )
= $true )
| ( ( latt_str @ SV89 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1214]) ).
thf(1328,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1215]) ).
thf(1329,plain,
( ( ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1215]) ).
thf(1330,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1217]) ).
thf(1331,plain,
( ( ~ ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1217]) ).
thf(1332,plain,
! [SV41: $i] :
( ( ( empty @ ( sK5_B @ SV41 ) )
= $false )
| ( ( empty_carrier @ SV41 )
= $true )
| ( ( one_sorted_str @ SV41 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1220]) ).
thf(1333,plain,
! [SV153: $i] :
( ( ( ~ ( meet_semilatt_str @ SV153 ) )
= $true )
| ( ( function @ ( the_L_meet @ SV153 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1221]) ).
thf(1334,plain,
! [SV154: $i] :
( ( ( ~ ( meet_semilatt_str @ SV154 ) )
= $true )
| ( ( quasi_total @ ( the_L_meet @ SV154 ) @ ( cartesian_product2 @ ( the_carrier @ SV154 ) @ ( the_carrier @ SV154 ) ) @ ( the_carrier @ SV154 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1222]) ).
thf(1335,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1223]) ).
thf(1336,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_associative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1223]) ).
thf(1337,plain,
! [SV155: $i] :
( ( ( ~ ( latt_str @ SV155 ) )
= $true )
| ( ( ( empty_carrier @ SV155 )
| ~ ( lattice @ SV155 )
| ( meet_absorbing @ SV155 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1224]) ).
thf(1338,plain,
! [SV93: $i] :
( ( ( empty_carrier @ SV93 )
= $true )
| ( ( ~ ( lattice @ SV93 ) )
= $true )
| ( ( join_absorbing @ SV93 )
= $true )
| ( ( latt_str @ SV93 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1225]) ).
thf(1339,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
| ~ ( reflexive_relstr @ sK17_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1227]) ).
thf(1340,plain,
( ( ~ ( transitive_relstr @ sK17_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1227]) ).
thf(1341,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
| ~ ( upper_bounded_semilattstr @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1228]) ).
thf(1342,plain,
( ( ~ ( bounded_lattstr @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1228]) ).
thf(1343,plain,
! [SV128: $i,SV42: $i,SV141: $i] :
( ( ( relation_of2 @ SV141 @ SV42 @ SV128 )
= $false )
| ( ( relation_of2_as_subset @ SV141 @ SV42 @ SV128 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1229]) ).
thf(1344,plain,
! [SV129: $i,SV42: $i,SV142: $i] :
( ( ( relation_of2_as_subset @ SV142 @ SV42 @ SV129 )
= $false )
| ( ( relation_of2 @ SV142 @ SV42 @ SV129 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1230]) ).
thf(1345,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1231]) ).
thf(1346,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1231]) ).
thf(1347,plain,
! [SV156: $i] :
( ( ( ( empty_carrier @ SV156 )
| ~ ( lattice @ SV156 )
| ~ ( complete_latt_str @ SV156 )
| ~ ( latt_str @ SV156 ) )
= $true )
| ( ( latt_str @ SV156 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1232]) ).
thf(1348,plain,
! [SV94: $i] :
( ( ( empty_carrier @ SV94 )
= $true )
| ( ( ~ ( lattice @ SV94 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV94 ) )
= $true )
| ( ( ~ ( latt_str @ SV94 ) )
= $true )
| ( ( ( bottom_of_semilattstr @ SV94 )
= ( join_of_latt_set @ SV94 @ empty_set ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1233]) ).
thf(1349,plain,
! [SV174: $i,SV63: $i,SV43: $i] :
( ( ( ! [SY116: $i] :
( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SV174 @ SY116 ) )
| ( SV43 = SV174 ) )
= $true )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[1234]) ).
thf(1350,plain,
! [SV175: $i,SV63: $i,SV43: $i] :
( ( ( ! [SY117: $i] :
( ( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SV175 @ SY117 ) )
| ( SV63 = SY117 ) ) )
= $true )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[1235]) ).
thf(1351,plain,
! [SV97: $i] :
( ( ( ( empty_carrier @ SV97 )
| ~ ( distributive_lattstr @ SV97 )
| ~ ( bounded_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( complemented_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV97 ) )
= $true )
| ( ( latt_str @ SV97 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1236]) ).
thf(1352,plain,
! [SV98: $i] :
( ( ( ( empty_carrier @ SV98 )
| ~ ( distributive_lattstr @ SV98 )
| ~ ( bounded_lattstr @ SV98 ) )
= $true )
| ( ( ~ ( complemented_lattstr @ SV98 ) )
= $true )
| ( ( boolean_lattstr @ SV98 )
= $true )
| ( ( latt_str @ SV98 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1237]) ).
thf(1353,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1238]) ).
thf(1354,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive @ ( k2_lattice3 @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1238]) ).
thf(1355,plain,
! [SV157: $i] :
( ( ( ( empty_carrier @ SV157 )
| ~ ( lattice @ SV157 )
| ~ ( latt_str @ SV157 ) )
= $true )
| ( ( v1_partfun1 @ ( k2_lattice3 @ SV157 ) @ ( the_carrier @ SV157 ) @ ( the_carrier @ SV157 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1239]) ).
thf(1356,plain,
! [SV99: $i] :
( ( ( lattice @ SV99 )
= $false )
| ( ( empty_carrier @ SV99 )
= $true )
| ( ( ~ ( latt_str @ SV99 ) )
= $true )
| ( ( relation_of2_as_subset @ ( k2_lattice3 @ SV99 ) @ ( the_carrier @ SV99 ) @ ( the_carrier @ SV99 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1240]) ).
thf(1357,plain,
! [SV100: $i,SV130: $i] :
( ( ( relation_of2 @ SV130 @ SV100 @ SV100 )
= $false )
| ( ( empty @ SV100 )
= $true )
| ( ( ~ ( empty_carrier @ ( rel_str_of @ SV100 @ SV130 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1241]) ).
thf(1358,plain,
! [SV101: $i,SV131: $i] :
( ( ( relation_of2 @ SV131 @ SV101 @ SV101 )
= $false )
| ( ( empty @ SV101 )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV101 @ SV131 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1242]) ).
thf(1359,plain,
! [SV158: $i] :
( ( ( ~ ( rel_str @ SV158 ) )
= $true )
| ( ( ( empty_carrier @ SV158 )
| ~ ( complete_relstr @ SV158 )
| ~ ( empty_carrier @ SV158 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1243]) ).
thf(1360,plain,
! [SV159: $i] :
( ( ( ~ ( rel_str @ SV159 ) )
= $true )
| ( ( ( empty_carrier @ SV159 )
| ~ ( complete_relstr @ SV159 )
| ( with_suprema_relstr @ SV159 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1244]) ).
thf(1361,plain,
! [SV102: $i] :
( ( ( empty_carrier @ SV102 )
= $true )
| ( ( ~ ( complete_relstr @ SV102 ) )
= $true )
| ( ( with_infima_relstr @ SV102 )
= $true )
| ( ( rel_str @ SV102 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1245]) ).
thf(1362,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1246]) ).
thf(1363,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1246]) ).
thf(1364,plain,
! [SV160: $i] :
( ( ( ~ ( latt_str @ SV160 ) )
= $true )
| ( ( ( empty_carrier @ SV160 )
| ~ ( lattice @ SV160 )
| ~ ( distributive_lattstr @ SV160 )
| ( lattice @ SV160 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1247]) ).
thf(1365,plain,
! [SV103: $i] :
( ( ( ( empty_carrier @ SV103 )
| ~ ( lattice @ SV103 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV103 ) )
= $true )
| ( ( modular_lattstr @ SV103 )
= $true )
| ( ( latt_str @ SV103 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1248]) ).
thf(1366,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( reflexive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1249]) ).
thf(1367,plain,
( ( ~ ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1249]) ).
thf(1368,plain,
! [SV161: $i,SV176: $i] :
( ( ~ ( antisymmetric @ SV176 )
| ~ ( reflexive @ SV176 )
| ~ ( transitive @ SV176 )
| ~ ( v1_partfun1 @ SV176 @ SV161 @ SV161 )
| ~ ( relation_of2 @ SV176 @ SV161 @ SV161 )
| ( transitive_relstr @ ( rel_str_of @ SV161 @ SV176 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1250]) ).
thf(1369,plain,
! [SV104: $i,SV132: $i] :
( ( ( ~ ( antisymmetric @ SV132 )
| ~ ( reflexive @ SV132 )
| ~ ( transitive @ SV132 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SV132 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1251]) ).
thf(1370,plain,
! [SV105: $i] :
( ( ( empty_carrier @ SV105 )
= $true )
| ( ( ~ ( complete_relstr @ SV105 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV105 ) )
= $true )
| ( ( rel_str @ SV105 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1252]) ).
thf(1371,plain,
! [SV106: $i] :
( ( ( empty_carrier @ SV106 )
= $true )
| ( ( ~ ( complete_relstr @ SV106 ) )
= $true )
| ( ( bounded_relstr @ SV106 )
= $true )
| ( ( rel_str @ SV106 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1253]) ).
thf(1372,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1254]) ).
thf(1373,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1254]) ).
thf(1374,plain,
! [SV162: $i] :
( ( ( ( empty_carrier @ SV162 )
| ~ ( lattice @ SV162 )
| ~ ( latt_str @ SV162 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV162 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1255]) ).
thf(1375,plain,
! [SV107: $i] :
( ( ( lattice @ SV107 )
= $false )
| ( ( empty_carrier @ SV107 )
= $true )
| ( ( ~ ( latt_str @ SV107 ) )
= $true )
| ( ( rel_str @ ( poset_of_lattice @ SV107 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1256]) ).
thf(1376,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
| ~ ( meet_associative @ sK3_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1257]) ).
thf(1377,plain,
( ( ~ ( meet_absorbing @ sK3_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1257]) ).
thf(1378,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
| ~ ( distributive_lattstr @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1260]) ).
thf(1379,plain,
( ( ~ ( modular_lattstr @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1260]) ).
thf(1380,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1261]) ).
thf(1381,plain,
( ( ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1261]) ).
thf(1382,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1263]) ).
thf(1383,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1263]) ).
thf(1384,plain,
! [SV164: $i] :
( ( ( ( empty_carrier @ SV164 )
| ~ ( lattice @ SV164 )
| ~ ( lower_bounded_semilattstr @ SV164 )
| ~ ( latt_str @ SV164 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV164 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1264]) ).
thf(1385,plain,
! [SV113: $i] :
( ( ( empty_carrier @ SV113 )
= $true )
| ( ( ~ ( lattice @ SV113 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV113 ) )
= $true )
| ( ( ~ ( latt_str @ SV113 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV113 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1265]) ).
thf(1386,plain,
! [SV143: $i,SV135: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV135 )
| ~ ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SV143 )
| ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1266]) ).
thf(1387,plain,
! [SV144: $i,SV136: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV136 )
| ~ ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SV144 )
| ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1267]) ).
thf(1388,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1270]) ).
thf(1389,plain,
( ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( antisymmetric @ ( the_InternalRel @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1270]) ).
thf(1390,plain,
! [SV165: $i] :
( ( ( ~ ( reflexive_relstr @ SV165 )
| ~ ( transitive_relstr @ SV165 )
| ~ ( antisymmetric_relstr @ SV165 )
| ~ ( rel_str @ SV165 ) )
= $true )
| ( ( transitive @ ( the_InternalRel @ SV165 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1271]) ).
thf(1391,plain,
! [SV116: $i] :
( ( ( ~ ( reflexive_relstr @ SV116 ) )
= $true )
| ( ( ~ ( transitive_relstr @ SV116 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV116 ) )
= $true )
| ( ( ~ ( rel_str @ SV116 ) )
= $true )
| ( ( v1_partfun1 @ ( the_InternalRel @ SV116 ) @ ( the_carrier @ SV116 ) @ ( the_carrier @ SV116 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1272]) ).
thf(1392,plain,
! [SV46: $i,SV64: $i] :
( ( ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
= $false )
| ( ( ~ ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 ) )
= $true )
| ( ( SV46 = SV64 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1273]) ).
thf(1393,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1275]) ).
thf(1394,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1275]) ).
thf(1395,plain,
! [SV166: $i] :
( ( ( ( empty_carrier @ SV166 )
| ~ ( lattice @ SV166 )
| ~ ( latt_str @ SV166 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV166 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1276]) ).
thf(1396,plain,
! [SV117: $i] :
( ( ( lattice @ SV117 )
= $false )
| ( ( empty_carrier @ SV117 )
= $true )
| ( ( ~ ( latt_str @ SV117 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV117 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1277]) ).
thf(1397,plain,
! [SV47: $i,SV65: $i] :
( ( relation @ ( sK11_C @ SV65 @ SV47 ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1278]) ).
thf(1398,plain,
! [SV47: $i,SV65: $i] :
( ( relation_of2 @ ( sK11_C @ SV65 @ SV47 ) @ SV47 @ SV65 )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1279]) ).
thf(1399,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1280]) ).
thf(1400,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1280]) ).
thf(1401,plain,
! [SV167: $i] :
( ( ( ~ ( latt_str @ SV167 ) )
= $true )
| ( ( ( empty_carrier @ SV167 )
| ~ ( lattice @ SV167 )
| ~ ( complete_latt_str @ SV167 )
| ( upper_bounded_semilattstr @ SV167 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1281]) ).
thf(1402,plain,
! [SV118: $i] :
( ( ( ( empty_carrier @ SV118 )
| ~ ( lattice @ SV118 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV118 ) )
= $true )
| ( ( bounded_lattstr @ SV118 )
= $true )
| ( ( latt_str @ SV118 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1282]) ).
thf(1403,plain,
! [SV48: $i] :
( ( ( latt_str @ SV48 )
= $false )
| ( ( lattice @ SV48 )
= $false )
| ( ( empty_carrier @ SV48 )
= $true )
| ( ( complete_latt_str @ SV48 )
= $false )
| ( ( ~ ( ~ ! [SY61: $i] :
( ( join_of_latt_set @ SV48 @ SY61 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY61 ) )
| ~ ! [SY62: $i] :
( ( meet_of_latt_set @ SV48 @ SY62 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY62 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1283]) ).
thf(1404,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1284]) ).
thf(1405,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1284]) ).
thf(1406,plain,
! [SV168: $i] :
( ( ( ( empty_carrier @ SV168 )
| ~ ( lattice @ SV168 )
| ~ ( complete_latt_str @ SV168 )
| ~ ( latt_str @ SV168 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV168 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1285]) ).
thf(1407,plain,
! [SV119: $i] :
( ( ( empty_carrier @ SV119 )
= $true )
| ( ( ~ ( lattice @ SV119 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV119 ) )
= $true )
| ( ( ~ ( latt_str @ SV119 ) )
= $true )
| ( ( complete_relstr @ ( poset_of_lattice @ SV119 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1286]) ).
thf(1408,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1287]) ).
thf(1409,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1287]) ).
thf(1410,plain,
! [SV169: $i] :
( ( ( ~ ( latt_str @ SV169 ) )
= $true )
| ( ( ( empty_carrier @ SV169 )
| ~ ( boolean_lattstr @ SV169 )
| ( bounded_lattstr @ SV169 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1288]) ).
thf(1411,plain,
! [SV120: $i] :
( ( ( empty_carrier @ SV120 )
= $true )
| ( ( ~ ( boolean_lattstr @ SV120 ) )
= $true )
| ( ( complemented_lattstr @ SV120 )
= $true )
| ( ( latt_str @ SV120 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1289]) ).
thf(1412,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
| ~ ( lower_bounded_semilattstr @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1290]) ).
thf(1413,plain,
( ( ~ ( upper_bounded_semilattstr @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1290]) ).
thf(1414,plain,
! [SV145: $i,SV49: $i,SV139: $i] :
( ( ( ~ ( function @ SV139 )
| ~ ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SV145 )
| ~ ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1291]) ).
thf(1415,plain,
! [SV146: $i,SV49: $i,SV140: $i] :
( ( ( ~ ( function @ SV140 )
| ~ ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SV146 )
| ~ ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1292]) ).
thf(1416,plain,
! [SV170: $i] :
( ( ( ~ ( latt_str @ SV170 ) )
= $true )
| ( ( ( empty_carrier @ SV170 )
| ~ ( bounded_lattstr @ SV170 )
| ~ ( empty_carrier @ SV170 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1293]) ).
thf(1417,plain,
! [SV171: $i] :
( ( ( ~ ( latt_str @ SV171 ) )
= $true )
| ( ( ( empty_carrier @ SV171 )
| ~ ( bounded_lattstr @ SV171 )
| ( lower_bounded_semilattstr @ SV171 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1294]) ).
thf(1418,plain,
! [SV121: $i] :
( ( ( empty_carrier @ SV121 )
= $true )
| ( ( ~ ( bounded_lattstr @ SV121 ) )
= $true )
| ( ( upper_bounded_semilattstr @ SV121 )
= $true )
| ( ( latt_str @ SV121 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1295]) ).
thf(1419,plain,
! [SV172: $i] :
( ( ( ~ ( join_semilatt_str @ SV172 ) )
= $true )
| ( ( function @ ( the_L_join @ SV172 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1296]) ).
thf(1420,plain,
! [SV173: $i] :
( ( ( ~ ( join_semilatt_str @ SV173 ) )
= $true )
| ( ( quasi_total @ ( the_L_join @ SV173 ) @ ( cartesian_product2 @ ( the_carrier @ SV173 ) @ ( the_carrier @ SV173 ) ) @ ( the_carrier @ SV173 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1297]) ).
thf(1421,plain,
! [SV71: $i,SV50: $i,SV66: $i] :
( ( ( ~ ( function @ SV66 )
| ~ ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( function @ SV71 ) )
= $true )
| ( ( ~ ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1298]) ).
thf(1422,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1300]) ).
thf(1423,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1301]) ).
thf(1424,plain,
! [SV147: $i] :
( ( ( ( empty_carrier @ SV147 )
| ~ ( lattice @ SV147 ) )
= $true )
| ( ( ~ ( latt_str @ SV147 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV147 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1302]) ).
thf(1425,plain,
! [SV74: $i] :
( ( ( latt_str @ SV74 )
= $false )
| ( ( empty_carrier @ SV74 )
= $true )
| ( ( lattice @ SV74 )
= $false )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV74 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1303]) ).
thf(1426,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1304]) ).
thf(1427,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1305]) ).
thf(1428,plain,
! [SV148: $i] :
( ( ( ( empty_carrier @ SV148 )
| ~ ( lattice @ SV148 )
| ~ ( upper_bounded_semilattstr @ SV148 ) )
= $true )
| ( ( ~ ( latt_str @ SV148 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV148 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1306]) ).
thf(1429,plain,
! [SV75: $i] :
( ( ( lattice @ SV75 )
= $false )
| ( ( empty_carrier @ SV75 )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV75 ) )
= $true )
| ( ( ~ ( latt_str @ SV75 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV75 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1307]) ).
thf(1430,plain,
! [SV76: $i] :
( ( ( ( empty_carrier @ SV76 )
| ~ ( join_commutative @ SV76 )
| ~ ( join_associative @ SV76 )
| ~ ( meet_commutative @ SV76 )
| ~ ( meet_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1308]) ).
thf(1431,plain,
! [SV77: $i] :
( ( ( ( empty_carrier @ SV77 )
| ~ ( join_commutative @ SV77 )
| ~ ( join_associative @ SV77 )
| ~ ( meet_commutative @ SV77 )
| ~ ( meet_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV77 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1309]) ).
thf(1432,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
| ~ ( antisymmetric_relstr @ sK13_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1310]) ).
thf(1433,plain,
( ( with_suprema_relstr @ sK13_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1311]) ).
thf(1434,plain,
! [SV177: $i,SV126: $i,SV39: $i] :
( ( ( ! [SY118: $i] :
( ( SV39 != SY118 )
| ~ ( element @ SY118 @ ( the_carrier @ SV126 ) )
| ~ ( latt_set_smaller @ SV126 @ SY118 @ SV177 ) )
| ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SV177 ) ) )
= $true )
| ( ( empty_carrier @ SV126 )
= $true )
| ( ( latt_str @ SV126 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[1312]) ).
thf(1435,plain,
! [SV178: $i,SV127: $i,SV39: $i] :
( ( ( ~ ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
| ~ ( ~ ~ ( ( SV39
!= ( sK22_D @ SV178 @ SV127 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) )
| ~ ( latt_set_smaller @ SV127 @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ SV178 ) ) )
= $true )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[1313]) ).
thf(1436,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
| ~ ( lattice @ sK20_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1314]) ).
thf(1437,plain,
( ( lower_bounded_semilattstr @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1315]) ).
thf(1438,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
| ~ ( complete_relstr @ sK8_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1316]) ).
thf(1439,plain,
( ( lower_bounded_relstr @ sK8_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1317]) ).
thf(1440,plain,
( ( ~ ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
| ~ ( strict_rel_str @ sK12_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1318]) ).
thf(1441,plain,
( ( reflexive_relstr @ sK12_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1319]) ).
thf(1442,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1320]) ).
thf(1443,plain,
( ( ! [SX0: $i] : ( with_suprema_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1321]) ).
thf(1444,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1324]) ).
thf(1445,plain,
( ( ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1325]) ).
thf(1446,plain,
! [SV88: $i] :
( ( ( empty_carrier @ SV88 )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV88 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV88 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV88 ) )
= $true )
| ( ( latt_str @ SV88 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1326]) ).
thf(1447,plain,
! [SV89: $i] :
( ( ( empty_carrier @ SV89 )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV89 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV89 ) )
= $true )
| ( ( bounded_lattstr @ SV89 )
= $true )
| ( ( latt_str @ SV89 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1327]) ).
thf(1448,plain,
( ( ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1328]) ).
thf(1449,plain,
( ( ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1329]) ).
thf(1450,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1330]) ).
thf(1451,plain,
( ( ! [SX0: $i] : ( complemented_lattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1331]) ).
thf(1452,plain,
! [SV153: $i] :
( ( ( meet_semilatt_str @ SV153 )
= $false )
| ( ( function @ ( the_L_meet @ SV153 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1333]) ).
thf(1453,plain,
! [SV154: $i] :
( ( ( meet_semilatt_str @ SV154 )
= $false )
| ( ( quasi_total @ ( the_L_meet @ SV154 ) @ ( cartesian_product2 @ ( the_carrier @ SV154 ) @ ( the_carrier @ SV154 ) ) @ ( the_carrier @ SV154 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1334]) ).
thf(1454,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1335]) ).
thf(1455,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_associative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1336]) ).
thf(1456,plain,
! [SV155: $i] :
( ( ( latt_str @ SV155 )
= $false )
| ( ( ( empty_carrier @ SV155 )
| ~ ( lattice @ SV155 )
| ( meet_absorbing @ SV155 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1337]) ).
thf(1457,plain,
! [SV93: $i] :
( ( ( lattice @ SV93 )
= $false )
| ( ( empty_carrier @ SV93 )
= $true )
| ( ( join_absorbing @ SV93 )
= $true )
| ( ( latt_str @ SV93 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1338]) ).
thf(1458,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
| ~ ( reflexive_relstr @ sK17_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1339]) ).
thf(1459,plain,
( ( transitive_relstr @ sK17_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1340]) ).
thf(1460,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
| ~ ( upper_bounded_semilattstr @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1341]) ).
thf(1461,plain,
( ( bounded_lattstr @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1342]) ).
thf(1462,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1345]) ).
thf(1463,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1346]) ).
thf(1464,plain,
! [SV156: $i] :
( ( ( ( empty_carrier @ SV156 )
| ~ ( lattice @ SV156 )
| ~ ( complete_latt_str @ SV156 ) )
= $true )
| ( ( ~ ( latt_str @ SV156 ) )
= $true )
| ( ( latt_str @ SV156 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1347]) ).
thf(1465,plain,
! [SV94: $i] :
( ( ( lattice @ SV94 )
= $false )
| ( ( empty_carrier @ SV94 )
= $true )
| ( ( ~ ( complete_latt_str @ SV94 ) )
= $true )
| ( ( ~ ( latt_str @ SV94 ) )
= $true )
| ( ( ( bottom_of_semilattstr @ SV94 )
= ( join_of_latt_set @ SV94 @ empty_set ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1348]) ).
thf(1466,plain,
! [SV174: $i,SV63: $i,SV43: $i] :
( ( ( ! [SY116: $i] :
( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SV174 @ SY116 ) ) )
= $true )
| ( ( SV43 = SV174 )
= $true )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1349]) ).
thf(1467,plain,
! [SV179: $i,SV175: $i,SV63: $i,SV43: $i] :
( ( ( ( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SV175 @ SV179 ) )
| ( SV63 = SV179 ) )
= $true )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[1350]) ).
thf(1468,plain,
! [SV97: $i] :
( ( ( ( empty_carrier @ SV97 )
| ~ ( distributive_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( bounded_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( complemented_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV97 ) )
= $true )
| ( ( latt_str @ SV97 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1351]) ).
thf(1469,plain,
! [SV98: $i] :
( ( ( ( empty_carrier @ SV98 )
| ~ ( distributive_lattstr @ SV98 ) )
= $true )
| ( ( ~ ( bounded_lattstr @ SV98 ) )
= $true )
| ( ( ~ ( complemented_lattstr @ SV98 ) )
= $true )
| ( ( boolean_lattstr @ SV98 )
= $true )
| ( ( latt_str @ SV98 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1352]) ).
thf(1470,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1353]) ).
thf(1471,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive @ ( k2_lattice3 @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1354]) ).
thf(1472,plain,
! [SV157: $i] :
( ( ( ( empty_carrier @ SV157 )
| ~ ( lattice @ SV157 ) )
= $true )
| ( ( ~ ( latt_str @ SV157 ) )
= $true )
| ( ( v1_partfun1 @ ( k2_lattice3 @ SV157 ) @ ( the_carrier @ SV157 ) @ ( the_carrier @ SV157 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1355]) ).
thf(1473,plain,
! [SV99: $i] :
( ( ( latt_str @ SV99 )
= $false )
| ( ( empty_carrier @ SV99 )
= $true )
| ( ( lattice @ SV99 )
= $false )
| ( ( relation_of2_as_subset @ ( k2_lattice3 @ SV99 ) @ ( the_carrier @ SV99 ) @ ( the_carrier @ SV99 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1356]) ).
thf(1474,plain,
! [SV130: $i,SV100: $i] :
( ( ( empty_carrier @ ( rel_str_of @ SV100 @ SV130 ) )
= $false )
| ( ( empty @ SV100 )
= $true )
| ( ( relation_of2 @ SV130 @ SV100 @ SV100 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1357]) ).
thf(1475,plain,
! [SV158: $i] :
( ( ( rel_str @ SV158 )
= $false )
| ( ( ( empty_carrier @ SV158 )
| ~ ( complete_relstr @ SV158 )
| ~ ( empty_carrier @ SV158 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1359]) ).
thf(1476,plain,
! [SV159: $i] :
( ( ( rel_str @ SV159 )
= $false )
| ( ( ( empty_carrier @ SV159 )
| ~ ( complete_relstr @ SV159 )
| ( with_suprema_relstr @ SV159 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1360]) ).
thf(1477,plain,
! [SV102: $i] :
( ( ( complete_relstr @ SV102 )
= $false )
| ( ( empty_carrier @ SV102 )
= $true )
| ( ( with_infima_relstr @ SV102 )
= $true )
| ( ( rel_str @ SV102 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1361]) ).
thf(1478,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1362]) ).
thf(1479,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_absorbing @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1363]) ).
thf(1480,plain,
! [SV160: $i] :
( ( ( latt_str @ SV160 )
= $false )
| ( ( ( empty_carrier @ SV160 )
| ~ ( lattice @ SV160 )
| ~ ( distributive_lattstr @ SV160 )
| ( lattice @ SV160 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1364]) ).
thf(1481,plain,
! [SV103: $i] :
( ( ( empty_carrier @ SV103 )
= $true )
| ( ( ~ ( lattice @ SV103 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV103 ) )
= $true )
| ( ( modular_lattstr @ SV103 )
= $true )
| ( ( latt_str @ SV103 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1365]) ).
thf(1482,plain,
( ( ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( reflexive_relstr @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1366]) ).
thf(1483,plain,
( ( ! [SX0: $i,SX1: $i] :
( ~ ( antisymmetric @ SX1 )
| ~ ( reflexive @ SX1 )
| ~ ( transitive @ SX1 )
| ~ ( v1_partfun1 @ SX1 @ SX0 @ SX0 )
| ~ ( relation_of2 @ SX1 @ SX0 @ SX0 )
| ( strict_rel_str @ ( rel_str_of @ SX0 @ SX1 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1367]) ).
thf(1484,plain,
! [SV161: $i,SV176: $i] :
( ( ( ~ ( antisymmetric @ SV176 )
| ~ ( reflexive @ SV176 )
| ~ ( transitive @ SV176 )
| ~ ( v1_partfun1 @ SV176 @ SV161 @ SV161 )
| ~ ( relation_of2 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( transitive_relstr @ ( rel_str_of @ SV161 @ SV176 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1368]) ).
thf(1485,plain,
! [SV104: $i,SV132: $i] :
( ( ( ~ ( antisymmetric @ SV132 )
| ~ ( reflexive @ SV132 ) )
= $true )
| ( ( ~ ( transitive @ SV132 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SV132 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1369]) ).
thf(1486,plain,
! [SV105: $i] :
( ( ( complete_relstr @ SV105 )
= $false )
| ( ( empty_carrier @ SV105 )
= $true )
| ( ( ~ ( empty_carrier @ SV105 ) )
= $true )
| ( ( rel_str @ SV105 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1370]) ).
thf(1487,plain,
! [SV106: $i] :
( ( ( complete_relstr @ SV106 )
= $false )
| ( ( empty_carrier @ SV106 )
= $true )
| ( ( bounded_relstr @ SV106 )
= $true )
| ( ( rel_str @ SV106 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1371]) ).
thf(1488,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1372]) ).
thf(1489,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1373]) ).
thf(1490,plain,
! [SV162: $i] :
( ( ( ( empty_carrier @ SV162 )
| ~ ( lattice @ SV162 ) )
= $true )
| ( ( ~ ( latt_str @ SV162 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV162 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1374]) ).
thf(1491,plain,
! [SV107: $i] :
( ( ( latt_str @ SV107 )
= $false )
| ( ( empty_carrier @ SV107 )
= $true )
| ( ( lattice @ SV107 )
= $false )
| ( ( rel_str @ ( poset_of_lattice @ SV107 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1375]) ).
thf(1492,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
| ~ ( meet_associative @ sK3_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1376]) ).
thf(1493,plain,
( ( meet_absorbing @ sK3_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1377]) ).
thf(1494,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
| ~ ( distributive_lattstr @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1378]) ).
thf(1495,plain,
( ( modular_lattstr @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1379]) ).
thf(1496,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1380]) ).
thf(1497,plain,
( ( ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1381]) ).
thf(1498,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1382]) ).
thf(1499,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1383]) ).
thf(1500,plain,
! [SV164: $i] :
( ( ( ( empty_carrier @ SV164 )
| ~ ( lattice @ SV164 )
| ~ ( lower_bounded_semilattstr @ SV164 ) )
= $true )
| ( ( ~ ( latt_str @ SV164 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV164 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1384]) ).
thf(1501,plain,
! [SV113: $i] :
( ( ( lattice @ SV113 )
= $false )
| ( ( empty_carrier @ SV113 )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV113 ) )
= $true )
| ( ( ~ ( latt_str @ SV113 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV113 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1385]) ).
thf(1502,plain,
! [SV143: $i,SV135: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV135 )
| ~ ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SV143 ) )
= $true )
| ( ( ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1386]) ).
thf(1503,plain,
! [SV144: $i,SV136: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV136 )
| ~ ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( function @ SV144 ) )
= $true )
| ( ( ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1387]) ).
thf(1504,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1388]) ).
thf(1505,plain,
( ( ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( antisymmetric @ ( the_InternalRel @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1389]) ).
thf(1506,plain,
! [SV165: $i] :
( ( ( ~ ( reflexive_relstr @ SV165 )
| ~ ( transitive_relstr @ SV165 )
| ~ ( antisymmetric_relstr @ SV165 ) )
= $true )
| ( ( ~ ( rel_str @ SV165 ) )
= $true )
| ( ( transitive @ ( the_InternalRel @ SV165 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1390]) ).
thf(1507,plain,
! [SV116: $i] :
( ( ( reflexive_relstr @ SV116 )
= $false )
| ( ( ~ ( transitive_relstr @ SV116 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV116 ) )
= $true )
| ( ( ~ ( rel_str @ SV116 ) )
= $true )
| ( ( v1_partfun1 @ ( the_InternalRel @ SV116 ) @ ( the_carrier @ SV116 ) @ ( the_carrier @ SV116 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1391]) ).
thf(1508,plain,
! [SV46: $i,SV64: $i] :
( ( ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV64 )
= $false )
| ( ( in @ ( sK2_C @ SV64 @ SV46 ) @ SV46 )
= $false )
| ( ( SV46 = SV64 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1392]) ).
thf(1509,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1393]) ).
thf(1510,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1394]) ).
thf(1511,plain,
! [SV166: $i] :
( ( ( ( empty_carrier @ SV166 )
| ~ ( lattice @ SV166 ) )
= $true )
| ( ( ~ ( latt_str @ SV166 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV166 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1395]) ).
thf(1512,plain,
! [SV117: $i] :
( ( ( latt_str @ SV117 )
= $false )
| ( ( empty_carrier @ SV117 )
= $true )
| ( ( lattice @ SV117 )
= $false )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV117 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1396]) ).
thf(1513,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1399]) ).
thf(1514,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1400]) ).
thf(1515,plain,
! [SV167: $i] :
( ( ( latt_str @ SV167 )
= $false )
| ( ( ( empty_carrier @ SV167 )
| ~ ( lattice @ SV167 )
| ~ ( complete_latt_str @ SV167 )
| ( upper_bounded_semilattstr @ SV167 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1401]) ).
thf(1516,plain,
! [SV118: $i] :
( ( ( empty_carrier @ SV118 )
= $true )
| ( ( ~ ( lattice @ SV118 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV118 ) )
= $true )
| ( ( bounded_lattstr @ SV118 )
= $true )
| ( ( latt_str @ SV118 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1402]) ).
thf(1517,plain,
! [SV48: $i] :
( ( ( ~ ! [SY61: $i] :
( ( join_of_latt_set @ SV48 @ SY61 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY61 ) )
| ~ ! [SY62: $i] :
( ( meet_of_latt_set @ SV48 @ SY62 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY62 ) ) )
= $false )
| ( ( complete_latt_str @ SV48 )
= $false )
| ( ( empty_carrier @ SV48 )
= $true )
| ( ( lattice @ SV48 )
= $false )
| ( ( latt_str @ SV48 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1403]) ).
thf(1518,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1404]) ).
thf(1519,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1405]) ).
thf(1520,plain,
! [SV168: $i] :
( ( ( ( empty_carrier @ SV168 )
| ~ ( lattice @ SV168 )
| ~ ( complete_latt_str @ SV168 ) )
= $true )
| ( ( ~ ( latt_str @ SV168 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV168 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1406]) ).
thf(1521,plain,
! [SV119: $i] :
( ( ( lattice @ SV119 )
= $false )
| ( ( empty_carrier @ SV119 )
= $true )
| ( ( ~ ( complete_latt_str @ SV119 ) )
= $true )
| ( ( ~ ( latt_str @ SV119 ) )
= $true )
| ( ( complete_relstr @ ( poset_of_lattice @ SV119 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1407]) ).
thf(1522,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1408]) ).
thf(1523,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( upper_bounded_semilattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1409]) ).
thf(1524,plain,
! [SV169: $i] :
( ( ( latt_str @ SV169 )
= $false )
| ( ( ( empty_carrier @ SV169 )
| ~ ( boolean_lattstr @ SV169 )
| ( bounded_lattstr @ SV169 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1410]) ).
thf(1525,plain,
! [SV120: $i] :
( ( ( boolean_lattstr @ SV120 )
= $false )
| ( ( empty_carrier @ SV120 )
= $true )
| ( ( complemented_lattstr @ SV120 )
= $true )
| ( ( latt_str @ SV120 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1411]) ).
thf(1526,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
| ~ ( lower_bounded_semilattstr @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1412]) ).
thf(1527,plain,
( ( upper_bounded_semilattstr @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1413]) ).
thf(1528,plain,
! [SV145: $i,SV49: $i,SV139: $i] :
( ( ( ~ ( function @ SV139 )
| ~ ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SV145 ) )
= $true )
| ( ( ~ ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1414]) ).
thf(1529,plain,
! [SV146: $i,SV49: $i,SV140: $i] :
( ( ( ~ ( function @ SV140 )
| ~ ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( function @ SV146 ) )
= $true )
| ( ( ~ ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1415]) ).
thf(1530,plain,
! [SV170: $i] :
( ( ( latt_str @ SV170 )
= $false )
| ( ( ( empty_carrier @ SV170 )
| ~ ( bounded_lattstr @ SV170 )
| ~ ( empty_carrier @ SV170 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1416]) ).
thf(1531,plain,
! [SV171: $i] :
( ( ( latt_str @ SV171 )
= $false )
| ( ( ( empty_carrier @ SV171 )
| ~ ( bounded_lattstr @ SV171 )
| ( lower_bounded_semilattstr @ SV171 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1417]) ).
thf(1532,plain,
! [SV121: $i] :
( ( ( bounded_lattstr @ SV121 )
= $false )
| ( ( empty_carrier @ SV121 )
= $true )
| ( ( upper_bounded_semilattstr @ SV121 )
= $true )
| ( ( latt_str @ SV121 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1418]) ).
thf(1533,plain,
! [SV172: $i] :
( ( ( join_semilatt_str @ SV172 )
= $false )
| ( ( function @ ( the_L_join @ SV172 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1419]) ).
thf(1534,plain,
! [SV173: $i] :
( ( ( join_semilatt_str @ SV173 )
= $false )
| ( ( quasi_total @ ( the_L_join @ SV173 ) @ ( cartesian_product2 @ ( the_carrier @ SV173 ) @ ( the_carrier @ SV173 ) ) @ ( the_carrier @ SV173 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1420]) ).
thf(1535,plain,
! [SV71: $i,SV50: $i,SV66: $i] :
( ( ( ~ ( function @ SV66 ) )
= $true )
| ( ( ~ ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( function @ SV71 ) )
= $true )
| ( ( ~ ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1421]) ).
thf(1536,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1422]) ).
thf(1537,plain,
! [SV180: $i] :
( ( ( empty_carrier @ SV180 )
| ~ ( lattice @ SV180 )
| ~ ( latt_str @ SV180 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SV180 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1423]) ).
thf(1538,plain,
! [SV147: $i] :
( ( ( empty_carrier @ SV147 )
= $true )
| ( ( ~ ( lattice @ SV147 ) )
= $true )
| ( ( ~ ( latt_str @ SV147 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV147 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1424]) ).
thf(1539,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1426]) ).
thf(1540,plain,
! [SV181: $i] :
( ( ( empty_carrier @ SV181 )
| ~ ( lattice @ SV181 )
| ~ ( upper_bounded_semilattstr @ SV181 )
| ~ ( latt_str @ SV181 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SV181 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1427]) ).
thf(1541,plain,
! [SV148: $i] :
( ( ( ( empty_carrier @ SV148 )
| ~ ( lattice @ SV148 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV148 ) )
= $true )
| ( ( ~ ( latt_str @ SV148 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV148 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1428]) ).
thf(1542,plain,
! [SV75: $i] :
( ( ( upper_bounded_semilattstr @ SV75 )
= $false )
| ( ( empty_carrier @ SV75 )
= $true )
| ( ( lattice @ SV75 )
= $false )
| ( ( ~ ( latt_str @ SV75 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV75 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1429]) ).
thf(1543,plain,
! [SV76: $i] :
( ( ( ( empty_carrier @ SV76 )
| ~ ( join_commutative @ SV76 )
| ~ ( join_associative @ SV76 )
| ~ ( meet_commutative @ SV76 ) )
= $true )
| ( ( ~ ( meet_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1430]) ).
thf(1544,plain,
! [SV77: $i] :
( ( ( ( empty_carrier @ SV77 )
| ~ ( join_commutative @ SV77 )
| ~ ( join_associative @ SV77 )
| ~ ( meet_commutative @ SV77 ) )
= $true )
| ( ( ~ ( meet_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV77 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1431]) ).
thf(1545,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
| ~ ( antisymmetric_relstr @ sK13_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1432]) ).
thf(1546,plain,
! [SV177: $i,SV126: $i,SV39: $i] :
( ( ( ! [SY118: $i] :
( ( SV39 != SY118 )
| ~ ( element @ SY118 @ ( the_carrier @ SV126 ) )
| ~ ( latt_set_smaller @ SV126 @ SY118 @ SV177 ) ) )
= $true )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SV177 ) )
= $true )
| ( ( empty_carrier @ SV126 )
= $true )
| ( ( latt_str @ SV126 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1434]) ).
thf(1547,plain,
! [SV178: $i,SV127: $i,SV39: $i] :
( ( ( ~ ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) ) )
= $true )
| ( ( ~ ( ~ ~ ( ( SV39
!= ( sK22_D @ SV178 @ SV127 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) )
| ~ ( latt_set_smaller @ SV127 @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ SV178 ) ) )
= $true )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1435]) ).
thf(1548,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
| ~ ( lattice @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1436]) ).
thf(1549,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
| ~ ( complete_relstr @ sK8_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1438]) ).
thf(1550,plain,
( ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
| ~ ( strict_rel_str @ sK12_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1440]) ).
thf(1551,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1442]) ).
thf(1552,plain,
! [SV182: $i] :
( ( with_suprema_relstr @ ( boole_POSet @ SV182 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1443]) ).
thf(1553,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1444]) ).
thf(1554,plain,
! [SV183: $i] :
( ( meet_absorbing @ ( boole_lattice @ SV183 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1445]) ).
thf(1555,plain,
! [SV88: $i] :
( ( ( lower_bounded_semilattstr @ SV88 )
= $false )
| ( ( empty_carrier @ SV88 )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV88 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV88 ) )
= $true )
| ( ( latt_str @ SV88 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1446]) ).
thf(1556,plain,
! [SV89: $i] :
( ( ( lower_bounded_semilattstr @ SV89 )
= $false )
| ( ( empty_carrier @ SV89 )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV89 ) )
= $true )
| ( ( bounded_lattstr @ SV89 )
= $true )
| ( ( latt_str @ SV89 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1447]) ).
thf(1557,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1448]) ).
thf(1558,plain,
! [SV184: $i] :
( ( reflexive_relstr @ ( boole_POSet @ SV184 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1449]) ).
thf(1559,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1450]) ).
thf(1560,plain,
! [SV185: $i] :
( ( complemented_lattstr @ ( boole_lattice @ SV185 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1451]) ).
thf(1561,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1454]) ).
thf(1562,plain,
! [SV186: $i] :
( ( ~ ( latt_str @ SV186 )
| ( empty_carrier @ SV186 )
| ~ ( lattice @ SV186 )
| ( meet_associative @ SV186 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1455]) ).
thf(1563,plain,
! [SV155: $i] :
( ( ( ( empty_carrier @ SV155 )
| ~ ( lattice @ SV155 ) )
= $true )
| ( ( meet_absorbing @ SV155 )
= $true )
| ( ( latt_str @ SV155 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1456]) ).
thf(1564,plain,
( ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
| ~ ( reflexive_relstr @ sK17_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1458]) ).
thf(1565,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
| ~ ( upper_bounded_semilattstr @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1460]) ).
thf(1566,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1462]) ).
thf(1567,plain,
! [SV187: $i] :
( ( ( empty_carrier @ SV187 )
| ~ ( lattice @ SV187 )
| ~ ( complete_latt_str @ SV187 )
| ~ ( latt_str @ SV187 )
| ( lower_bounded_semilattstr @ SV187 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1463]) ).
thf(1568,plain,
! [SV156: $i] :
( ( ( ( empty_carrier @ SV156 )
| ~ ( lattice @ SV156 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV156 ) )
= $true )
| ( ( ~ ( latt_str @ SV156 ) )
= $true )
| ( ( latt_str @ SV156 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1464]) ).
thf(1569,plain,
! [SV94: $i] :
( ( ( complete_latt_str @ SV94 )
= $false )
| ( ( empty_carrier @ SV94 )
= $true )
| ( ( lattice @ SV94 )
= $false )
| ( ( ~ ( latt_str @ SV94 ) )
= $true )
| ( ( ( bottom_of_semilattstr @ SV94 )
= ( join_of_latt_set @ SV94 @ empty_set ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1465]) ).
thf(1570,plain,
! [SV188: $i,SV174: $i,SV63: $i,SV43: $i] :
( ( ( ( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SV174 @ SV188 ) ) )
= $true )
| ( ( SV43 = SV174 )
= $true )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[1466]) ).
thf(1571,plain,
! [SV179: $i,SV175: $i,SV63: $i,SV43: $i] :
( ( ( ( ( rel_str_of @ SV43 @ SV63 )
!= ( rel_str_of @ SV175 @ SV179 ) ) )
= $true )
| ( ( SV63 = SV179 )
= $true )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1467]) ).
thf(1572,plain,
! [SV97: $i] :
( ( ( empty_carrier @ SV97 )
= $true )
| ( ( ~ ( distributive_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( bounded_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( complemented_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV97 ) )
= $true )
| ( ( latt_str @ SV97 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1468]) ).
thf(1573,plain,
! [SV98: $i] :
( ( ( empty_carrier @ SV98 )
= $true )
| ( ( ~ ( distributive_lattstr @ SV98 ) )
= $true )
| ( ( ~ ( bounded_lattstr @ SV98 ) )
= $true )
| ( ( ~ ( complemented_lattstr @ SV98 ) )
= $true )
| ( ( boolean_lattstr @ SV98 )
= $true )
| ( ( latt_str @ SV98 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1469]) ).
thf(1574,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1470]) ).
thf(1575,plain,
! [SV189: $i] :
( ( ( empty_carrier @ SV189 )
| ~ ( lattice @ SV189 )
| ~ ( latt_str @ SV189 )
| ( transitive @ ( k2_lattice3 @ SV189 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1471]) ).
thf(1576,plain,
! [SV157: $i] :
( ( ( empty_carrier @ SV157 )
= $true )
| ( ( ~ ( lattice @ SV157 ) )
= $true )
| ( ( ~ ( latt_str @ SV157 ) )
= $true )
| ( ( v1_partfun1 @ ( k2_lattice3 @ SV157 ) @ ( the_carrier @ SV157 ) @ ( the_carrier @ SV157 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1472]) ).
thf(1577,plain,
! [SV158: $i] :
( ( ( ( empty_carrier @ SV158 )
| ~ ( complete_relstr @ SV158 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV158 ) )
= $true )
| ( ( rel_str @ SV158 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1475]) ).
thf(1578,plain,
! [SV159: $i] :
( ( ( ( empty_carrier @ SV159 )
| ~ ( complete_relstr @ SV159 ) )
= $true )
| ( ( with_suprema_relstr @ SV159 )
= $true )
| ( ( rel_str @ SV159 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1476]) ).
thf(1579,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1478]) ).
thf(1580,plain,
! [SV190: $i] :
( ( ~ ( latt_str @ SV190 )
| ( empty_carrier @ SV190 )
| ~ ( lattice @ SV190 )
| ~ ( distributive_lattstr @ SV190 )
| ( join_absorbing @ SV190 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1479]) ).
thf(1581,plain,
! [SV160: $i] :
( ( ( ( empty_carrier @ SV160 )
| ~ ( lattice @ SV160 )
| ~ ( distributive_lattstr @ SV160 ) )
= $true )
| ( ( lattice @ SV160 )
= $true )
| ( ( latt_str @ SV160 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1480]) ).
thf(1582,plain,
! [SV103: $i] :
( ( ( lattice @ SV103 )
= $false )
| ( ( empty_carrier @ SV103 )
= $true )
| ( ( ~ ( distributive_lattstr @ SV103 ) )
= $true )
| ( ( modular_lattstr @ SV103 )
= $true )
| ( ( latt_str @ SV103 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1481]) ).
thf(1583,plain,
! [SV191: $i] :
( ( ! [SY119: $i] :
( ~ ( antisymmetric @ SY119 )
| ~ ( reflexive @ SY119 )
| ~ ( transitive @ SY119 )
| ~ ( v1_partfun1 @ SY119 @ SV191 @ SV191 )
| ~ ( relation_of2 @ SY119 @ SV191 @ SV191 )
| ( reflexive_relstr @ ( rel_str_of @ SV191 @ SY119 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1482]) ).
thf(1584,plain,
! [SV192: $i] :
( ( ! [SY120: $i] :
( ~ ( antisymmetric @ SY120 )
| ~ ( reflexive @ SY120 )
| ~ ( transitive @ SY120 )
| ~ ( v1_partfun1 @ SY120 @ SV192 @ SV192 )
| ~ ( relation_of2 @ SY120 @ SV192 @ SV192 )
| ( strict_rel_str @ ( rel_str_of @ SV192 @ SY120 ) ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1483]) ).
thf(1585,plain,
! [SV161: $i,SV176: $i] :
( ( ( ~ ( antisymmetric @ SV176 )
| ~ ( reflexive @ SV176 )
| ~ ( transitive @ SV176 )
| ~ ( v1_partfun1 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( transitive_relstr @ ( rel_str_of @ SV161 @ SV176 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1484]) ).
thf(1586,plain,
! [SV104: $i,SV132: $i] :
( ( ( ~ ( antisymmetric @ SV132 ) )
= $true )
| ( ( ~ ( reflexive @ SV132 ) )
= $true )
| ( ( ~ ( transitive @ SV132 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SV132 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1485]) ).
thf(1587,plain,
! [SV105: $i] :
( ( ( empty_carrier @ SV105 )
= $false )
| ( ( empty_carrier @ SV105 )
= $true )
| ( ( complete_relstr @ SV105 )
= $false )
| ( ( rel_str @ SV105 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1486]) ).
thf(1588,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1488]) ).
thf(1589,plain,
! [SV193: $i] :
( ( ( empty_carrier @ SV193 )
| ~ ( lattice @ SV193 )
| ~ ( latt_str @ SV193 )
| ( transitive_relstr @ ( poset_of_lattice @ SV193 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1489]) ).
thf(1590,plain,
! [SV162: $i] :
( ( ( empty_carrier @ SV162 )
= $true )
| ( ( ~ ( lattice @ SV162 ) )
= $true )
| ( ( ~ ( latt_str @ SV162 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV162 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1490]) ).
thf(1591,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
| ~ ( meet_associative @ sK3_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1492]) ).
thf(1592,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
| ~ ( distributive_lattstr @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1494]) ).
thf(1593,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1496]) ).
thf(1594,plain,
! [SV194: $i] :
( ( bounded_lattstr @ ( boole_lattice @ SV194 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1497]) ).
thf(1595,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1498]) ).
thf(1596,plain,
! [SV195: $i] :
( ( ( empty_carrier @ SV195 )
| ~ ( lattice @ SV195 )
| ~ ( lower_bounded_semilattstr @ SV195 )
| ~ ( latt_str @ SV195 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SV195 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1499]) ).
thf(1597,plain,
! [SV164: $i] :
( ( ( ( empty_carrier @ SV164 )
| ~ ( lattice @ SV164 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV164 ) )
= $true )
| ( ( ~ ( latt_str @ SV164 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV164 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1500]) ).
thf(1598,plain,
! [SV113: $i] :
( ( ( lower_bounded_semilattstr @ SV113 )
= $false )
| ( ( empty_carrier @ SV113 )
= $true )
| ( ( lattice @ SV113 )
= $false )
| ( ( ~ ( latt_str @ SV113 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV113 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1501]) ).
thf(1599,plain,
! [SV143: $i,SV135: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV135 )
| ~ ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV143 ) )
= $true )
| ( ( ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1502]) ).
thf(1600,plain,
! [SV144: $i,SV136: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV136 )
| ~ ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
| ~ ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV144 ) )
= $true )
| ( ( ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1503]) ).
thf(1601,plain,
( ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1504]) ).
thf(1602,plain,
! [SV196: $i] :
( ( ~ ( reflexive_relstr @ SV196 )
| ~ ( transitive_relstr @ SV196 )
| ~ ( antisymmetric_relstr @ SV196 )
| ~ ( rel_str @ SV196 )
| ( antisymmetric @ ( the_InternalRel @ SV196 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1505]) ).
thf(1603,plain,
! [SV165: $i] :
( ( ( ~ ( reflexive_relstr @ SV165 )
| ~ ( transitive_relstr @ SV165 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV165 ) )
= $true )
| ( ( ~ ( rel_str @ SV165 ) )
= $true )
| ( ( transitive @ ( the_InternalRel @ SV165 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1506]) ).
thf(1604,plain,
! [SV116: $i] :
( ( ( transitive_relstr @ SV116 )
= $false )
| ( ( reflexive_relstr @ SV116 )
= $false )
| ( ( ~ ( antisymmetric_relstr @ SV116 ) )
= $true )
| ( ( ~ ( rel_str @ SV116 ) )
= $true )
| ( ( v1_partfun1 @ ( the_InternalRel @ SV116 ) @ ( the_carrier @ SV116 ) @ ( the_carrier @ SV116 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1507]) ).
thf(1605,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1509]) ).
thf(1606,plain,
! [SV197: $i] :
( ( ( empty_carrier @ SV197 )
| ~ ( lattice @ SV197 )
| ~ ( latt_str @ SV197 )
| ( reflexive_relstr @ ( poset_of_lattice @ SV197 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1510]) ).
thf(1607,plain,
! [SV166: $i] :
( ( ( empty_carrier @ SV166 )
= $true )
| ( ( ~ ( lattice @ SV166 ) )
= $true )
| ( ( ~ ( latt_str @ SV166 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV166 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1511]) ).
thf(1608,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1513]) ).
thf(1609,plain,
! [SV198: $i] :
( ( ~ ( latt_str @ SV198 )
| ( empty_carrier @ SV198 )
| ~ ( lattice @ SV198 )
| ~ ( complete_latt_str @ SV198 )
| ( lower_bounded_semilattstr @ SV198 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1514]) ).
thf(1610,plain,
! [SV167: $i] :
( ( ( ( empty_carrier @ SV167 )
| ~ ( lattice @ SV167 )
| ~ ( complete_latt_str @ SV167 ) )
= $true )
| ( ( upper_bounded_semilattstr @ SV167 )
= $true )
| ( ( latt_str @ SV167 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1515]) ).
thf(1611,plain,
! [SV118: $i] :
( ( ( lattice @ SV118 )
= $false )
| ( ( empty_carrier @ SV118 )
= $true )
| ( ( ~ ( complete_latt_str @ SV118 ) )
= $true )
| ( ( bounded_lattstr @ SV118 )
= $true )
| ( ( latt_str @ SV118 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1516]) ).
thf(1612,plain,
! [SV48: $i] :
( ( ( ~ ! [SY61: $i] :
( ( join_of_latt_set @ SV48 @ SY61 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY61 ) ) )
= $false )
| ( ( complete_latt_str @ SV48 )
= $false )
| ( ( empty_carrier @ SV48 )
= $true )
| ( ( lattice @ SV48 )
= $false )
| ( ( latt_str @ SV48 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[1517]) ).
thf(1613,plain,
! [SV48: $i] :
( ( ( ~ ! [SY62: $i] :
( ( meet_of_latt_set @ SV48 @ SY62 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY62 ) ) )
= $false )
| ( ( complete_latt_str @ SV48 )
= $false )
| ( ( empty_carrier @ SV48 )
= $true )
| ( ( lattice @ SV48 )
= $false )
| ( ( latt_str @ SV48 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[1517]) ).
thf(1614,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1518]) ).
thf(1615,plain,
! [SV199: $i] :
( ( ( empty_carrier @ SV199 )
| ~ ( lattice @ SV199 )
| ~ ( complete_latt_str @ SV199 )
| ~ ( latt_str @ SV199 )
| ( with_suprema_relstr @ ( poset_of_lattice @ SV199 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1519]) ).
thf(1616,plain,
! [SV168: $i] :
( ( ( ( empty_carrier @ SV168 )
| ~ ( lattice @ SV168 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV168 ) )
= $true )
| ( ( ~ ( latt_str @ SV168 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV168 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1520]) ).
thf(1617,plain,
! [SV119: $i] :
( ( ( complete_latt_str @ SV119 )
= $false )
| ( ( empty_carrier @ SV119 )
= $true )
| ( ( lattice @ SV119 )
= $false )
| ( ( ~ ( latt_str @ SV119 ) )
= $true )
| ( ( complete_relstr @ ( poset_of_lattice @ SV119 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1521]) ).
thf(1618,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1522]) ).
thf(1619,plain,
! [SV200: $i] :
( ( ~ ( latt_str @ SV200 )
| ( empty_carrier @ SV200 )
| ~ ( boolean_lattstr @ SV200 )
| ( upper_bounded_semilattstr @ SV200 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1523]) ).
thf(1620,plain,
! [SV169: $i] :
( ( ( ( empty_carrier @ SV169 )
| ~ ( boolean_lattstr @ SV169 ) )
= $true )
| ( ( bounded_lattstr @ SV169 )
= $true )
| ( ( latt_str @ SV169 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1524]) ).
thf(1621,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
| ~ ( lower_bounded_semilattstr @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1526]) ).
thf(1622,plain,
! [SV145: $i,SV49: $i,SV139: $i] :
( ( ( ~ ( function @ SV139 )
| ~ ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( function @ SV145 ) )
= $true )
| ( ( ~ ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1528]) ).
thf(1623,plain,
! [SV146: $i,SV49: $i,SV140: $i] :
( ( ( ~ ( function @ SV140 )
| ~ ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
| ~ ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( function @ SV146 ) )
= $true )
| ( ( ~ ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1529]) ).
thf(1624,plain,
! [SV170: $i] :
( ( ( ( empty_carrier @ SV170 )
| ~ ( bounded_lattstr @ SV170 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV170 ) )
= $true )
| ( ( latt_str @ SV170 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1530]) ).
thf(1625,plain,
! [SV171: $i] :
( ( ( ( empty_carrier @ SV171 )
| ~ ( bounded_lattstr @ SV171 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV171 )
= $true )
| ( ( latt_str @ SV171 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1531]) ).
thf(1626,plain,
! [SV71: $i,SV50: $i,SV66: $i] :
( ( ( function @ SV66 )
= $false )
| ( ( ~ ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( function @ SV71 ) )
= $true )
| ( ( ~ ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1535]) ).
thf(1627,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1536]) ).
thf(1628,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1536]) ).
thf(1629,plain,
! [SV180: $i] :
( ( ( ( empty_carrier @ SV180 )
| ~ ( lattice @ SV180 )
| ~ ( latt_str @ SV180 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV180 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1537]) ).
thf(1630,plain,
! [SV147: $i] :
( ( ( lattice @ SV147 )
= $false )
| ( ( empty_carrier @ SV147 )
= $true )
| ( ( ~ ( latt_str @ SV147 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV147 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1538]) ).
thf(1631,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1539]) ).
thf(1632,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1539]) ).
thf(1633,plain,
! [SV181: $i] :
( ( ( ( empty_carrier @ SV181 )
| ~ ( lattice @ SV181 )
| ~ ( upper_bounded_semilattstr @ SV181 )
| ~ ( latt_str @ SV181 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV181 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1540]) ).
thf(1634,plain,
! [SV148: $i] :
( ( ( empty_carrier @ SV148 )
= $true )
| ( ( ~ ( lattice @ SV148 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV148 ) )
= $true )
| ( ( ~ ( latt_str @ SV148 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV148 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1541]) ).
thf(1635,plain,
! [SV75: $i] :
( ( ( latt_str @ SV75 )
= $false )
| ( ( lattice @ SV75 )
= $false )
| ( ( empty_carrier @ SV75 )
= $true )
| ( ( upper_bounded_semilattstr @ SV75 )
= $false )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV75 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1542]) ).
thf(1636,plain,
! [SV76: $i] :
( ( ( ( empty_carrier @ SV76 )
| ~ ( join_commutative @ SV76 )
| ~ ( join_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_commutative @ SV76 ) )
= $true )
| ( ( ~ ( meet_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1543]) ).
thf(1637,plain,
! [SV77: $i] :
( ( ( ( empty_carrier @ SV77 )
| ~ ( join_commutative @ SV77 )
| ~ ( join_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_commutative @ SV77 ) )
= $true )
| ( ( ~ ( meet_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV77 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1544]) ).
thf(1638,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1545]) ).
thf(1639,plain,
( ( ~ ( antisymmetric_relstr @ sK13_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1545]) ).
thf(1640,plain,
! [SV177: $i,SV126: $i,SV201: $i,SV39: $i] :
( ( ( ( SV39 != SV201 )
| ~ ( element @ SV201 @ ( the_carrier @ SV126 ) )
| ~ ( latt_set_smaller @ SV126 @ SV201 @ SV177 ) )
= $true )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SV177 ) )
= $true )
| ( ( empty_carrier @ SV126 )
= $true )
| ( ( latt_str @ SV126 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[1546]) ).
thf(1641,plain,
! [SV178: $i,SV127: $i,SV39: $i] :
( ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
= $false )
| ( ( ~ ( ~ ~ ( ( SV39
!= ( sK22_D @ SV178 @ SV127 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) )
| ~ ( latt_set_smaller @ SV127 @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ SV178 ) ) )
= $true )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1547]) ).
thf(1642,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1548]) ).
thf(1643,plain,
( ( ~ ( lattice @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1548]) ).
thf(1644,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1549]) ).
thf(1645,plain,
( ( ~ ( complete_relstr @ sK8_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1549]) ).
thf(1646,plain,
( ( ~ ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1550]) ).
thf(1647,plain,
( ( ~ ( strict_rel_str @ sK12_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1550]) ).
thf(1648,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1551]) ).
thf(1649,plain,
( ( ~ ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1551]) ).
thf(1650,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1553]) ).
thf(1651,plain,
( ( ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1553]) ).
thf(1652,plain,
! [SV88: $i] :
( ( ( upper_bounded_semilattstr @ SV88 )
= $false )
| ( ( empty_carrier @ SV88 )
= $true )
| ( ( lower_bounded_semilattstr @ SV88 )
= $false )
| ( ( ~ ( empty_carrier @ SV88 ) )
= $true )
| ( ( latt_str @ SV88 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1555]) ).
thf(1653,plain,
! [SV89: $i] :
( ( ( upper_bounded_semilattstr @ SV89 )
= $false )
| ( ( empty_carrier @ SV89 )
= $true )
| ( ( lower_bounded_semilattstr @ SV89 )
= $false )
| ( ( bounded_lattstr @ SV89 )
= $true )
| ( ( latt_str @ SV89 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1556]) ).
thf(1654,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1557]) ).
thf(1655,plain,
( ( ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1557]) ).
thf(1656,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1559]) ).
thf(1657,plain,
( ( ~ ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1559]) ).
thf(1658,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1561]) ).
thf(1659,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1561]) ).
thf(1660,plain,
! [SV186: $i] :
( ( ( ~ ( latt_str @ SV186 ) )
= $true )
| ( ( ( empty_carrier @ SV186 )
| ~ ( lattice @ SV186 )
| ( meet_associative @ SV186 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1562]) ).
thf(1661,plain,
! [SV155: $i] :
( ( ( empty_carrier @ SV155 )
= $true )
| ( ( ~ ( lattice @ SV155 ) )
= $true )
| ( ( meet_absorbing @ SV155 )
= $true )
| ( ( latt_str @ SV155 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1563]) ).
thf(1662,plain,
( ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1564]) ).
thf(1663,plain,
( ( ~ ( reflexive_relstr @ sK17_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1564]) ).
thf(1664,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1565]) ).
thf(1665,plain,
( ( ~ ( upper_bounded_semilattstr @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1565]) ).
thf(1666,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1566]) ).
thf(1667,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1566]) ).
thf(1668,plain,
! [SV187: $i] :
( ( ( ( empty_carrier @ SV187 )
| ~ ( lattice @ SV187 )
| ~ ( complete_latt_str @ SV187 )
| ~ ( latt_str @ SV187 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV187 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1567]) ).
thf(1669,plain,
! [SV156: $i] :
( ( ( empty_carrier @ SV156 )
= $true )
| ( ( ~ ( lattice @ SV156 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV156 ) )
= $true )
| ( ( ~ ( latt_str @ SV156 ) )
= $true )
| ( ( latt_str @ SV156 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1568]) ).
thf(1670,plain,
! [SV94: $i] :
( ( ( latt_str @ SV94 )
= $false )
| ( ( lattice @ SV94 )
= $false )
| ( ( empty_carrier @ SV94 )
= $true )
| ( ( complete_latt_str @ SV94 )
= $false )
| ( ( ( bottom_of_semilattstr @ SV94 )
= ( join_of_latt_set @ SV94 @ empty_set ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1569]) ).
thf(1671,plain,
! [SV188: $i,SV174: $i,SV63: $i,SV43: $i] :
( ( ( ( rel_str_of @ SV43 @ SV63 )
= ( rel_str_of @ SV174 @ SV188 ) )
= $false )
| ( ( SV43 = SV174 )
= $true )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1570]) ).
thf(1672,plain,
! [SV179: $i,SV175: $i,SV63: $i,SV43: $i] :
( ( ( ( rel_str_of @ SV43 @ SV63 )
= ( rel_str_of @ SV175 @ SV179 ) )
= $false )
| ( ( SV63 = SV179 )
= $true )
| ( ( relation_of2 @ SV63 @ SV43 @ SV43 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1571]) ).
thf(1673,plain,
! [SV97: $i] :
( ( ( distributive_lattstr @ SV97 )
= $false )
| ( ( empty_carrier @ SV97 )
= $true )
| ( ( ~ ( bounded_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( complemented_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV97 ) )
= $true )
| ( ( latt_str @ SV97 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1572]) ).
thf(1674,plain,
! [SV98: $i] :
( ( ( distributive_lattstr @ SV98 )
= $false )
| ( ( empty_carrier @ SV98 )
= $true )
| ( ( ~ ( bounded_lattstr @ SV98 ) )
= $true )
| ( ( ~ ( complemented_lattstr @ SV98 ) )
= $true )
| ( ( boolean_lattstr @ SV98 )
= $true )
| ( ( latt_str @ SV98 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1573]) ).
thf(1675,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1574]) ).
thf(1676,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1574]) ).
thf(1677,plain,
! [SV189: $i] :
( ( ( ( empty_carrier @ SV189 )
| ~ ( lattice @ SV189 )
| ~ ( latt_str @ SV189 ) )
= $true )
| ( ( transitive @ ( k2_lattice3 @ SV189 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1575]) ).
thf(1678,plain,
! [SV157: $i] :
( ( ( lattice @ SV157 )
= $false )
| ( ( empty_carrier @ SV157 )
= $true )
| ( ( ~ ( latt_str @ SV157 ) )
= $true )
| ( ( v1_partfun1 @ ( k2_lattice3 @ SV157 ) @ ( the_carrier @ SV157 ) @ ( the_carrier @ SV157 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1576]) ).
thf(1679,plain,
! [SV158: $i] :
( ( ( empty_carrier @ SV158 )
= $true )
| ( ( ~ ( complete_relstr @ SV158 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV158 ) )
= $true )
| ( ( rel_str @ SV158 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1577]) ).
thf(1680,plain,
! [SV159: $i] :
( ( ( empty_carrier @ SV159 )
= $true )
| ( ( ~ ( complete_relstr @ SV159 ) )
= $true )
| ( ( with_suprema_relstr @ SV159 )
= $true )
| ( ( rel_str @ SV159 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1578]) ).
thf(1681,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1579]) ).
thf(1682,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1579]) ).
thf(1683,plain,
! [SV190: $i] :
( ( ( ~ ( latt_str @ SV190 ) )
= $true )
| ( ( ( empty_carrier @ SV190 )
| ~ ( lattice @ SV190 )
| ~ ( distributive_lattstr @ SV190 )
| ( join_absorbing @ SV190 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1580]) ).
thf(1684,plain,
! [SV160: $i] :
( ( ( ( empty_carrier @ SV160 )
| ~ ( lattice @ SV160 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV160 ) )
= $true )
| ( ( lattice @ SV160 )
= $true )
| ( ( latt_str @ SV160 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1581]) ).
thf(1685,plain,
! [SV103: $i] :
( ( ( distributive_lattstr @ SV103 )
= $false )
| ( ( empty_carrier @ SV103 )
= $true )
| ( ( lattice @ SV103 )
= $false )
| ( ( modular_lattstr @ SV103 )
= $true )
| ( ( latt_str @ SV103 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1582]) ).
thf(1686,plain,
! [SV191: $i,SV202: $i] :
( ( ~ ( antisymmetric @ SV202 )
| ~ ( reflexive @ SV202 )
| ~ ( transitive @ SV202 )
| ~ ( v1_partfun1 @ SV202 @ SV191 @ SV191 )
| ~ ( relation_of2 @ SV202 @ SV191 @ SV191 )
| ( reflexive_relstr @ ( rel_str_of @ SV191 @ SV202 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1583]) ).
thf(1687,plain,
! [SV192: $i,SV203: $i] :
( ( ~ ( antisymmetric @ SV203 )
| ~ ( reflexive @ SV203 )
| ~ ( transitive @ SV203 )
| ~ ( v1_partfun1 @ SV203 @ SV192 @ SV192 )
| ~ ( relation_of2 @ SV203 @ SV192 @ SV192 )
| ( strict_rel_str @ ( rel_str_of @ SV192 @ SV203 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1584]) ).
thf(1688,plain,
! [SV161: $i,SV176: $i] :
( ( ( ~ ( antisymmetric @ SV176 )
| ~ ( reflexive @ SV176 )
| ~ ( transitive @ SV176 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( transitive_relstr @ ( rel_str_of @ SV161 @ SV176 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1585]) ).
thf(1689,plain,
! [SV104: $i,SV132: $i] :
( ( ( antisymmetric @ SV132 )
= $false )
| ( ( ~ ( reflexive @ SV132 ) )
= $true )
| ( ( ~ ( transitive @ SV132 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SV132 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1586]) ).
thf(1690,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1588]) ).
thf(1691,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1588]) ).
thf(1692,plain,
! [SV193: $i] :
( ( ( ( empty_carrier @ SV193 )
| ~ ( lattice @ SV193 )
| ~ ( latt_str @ SV193 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV193 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1589]) ).
thf(1693,plain,
! [SV162: $i] :
( ( ( lattice @ SV162 )
= $false )
| ( ( empty_carrier @ SV162 )
= $true )
| ( ( ~ ( latt_str @ SV162 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV162 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1590]) ).
thf(1694,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1591]) ).
thf(1695,plain,
( ( ~ ( meet_associative @ sK3_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1591]) ).
thf(1696,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1592]) ).
thf(1697,plain,
( ( ~ ( distributive_lattstr @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1592]) ).
thf(1698,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1593]) ).
thf(1699,plain,
( ( ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1593]) ).
thf(1700,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1595]) ).
thf(1701,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1595]) ).
thf(1702,plain,
! [SV195: $i] :
( ( ( ( empty_carrier @ SV195 )
| ~ ( lattice @ SV195 )
| ~ ( lower_bounded_semilattstr @ SV195 )
| ~ ( latt_str @ SV195 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV195 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1596]) ).
thf(1703,plain,
! [SV164: $i] :
( ( ( empty_carrier @ SV164 )
= $true )
| ( ( ~ ( lattice @ SV164 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV164 ) )
= $true )
| ( ( ~ ( latt_str @ SV164 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV164 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1597]) ).
thf(1704,plain,
! [SV113: $i] :
( ( ( latt_str @ SV113 )
= $false )
| ( ( lattice @ SV113 )
= $false )
| ( ( empty_carrier @ SV113 )
= $true )
| ( ( lower_bounded_semilattstr @ SV113 )
= $false )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV113 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1598]) ).
thf(1705,plain,
! [SV143: $i,SV135: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV135 )
| ~ ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV143 ) )
= $true )
| ( ( ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1599]) ).
thf(1706,plain,
! [SV144: $i,SV136: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV136 )
| ~ ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV144 ) )
= $true )
| ( ( ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1600]) ).
thf(1707,plain,
( ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1601]) ).
thf(1708,plain,
( ( ~ ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1601]) ).
thf(1709,plain,
! [SV196: $i] :
( ( ( ~ ( reflexive_relstr @ SV196 )
| ~ ( transitive_relstr @ SV196 )
| ~ ( antisymmetric_relstr @ SV196 )
| ~ ( rel_str @ SV196 ) )
= $true )
| ( ( antisymmetric @ ( the_InternalRel @ SV196 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1602]) ).
thf(1710,plain,
! [SV165: $i] :
( ( ( ~ ( reflexive_relstr @ SV165 ) )
= $true )
| ( ( ~ ( transitive_relstr @ SV165 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV165 ) )
= $true )
| ( ( ~ ( rel_str @ SV165 ) )
= $true )
| ( ( transitive @ ( the_InternalRel @ SV165 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1603]) ).
thf(1711,plain,
! [SV116: $i] :
( ( ( antisymmetric_relstr @ SV116 )
= $false )
| ( ( reflexive_relstr @ SV116 )
= $false )
| ( ( transitive_relstr @ SV116 )
= $false )
| ( ( ~ ( rel_str @ SV116 ) )
= $true )
| ( ( v1_partfun1 @ ( the_InternalRel @ SV116 ) @ ( the_carrier @ SV116 ) @ ( the_carrier @ SV116 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1604]) ).
thf(1712,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1605]) ).
thf(1713,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1605]) ).
thf(1714,plain,
! [SV197: $i] :
( ( ( ( empty_carrier @ SV197 )
| ~ ( lattice @ SV197 )
| ~ ( latt_str @ SV197 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV197 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1606]) ).
thf(1715,plain,
! [SV166: $i] :
( ( ( lattice @ SV166 )
= $false )
| ( ( empty_carrier @ SV166 )
= $true )
| ( ( ~ ( latt_str @ SV166 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV166 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1607]) ).
thf(1716,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1608]) ).
thf(1717,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1608]) ).
thf(1718,plain,
! [SV198: $i] :
( ( ( ~ ( latt_str @ SV198 ) )
= $true )
| ( ( ( empty_carrier @ SV198 )
| ~ ( lattice @ SV198 )
| ~ ( complete_latt_str @ SV198 )
| ( lower_bounded_semilattstr @ SV198 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1609]) ).
thf(1719,plain,
! [SV167: $i] :
( ( ( ( empty_carrier @ SV167 )
| ~ ( lattice @ SV167 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV167 ) )
= $true )
| ( ( upper_bounded_semilattstr @ SV167 )
= $true )
| ( ( latt_str @ SV167 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1610]) ).
thf(1720,plain,
! [SV118: $i] :
( ( ( complete_latt_str @ SV118 )
= $false )
| ( ( empty_carrier @ SV118 )
= $true )
| ( ( lattice @ SV118 )
= $false )
| ( ( bounded_lattstr @ SV118 )
= $true )
| ( ( latt_str @ SV118 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1611]) ).
thf(1721,plain,
! [SV48: $i] :
( ( ( ! [SY61: $i] :
( ( join_of_latt_set @ SV48 @ SY61 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY61 ) ) )
= $true )
| ( ( complete_latt_str @ SV48 )
= $false )
| ( ( empty_carrier @ SV48 )
= $true )
| ( ( lattice @ SV48 )
= $false )
| ( ( latt_str @ SV48 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[1612]) ).
thf(1722,plain,
! [SV48: $i] :
( ( ( ! [SY62: $i] :
( ( meet_of_latt_set @ SV48 @ SY62 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SY62 ) ) )
= $true )
| ( ( complete_latt_str @ SV48 )
= $false )
| ( ( empty_carrier @ SV48 )
= $true )
| ( ( lattice @ SV48 )
= $false )
| ( ( latt_str @ SV48 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[1613]) ).
thf(1723,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1614]) ).
thf(1724,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1614]) ).
thf(1725,plain,
! [SV199: $i] :
( ( ( ( empty_carrier @ SV199 )
| ~ ( lattice @ SV199 )
| ~ ( complete_latt_str @ SV199 )
| ~ ( latt_str @ SV199 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV199 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1615]) ).
thf(1726,plain,
! [SV168: $i] :
( ( ( empty_carrier @ SV168 )
= $true )
| ( ( ~ ( lattice @ SV168 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV168 ) )
= $true )
| ( ( ~ ( latt_str @ SV168 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV168 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1616]) ).
thf(1727,plain,
! [SV119: $i] :
( ( ( latt_str @ SV119 )
= $false )
| ( ( lattice @ SV119 )
= $false )
| ( ( empty_carrier @ SV119 )
= $true )
| ( ( complete_latt_str @ SV119 )
= $false )
| ( ( complete_relstr @ ( poset_of_lattice @ SV119 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1617]) ).
thf(1728,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1618]) ).
thf(1729,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1618]) ).
thf(1730,plain,
! [SV200: $i] :
( ( ( ~ ( latt_str @ SV200 ) )
= $true )
| ( ( ( empty_carrier @ SV200 )
| ~ ( boolean_lattstr @ SV200 )
| ( upper_bounded_semilattstr @ SV200 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1619]) ).
thf(1731,plain,
! [SV169: $i] :
( ( ( empty_carrier @ SV169 )
= $true )
| ( ( ~ ( boolean_lattstr @ SV169 ) )
= $true )
| ( ( bounded_lattstr @ SV169 )
= $true )
| ( ( latt_str @ SV169 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1620]) ).
thf(1732,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1621]) ).
thf(1733,plain,
( ( ~ ( lower_bounded_semilattstr @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1621]) ).
thf(1734,plain,
! [SV145: $i,SV49: $i,SV139: $i] :
( ( ( ~ ( function @ SV139 )
| ~ ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( function @ SV145 ) )
= $true )
| ( ( ~ ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1622]) ).
thf(1735,plain,
! [SV146: $i,SV49: $i,SV140: $i] :
( ( ( ~ ( function @ SV140 )
| ~ ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( function @ SV146 ) )
= $true )
| ( ( ~ ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1623]) ).
thf(1736,plain,
! [SV170: $i] :
( ( ( empty_carrier @ SV170 )
= $true )
| ( ( ~ ( bounded_lattstr @ SV170 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV170 ) )
= $true )
| ( ( latt_str @ SV170 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1624]) ).
thf(1737,plain,
! [SV171: $i] :
( ( ( empty_carrier @ SV171 )
= $true )
| ( ( ~ ( bounded_lattstr @ SV171 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV171 )
= $true )
| ( ( latt_str @ SV171 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1625]) ).
thf(1738,plain,
! [SV71: $i,SV50: $i,SV66: $i] :
( ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( ~ ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( function @ SV71 ) )
= $true )
| ( ( ~ ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1626]) ).
thf(1739,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1627]) ).
thf(1740,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1628]) ).
thf(1741,plain,
! [SV180: $i] :
( ( ( ( empty_carrier @ SV180 )
| ~ ( lattice @ SV180 ) )
= $true )
| ( ( ~ ( latt_str @ SV180 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV180 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1629]) ).
thf(1742,plain,
! [SV147: $i] :
( ( ( latt_str @ SV147 )
= $false )
| ( ( empty_carrier @ SV147 )
= $true )
| ( ( lattice @ SV147 )
= $false )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV147 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1630]) ).
thf(1743,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1631]) ).
thf(1744,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1632]) ).
thf(1745,plain,
! [SV181: $i] :
( ( ( ( empty_carrier @ SV181 )
| ~ ( lattice @ SV181 )
| ~ ( upper_bounded_semilattstr @ SV181 ) )
= $true )
| ( ( ~ ( latt_str @ SV181 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV181 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1633]) ).
thf(1746,plain,
! [SV148: $i] :
( ( ( lattice @ SV148 )
= $false )
| ( ( empty_carrier @ SV148 )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV148 ) )
= $true )
| ( ( ~ ( latt_str @ SV148 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV148 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1634]) ).
thf(1747,plain,
! [SV76: $i] :
( ( ( ( empty_carrier @ SV76 )
| ~ ( join_commutative @ SV76 ) )
= $true )
| ( ( ~ ( join_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_commutative @ SV76 ) )
= $true )
| ( ( ~ ( meet_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1636]) ).
thf(1748,plain,
! [SV77: $i] :
( ( ( ( empty_carrier @ SV77 )
| ~ ( join_commutative @ SV77 ) )
= $true )
| ( ( ~ ( join_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_commutative @ SV77 ) )
= $true )
| ( ( ~ ( meet_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV77 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1637]) ).
thf(1749,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1638]) ).
thf(1750,plain,
( ( antisymmetric_relstr @ sK13_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1639]) ).
thf(1751,plain,
! [SV177: $i,SV126: $i,SV201: $i,SV39: $i] :
( ( ( ( SV39 != SV201 )
| ~ ( element @ SV201 @ ( the_carrier @ SV126 ) ) )
= $true )
| ( ( ~ ( latt_set_smaller @ SV126 @ SV201 @ SV177 ) )
= $true )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SV177 ) )
= $true )
| ( ( empty_carrier @ SV126 )
= $true )
| ( ( latt_str @ SV126 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1640]) ).
thf(1752,plain,
! [SV127: $i,SV178: $i,SV39: $i] :
( ( ( ~ ~ ( ( SV39
!= ( sK22_D @ SV178 @ SV127 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) )
| ~ ( latt_set_smaller @ SV127 @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ SV178 ) )
= $false )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
= $false )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1641]) ).
thf(1753,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1642]) ).
thf(1754,plain,
( ( lattice @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1643]) ).
thf(1755,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1644]) ).
thf(1756,plain,
( ( complete_relstr @ sK8_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1645]) ).
thf(1757,plain,
( ( ~ ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1646]) ).
thf(1758,plain,
( ( strict_rel_str @ sK12_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1647]) ).
thf(1759,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1648]) ).
thf(1760,plain,
( ( ! [SX0: $i] : ( bounded_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1649]) ).
thf(1761,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1650]) ).
thf(1762,plain,
( ( ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1651]) ).
thf(1763,plain,
! [SV88: $i] :
( ( ( empty_carrier @ SV88 )
= $false )
| ( ( lower_bounded_semilattstr @ SV88 )
= $false )
| ( ( empty_carrier @ SV88 )
= $true )
| ( ( upper_bounded_semilattstr @ SV88 )
= $false )
| ( ( latt_str @ SV88 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1652]) ).
thf(1764,plain,
( ( ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1654]) ).
thf(1765,plain,
( ( ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1655]) ).
thf(1766,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1656]) ).
thf(1767,plain,
( ( ! [SX0: $i] : ( bounded_lattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1657]) ).
thf(1768,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1658]) ).
thf(1769,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( meet_commutative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1659]) ).
thf(1770,plain,
! [SV186: $i] :
( ( ( latt_str @ SV186 )
= $false )
| ( ( ( empty_carrier @ SV186 )
| ~ ( lattice @ SV186 )
| ( meet_associative @ SV186 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1660]) ).
thf(1771,plain,
! [SV155: $i] :
( ( ( lattice @ SV155 )
= $false )
| ( ( empty_carrier @ SV155 )
= $true )
| ( ( meet_absorbing @ SV155 )
= $true )
| ( ( latt_str @ SV155 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1661]) ).
thf(1772,plain,
( ( ~ ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1662]) ).
thf(1773,plain,
( ( reflexive_relstr @ sK17_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1663]) ).
thf(1774,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1664]) ).
thf(1775,plain,
( ( upper_bounded_semilattstr @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1665]) ).
thf(1776,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1666]) ).
thf(1777,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1667]) ).
thf(1778,plain,
! [SV187: $i] :
( ( ( ( empty_carrier @ SV187 )
| ~ ( lattice @ SV187 )
| ~ ( complete_latt_str @ SV187 ) )
= $true )
| ( ( ~ ( latt_str @ SV187 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV187 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1668]) ).
thf(1779,plain,
! [SV156: $i] :
( ( ( lattice @ SV156 )
= $false )
| ( ( empty_carrier @ SV156 )
= $true )
| ( ( ~ ( complete_latt_str @ SV156 ) )
= $true )
| ( ( ~ ( latt_str @ SV156 ) )
= $true )
| ( ( latt_str @ SV156 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1669]) ).
thf(1780,plain,
! [SV97: $i] :
( ( ( bounded_lattstr @ SV97 )
= $false )
| ( ( empty_carrier @ SV97 )
= $true )
| ( ( distributive_lattstr @ SV97 )
= $false )
| ( ( ~ ( complemented_lattstr @ SV97 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV97 ) )
= $true )
| ( ( latt_str @ SV97 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1673]) ).
thf(1781,plain,
! [SV98: $i] :
( ( ( bounded_lattstr @ SV98 )
= $false )
| ( ( empty_carrier @ SV98 )
= $true )
| ( ( distributive_lattstr @ SV98 )
= $false )
| ( ( ~ ( complemented_lattstr @ SV98 ) )
= $true )
| ( ( boolean_lattstr @ SV98 )
= $true )
| ( ( latt_str @ SV98 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1674]) ).
thf(1782,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric @ ( k2_lattice3 @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1675]) ).
thf(1783,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive @ ( k2_lattice3 @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1676]) ).
thf(1784,plain,
! [SV189: $i] :
( ( ( ( empty_carrier @ SV189 )
| ~ ( lattice @ SV189 ) )
= $true )
| ( ( ~ ( latt_str @ SV189 ) )
= $true )
| ( ( transitive @ ( k2_lattice3 @ SV189 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1677]) ).
thf(1785,plain,
! [SV157: $i] :
( ( ( latt_str @ SV157 )
= $false )
| ( ( empty_carrier @ SV157 )
= $true )
| ( ( lattice @ SV157 )
= $false )
| ( ( v1_partfun1 @ ( k2_lattice3 @ SV157 ) @ ( the_carrier @ SV157 ) @ ( the_carrier @ SV157 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1678]) ).
thf(1786,plain,
! [SV158: $i] :
( ( ( complete_relstr @ SV158 )
= $false )
| ( ( empty_carrier @ SV158 )
= $true )
| ( ( ~ ( empty_carrier @ SV158 ) )
= $true )
| ( ( rel_str @ SV158 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1679]) ).
thf(1787,plain,
! [SV159: $i] :
( ( ( complete_relstr @ SV159 )
= $false )
| ( ( empty_carrier @ SV159 )
= $true )
| ( ( with_suprema_relstr @ SV159 )
= $true )
| ( ( rel_str @ SV159 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1680]) ).
thf(1788,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1681]) ).
thf(1789,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1682]) ).
thf(1790,plain,
! [SV190: $i] :
( ( ( latt_str @ SV190 )
= $false )
| ( ( ( empty_carrier @ SV190 )
| ~ ( lattice @ SV190 )
| ~ ( distributive_lattstr @ SV190 )
| ( join_absorbing @ SV190 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1683]) ).
thf(1791,plain,
! [SV160: $i] :
( ( ( empty_carrier @ SV160 )
= $true )
| ( ( ~ ( lattice @ SV160 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV160 ) )
= $true )
| ( ( lattice @ SV160 )
= $true )
| ( ( latt_str @ SV160 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1684]) ).
thf(1792,plain,
! [SV191: $i,SV202: $i] :
( ( ( ~ ( antisymmetric @ SV202 )
| ~ ( reflexive @ SV202 )
| ~ ( transitive @ SV202 )
| ~ ( v1_partfun1 @ SV202 @ SV191 @ SV191 )
| ~ ( relation_of2 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( reflexive_relstr @ ( rel_str_of @ SV191 @ SV202 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1686]) ).
thf(1793,plain,
! [SV192: $i,SV203: $i] :
( ( ( ~ ( antisymmetric @ SV203 )
| ~ ( reflexive @ SV203 )
| ~ ( transitive @ SV203 )
| ~ ( v1_partfun1 @ SV203 @ SV192 @ SV192 )
| ~ ( relation_of2 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV192 @ SV203 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1687]) ).
thf(1794,plain,
! [SV161: $i,SV176: $i] :
( ( ( ~ ( antisymmetric @ SV176 )
| ~ ( reflexive @ SV176 ) )
= $true )
| ( ( ~ ( transitive @ SV176 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( transitive_relstr @ ( rel_str_of @ SV161 @ SV176 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1688]) ).
thf(1795,plain,
! [SV104: $i,SV132: $i] :
( ( ( reflexive @ SV132 )
= $false )
| ( ( antisymmetric @ SV132 )
= $false )
| ( ( ~ ( transitive @ SV132 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SV132 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1689]) ).
thf(1796,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1690]) ).
thf(1797,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1691]) ).
thf(1798,plain,
! [SV193: $i] :
( ( ( ( empty_carrier @ SV193 )
| ~ ( lattice @ SV193 ) )
= $true )
| ( ( ~ ( latt_str @ SV193 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV193 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1692]) ).
thf(1799,plain,
! [SV162: $i] :
( ( ( latt_str @ SV162 )
= $false )
| ( ( empty_carrier @ SV162 )
= $true )
| ( ( lattice @ SV162 )
= $false )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV162 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1693]) ).
thf(1800,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1694]) ).
thf(1801,plain,
( ( meet_associative @ sK3_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1695]) ).
thf(1802,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1696]) ).
thf(1803,plain,
( ( distributive_lattstr @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1697]) ).
thf(1804,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1698]) ).
thf(1805,plain,
( ( ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1699]) ).
thf(1806,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1700]) ).
thf(1807,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1701]) ).
thf(1808,plain,
! [SV195: $i] :
( ( ( ( empty_carrier @ SV195 )
| ~ ( lattice @ SV195 )
| ~ ( lower_bounded_semilattstr @ SV195 ) )
= $true )
| ( ( ~ ( latt_str @ SV195 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV195 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1702]) ).
thf(1809,plain,
! [SV164: $i] :
( ( ( lattice @ SV164 )
= $false )
| ( ( empty_carrier @ SV164 )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV164 ) )
= $true )
| ( ( ~ ( latt_str @ SV164 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV164 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1703]) ).
thf(1810,plain,
! [SV143: $i,SV135: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV135 ) )
= $true )
| ( ( ~ ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV143 ) )
= $true )
| ( ( ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1705]) ).
thf(1811,plain,
! [SV144: $i,SV136: $i,SV45: $i] :
( ( ( ( empty @ SV45 )
| ~ ( function @ SV136 ) )
= $true )
| ( ( ~ ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV144 ) )
= $true )
| ( ( ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1706]) ).
thf(1812,plain,
( ( ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( reflexive @ ( the_InternalRel @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1707]) ).
thf(1813,plain,
( ( ! [SX0: $i] :
( ~ ( reflexive_relstr @ SX0 )
| ~ ( transitive_relstr @ SX0 )
| ~ ( antisymmetric_relstr @ SX0 )
| ~ ( rel_str @ SX0 )
| ( relation @ ( the_InternalRel @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1708]) ).
thf(1814,plain,
! [SV196: $i] :
( ( ( ~ ( reflexive_relstr @ SV196 )
| ~ ( transitive_relstr @ SV196 )
| ~ ( antisymmetric_relstr @ SV196 ) )
= $true )
| ( ( ~ ( rel_str @ SV196 ) )
= $true )
| ( ( antisymmetric @ ( the_InternalRel @ SV196 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1709]) ).
thf(1815,plain,
! [SV165: $i] :
( ( ( reflexive_relstr @ SV165 )
= $false )
| ( ( ~ ( transitive_relstr @ SV165 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV165 ) )
= $true )
| ( ( ~ ( rel_str @ SV165 ) )
= $true )
| ( ( transitive @ ( the_InternalRel @ SV165 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1710]) ).
thf(1816,plain,
! [SV116: $i] :
( ( ( rel_str @ SV116 )
= $false )
| ( ( transitive_relstr @ SV116 )
= $false )
| ( ( reflexive_relstr @ SV116 )
= $false )
| ( ( antisymmetric_relstr @ SV116 )
= $false )
| ( ( v1_partfun1 @ ( the_InternalRel @ SV116 ) @ ( the_carrier @ SV116 ) @ ( the_carrier @ SV116 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1711]) ).
thf(1817,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1712]) ).
thf(1818,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1713]) ).
thf(1819,plain,
! [SV197: $i] :
( ( ( ( empty_carrier @ SV197 )
| ~ ( lattice @ SV197 ) )
= $true )
| ( ( ~ ( latt_str @ SV197 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV197 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1714]) ).
thf(1820,plain,
! [SV166: $i] :
( ( ( latt_str @ SV166 )
= $false )
| ( ( empty_carrier @ SV166 )
= $true )
| ( ( lattice @ SV166 )
= $false )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV166 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1715]) ).
thf(1821,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1716]) ).
thf(1822,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1717]) ).
thf(1823,plain,
! [SV198: $i] :
( ( ( latt_str @ SV198 )
= $false )
| ( ( ( empty_carrier @ SV198 )
| ~ ( lattice @ SV198 )
| ~ ( complete_latt_str @ SV198 )
| ( lower_bounded_semilattstr @ SV198 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1718]) ).
thf(1824,plain,
! [SV167: $i] :
( ( ( empty_carrier @ SV167 )
= $true )
| ( ( ~ ( lattice @ SV167 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV167 ) )
= $true )
| ( ( upper_bounded_semilattstr @ SV167 )
= $true )
| ( ( latt_str @ SV167 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1719]) ).
thf(1825,plain,
! [SV204: $i,SV48: $i] :
( ( ( ( join_of_latt_set @ SV48 @ SV204 )
= ( join_on_relstr @ ( poset_of_lattice @ SV48 ) @ SV204 ) )
= $true )
| ( ( complete_latt_str @ SV48 )
= $false )
| ( ( empty_carrier @ SV48 )
= $true )
| ( ( lattice @ SV48 )
= $false )
| ( ( latt_str @ SV48 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[1721]) ).
thf(1826,plain,
! [SV205: $i,SV48: $i] :
( ( ( ( meet_of_latt_set @ SV48 @ SV205 )
= ( meet_on_relstr @ ( poset_of_lattice @ SV48 ) @ SV205 ) )
= $true )
| ( ( complete_latt_str @ SV48 )
= $false )
| ( ( empty_carrier @ SV48 )
= $true )
| ( ( lattice @ SV48 )
= $false )
| ( ( latt_str @ SV48 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[1722]) ).
thf(1827,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1723]) ).
thf(1828,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1724]) ).
thf(1829,plain,
! [SV199: $i] :
( ( ( ( empty_carrier @ SV199 )
| ~ ( lattice @ SV199 )
| ~ ( complete_latt_str @ SV199 ) )
= $true )
| ( ( ~ ( latt_str @ SV199 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV199 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1725]) ).
thf(1830,plain,
! [SV168: $i] :
( ( ( lattice @ SV168 )
= $false )
| ( ( empty_carrier @ SV168 )
= $true )
| ( ( ~ ( complete_latt_str @ SV168 ) )
= $true )
| ( ( ~ ( latt_str @ SV168 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV168 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1726]) ).
thf(1831,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1728]) ).
thf(1832,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( lower_bounded_semilattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1729]) ).
thf(1833,plain,
! [SV200: $i] :
( ( ( latt_str @ SV200 )
= $false )
| ( ( ( empty_carrier @ SV200 )
| ~ ( boolean_lattstr @ SV200 )
| ( upper_bounded_semilattstr @ SV200 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1730]) ).
thf(1834,plain,
! [SV169: $i] :
( ( ( boolean_lattstr @ SV169 )
= $false )
| ( ( empty_carrier @ SV169 )
= $true )
| ( ( bounded_lattstr @ SV169 )
= $true )
| ( ( latt_str @ SV169 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1731]) ).
thf(1835,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1732]) ).
thf(1836,plain,
( ( lower_bounded_semilattstr @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1733]) ).
thf(1837,plain,
! [SV145: $i,SV49: $i,SV139: $i] :
( ( ( ~ ( function @ SV139 ) )
= $true )
| ( ( ~ ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( function @ SV145 ) )
= $true )
| ( ( ~ ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1734]) ).
thf(1838,plain,
! [SV146: $i,SV49: $i,SV140: $i] :
( ( ( ~ ( function @ SV140 ) )
= $true )
| ( ( ~ ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( function @ SV146 ) )
= $true )
| ( ( ~ ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1735]) ).
thf(1839,plain,
! [SV170: $i] :
( ( ( bounded_lattstr @ SV170 )
= $false )
| ( ( empty_carrier @ SV170 )
= $true )
| ( ( ~ ( empty_carrier @ SV170 ) )
= $true )
| ( ( latt_str @ SV170 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1736]) ).
thf(1840,plain,
! [SV171: $i] :
( ( ( bounded_lattstr @ SV171 )
= $false )
| ( ( empty_carrier @ SV171 )
= $true )
| ( ( lower_bounded_semilattstr @ SV171 )
= $true )
| ( ( latt_str @ SV171 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1737]) ).
thf(1841,plain,
! [SV71: $i,SV50: $i,SV66: $i] :
( ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( ~ ( function @ SV71 ) )
= $true )
| ( ( ~ ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1738]) ).
thf(1842,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1739]) ).
thf(1843,plain,
! [SV206: $i] :
( ( ( empty_carrier @ SV206 )
| ~ ( lattice @ SV206 )
| ~ ( latt_str @ SV206 )
| ( transitive_relstr @ ( poset_of_lattice @ SV206 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1740]) ).
thf(1844,plain,
! [SV180: $i] :
( ( ( empty_carrier @ SV180 )
= $true )
| ( ( ~ ( lattice @ SV180 ) )
= $true )
| ( ( ~ ( latt_str @ SV180 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV180 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1741]) ).
thf(1845,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1743]) ).
thf(1846,plain,
! [SV207: $i] :
( ( ( empty_carrier @ SV207 )
| ~ ( lattice @ SV207 )
| ~ ( upper_bounded_semilattstr @ SV207 )
| ~ ( latt_str @ SV207 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SV207 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1744]) ).
thf(1847,plain,
! [SV181: $i] :
( ( ( ( empty_carrier @ SV181 )
| ~ ( lattice @ SV181 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV181 ) )
= $true )
| ( ( ~ ( latt_str @ SV181 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV181 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1745]) ).
thf(1848,plain,
! [SV148: $i] :
( ( ( upper_bounded_semilattstr @ SV148 )
= $false )
| ( ( empty_carrier @ SV148 )
= $true )
| ( ( lattice @ SV148 )
= $false )
| ( ( ~ ( latt_str @ SV148 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV148 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1746]) ).
thf(1849,plain,
! [SV76: $i] :
( ( ( empty_carrier @ SV76 )
= $true )
| ( ( ~ ( join_commutative @ SV76 ) )
= $true )
| ( ( ~ ( join_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_commutative @ SV76 ) )
= $true )
| ( ( ~ ( meet_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1747]) ).
thf(1850,plain,
! [SV77: $i] :
( ( ( empty_carrier @ SV77 )
= $true )
| ( ( ~ ( join_commutative @ SV77 ) )
= $true )
| ( ( ~ ( join_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_commutative @ SV77 ) )
= $true )
| ( ( ~ ( meet_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV77 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1748]) ).
thf(1851,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
| ~ ( transitive_relstr @ sK13_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1749]) ).
thf(1852,plain,
! [SV177: $i,SV126: $i,SV201: $i,SV39: $i] :
( ( ( ( SV39 != SV201 ) )
= $true )
| ( ( ~ ( element @ SV201 @ ( the_carrier @ SV126 ) ) )
= $true )
| ( ( ~ ( latt_set_smaller @ SV126 @ SV201 @ SV177 ) )
= $true )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SV177 ) )
= $true )
| ( ( empty_carrier @ SV126 )
= $true )
| ( ( latt_str @ SV126 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1751]) ).
thf(1853,plain,
! [SV127: $i,SV178: $i,SV39: $i] :
( ( ( ~ ~ ( ( SV39
!= ( sK22_D @ SV178 @ SV127 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) ) )
= $false )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
= $false )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[1752]) ).
thf(1854,plain,
! [SV39: $i,SV178: $i,SV127: $i] :
( ( ( ~ ( latt_set_smaller @ SV127 @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ SV178 ) )
= $false )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
= $false )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[1752]) ).
thf(1855,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
| ~ ( join_absorbing @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1753]) ).
thf(1856,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
| ~ ( with_infima_relstr @ sK8_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1755]) ).
thf(1857,plain,
( ( ~ ( rel_str @ sK12_A )
| ~ ~ ( empty_carrier @ sK12_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1757]) ).
thf(1858,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1759]) ).
thf(1859,plain,
! [SV208: $i] :
( ( bounded_relstr @ ( boole_POSet @ SV208 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1760]) ).
thf(1860,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1761]) ).
thf(1861,plain,
! [SV209: $i] :
( ( meet_associative @ ( boole_lattice @ SV209 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1762]) ).
thf(1862,plain,
! [SV210: $i] :
( ( ~ ( empty_carrier @ ( boole_POSet @ SV210 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1764]) ).
thf(1863,plain,
! [SV211: $i] :
( ( strict_rel_str @ ( boole_POSet @ SV211 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1765]) ).
thf(1864,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1766]) ).
thf(1865,plain,
! [SV212: $i] :
( ( bounded_lattstr @ ( boole_lattice @ SV212 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1767]) ).
thf(1866,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1768]) ).
thf(1867,plain,
! [SV213: $i] :
( ( ~ ( latt_str @ SV213 )
| ( empty_carrier @ SV213 )
| ~ ( lattice @ SV213 )
| ( meet_commutative @ SV213 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1769]) ).
thf(1868,plain,
! [SV186: $i] :
( ( ( ( empty_carrier @ SV186 )
| ~ ( lattice @ SV186 ) )
= $true )
| ( ( meet_associative @ SV186 )
= $true )
| ( ( latt_str @ SV186 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1770]) ).
thf(1869,plain,
( ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
| ~ ( strict_rel_str @ sK17_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1772]) ).
thf(1870,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
| ~ ( lower_bounded_semilattstr @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1774]) ).
thf(1871,plain,
! [SV214: $i] :
( ( ( empty_carrier @ SV214 )
| ~ ( lattice @ SV214 )
| ~ ( complete_latt_str @ SV214 )
| ~ ( latt_str @ SV214 )
| ~ ( empty_carrier @ SV214 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1776]) ).
thf(1872,plain,
! [SV215: $i] :
( ( ( empty_carrier @ SV215 )
| ~ ( lattice @ SV215 )
| ~ ( complete_latt_str @ SV215 )
| ~ ( latt_str @ SV215 )
| ( lattice @ SV215 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1777]) ).
thf(1873,plain,
! [SV187: $i] :
( ( ( ( empty_carrier @ SV187 )
| ~ ( lattice @ SV187 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV187 ) )
= $true )
| ( ( ~ ( latt_str @ SV187 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV187 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1778]) ).
thf(1874,plain,
! [SV156: $i] :
( ( ( complete_latt_str @ SV156 )
= $false )
| ( ( empty_carrier @ SV156 )
= $true )
| ( ( lattice @ SV156 )
= $false )
| ( ( ~ ( latt_str @ SV156 ) )
= $true )
| ( ( latt_str @ SV156 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1779]) ).
thf(1875,plain,
! [SV97: $i] :
( ( ( complemented_lattstr @ SV97 )
= $false )
| ( ( distributive_lattstr @ SV97 )
= $false )
| ( ( empty_carrier @ SV97 )
= $true )
| ( ( bounded_lattstr @ SV97 )
= $false )
| ( ( ~ ( empty_carrier @ SV97 ) )
= $true )
| ( ( latt_str @ SV97 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1780]) ).
thf(1876,plain,
! [SV98: $i] :
( ( ( complemented_lattstr @ SV98 )
= $false )
| ( ( distributive_lattstr @ SV98 )
= $false )
| ( ( empty_carrier @ SV98 )
= $true )
| ( ( bounded_lattstr @ SV98 )
= $false )
| ( ( boolean_lattstr @ SV98 )
= $true )
| ( ( latt_str @ SV98 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1781]) ).
thf(1877,plain,
! [SV216: $i] :
( ( ( empty_carrier @ SV216 )
| ~ ( lattice @ SV216 )
| ~ ( latt_str @ SV216 )
| ( antisymmetric @ ( k2_lattice3 @ SV216 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1782]) ).
thf(1878,plain,
! [SV217: $i] :
( ( ( empty_carrier @ SV217 )
| ~ ( lattice @ SV217 )
| ~ ( latt_str @ SV217 )
| ( reflexive @ ( k2_lattice3 @ SV217 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1783]) ).
thf(1879,plain,
! [SV189: $i] :
( ( ( empty_carrier @ SV189 )
= $true )
| ( ( ~ ( lattice @ SV189 ) )
= $true )
| ( ( ~ ( latt_str @ SV189 ) )
= $true )
| ( ( transitive @ ( k2_lattice3 @ SV189 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1784]) ).
thf(1880,plain,
! [SV158: $i] :
( ( ( empty_carrier @ SV158 )
= $false )
| ( ( empty_carrier @ SV158 )
= $true )
| ( ( complete_relstr @ SV158 )
= $false )
| ( ( rel_str @ SV158 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1786]) ).
thf(1881,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1788]) ).
thf(1882,plain,
! [SV218: $i] :
( ( ~ ( latt_str @ SV218 )
| ( empty_carrier @ SV218 )
| ~ ( lattice @ SV218 )
| ~ ( distributive_lattstr @ SV218 )
| ( meet_absorbing @ SV218 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1789]) ).
thf(1883,plain,
! [SV190: $i] :
( ( ( ( empty_carrier @ SV190 )
| ~ ( lattice @ SV190 )
| ~ ( distributive_lattstr @ SV190 ) )
= $true )
| ( ( join_absorbing @ SV190 )
= $true )
| ( ( latt_str @ SV190 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1790]) ).
thf(1884,plain,
! [SV160: $i] :
( ( ( lattice @ SV160 )
= $false )
| ( ( empty_carrier @ SV160 )
= $true )
| ( ( ~ ( distributive_lattstr @ SV160 ) )
= $true )
| ( ( lattice @ SV160 )
= $true )
| ( ( latt_str @ SV160 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1791]) ).
thf(1885,plain,
! [SV191: $i,SV202: $i] :
( ( ( ~ ( antisymmetric @ SV202 )
| ~ ( reflexive @ SV202 )
| ~ ( transitive @ SV202 )
| ~ ( v1_partfun1 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( reflexive_relstr @ ( rel_str_of @ SV191 @ SV202 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1792]) ).
thf(1886,plain,
! [SV192: $i,SV203: $i] :
( ( ( ~ ( antisymmetric @ SV203 )
| ~ ( reflexive @ SV203 )
| ~ ( transitive @ SV203 )
| ~ ( v1_partfun1 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV192 @ SV203 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1793]) ).
thf(1887,plain,
! [SV161: $i,SV176: $i] :
( ( ( ~ ( antisymmetric @ SV176 ) )
= $true )
| ( ( ~ ( reflexive @ SV176 ) )
= $true )
| ( ( ~ ( transitive @ SV176 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( transitive_relstr @ ( rel_str_of @ SV161 @ SV176 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1794]) ).
thf(1888,plain,
! [SV104: $i,SV132: $i] :
( ( ( transitive @ SV132 )
= $false )
| ( ( antisymmetric @ SV132 )
= $false )
| ( ( reflexive @ SV132 )
= $false )
| ( ( ~ ( v1_partfun1 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SV132 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1795]) ).
thf(1889,plain,
! [SV219: $i] :
( ( ( empty_carrier @ SV219 )
| ~ ( lattice @ SV219 )
| ~ ( latt_str @ SV219 )
| ( reflexive_relstr @ ( poset_of_lattice @ SV219 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1796]) ).
thf(1890,plain,
! [SV220: $i] :
( ( ( empty_carrier @ SV220 )
| ~ ( lattice @ SV220 )
| ~ ( latt_str @ SV220 )
| ( strict_rel_str @ ( poset_of_lattice @ SV220 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1797]) ).
thf(1891,plain,
! [SV193: $i] :
( ( ( empty_carrier @ SV193 )
= $true )
| ( ( ~ ( lattice @ SV193 ) )
= $true )
| ( ( ~ ( latt_str @ SV193 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV193 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1798]) ).
thf(1892,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
| ~ ( meet_commutative @ sK3_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1800]) ).
thf(1893,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
| ~ ( lattice @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1802]) ).
thf(1894,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1804]) ).
thf(1895,plain,
! [SV221: $i] :
( ( upper_bounded_semilattstr @ ( boole_lattice @ SV221 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1805]) ).
thf(1896,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1806]) ).
thf(1897,plain,
! [SV222: $i] :
( ( ( empty_carrier @ SV222 )
| ~ ( lattice @ SV222 )
| ~ ( lower_bounded_semilattstr @ SV222 )
| ~ ( latt_str @ SV222 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SV222 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1807]) ).
thf(1898,plain,
! [SV195: $i] :
( ( ( ( empty_carrier @ SV195 )
| ~ ( lattice @ SV195 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV195 ) )
= $true )
| ( ( ~ ( latt_str @ SV195 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV195 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1808]) ).
thf(1899,plain,
! [SV164: $i] :
( ( ( lower_bounded_semilattstr @ SV164 )
= $false )
| ( ( empty_carrier @ SV164 )
= $true )
| ( ( lattice @ SV164 )
= $false )
| ( ( ~ ( latt_str @ SV164 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV164 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1809]) ).
thf(1900,plain,
! [SV143: $i,SV135: $i,SV45: $i] :
( ( ( empty @ SV45 )
= $true )
| ( ( ~ ( function @ SV135 ) )
= $true )
| ( ( ~ ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV143 ) )
= $true )
| ( ( ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1810]) ).
thf(1901,plain,
! [SV144: $i,SV136: $i,SV45: $i] :
( ( ( empty @ SV45 )
= $true )
| ( ( ~ ( function @ SV136 ) )
= $true )
| ( ( ~ ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV144 ) )
= $true )
| ( ( ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1811]) ).
thf(1902,plain,
! [SV223: $i] :
( ( ~ ( reflexive_relstr @ SV223 )
| ~ ( transitive_relstr @ SV223 )
| ~ ( antisymmetric_relstr @ SV223 )
| ~ ( rel_str @ SV223 )
| ( reflexive @ ( the_InternalRel @ SV223 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1812]) ).
thf(1903,plain,
! [SV224: $i] :
( ( ~ ( reflexive_relstr @ SV224 )
| ~ ( transitive_relstr @ SV224 )
| ~ ( antisymmetric_relstr @ SV224 )
| ~ ( rel_str @ SV224 )
| ( relation @ ( the_InternalRel @ SV224 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1813]) ).
thf(1904,plain,
! [SV196: $i] :
( ( ( ~ ( reflexive_relstr @ SV196 )
| ~ ( transitive_relstr @ SV196 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV196 ) )
= $true )
| ( ( ~ ( rel_str @ SV196 ) )
= $true )
| ( ( antisymmetric @ ( the_InternalRel @ SV196 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1814]) ).
thf(1905,plain,
! [SV165: $i] :
( ( ( transitive_relstr @ SV165 )
= $false )
| ( ( reflexive_relstr @ SV165 )
= $false )
| ( ( ~ ( antisymmetric_relstr @ SV165 ) )
= $true )
| ( ( ~ ( rel_str @ SV165 ) )
= $true )
| ( ( transitive @ ( the_InternalRel @ SV165 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1815]) ).
thf(1906,plain,
! [SV225: $i] :
( ( ( empty_carrier @ SV225 )
| ~ ( lattice @ SV225 )
| ~ ( latt_str @ SV225 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SV225 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1817]) ).
thf(1907,plain,
! [SV226: $i] :
( ( ( empty_carrier @ SV226 )
| ~ ( lattice @ SV226 )
| ~ ( latt_str @ SV226 )
| ( strict_rel_str @ ( poset_of_lattice @ SV226 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1818]) ).
thf(1908,plain,
! [SV197: $i] :
( ( ( empty_carrier @ SV197 )
= $true )
| ( ( ~ ( lattice @ SV197 ) )
= $true )
| ( ( ~ ( latt_str @ SV197 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV197 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1819]) ).
thf(1909,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1821]) ).
thf(1910,plain,
! [SV227: $i] :
( ( ~ ( latt_str @ SV227 )
| ( empty_carrier @ SV227 )
| ~ ( lattice @ SV227 )
| ~ ( complete_latt_str @ SV227 )
| ( lattice @ SV227 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1822]) ).
thf(1911,plain,
! [SV198: $i] :
( ( ( ( empty_carrier @ SV198 )
| ~ ( lattice @ SV198 )
| ~ ( complete_latt_str @ SV198 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV198 )
= $true )
| ( ( latt_str @ SV198 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1823]) ).
thf(1912,plain,
! [SV167: $i] :
( ( ( lattice @ SV167 )
= $false )
| ( ( empty_carrier @ SV167 )
= $true )
| ( ( ~ ( complete_latt_str @ SV167 ) )
= $true )
| ( ( upper_bounded_semilattstr @ SV167 )
= $true )
| ( ( latt_str @ SV167 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1824]) ).
thf(1913,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1827]) ).
thf(1914,plain,
! [SV228: $i] :
( ( ( empty_carrier @ SV228 )
| ~ ( lattice @ SV228 )
| ~ ( complete_latt_str @ SV228 )
| ~ ( latt_str @ SV228 )
| ( bounded_relstr @ ( poset_of_lattice @ SV228 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1828]) ).
thf(1915,plain,
! [SV199: $i] :
( ( ( ( empty_carrier @ SV199 )
| ~ ( lattice @ SV199 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV199 ) )
= $true )
| ( ( ~ ( latt_str @ SV199 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV199 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1829]) ).
thf(1916,plain,
! [SV168: $i] :
( ( ( complete_latt_str @ SV168 )
= $false )
| ( ( empty_carrier @ SV168 )
= $true )
| ( ( lattice @ SV168 )
= $false )
| ( ( ~ ( latt_str @ SV168 ) )
= $true )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV168 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1830]) ).
thf(1917,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1831]) ).
thf(1918,plain,
! [SV229: $i] :
( ( ~ ( latt_str @ SV229 )
| ( empty_carrier @ SV229 )
| ~ ( boolean_lattstr @ SV229 )
| ( lower_bounded_semilattstr @ SV229 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[1832]) ).
thf(1919,plain,
! [SV200: $i] :
( ( ( ( empty_carrier @ SV200 )
| ~ ( boolean_lattstr @ SV200 ) )
= $true )
| ( ( upper_bounded_semilattstr @ SV200 )
= $true )
| ( ( latt_str @ SV200 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1833]) ).
thf(1920,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
| ~ ( lattice @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1835]) ).
thf(1921,plain,
! [SV145: $i,SV49: $i,SV139: $i] :
( ( ( function @ SV139 )
= $false )
| ( ( ~ ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( function @ SV145 ) )
= $true )
| ( ( ~ ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1837]) ).
thf(1922,plain,
! [SV146: $i,SV49: $i,SV140: $i] :
( ( ( function @ SV140 )
= $false )
| ( ( ~ ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( function @ SV146 ) )
= $true )
| ( ( ~ ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1838]) ).
thf(1923,plain,
! [SV170: $i] :
( ( ( empty_carrier @ SV170 )
= $false )
| ( ( empty_carrier @ SV170 )
= $true )
| ( ( bounded_lattstr @ SV170 )
= $false )
| ( ( latt_str @ SV170 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1839]) ).
thf(1924,plain,
! [SV50: $i,SV66: $i,SV71: $i] :
( ( ( function @ SV71 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( ~ ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1841]) ).
thf(1925,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1842]) ).
thf(1926,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1842]) ).
thf(1927,plain,
! [SV206: $i] :
( ( ( ( empty_carrier @ SV206 )
| ~ ( lattice @ SV206 )
| ~ ( latt_str @ SV206 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV206 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1843]) ).
thf(1928,plain,
! [SV180: $i] :
( ( ( lattice @ SV180 )
= $false )
| ( ( empty_carrier @ SV180 )
= $true )
| ( ( ~ ( latt_str @ SV180 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV180 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1844]) ).
thf(1929,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1845]) ).
thf(1930,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1845]) ).
thf(1931,plain,
! [SV207: $i] :
( ( ( ( empty_carrier @ SV207 )
| ~ ( lattice @ SV207 )
| ~ ( upper_bounded_semilattstr @ SV207 )
| ~ ( latt_str @ SV207 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV207 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1846]) ).
thf(1932,plain,
! [SV181: $i] :
( ( ( empty_carrier @ SV181 )
= $true )
| ( ( ~ ( lattice @ SV181 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV181 ) )
= $true )
| ( ( ~ ( latt_str @ SV181 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV181 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1847]) ).
thf(1933,plain,
! [SV148: $i] :
( ( ( latt_str @ SV148 )
= $false )
| ( ( lattice @ SV148 )
= $false )
| ( ( empty_carrier @ SV148 )
= $true )
| ( ( upper_bounded_semilattstr @ SV148 )
= $false )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV148 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1848]) ).
thf(1934,plain,
! [SV76: $i] :
( ( ( join_commutative @ SV76 )
= $false )
| ( ( empty_carrier @ SV76 )
= $true )
| ( ( ~ ( join_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_commutative @ SV76 ) )
= $true )
| ( ( ~ ( meet_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1849]) ).
thf(1935,plain,
! [SV77: $i] :
( ( ( join_commutative @ SV77 )
= $false )
| ( ( empty_carrier @ SV77 )
= $true )
| ( ( ~ ( join_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_commutative @ SV77 ) )
= $true )
| ( ( ~ ( meet_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV77 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1850]) ).
thf(1936,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1851]) ).
thf(1937,plain,
( ( ~ ( transitive_relstr @ sK13_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1851]) ).
thf(1938,plain,
! [SV177: $i,SV126: $i,SV201: $i,SV39: $i] :
( ( ( SV39 = SV201 )
= $false )
| ( ( ~ ( element @ SV201 @ ( the_carrier @ SV126 ) ) )
= $true )
| ( ( ~ ( latt_set_smaller @ SV126 @ SV201 @ SV177 ) )
= $true )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SV177 ) )
= $true )
| ( ( empty_carrier @ SV126 )
= $true )
| ( ( latt_str @ SV126 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1852]) ).
thf(1939,plain,
! [SV127: $i,SV178: $i,SV39: $i] :
( ( ( ~ ( ( SV39
!= ( sK22_D @ SV178 @ SV127 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) ) )
= $true )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
= $false )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[1853]) ).
thf(1940,plain,
! [SV39: $i,SV178: $i,SV127: $i] :
( ( ( latt_set_smaller @ SV127 @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ SV178 )
= $true )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
= $false )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[1854]) ).
thf(1941,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1855]) ).
thf(1942,plain,
( ( ~ ( join_absorbing @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1855]) ).
thf(1943,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1856]) ).
thf(1944,plain,
( ( ~ ( with_infima_relstr @ sK8_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1856]) ).
thf(1945,plain,
( ( ~ ( rel_str @ sK12_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1857]) ).
thf(1946,plain,
( ( ~ ~ ( empty_carrier @ sK12_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1857]) ).
thf(1947,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1858]) ).
thf(1948,plain,
( ( ~ ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1858]) ).
thf(1949,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1860]) ).
thf(1950,plain,
( ( ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1860]) ).
thf(1951,plain,
! [SV210: $i] :
( ( empty_carrier @ ( boole_POSet @ SV210 ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[1862]) ).
thf(1952,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1864]) ).
thf(1953,plain,
( ( ~ ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1864]) ).
thf(1954,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1866]) ).
thf(1955,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1866]) ).
thf(1956,plain,
! [SV213: $i] :
( ( ( ~ ( latt_str @ SV213 ) )
= $true )
| ( ( ( empty_carrier @ SV213 )
| ~ ( lattice @ SV213 )
| ( meet_commutative @ SV213 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1867]) ).
thf(1957,plain,
! [SV186: $i] :
( ( ( empty_carrier @ SV186 )
= $true )
| ( ( ~ ( lattice @ SV186 ) )
= $true )
| ( ( meet_associative @ SV186 )
= $true )
| ( ( latt_str @ SV186 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1868]) ).
thf(1958,plain,
( ( ~ ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1869]) ).
thf(1959,plain,
( ( ~ ( strict_rel_str @ sK17_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1869]) ).
thf(1960,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1870]) ).
thf(1961,plain,
( ( ~ ( lower_bounded_semilattstr @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1870]) ).
thf(1962,plain,
! [SV214: $i] :
( ( ( ( empty_carrier @ SV214 )
| ~ ( lattice @ SV214 )
| ~ ( complete_latt_str @ SV214 )
| ~ ( latt_str @ SV214 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV214 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1871]) ).
thf(1963,plain,
! [SV215: $i] :
( ( ( ( empty_carrier @ SV215 )
| ~ ( lattice @ SV215 )
| ~ ( complete_latt_str @ SV215 )
| ~ ( latt_str @ SV215 ) )
= $true )
| ( ( lattice @ SV215 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1872]) ).
thf(1964,plain,
! [SV187: $i] :
( ( ( empty_carrier @ SV187 )
= $true )
| ( ( ~ ( lattice @ SV187 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV187 ) )
= $true )
| ( ( ~ ( latt_str @ SV187 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV187 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1873]) ).
thf(1965,plain,
! [SV156: $i] :
( ( ( latt_str @ SV156 )
= $false )
| ( ( lattice @ SV156 )
= $false )
| ( ( empty_carrier @ SV156 )
= $true )
| ( ( complete_latt_str @ SV156 )
= $false )
| ( ( latt_str @ SV156 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1874]) ).
thf(1966,plain,
! [SV97: $i] :
( ( ( empty_carrier @ SV97 )
= $false )
| ( ( bounded_lattstr @ SV97 )
= $false )
| ( ( empty_carrier @ SV97 )
= $true )
| ( ( distributive_lattstr @ SV97 )
= $false )
| ( ( complemented_lattstr @ SV97 )
= $false )
| ( ( latt_str @ SV97 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1875]) ).
thf(1967,plain,
! [SV216: $i] :
( ( ( ( empty_carrier @ SV216 )
| ~ ( lattice @ SV216 )
| ~ ( latt_str @ SV216 ) )
= $true )
| ( ( antisymmetric @ ( k2_lattice3 @ SV216 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1877]) ).
thf(1968,plain,
! [SV217: $i] :
( ( ( ( empty_carrier @ SV217 )
| ~ ( lattice @ SV217 )
| ~ ( latt_str @ SV217 ) )
= $true )
| ( ( reflexive @ ( k2_lattice3 @ SV217 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1878]) ).
thf(1969,plain,
! [SV189: $i] :
( ( ( lattice @ SV189 )
= $false )
| ( ( empty_carrier @ SV189 )
= $true )
| ( ( ~ ( latt_str @ SV189 ) )
= $true )
| ( ( transitive @ ( k2_lattice3 @ SV189 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1879]) ).
thf(1970,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1881]) ).
thf(1971,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1881]) ).
thf(1972,plain,
! [SV218: $i] :
( ( ( ~ ( latt_str @ SV218 ) )
= $true )
| ( ( ( empty_carrier @ SV218 )
| ~ ( lattice @ SV218 )
| ~ ( distributive_lattstr @ SV218 )
| ( meet_absorbing @ SV218 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1882]) ).
thf(1973,plain,
! [SV190: $i] :
( ( ( ( empty_carrier @ SV190 )
| ~ ( lattice @ SV190 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV190 ) )
= $true )
| ( ( join_absorbing @ SV190 )
= $true )
| ( ( latt_str @ SV190 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1883]) ).
thf(1974,plain,
! [SV160: $i] :
( ( ( distributive_lattstr @ SV160 )
= $false )
| ( ( empty_carrier @ SV160 )
= $true )
| ( ( lattice @ SV160 )
= $false )
| ( ( lattice @ SV160 )
= $true )
| ( ( latt_str @ SV160 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1884]) ).
thf(1975,plain,
! [SV191: $i,SV202: $i] :
( ( ( ~ ( antisymmetric @ SV202 )
| ~ ( reflexive @ SV202 )
| ~ ( transitive @ SV202 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( reflexive_relstr @ ( rel_str_of @ SV191 @ SV202 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1885]) ).
thf(1976,plain,
! [SV192: $i,SV203: $i] :
( ( ( ~ ( antisymmetric @ SV203 )
| ~ ( reflexive @ SV203 )
| ~ ( transitive @ SV203 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV192 @ SV203 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1886]) ).
thf(1977,plain,
! [SV161: $i,SV176: $i] :
( ( ( antisymmetric @ SV176 )
= $false )
| ( ( ~ ( reflexive @ SV176 ) )
= $true )
| ( ( ~ ( transitive @ SV176 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( transitive_relstr @ ( rel_str_of @ SV161 @ SV176 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1887]) ).
thf(1978,plain,
! [SV104: $i,SV132: $i] :
( ( ( v1_partfun1 @ SV132 @ SV104 @ SV104 )
= $false )
| ( ( reflexive @ SV132 )
= $false )
| ( ( antisymmetric @ SV132 )
= $false )
| ( ( transitive @ SV132 )
= $false )
| ( ( ~ ( relation_of2 @ SV132 @ SV104 @ SV104 ) )
= $true )
| ( ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SV132 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1888]) ).
thf(1979,plain,
! [SV219: $i] :
( ( ( ( empty_carrier @ SV219 )
| ~ ( lattice @ SV219 )
| ~ ( latt_str @ SV219 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV219 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1889]) ).
thf(1980,plain,
! [SV220: $i] :
( ( ( ( empty_carrier @ SV220 )
| ~ ( lattice @ SV220 )
| ~ ( latt_str @ SV220 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV220 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1890]) ).
thf(1981,plain,
! [SV193: $i] :
( ( ( lattice @ SV193 )
= $false )
| ( ( empty_carrier @ SV193 )
= $true )
| ( ( ~ ( latt_str @ SV193 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV193 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1891]) ).
thf(1982,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1892]) ).
thf(1983,plain,
( ( ~ ( meet_commutative @ sK3_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1892]) ).
thf(1984,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1893]) ).
thf(1985,plain,
( ( ~ ( lattice @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1893]) ).
thf(1986,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1894]) ).
thf(1987,plain,
( ( ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1894]) ).
thf(1988,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1896]) ).
thf(1989,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1896]) ).
thf(1990,plain,
! [SV222: $i] :
( ( ( ( empty_carrier @ SV222 )
| ~ ( lattice @ SV222 )
| ~ ( lower_bounded_semilattstr @ SV222 )
| ~ ( latt_str @ SV222 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV222 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1897]) ).
thf(1991,plain,
! [SV195: $i] :
( ( ( empty_carrier @ SV195 )
= $true )
| ( ( ~ ( lattice @ SV195 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV195 ) )
= $true )
| ( ( ~ ( latt_str @ SV195 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV195 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1898]) ).
thf(1992,plain,
! [SV164: $i] :
( ( ( latt_str @ SV164 )
= $false )
| ( ( lattice @ SV164 )
= $false )
| ( ( empty_carrier @ SV164 )
= $true )
| ( ( lower_bounded_semilattstr @ SV164 )
= $false )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV164 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1899]) ).
thf(1993,plain,
! [SV143: $i,SV45: $i,SV135: $i] :
( ( ( function @ SV135 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( ~ ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV143 ) )
= $true )
| ( ( ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1900]) ).
thf(1994,plain,
! [SV144: $i,SV45: $i,SV136: $i] :
( ( ( function @ SV136 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( ~ ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV144 ) )
= $true )
| ( ( ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1901]) ).
thf(1995,plain,
! [SV223: $i] :
( ( ( ~ ( reflexive_relstr @ SV223 )
| ~ ( transitive_relstr @ SV223 )
| ~ ( antisymmetric_relstr @ SV223 )
| ~ ( rel_str @ SV223 ) )
= $true )
| ( ( reflexive @ ( the_InternalRel @ SV223 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1902]) ).
thf(1996,plain,
! [SV224: $i] :
( ( ( ~ ( reflexive_relstr @ SV224 )
| ~ ( transitive_relstr @ SV224 )
| ~ ( antisymmetric_relstr @ SV224 )
| ~ ( rel_str @ SV224 ) )
= $true )
| ( ( relation @ ( the_InternalRel @ SV224 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1903]) ).
thf(1997,plain,
! [SV196: $i] :
( ( ( ~ ( reflexive_relstr @ SV196 ) )
= $true )
| ( ( ~ ( transitive_relstr @ SV196 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV196 ) )
= $true )
| ( ( ~ ( rel_str @ SV196 ) )
= $true )
| ( ( antisymmetric @ ( the_InternalRel @ SV196 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1904]) ).
thf(1998,plain,
! [SV165: $i] :
( ( ( antisymmetric_relstr @ SV165 )
= $false )
| ( ( reflexive_relstr @ SV165 )
= $false )
| ( ( transitive_relstr @ SV165 )
= $false )
| ( ( ~ ( rel_str @ SV165 ) )
= $true )
| ( ( transitive @ ( the_InternalRel @ SV165 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1905]) ).
thf(1999,plain,
! [SV225: $i] :
( ( ( ( empty_carrier @ SV225 )
| ~ ( lattice @ SV225 )
| ~ ( latt_str @ SV225 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV225 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1906]) ).
thf(2000,plain,
! [SV226: $i] :
( ( ( ( empty_carrier @ SV226 )
| ~ ( lattice @ SV226 )
| ~ ( latt_str @ SV226 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV226 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1907]) ).
thf(2001,plain,
! [SV197: $i] :
( ( ( lattice @ SV197 )
= $false )
| ( ( empty_carrier @ SV197 )
= $true )
| ( ( ~ ( latt_str @ SV197 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV197 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1908]) ).
thf(2002,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1909]) ).
thf(2003,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1909]) ).
thf(2004,plain,
! [SV227: $i] :
( ( ( ~ ( latt_str @ SV227 ) )
= $true )
| ( ( ( empty_carrier @ SV227 )
| ~ ( lattice @ SV227 )
| ~ ( complete_latt_str @ SV227 )
| ( lattice @ SV227 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1910]) ).
thf(2005,plain,
! [SV198: $i] :
( ( ( ( empty_carrier @ SV198 )
| ~ ( lattice @ SV198 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV198 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV198 )
= $true )
| ( ( latt_str @ SV198 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1911]) ).
thf(2006,plain,
! [SV167: $i] :
( ( ( complete_latt_str @ SV167 )
= $false )
| ( ( empty_carrier @ SV167 )
= $true )
| ( ( lattice @ SV167 )
= $false )
| ( ( upper_bounded_semilattstr @ SV167 )
= $true )
| ( ( latt_str @ SV167 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1912]) ).
thf(2007,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1913]) ).
thf(2008,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1913]) ).
thf(2009,plain,
! [SV228: $i] :
( ( ( ( empty_carrier @ SV228 )
| ~ ( lattice @ SV228 )
| ~ ( complete_latt_str @ SV228 )
| ~ ( latt_str @ SV228 ) )
= $true )
| ( ( bounded_relstr @ ( poset_of_lattice @ SV228 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1914]) ).
thf(2010,plain,
! [SV199: $i] :
( ( ( empty_carrier @ SV199 )
= $true )
| ( ( ~ ( lattice @ SV199 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV199 ) )
= $true )
| ( ( ~ ( latt_str @ SV199 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV199 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1915]) ).
thf(2011,plain,
! [SV168: $i] :
( ( ( latt_str @ SV168 )
= $false )
| ( ( lattice @ SV168 )
= $false )
| ( ( empty_carrier @ SV168 )
= $true )
| ( ( complete_latt_str @ SV168 )
= $false )
| ( ( with_infima_relstr @ ( poset_of_lattice @ SV168 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1916]) ).
thf(2012,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1917]) ).
thf(2013,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1917]) ).
thf(2014,plain,
! [SV229: $i] :
( ( ( ~ ( latt_str @ SV229 ) )
= $true )
| ( ( ( empty_carrier @ SV229 )
| ~ ( boolean_lattstr @ SV229 )
| ( lower_bounded_semilattstr @ SV229 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1918]) ).
thf(2015,plain,
! [SV200: $i] :
( ( ( empty_carrier @ SV200 )
= $true )
| ( ( ~ ( boolean_lattstr @ SV200 ) )
= $true )
| ( ( upper_bounded_semilattstr @ SV200 )
= $true )
| ( ( latt_str @ SV200 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1919]) ).
thf(2016,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1920]) ).
thf(2017,plain,
( ( ~ ( lattice @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[1920]) ).
thf(2018,plain,
! [SV145: $i,SV49: $i,SV139: $i] :
( ( ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV139 )
= $false )
| ( ( ~ ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( function @ SV145 ) )
= $true )
| ( ( ~ ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1921]) ).
thf(2019,plain,
! [SV146: $i,SV49: $i,SV140: $i] :
( ( ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV140 )
= $false )
| ( ( ~ ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( function @ SV146 ) )
= $true )
| ( ( ~ ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1922]) ).
thf(2020,plain,
! [SV66: $i,SV50: $i,SV71: $i] :
( ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( ~ ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 ) )
= $true )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1924]) ).
thf(2021,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1925]) ).
thf(2022,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1926]) ).
thf(2023,plain,
! [SV206: $i] :
( ( ( ( empty_carrier @ SV206 )
| ~ ( lattice @ SV206 ) )
= $true )
| ( ( ~ ( latt_str @ SV206 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV206 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1927]) ).
thf(2024,plain,
! [SV180: $i] :
( ( ( latt_str @ SV180 )
= $false )
| ( ( empty_carrier @ SV180 )
= $true )
| ( ( lattice @ SV180 )
= $false )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV180 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1928]) ).
thf(2025,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1929]) ).
thf(2026,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1930]) ).
thf(2027,plain,
! [SV207: $i] :
( ( ( ( empty_carrier @ SV207 )
| ~ ( lattice @ SV207 )
| ~ ( upper_bounded_semilattstr @ SV207 ) )
= $true )
| ( ( ~ ( latt_str @ SV207 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV207 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1931]) ).
thf(2028,plain,
! [SV181: $i] :
( ( ( lattice @ SV181 )
= $false )
| ( ( empty_carrier @ SV181 )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV181 ) )
= $true )
| ( ( ~ ( latt_str @ SV181 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV181 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1932]) ).
thf(2029,plain,
! [SV76: $i] :
( ( ( join_associative @ SV76 )
= $false )
| ( ( empty_carrier @ SV76 )
= $true )
| ( ( join_commutative @ SV76 )
= $false )
| ( ( ~ ( meet_commutative @ SV76 ) )
= $true )
| ( ( ~ ( meet_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1934]) ).
thf(2030,plain,
! [SV77: $i] :
( ( ( join_associative @ SV77 )
= $false )
| ( ( empty_carrier @ SV77 )
= $true )
| ( ( join_commutative @ SV77 )
= $false )
| ( ( ~ ( meet_commutative @ SV77 ) )
= $true )
| ( ( ~ ( meet_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV77 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1935]) ).
thf(2031,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1936]) ).
thf(2032,plain,
( ( transitive_relstr @ sK13_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1937]) ).
thf(2033,plain,
! [SV177: $i,SV39: $i,SV126: $i,SV201: $i] :
( ( ( element @ SV201 @ ( the_carrier @ SV126 ) )
= $false )
| ( ( SV39 = SV201 )
= $false )
| ( ( ~ ( latt_set_smaller @ SV126 @ SV201 @ SV177 ) )
= $true )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SV177 ) )
= $true )
| ( ( empty_carrier @ SV126 )
= $true )
| ( ( latt_str @ SV126 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1938]) ).
thf(2034,plain,
! [SV127: $i,SV178: $i,SV39: $i] :
( ( ( ( SV39
!= ( sK22_D @ SV178 @ SV127 @ SV39 ) )
| ~ ( element @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) )
= $false )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
= $false )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1939]) ).
thf(2035,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1941]) ).
thf(2036,plain,
( ( join_absorbing @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1942]) ).
thf(2037,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1943]) ).
thf(2038,plain,
( ( with_infima_relstr @ sK8_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1944]) ).
thf(2039,plain,
( ( rel_str @ sK12_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1945]) ).
thf(2040,plain,
( ( ~ ( empty_carrier @ sK12_A ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1946]) ).
thf(2041,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1947]) ).
thf(2042,plain,
( ( ! [SX0: $i] : ( upper_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1948]) ).
thf(2043,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1949]) ).
thf(2044,plain,
( ( ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1950]) ).
thf(2045,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1952]) ).
thf(2046,plain,
( ( ! [SX0: $i] : ( upper_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1953]) ).
thf(2047,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1954]) ).
thf(2048,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_associative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1955]) ).
thf(2049,plain,
! [SV213: $i] :
( ( ( latt_str @ SV213 )
= $false )
| ( ( ( empty_carrier @ SV213 )
| ~ ( lattice @ SV213 )
| ( meet_commutative @ SV213 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1956]) ).
thf(2050,plain,
! [SV186: $i] :
( ( ( lattice @ SV186 )
= $false )
| ( ( empty_carrier @ SV186 )
= $true )
| ( ( meet_associative @ SV186 )
= $true )
| ( ( latt_str @ SV186 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[1957]) ).
thf(2051,plain,
( ( ~ ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1958]) ).
thf(2052,plain,
( ( strict_rel_str @ sK17_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1959]) ).
thf(2053,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1960]) ).
thf(2054,plain,
( ( lower_bounded_semilattstr @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1961]) ).
thf(2055,plain,
! [SV214: $i] :
( ( ( ( empty_carrier @ SV214 )
| ~ ( lattice @ SV214 )
| ~ ( complete_latt_str @ SV214 ) )
= $true )
| ( ( ~ ( latt_str @ SV214 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV214 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1962]) ).
thf(2056,plain,
! [SV215: $i] :
( ( ( ( empty_carrier @ SV215 )
| ~ ( lattice @ SV215 )
| ~ ( complete_latt_str @ SV215 ) )
= $true )
| ( ( ~ ( latt_str @ SV215 ) )
= $true )
| ( ( lattice @ SV215 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1963]) ).
thf(2057,plain,
! [SV187: $i] :
( ( ( lattice @ SV187 )
= $false )
| ( ( empty_carrier @ SV187 )
= $true )
| ( ( ~ ( complete_latt_str @ SV187 ) )
= $true )
| ( ( ~ ( latt_str @ SV187 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV187 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1964]) ).
thf(2058,plain,
! [SV216: $i] :
( ( ( ( empty_carrier @ SV216 )
| ~ ( lattice @ SV216 ) )
= $true )
| ( ( ~ ( latt_str @ SV216 ) )
= $true )
| ( ( antisymmetric @ ( k2_lattice3 @ SV216 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1967]) ).
thf(2059,plain,
! [SV217: $i] :
( ( ( ( empty_carrier @ SV217 )
| ~ ( lattice @ SV217 ) )
= $true )
| ( ( ~ ( latt_str @ SV217 ) )
= $true )
| ( ( reflexive @ ( k2_lattice3 @ SV217 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1968]) ).
thf(2060,plain,
! [SV189: $i] :
( ( ( latt_str @ SV189 )
= $false )
| ( ( empty_carrier @ SV189 )
= $true )
| ( ( lattice @ SV189 )
= $false )
| ( ( transitive @ ( k2_lattice3 @ SV189 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1969]) ).
thf(2061,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1970]) ).
thf(2062,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_associative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1971]) ).
thf(2063,plain,
! [SV218: $i] :
( ( ( latt_str @ SV218 )
= $false )
| ( ( ( empty_carrier @ SV218 )
| ~ ( lattice @ SV218 )
| ~ ( distributive_lattstr @ SV218 )
| ( meet_absorbing @ SV218 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1972]) ).
thf(2064,plain,
! [SV190: $i] :
( ( ( empty_carrier @ SV190 )
= $true )
| ( ( ~ ( lattice @ SV190 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV190 ) )
= $true )
| ( ( join_absorbing @ SV190 )
= $true )
| ( ( latt_str @ SV190 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[1973]) ).
thf(2065,plain,
! [SV191: $i,SV202: $i] :
( ( ( ~ ( antisymmetric @ SV202 )
| ~ ( reflexive @ SV202 ) )
= $true )
| ( ( ~ ( transitive @ SV202 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( reflexive_relstr @ ( rel_str_of @ SV191 @ SV202 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1975]) ).
thf(2066,plain,
! [SV192: $i,SV203: $i] :
( ( ( ~ ( antisymmetric @ SV203 )
| ~ ( reflexive @ SV203 ) )
= $true )
| ( ( ~ ( transitive @ SV203 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV192 @ SV203 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1976]) ).
thf(2067,plain,
! [SV161: $i,SV176: $i] :
( ( ( reflexive @ SV176 )
= $false )
| ( ( antisymmetric @ SV176 )
= $false )
| ( ( ~ ( transitive @ SV176 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( transitive_relstr @ ( rel_str_of @ SV161 @ SV176 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1977]) ).
thf(2068,plain,
! [SV104: $i,SV132: $i] :
( ( ( relation_of2 @ SV132 @ SV104 @ SV104 )
= $false )
| ( ( transitive @ SV132 )
= $false )
| ( ( antisymmetric @ SV132 )
= $false )
| ( ( reflexive @ SV132 )
= $false )
| ( ( v1_partfun1 @ SV132 @ SV104 @ SV104 )
= $false )
| ( ( antisymmetric_relstr @ ( rel_str_of @ SV104 @ SV132 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1978]) ).
thf(2069,plain,
! [SV219: $i] :
( ( ( ( empty_carrier @ SV219 )
| ~ ( lattice @ SV219 ) )
= $true )
| ( ( ~ ( latt_str @ SV219 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV219 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1979]) ).
thf(2070,plain,
! [SV220: $i] :
( ( ( ( empty_carrier @ SV220 )
| ~ ( lattice @ SV220 ) )
= $true )
| ( ( ~ ( latt_str @ SV220 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV220 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1980]) ).
thf(2071,plain,
! [SV193: $i] :
( ( ( latt_str @ SV193 )
= $false )
| ( ( empty_carrier @ SV193 )
= $true )
| ( ( lattice @ SV193 )
= $false )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV193 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1981]) ).
thf(2072,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1982]) ).
thf(2073,plain,
( ( meet_commutative @ sK3_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1983]) ).
thf(2074,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1984]) ).
thf(2075,plain,
( ( lattice @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1985]) ).
thf(2076,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1986]) ).
thf(2077,plain,
( ( ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1987]) ).
thf(2078,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1988]) ).
thf(2079,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[1989]) ).
thf(2080,plain,
! [SV222: $i] :
( ( ( ( empty_carrier @ SV222 )
| ~ ( lattice @ SV222 )
| ~ ( lower_bounded_semilattstr @ SV222 ) )
= $true )
| ( ( ~ ( latt_str @ SV222 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV222 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1990]) ).
thf(2081,plain,
! [SV195: $i] :
( ( ( lattice @ SV195 )
= $false )
| ( ( empty_carrier @ SV195 )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV195 ) )
= $true )
| ( ( ~ ( latt_str @ SV195 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV195 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1991]) ).
thf(2082,plain,
! [SV143: $i,SV45: $i,SV135: $i] :
( ( ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( function @ SV135 )
= $false )
| ( ( ~ ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV143 ) )
= $true )
| ( ( ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1993]) ).
thf(2083,plain,
! [SV144: $i,SV45: $i,SV136: $i] :
( ( ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( function @ SV136 )
= $false )
| ( ( ~ ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( function @ SV144 ) )
= $true )
| ( ( ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1994]) ).
thf(2084,plain,
! [SV223: $i] :
( ( ( ~ ( reflexive_relstr @ SV223 )
| ~ ( transitive_relstr @ SV223 )
| ~ ( antisymmetric_relstr @ SV223 ) )
= $true )
| ( ( ~ ( rel_str @ SV223 ) )
= $true )
| ( ( reflexive @ ( the_InternalRel @ SV223 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1995]) ).
thf(2085,plain,
! [SV224: $i] :
( ( ( ~ ( reflexive_relstr @ SV224 )
| ~ ( transitive_relstr @ SV224 )
| ~ ( antisymmetric_relstr @ SV224 ) )
= $true )
| ( ( ~ ( rel_str @ SV224 ) )
= $true )
| ( ( relation @ ( the_InternalRel @ SV224 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1996]) ).
thf(2086,plain,
! [SV196: $i] :
( ( ( reflexive_relstr @ SV196 )
= $false )
| ( ( ~ ( transitive_relstr @ SV196 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV196 ) )
= $true )
| ( ( ~ ( rel_str @ SV196 ) )
= $true )
| ( ( antisymmetric @ ( the_InternalRel @ SV196 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1997]) ).
thf(2087,plain,
! [SV165: $i] :
( ( ( rel_str @ SV165 )
= $false )
| ( ( transitive_relstr @ SV165 )
= $false )
| ( ( reflexive_relstr @ SV165 )
= $false )
| ( ( antisymmetric_relstr @ SV165 )
= $false )
| ( ( transitive @ ( the_InternalRel @ SV165 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[1998]) ).
thf(2088,plain,
! [SV225: $i] :
( ( ( ( empty_carrier @ SV225 )
| ~ ( lattice @ SV225 ) )
= $true )
| ( ( ~ ( latt_str @ SV225 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV225 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[1999]) ).
thf(2089,plain,
! [SV226: $i] :
( ( ( ( empty_carrier @ SV226 )
| ~ ( lattice @ SV226 ) )
= $true )
| ( ( ~ ( latt_str @ SV226 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV226 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2000]) ).
thf(2090,plain,
! [SV197: $i] :
( ( ( latt_str @ SV197 )
= $false )
| ( ( empty_carrier @ SV197 )
= $true )
| ( ( lattice @ SV197 )
= $false )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV197 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2001]) ).
thf(2091,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2002]) ).
thf(2092,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_absorbing @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2003]) ).
thf(2093,plain,
! [SV227: $i] :
( ( ( latt_str @ SV227 )
= $false )
| ( ( ( empty_carrier @ SV227 )
| ~ ( lattice @ SV227 )
| ~ ( complete_latt_str @ SV227 )
| ( lattice @ SV227 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2004]) ).
thf(2094,plain,
! [SV198: $i] :
( ( ( empty_carrier @ SV198 )
= $true )
| ( ( ~ ( lattice @ SV198 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV198 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV198 )
= $true )
| ( ( latt_str @ SV198 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2005]) ).
thf(2095,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2007]) ).
thf(2096,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2008]) ).
thf(2097,plain,
! [SV228: $i] :
( ( ( ( empty_carrier @ SV228 )
| ~ ( lattice @ SV228 )
| ~ ( complete_latt_str @ SV228 ) )
= $true )
| ( ( ~ ( latt_str @ SV228 ) )
= $true )
| ( ( bounded_relstr @ ( poset_of_lattice @ SV228 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2009]) ).
thf(2098,plain,
! [SV199: $i] :
( ( ( lattice @ SV199 )
= $false )
| ( ( empty_carrier @ SV199 )
= $true )
| ( ( ~ ( complete_latt_str @ SV199 ) )
= $true )
| ( ( ~ ( latt_str @ SV199 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV199 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2010]) ).
thf(2099,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2012]) ).
thf(2100,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( boolean_lattstr @ SX0 )
| ( distributive_lattstr @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2013]) ).
thf(2101,plain,
! [SV229: $i] :
( ( ( latt_str @ SV229 )
= $false )
| ( ( ( empty_carrier @ SV229 )
| ~ ( boolean_lattstr @ SV229 )
| ( lower_bounded_semilattstr @ SV229 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2014]) ).
thf(2102,plain,
! [SV200: $i] :
( ( ( boolean_lattstr @ SV200 )
= $false )
| ( ( empty_carrier @ SV200 )
= $true )
| ( ( upper_bounded_semilattstr @ SV200 )
= $true )
| ( ( latt_str @ SV200 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2015]) ).
thf(2103,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2016]) ).
thf(2104,plain,
( ( lattice @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2017]) ).
thf(2105,plain,
! [SV145: $i,SV49: $i,SV139: $i] :
( ( ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV139 )
= $false )
| ( ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( ~ ( function @ SV145 ) )
= $true )
| ( ( ~ ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2018]) ).
thf(2106,plain,
! [SV146: $i,SV49: $i,SV140: $i] :
( ( ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV140 )
= $false )
| ( ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( ~ ( function @ SV146 ) )
= $true )
| ( ( ~ ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2019]) ).
thf(2107,plain,
! [SV66: $i,SV50: $i,SV71: $i] :
( ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( ! [SY92: $i] :
~ ( ~ ~ ( ~ ( ! [SY93: $i,SY94: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY93 @ SY94 ) )
| ( SV50 = SY92 ) )
| ~ ! [SY95: $i] :
( ! [SY96: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY95 @ SY96 ) )
| ( SV66 = SY95 ) ) )
| ~ ! [SY97: $i,SY98: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SY92 @ SY97 @ SY98 ) )
| ( SV71 = SY98 ) ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2020]) ).
thf(2108,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2021]) ).
thf(2109,plain,
! [SV230: $i] :
( ( ( empty_carrier @ SV230 )
| ~ ( lattice @ SV230 )
| ~ ( latt_str @ SV230 )
| ( reflexive_relstr @ ( poset_of_lattice @ SV230 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2022]) ).
thf(2110,plain,
! [SV206: $i] :
( ( ( empty_carrier @ SV206 )
= $true )
| ( ( ~ ( lattice @ SV206 ) )
= $true )
| ( ( ~ ( latt_str @ SV206 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV206 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2023]) ).
thf(2111,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2025]) ).
thf(2112,plain,
! [SV231: $i] :
( ( ( empty_carrier @ SV231 )
| ~ ( lattice @ SV231 )
| ~ ( upper_bounded_semilattstr @ SV231 )
| ~ ( latt_str @ SV231 )
| ( transitive_relstr @ ( poset_of_lattice @ SV231 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2026]) ).
thf(2113,plain,
! [SV207: $i] :
( ( ( ( empty_carrier @ SV207 )
| ~ ( lattice @ SV207 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV207 ) )
= $true )
| ( ( ~ ( latt_str @ SV207 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV207 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2027]) ).
thf(2114,plain,
! [SV181: $i] :
( ( ( upper_bounded_semilattstr @ SV181 )
= $false )
| ( ( empty_carrier @ SV181 )
= $true )
| ( ( lattice @ SV181 )
= $false )
| ( ( ~ ( latt_str @ SV181 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV181 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2028]) ).
thf(2115,plain,
! [SV76: $i] :
( ( ( meet_commutative @ SV76 )
= $false )
| ( ( join_commutative @ SV76 )
= $false )
| ( ( empty_carrier @ SV76 )
= $true )
| ( ( join_associative @ SV76 )
= $false )
| ( ( ~ ( meet_associative @ SV76 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2029]) ).
thf(2116,plain,
! [SV77: $i] :
( ( ( meet_commutative @ SV77 )
= $false )
| ( ( join_commutative @ SV77 )
= $false )
| ( ( empty_carrier @ SV77 )
= $true )
| ( ( join_associative @ SV77 )
= $false )
| ( ( ~ ( meet_associative @ SV77 ) )
= $true )
| ( ( ~ ( meet_absorbing @ SV77 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2030]) ).
thf(2117,plain,
( ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
| ~ ( reflexive_relstr @ sK13_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2031]) ).
thf(2118,plain,
! [SV39: $i,SV177: $i,SV201: $i,SV126: $i] :
( ( ( latt_set_smaller @ SV126 @ SV201 @ SV177 )
= $false )
| ( ( SV39 = SV201 )
= $false )
| ( ( element @ SV201 @ ( the_carrier @ SV126 ) )
= $false )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV126 @ SV177 ) )
= $true )
| ( ( empty_carrier @ SV126 )
= $true )
| ( ( latt_str @ SV126 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2033]) ).
thf(2119,plain,
! [SV127: $i,SV178: $i,SV39: $i] :
( ( ( ( SV39
!= ( sK22_D @ SV178 @ SV127 @ SV39 ) ) )
= $false )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
= $false )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[2034]) ).
thf(2120,plain,
! [SV39: $i,SV127: $i,SV178: $i] :
( ( ( ~ ( element @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) ) )
= $false )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
= $false )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[2034]) ).
thf(2121,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
| ~ ( meet_absorbing @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2035]) ).
thf(2122,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
| ~ ( with_suprema_relstr @ sK8_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2037]) ).
thf(2123,plain,
( ( empty_carrier @ sK12_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2040]) ).
thf(2124,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2041]) ).
thf(2125,plain,
! [SV232: $i] :
( ( upper_bounded_relstr @ ( boole_POSet @ SV232 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2042]) ).
thf(2126,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2043]) ).
thf(2127,plain,
! [SV233: $i] :
( ( meet_commutative @ ( boole_lattice @ SV233 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2044]) ).
thf(2128,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2045]) ).
thf(2129,plain,
! [SV234: $i] :
( ( upper_bounded_semilattstr @ ( boole_lattice @ SV234 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2046]) ).
thf(2130,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2047]) ).
thf(2131,plain,
! [SV235: $i] :
( ( ~ ( latt_str @ SV235 )
| ( empty_carrier @ SV235 )
| ~ ( lattice @ SV235 )
| ( join_associative @ SV235 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2048]) ).
thf(2132,plain,
! [SV213: $i] :
( ( ( ( empty_carrier @ SV213 )
| ~ ( lattice @ SV213 ) )
= $true )
| ( ( meet_commutative @ SV213 )
= $true )
| ( ( latt_str @ SV213 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2049]) ).
thf(2133,plain,
( ( ~ ( rel_str @ sK17_A )
| ~ ~ ( empty_carrier @ sK17_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2051]) ).
thf(2134,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
| ~ ( distributive_lattstr @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2053]) ).
thf(2135,plain,
! [SV214: $i] :
( ( ( ( empty_carrier @ SV214 )
| ~ ( lattice @ SV214 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV214 ) )
= $true )
| ( ( ~ ( latt_str @ SV214 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV214 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2055]) ).
thf(2136,plain,
! [SV215: $i] :
( ( ( ( empty_carrier @ SV215 )
| ~ ( lattice @ SV215 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV215 ) )
= $true )
| ( ( ~ ( latt_str @ SV215 ) )
= $true )
| ( ( lattice @ SV215 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2056]) ).
thf(2137,plain,
! [SV187: $i] :
( ( ( complete_latt_str @ SV187 )
= $false )
| ( ( empty_carrier @ SV187 )
= $true )
| ( ( lattice @ SV187 )
= $false )
| ( ( ~ ( latt_str @ SV187 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV187 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2057]) ).
thf(2138,plain,
! [SV216: $i] :
( ( ( empty_carrier @ SV216 )
= $true )
| ( ( ~ ( lattice @ SV216 ) )
= $true )
| ( ( ~ ( latt_str @ SV216 ) )
= $true )
| ( ( antisymmetric @ ( k2_lattice3 @ SV216 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2058]) ).
thf(2139,plain,
! [SV217: $i] :
( ( ( empty_carrier @ SV217 )
= $true )
| ( ( ~ ( lattice @ SV217 ) )
= $true )
| ( ( ~ ( latt_str @ SV217 ) )
= $true )
| ( ( reflexive @ ( k2_lattice3 @ SV217 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2059]) ).
thf(2140,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2061]) ).
thf(2141,plain,
! [SV236: $i] :
( ( ~ ( latt_str @ SV236 )
| ( empty_carrier @ SV236 )
| ~ ( lattice @ SV236 )
| ~ ( distributive_lattstr @ SV236 )
| ( meet_associative @ SV236 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2062]) ).
thf(2142,plain,
! [SV218: $i] :
( ( ( ( empty_carrier @ SV218 )
| ~ ( lattice @ SV218 )
| ~ ( distributive_lattstr @ SV218 ) )
= $true )
| ( ( meet_absorbing @ SV218 )
= $true )
| ( ( latt_str @ SV218 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2063]) ).
thf(2143,plain,
! [SV190: $i] :
( ( ( lattice @ SV190 )
= $false )
| ( ( empty_carrier @ SV190 )
= $true )
| ( ( ~ ( distributive_lattstr @ SV190 ) )
= $true )
| ( ( join_absorbing @ SV190 )
= $true )
| ( ( latt_str @ SV190 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2064]) ).
thf(2144,plain,
! [SV191: $i,SV202: $i] :
( ( ( ~ ( antisymmetric @ SV202 ) )
= $true )
| ( ( ~ ( reflexive @ SV202 ) )
= $true )
| ( ( ~ ( transitive @ SV202 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( reflexive_relstr @ ( rel_str_of @ SV191 @ SV202 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2065]) ).
thf(2145,plain,
! [SV192: $i,SV203: $i] :
( ( ( ~ ( antisymmetric @ SV203 ) )
= $true )
| ( ( ~ ( reflexive @ SV203 ) )
= $true )
| ( ( ~ ( transitive @ SV203 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV192 @ SV203 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2066]) ).
thf(2146,plain,
! [SV161: $i,SV176: $i] :
( ( ( transitive @ SV176 )
= $false )
| ( ( antisymmetric @ SV176 )
= $false )
| ( ( reflexive @ SV176 )
= $false )
| ( ( ~ ( v1_partfun1 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( transitive_relstr @ ( rel_str_of @ SV161 @ SV176 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2067]) ).
thf(2147,plain,
! [SV219: $i] :
( ( ( empty_carrier @ SV219 )
= $true )
| ( ( ~ ( lattice @ SV219 ) )
= $true )
| ( ( ~ ( latt_str @ SV219 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV219 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2069]) ).
thf(2148,plain,
! [SV220: $i] :
( ( ( empty_carrier @ SV220 )
= $true )
| ( ( ~ ( lattice @ SV220 ) )
= $true )
| ( ( ~ ( latt_str @ SV220 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV220 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2070]) ).
thf(2149,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
| ~ ( join_associative @ sK3_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2072]) ).
thf(2150,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
| ~ ( join_absorbing @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2074]) ).
thf(2151,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2076]) ).
thf(2152,plain,
! [SV237: $i] :
( ( lower_bounded_semilattstr @ ( boole_lattice @ SV237 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2077]) ).
thf(2153,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2078]) ).
thf(2154,plain,
! [SV238: $i] :
( ( ( empty_carrier @ SV238 )
| ~ ( lattice @ SV238 )
| ~ ( lower_bounded_semilattstr @ SV238 )
| ~ ( latt_str @ SV238 )
| ( transitive_relstr @ ( poset_of_lattice @ SV238 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2079]) ).
thf(2155,plain,
! [SV222: $i] :
( ( ( ( empty_carrier @ SV222 )
| ~ ( lattice @ SV222 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV222 ) )
= $true )
| ( ( ~ ( latt_str @ SV222 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV222 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2080]) ).
thf(2156,plain,
! [SV195: $i] :
( ( ( lower_bounded_semilattstr @ SV195 )
= $false )
| ( ( empty_carrier @ SV195 )
= $true )
| ( ( lattice @ SV195 )
= $false )
| ( ( ~ ( latt_str @ SV195 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV195 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2081]) ).
thf(2157,plain,
! [SV143: $i,SV45: $i,SV135: $i] :
( ( ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( function @ SV135 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( ~ ( function @ SV143 ) )
= $true )
| ( ( ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2082]) ).
thf(2158,plain,
! [SV144: $i,SV45: $i,SV136: $i] :
( ( ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( function @ SV136 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( ~ ( function @ SV144 ) )
= $true )
| ( ( ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2083]) ).
thf(2159,plain,
! [SV223: $i] :
( ( ( ~ ( reflexive_relstr @ SV223 )
| ~ ( transitive_relstr @ SV223 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV223 ) )
= $true )
| ( ( ~ ( rel_str @ SV223 ) )
= $true )
| ( ( reflexive @ ( the_InternalRel @ SV223 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2084]) ).
thf(2160,plain,
! [SV224: $i] :
( ( ( ~ ( reflexive_relstr @ SV224 )
| ~ ( transitive_relstr @ SV224 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV224 ) )
= $true )
| ( ( ~ ( rel_str @ SV224 ) )
= $true )
| ( ( relation @ ( the_InternalRel @ SV224 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2085]) ).
thf(2161,plain,
! [SV196: $i] :
( ( ( transitive_relstr @ SV196 )
= $false )
| ( ( reflexive_relstr @ SV196 )
= $false )
| ( ( ~ ( antisymmetric_relstr @ SV196 ) )
= $true )
| ( ( ~ ( rel_str @ SV196 ) )
= $true )
| ( ( antisymmetric @ ( the_InternalRel @ SV196 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2086]) ).
thf(2162,plain,
! [SV225: $i] :
( ( ( empty_carrier @ SV225 )
= $true )
| ( ( ~ ( lattice @ SV225 ) )
= $true )
| ( ( ~ ( latt_str @ SV225 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV225 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2088]) ).
thf(2163,plain,
! [SV226: $i] :
( ( ( empty_carrier @ SV226 )
= $true )
| ( ( ~ ( lattice @ SV226 ) )
= $true )
| ( ( ~ ( latt_str @ SV226 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV226 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2089]) ).
thf(2164,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2091]) ).
thf(2165,plain,
! [SV239: $i] :
( ( ~ ( latt_str @ SV239 )
| ( empty_carrier @ SV239 )
| ~ ( lattice @ SV239 )
| ~ ( complete_latt_str @ SV239 )
| ( join_absorbing @ SV239 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2092]) ).
thf(2166,plain,
! [SV227: $i] :
( ( ( ( empty_carrier @ SV227 )
| ~ ( lattice @ SV227 )
| ~ ( complete_latt_str @ SV227 ) )
= $true )
| ( ( lattice @ SV227 )
= $true )
| ( ( latt_str @ SV227 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2093]) ).
thf(2167,plain,
! [SV198: $i] :
( ( ( lattice @ SV198 )
= $false )
| ( ( empty_carrier @ SV198 )
= $true )
| ( ( ~ ( complete_latt_str @ SV198 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV198 )
= $true )
| ( ( latt_str @ SV198 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2094]) ).
thf(2168,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2095]) ).
thf(2169,plain,
! [SV240: $i] :
( ( ( empty_carrier @ SV240 )
| ~ ( lattice @ SV240 )
| ~ ( complete_latt_str @ SV240 )
| ~ ( latt_str @ SV240 )
| ( upper_bounded_relstr @ ( poset_of_lattice @ SV240 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2096]) ).
thf(2170,plain,
! [SV228: $i] :
( ( ( ( empty_carrier @ SV228 )
| ~ ( lattice @ SV228 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV228 ) )
= $true )
| ( ( ~ ( latt_str @ SV228 ) )
= $true )
| ( ( bounded_relstr @ ( poset_of_lattice @ SV228 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2097]) ).
thf(2171,plain,
! [SV199: $i] :
( ( ( complete_latt_str @ SV199 )
= $false )
| ( ( empty_carrier @ SV199 )
= $true )
| ( ( lattice @ SV199 )
= $false )
| ( ( ~ ( latt_str @ SV199 ) )
= $true )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV199 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2098]) ).
thf(2172,plain,
! [SV241: $i] :
( ( ~ ( latt_str @ SV241 )
| ( empty_carrier @ SV241 )
| ~ ( boolean_lattstr @ SV241 )
| ~ ( empty_carrier @ SV241 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2099]) ).
thf(2173,plain,
! [SV242: $i] :
( ( ~ ( latt_str @ SV242 )
| ( empty_carrier @ SV242 )
| ~ ( boolean_lattstr @ SV242 )
| ( distributive_lattstr @ SV242 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2100]) ).
thf(2174,plain,
! [SV229: $i] :
( ( ( ( empty_carrier @ SV229 )
| ~ ( boolean_lattstr @ SV229 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV229 )
= $true )
| ( ( latt_str @ SV229 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2101]) ).
thf(2175,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
| ~ ( join_absorbing @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2103]) ).
thf(2176,plain,
! [SV49: $i,SV139: $i,SV145: $i] :
( ( ( function @ SV145 )
= $false )
| ( ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV139 )
= $false )
| ( ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( ~ ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2105]) ).
thf(2177,plain,
! [SV49: $i,SV140: $i,SV146: $i] :
( ( ( function @ SV146 )
= $false )
| ( ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV140 )
= $false )
| ( ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( ~ ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2106]) ).
thf(2178,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ~ ( ~ ~ ( ~ ( ! [SY121: $i,SY122: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY121 @ SY122 ) )
| ( SV50 = SV243 ) )
| ~ ! [SY123: $i] :
( ! [SY124: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY123 @ SY124 ) )
| ( SV66 = SY123 ) ) )
| ~ ! [SY125: $i,SY126: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY125 @ SY126 ) )
| ( SV71 = SY126 ) ) ) )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[2107]) ).
thf(2179,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2108]) ).
thf(2180,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2108]) ).
thf(2181,plain,
! [SV230: $i] :
( ( ( ( empty_carrier @ SV230 )
| ~ ( lattice @ SV230 )
| ~ ( latt_str @ SV230 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV230 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2109]) ).
thf(2182,plain,
! [SV206: $i] :
( ( ( lattice @ SV206 )
= $false )
| ( ( empty_carrier @ SV206 )
= $true )
| ( ( ~ ( latt_str @ SV206 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV206 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2110]) ).
thf(2183,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2111]) ).
thf(2184,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2111]) ).
thf(2185,plain,
! [SV231: $i] :
( ( ( ( empty_carrier @ SV231 )
| ~ ( lattice @ SV231 )
| ~ ( upper_bounded_semilattstr @ SV231 )
| ~ ( latt_str @ SV231 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV231 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2112]) ).
thf(2186,plain,
! [SV207: $i] :
( ( ( empty_carrier @ SV207 )
= $true )
| ( ( ~ ( lattice @ SV207 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV207 ) )
= $true )
| ( ( ~ ( latt_str @ SV207 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV207 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2113]) ).
thf(2187,plain,
! [SV181: $i] :
( ( ( latt_str @ SV181 )
= $false )
| ( ( lattice @ SV181 )
= $false )
| ( ( empty_carrier @ SV181 )
= $true )
| ( ( upper_bounded_semilattstr @ SV181 )
= $false )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV181 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2114]) ).
thf(2188,plain,
! [SV76: $i] :
( ( ( meet_associative @ SV76 )
= $false )
| ( ( join_associative @ SV76 )
= $false )
| ( ( empty_carrier @ SV76 )
= $true )
| ( ( join_commutative @ SV76 )
= $false )
| ( ( meet_commutative @ SV76 )
= $false )
| ( ( ~ ( meet_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2115]) ).
thf(2189,plain,
! [SV77: $i] :
( ( ( meet_associative @ SV77 )
= $false )
| ( ( join_associative @ SV77 )
= $false )
| ( ( empty_carrier @ SV77 )
= $true )
| ( ( join_commutative @ SV77 )
= $false )
| ( ( meet_commutative @ SV77 )
= $false )
| ( ( ~ ( meet_absorbing @ SV77 ) )
= $true )
| ( ( ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2116]) ).
thf(2190,plain,
( ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2117]) ).
thf(2191,plain,
( ( ~ ( reflexive_relstr @ sK13_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2117]) ).
thf(2192,plain,
! [SV127: $i,SV178: $i,SV39: $i] :
( ( ( SV39
= ( sK22_D @ SV178 @ SV127 @ SV39 ) )
= $true )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
= $false )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[2119]) ).
thf(2193,plain,
! [SV39: $i,SV127: $i,SV178: $i] :
( ( ( element @ ( sK22_D @ SV178 @ SV127 @ SV39 ) @ ( the_carrier @ SV127 ) )
= $true )
| ( ( in @ SV39 @ ( a_2_2_lattice3 @ SV127 @ SV178 ) )
= $false )
| ( ( empty_carrier @ SV127 )
= $true )
| ( ( latt_str @ SV127 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[2120]) ).
thf(2194,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2121]) ).
thf(2195,plain,
( ( ~ ( meet_absorbing @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2121]) ).
thf(2196,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2122]) ).
thf(2197,plain,
( ( ~ ( with_suprema_relstr @ sK8_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2122]) ).
thf(2198,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2124]) ).
thf(2199,plain,
( ( ~ ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2124]) ).
thf(2200,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2126]) ).
thf(2201,plain,
( ( ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2126]) ).
thf(2202,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2128]) ).
thf(2203,plain,
( ( ~ ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2128]) ).
thf(2204,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2130]) ).
thf(2205,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2130]) ).
thf(2206,plain,
! [SV235: $i] :
( ( ( ~ ( latt_str @ SV235 ) )
= $true )
| ( ( ( empty_carrier @ SV235 )
| ~ ( lattice @ SV235 )
| ( join_associative @ SV235 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2131]) ).
thf(2207,plain,
! [SV213: $i] :
( ( ( empty_carrier @ SV213 )
= $true )
| ( ( ~ ( lattice @ SV213 ) )
= $true )
| ( ( meet_commutative @ SV213 )
= $true )
| ( ( latt_str @ SV213 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2132]) ).
thf(2208,plain,
( ( ~ ( rel_str @ sK17_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2133]) ).
thf(2209,plain,
( ( ~ ~ ( empty_carrier @ sK17_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2133]) ).
thf(2210,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2134]) ).
thf(2211,plain,
( ( ~ ( distributive_lattstr @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2134]) ).
thf(2212,plain,
! [SV214: $i] :
( ( ( empty_carrier @ SV214 )
= $true )
| ( ( ~ ( lattice @ SV214 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV214 ) )
= $true )
| ( ( ~ ( latt_str @ SV214 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV214 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2135]) ).
thf(2213,plain,
! [SV215: $i] :
( ( ( empty_carrier @ SV215 )
= $true )
| ( ( ~ ( lattice @ SV215 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV215 ) )
= $true )
| ( ( ~ ( latt_str @ SV215 ) )
= $true )
| ( ( lattice @ SV215 )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2136]) ).
thf(2214,plain,
! [SV187: $i] :
( ( ( latt_str @ SV187 )
= $false )
| ( ( lattice @ SV187 )
= $false )
| ( ( empty_carrier @ SV187 )
= $true )
| ( ( complete_latt_str @ SV187 )
= $false )
| ( ( lower_bounded_semilattstr @ SV187 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2137]) ).
thf(2215,plain,
! [SV216: $i] :
( ( ( lattice @ SV216 )
= $false )
| ( ( empty_carrier @ SV216 )
= $true )
| ( ( ~ ( latt_str @ SV216 ) )
= $true )
| ( ( antisymmetric @ ( k2_lattice3 @ SV216 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2138]) ).
thf(2216,plain,
! [SV217: $i] :
( ( ( lattice @ SV217 )
= $false )
| ( ( empty_carrier @ SV217 )
= $true )
| ( ( ~ ( latt_str @ SV217 ) )
= $true )
| ( ( reflexive @ ( k2_lattice3 @ SV217 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2139]) ).
thf(2217,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2140]) ).
thf(2218,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2140]) ).
thf(2219,plain,
! [SV236: $i] :
( ( ( ~ ( latt_str @ SV236 ) )
= $true )
| ( ( ( empty_carrier @ SV236 )
| ~ ( lattice @ SV236 )
| ~ ( distributive_lattstr @ SV236 )
| ( meet_associative @ SV236 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2141]) ).
thf(2220,plain,
! [SV218: $i] :
( ( ( ( empty_carrier @ SV218 )
| ~ ( lattice @ SV218 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV218 ) )
= $true )
| ( ( meet_absorbing @ SV218 )
= $true )
| ( ( latt_str @ SV218 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2142]) ).
thf(2221,plain,
! [SV190: $i] :
( ( ( distributive_lattstr @ SV190 )
= $false )
| ( ( empty_carrier @ SV190 )
= $true )
| ( ( lattice @ SV190 )
= $false )
| ( ( join_absorbing @ SV190 )
= $true )
| ( ( latt_str @ SV190 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2143]) ).
thf(2222,plain,
! [SV191: $i,SV202: $i] :
( ( ( antisymmetric @ SV202 )
= $false )
| ( ( ~ ( reflexive @ SV202 ) )
= $true )
| ( ( ~ ( transitive @ SV202 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( reflexive_relstr @ ( rel_str_of @ SV191 @ SV202 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2144]) ).
thf(2223,plain,
! [SV192: $i,SV203: $i] :
( ( ( antisymmetric @ SV203 )
= $false )
| ( ( ~ ( reflexive @ SV203 ) )
= $true )
| ( ( ~ ( transitive @ SV203 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV192 @ SV203 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2145]) ).
thf(2224,plain,
! [SV161: $i,SV176: $i] :
( ( ( v1_partfun1 @ SV176 @ SV161 @ SV161 )
= $false )
| ( ( reflexive @ SV176 )
= $false )
| ( ( antisymmetric @ SV176 )
= $false )
| ( ( transitive @ SV176 )
= $false )
| ( ( ~ ( relation_of2 @ SV176 @ SV161 @ SV161 ) )
= $true )
| ( ( transitive_relstr @ ( rel_str_of @ SV161 @ SV176 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2146]) ).
thf(2225,plain,
! [SV219: $i] :
( ( ( lattice @ SV219 )
= $false )
| ( ( empty_carrier @ SV219 )
= $true )
| ( ( ~ ( latt_str @ SV219 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV219 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2147]) ).
thf(2226,plain,
! [SV220: $i] :
( ( ( lattice @ SV220 )
= $false )
| ( ( empty_carrier @ SV220 )
= $true )
| ( ( ~ ( latt_str @ SV220 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV220 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2148]) ).
thf(2227,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2149]) ).
thf(2228,plain,
( ( ~ ( join_associative @ sK3_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2149]) ).
thf(2229,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2150]) ).
thf(2230,plain,
( ( ~ ( join_absorbing @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2150]) ).
thf(2231,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2151]) ).
thf(2232,plain,
( ( ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2151]) ).
thf(2233,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2153]) ).
thf(2234,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2153]) ).
thf(2235,plain,
! [SV238: $i] :
( ( ( ( empty_carrier @ SV238 )
| ~ ( lattice @ SV238 )
| ~ ( lower_bounded_semilattstr @ SV238 )
| ~ ( latt_str @ SV238 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV238 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2154]) ).
thf(2236,plain,
! [SV222: $i] :
( ( ( empty_carrier @ SV222 )
= $true )
| ( ( ~ ( lattice @ SV222 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV222 ) )
= $true )
| ( ( ~ ( latt_str @ SV222 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV222 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2155]) ).
thf(2237,plain,
! [SV195: $i] :
( ( ( latt_str @ SV195 )
= $false )
| ( ( lattice @ SV195 )
= $false )
| ( ( empty_carrier @ SV195 )
= $true )
| ( ( lower_bounded_semilattstr @ SV195 )
= $false )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV195 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2156]) ).
thf(2238,plain,
! [SV45: $i,SV135: $i,SV143: $i] :
( ( ( function @ SV143 )
= $false )
| ( ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( function @ SV135 )
= $false )
| ( ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( ~ ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2157]) ).
thf(2239,plain,
! [SV45: $i,SV136: $i,SV144: $i] :
( ( ( function @ SV144 )
= $false )
| ( ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( function @ SV136 )
= $false )
| ( ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( ~ ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2158]) ).
thf(2240,plain,
! [SV223: $i] :
( ( ( ~ ( reflexive_relstr @ SV223 ) )
= $true )
| ( ( ~ ( transitive_relstr @ SV223 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV223 ) )
= $true )
| ( ( ~ ( rel_str @ SV223 ) )
= $true )
| ( ( reflexive @ ( the_InternalRel @ SV223 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2159]) ).
thf(2241,plain,
! [SV224: $i] :
( ( ( ~ ( reflexive_relstr @ SV224 ) )
= $true )
| ( ( ~ ( transitive_relstr @ SV224 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV224 ) )
= $true )
| ( ( ~ ( rel_str @ SV224 ) )
= $true )
| ( ( relation @ ( the_InternalRel @ SV224 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2160]) ).
thf(2242,plain,
! [SV196: $i] :
( ( ( antisymmetric_relstr @ SV196 )
= $false )
| ( ( reflexive_relstr @ SV196 )
= $false )
| ( ( transitive_relstr @ SV196 )
= $false )
| ( ( ~ ( rel_str @ SV196 ) )
= $true )
| ( ( antisymmetric @ ( the_InternalRel @ SV196 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2161]) ).
thf(2243,plain,
! [SV225: $i] :
( ( ( lattice @ SV225 )
= $false )
| ( ( empty_carrier @ SV225 )
= $true )
| ( ( ~ ( latt_str @ SV225 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV225 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2162]) ).
thf(2244,plain,
! [SV226: $i] :
( ( ( lattice @ SV226 )
= $false )
| ( ( empty_carrier @ SV226 )
= $true )
| ( ( ~ ( latt_str @ SV226 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV226 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2163]) ).
thf(2245,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2164]) ).
thf(2246,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2164]) ).
thf(2247,plain,
! [SV239: $i] :
( ( ( ~ ( latt_str @ SV239 ) )
= $true )
| ( ( ( empty_carrier @ SV239 )
| ~ ( lattice @ SV239 )
| ~ ( complete_latt_str @ SV239 )
| ( join_absorbing @ SV239 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2165]) ).
thf(2248,plain,
! [SV227: $i] :
( ( ( ( empty_carrier @ SV227 )
| ~ ( lattice @ SV227 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV227 ) )
= $true )
| ( ( lattice @ SV227 )
= $true )
| ( ( latt_str @ SV227 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2166]) ).
thf(2249,plain,
! [SV198: $i] :
( ( ( complete_latt_str @ SV198 )
= $false )
| ( ( empty_carrier @ SV198 )
= $true )
| ( ( lattice @ SV198 )
= $false )
| ( ( lower_bounded_semilattstr @ SV198 )
= $true )
| ( ( latt_str @ SV198 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2167]) ).
thf(2250,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2168]) ).
thf(2251,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2168]) ).
thf(2252,plain,
! [SV240: $i] :
( ( ( ( empty_carrier @ SV240 )
| ~ ( lattice @ SV240 )
| ~ ( complete_latt_str @ SV240 )
| ~ ( latt_str @ SV240 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV240 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2169]) ).
thf(2253,plain,
! [SV228: $i] :
( ( ( empty_carrier @ SV228 )
= $true )
| ( ( ~ ( lattice @ SV228 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV228 ) )
= $true )
| ( ( ~ ( latt_str @ SV228 ) )
= $true )
| ( ( bounded_relstr @ ( poset_of_lattice @ SV228 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2170]) ).
thf(2254,plain,
! [SV199: $i] :
( ( ( latt_str @ SV199 )
= $false )
| ( ( lattice @ SV199 )
= $false )
| ( ( empty_carrier @ SV199 )
= $true )
| ( ( complete_latt_str @ SV199 )
= $false )
| ( ( with_suprema_relstr @ ( poset_of_lattice @ SV199 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2171]) ).
thf(2255,plain,
! [SV241: $i] :
( ( ( ~ ( latt_str @ SV241 ) )
= $true )
| ( ( ( empty_carrier @ SV241 )
| ~ ( boolean_lattstr @ SV241 )
| ~ ( empty_carrier @ SV241 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2172]) ).
thf(2256,plain,
! [SV242: $i] :
( ( ( ~ ( latt_str @ SV242 ) )
= $true )
| ( ( ( empty_carrier @ SV242 )
| ~ ( boolean_lattstr @ SV242 )
| ( distributive_lattstr @ SV242 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2173]) ).
thf(2257,plain,
! [SV229: $i] :
( ( ( empty_carrier @ SV229 )
= $true )
| ( ( ~ ( boolean_lattstr @ SV229 ) )
= $true )
| ( ( lower_bounded_semilattstr @ SV229 )
= $true )
| ( ( latt_str @ SV229 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2174]) ).
thf(2258,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2175]) ).
thf(2259,plain,
( ( ~ ( join_absorbing @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2175]) ).
thf(2260,plain,
! [SV139: $i,SV49: $i,SV145: $i] :
( ( ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV139 )
= $false )
| ( ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV145 )
= $false )
| ( ( ~ ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2176]) ).
thf(2261,plain,
! [SV140: $i,SV49: $i,SV146: $i] :
( ( ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV140 )
= $false )
| ( ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV146 )
= $false )
| ( ( ~ ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2177]) ).
thf(2262,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ~ ~ ( ~ ( ! [SY121: $i,SY122: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY121 @ SY122 ) )
| ( SV50 = SV243 ) )
| ~ ! [SY123: $i] :
( ! [SY124: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY123 @ SY124 ) )
| ( SV66 = SY123 ) ) )
| ~ ! [SY125: $i,SY126: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY125 @ SY126 ) )
| ( SV71 = SY126 ) ) )
= $false )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2178]) ).
thf(2263,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2179]) ).
thf(2264,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2180]) ).
thf(2265,plain,
! [SV230: $i] :
( ( ( ( empty_carrier @ SV230 )
| ~ ( lattice @ SV230 ) )
= $true )
| ( ( ~ ( latt_str @ SV230 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV230 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2181]) ).
thf(2266,plain,
! [SV206: $i] :
( ( ( latt_str @ SV206 )
= $false )
| ( ( empty_carrier @ SV206 )
= $true )
| ( ( lattice @ SV206 )
= $false )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV206 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2182]) ).
thf(2267,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2183]) ).
thf(2268,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2184]) ).
thf(2269,plain,
! [SV231: $i] :
( ( ( ( empty_carrier @ SV231 )
| ~ ( lattice @ SV231 )
| ~ ( upper_bounded_semilattstr @ SV231 ) )
= $true )
| ( ( ~ ( latt_str @ SV231 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV231 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2185]) ).
thf(2270,plain,
! [SV207: $i] :
( ( ( lattice @ SV207 )
= $false )
| ( ( empty_carrier @ SV207 )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV207 ) )
= $true )
| ( ( ~ ( latt_str @ SV207 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV207 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2186]) ).
thf(2271,plain,
! [SV76: $i] :
( ( ( meet_absorbing @ SV76 )
= $false )
| ( ( meet_commutative @ SV76 )
= $false )
| ( ( join_commutative @ SV76 )
= $false )
| ( ( empty_carrier @ SV76 )
= $true )
| ( ( join_associative @ SV76 )
= $false )
| ( ( meet_associative @ SV76 )
= $false )
| ( ( ~ ( join_absorbing @ SV76 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2188]) ).
thf(2272,plain,
! [SV77: $i] :
( ( ( meet_absorbing @ SV77 )
= $false )
| ( ( meet_commutative @ SV77 )
= $false )
| ( ( join_commutative @ SV77 )
= $false )
| ( ( empty_carrier @ SV77 )
= $true )
| ( ( join_associative @ SV77 )
= $false )
| ( ( meet_associative @ SV77 )
= $false )
| ( ( ~ ( join_absorbing @ SV77 ) )
= $true )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2189]) ).
thf(2273,plain,
( ( ~ ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2190]) ).
thf(2274,plain,
( ( reflexive_relstr @ sK13_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2191]) ).
thf(2275,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2194]) ).
thf(2276,plain,
( ( meet_absorbing @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2195]) ).
thf(2277,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2196]) ).
thf(2278,plain,
( ( with_suprema_relstr @ sK8_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2197]) ).
thf(2279,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2198]) ).
thf(2280,plain,
( ( ! [SX0: $i] : ( lower_bounded_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2199]) ).
thf(2281,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2200]) ).
thf(2282,plain,
( ( ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2201]) ).
thf(2283,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2202]) ).
thf(2284,plain,
( ( ! [SX0: $i] : ( lower_bounded_semilattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2203]) ).
thf(2285,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2204]) ).
thf(2286,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ( join_commutative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2205]) ).
thf(2287,plain,
! [SV235: $i] :
( ( ( latt_str @ SV235 )
= $false )
| ( ( ( empty_carrier @ SV235 )
| ~ ( lattice @ SV235 )
| ( join_associative @ SV235 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2206]) ).
thf(2288,plain,
! [SV213: $i] :
( ( ( lattice @ SV213 )
= $false )
| ( ( empty_carrier @ SV213 )
= $true )
| ( ( meet_commutative @ SV213 )
= $true )
| ( ( latt_str @ SV213 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2207]) ).
thf(2289,plain,
( ( rel_str @ sK17_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2208]) ).
thf(2290,plain,
( ( ~ ( empty_carrier @ sK17_A ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2209]) ).
thf(2291,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2210]) ).
thf(2292,plain,
( ( distributive_lattstr @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2211]) ).
thf(2293,plain,
! [SV214: $i] :
( ( ( lattice @ SV214 )
= $false )
| ( ( empty_carrier @ SV214 )
= $true )
| ( ( ~ ( complete_latt_str @ SV214 ) )
= $true )
| ( ( ~ ( latt_str @ SV214 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV214 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2212]) ).
thf(2294,plain,
! [SV215: $i] :
( ( ( lattice @ SV215 )
= $false )
| ( ( empty_carrier @ SV215 )
= $true )
| ( ( ~ ( complete_latt_str @ SV215 ) )
= $true )
| ( ( ~ ( latt_str @ SV215 ) )
= $true )
| ( ( lattice @ SV215 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2213]) ).
thf(2295,plain,
! [SV216: $i] :
( ( ( latt_str @ SV216 )
= $false )
| ( ( empty_carrier @ SV216 )
= $true )
| ( ( lattice @ SV216 )
= $false )
| ( ( antisymmetric @ ( k2_lattice3 @ SV216 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2215]) ).
thf(2296,plain,
! [SV217: $i] :
( ( ( latt_str @ SV217 )
= $false )
| ( ( empty_carrier @ SV217 )
= $true )
| ( ( lattice @ SV217 )
= $false )
| ( ( reflexive @ ( k2_lattice3 @ SV217 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2216]) ).
thf(2297,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2217]) ).
thf(2298,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( meet_commutative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2218]) ).
thf(2299,plain,
! [SV236: $i] :
( ( ( latt_str @ SV236 )
= $false )
| ( ( ( empty_carrier @ SV236 )
| ~ ( lattice @ SV236 )
| ~ ( distributive_lattstr @ SV236 )
| ( meet_associative @ SV236 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2219]) ).
thf(2300,plain,
! [SV218: $i] :
( ( ( empty_carrier @ SV218 )
= $true )
| ( ( ~ ( lattice @ SV218 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV218 ) )
= $true )
| ( ( meet_absorbing @ SV218 )
= $true )
| ( ( latt_str @ SV218 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2220]) ).
thf(2301,plain,
! [SV191: $i,SV202: $i] :
( ( ( reflexive @ SV202 )
= $false )
| ( ( antisymmetric @ SV202 )
= $false )
| ( ( ~ ( transitive @ SV202 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( reflexive_relstr @ ( rel_str_of @ SV191 @ SV202 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2222]) ).
thf(2302,plain,
! [SV192: $i,SV203: $i] :
( ( ( reflexive @ SV203 )
= $false )
| ( ( antisymmetric @ SV203 )
= $false )
| ( ( ~ ( transitive @ SV203 ) )
= $true )
| ( ( ~ ( v1_partfun1 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV192 @ SV203 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2223]) ).
thf(2303,plain,
! [SV161: $i,SV176: $i] :
( ( ( relation_of2 @ SV176 @ SV161 @ SV161 )
= $false )
| ( ( transitive @ SV176 )
= $false )
| ( ( antisymmetric @ SV176 )
= $false )
| ( ( reflexive @ SV176 )
= $false )
| ( ( v1_partfun1 @ SV176 @ SV161 @ SV161 )
= $false )
| ( ( transitive_relstr @ ( rel_str_of @ SV161 @ SV176 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2224]) ).
thf(2304,plain,
! [SV219: $i] :
( ( ( latt_str @ SV219 )
= $false )
| ( ( empty_carrier @ SV219 )
= $true )
| ( ( lattice @ SV219 )
= $false )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV219 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2225]) ).
thf(2305,plain,
! [SV220: $i] :
( ( ( latt_str @ SV220 )
= $false )
| ( ( empty_carrier @ SV220 )
= $true )
| ( ( lattice @ SV220 )
= $false )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV220 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2226]) ).
thf(2306,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2227]) ).
thf(2307,plain,
( ( join_associative @ sK3_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2228]) ).
thf(2308,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2229]) ).
thf(2309,plain,
( ( join_absorbing @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2230]) ).
thf(2310,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2231]) ).
thf(2311,plain,
( ( ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2232]) ).
thf(2312,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2233]) ).
thf(2313,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2234]) ).
thf(2314,plain,
! [SV238: $i] :
( ( ( ( empty_carrier @ SV238 )
| ~ ( lattice @ SV238 )
| ~ ( lower_bounded_semilattstr @ SV238 ) )
= $true )
| ( ( ~ ( latt_str @ SV238 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV238 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2235]) ).
thf(2315,plain,
! [SV222: $i] :
( ( ( lattice @ SV222 )
= $false )
| ( ( empty_carrier @ SV222 )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV222 ) )
= $true )
| ( ( ~ ( latt_str @ SV222 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV222 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2236]) ).
thf(2316,plain,
! [SV135: $i,SV45: $i,SV143: $i] :
( ( ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( function @ SV135 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( function @ SV143 )
= $false )
| ( ( ~ ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2238]) ).
thf(2317,plain,
! [SV136: $i,SV45: $i,SV144: $i] :
( ( ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( function @ SV136 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( function @ SV144 )
= $false )
| ( ( ~ ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 ) )
= $true )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2239]) ).
thf(2318,plain,
! [SV223: $i] :
( ( ( reflexive_relstr @ SV223 )
= $false )
| ( ( ~ ( transitive_relstr @ SV223 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV223 ) )
= $true )
| ( ( ~ ( rel_str @ SV223 ) )
= $true )
| ( ( reflexive @ ( the_InternalRel @ SV223 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2240]) ).
thf(2319,plain,
! [SV224: $i] :
( ( ( reflexive_relstr @ SV224 )
= $false )
| ( ( ~ ( transitive_relstr @ SV224 ) )
= $true )
| ( ( ~ ( antisymmetric_relstr @ SV224 ) )
= $true )
| ( ( ~ ( rel_str @ SV224 ) )
= $true )
| ( ( relation @ ( the_InternalRel @ SV224 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2241]) ).
thf(2320,plain,
! [SV196: $i] :
( ( ( rel_str @ SV196 )
= $false )
| ( ( transitive_relstr @ SV196 )
= $false )
| ( ( reflexive_relstr @ SV196 )
= $false )
| ( ( antisymmetric_relstr @ SV196 )
= $false )
| ( ( antisymmetric @ ( the_InternalRel @ SV196 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2242]) ).
thf(2321,plain,
! [SV225: $i] :
( ( ( latt_str @ SV225 )
= $false )
| ( ( empty_carrier @ SV225 )
= $true )
| ( ( lattice @ SV225 )
= $false )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV225 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2243]) ).
thf(2322,plain,
! [SV226: $i] :
( ( ( latt_str @ SV226 )
= $false )
| ( ( empty_carrier @ SV226 )
= $true )
| ( ( lattice @ SV226 )
= $false )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV226 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2244]) ).
thf(2323,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2245]) ).
thf(2324,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_absorbing @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2246]) ).
thf(2325,plain,
! [SV239: $i] :
( ( ( latt_str @ SV239 )
= $false )
| ( ( ( empty_carrier @ SV239 )
| ~ ( lattice @ SV239 )
| ~ ( complete_latt_str @ SV239 )
| ( join_absorbing @ SV239 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2247]) ).
thf(2326,plain,
! [SV227: $i] :
( ( ( empty_carrier @ SV227 )
= $true )
| ( ( ~ ( lattice @ SV227 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV227 ) )
= $true )
| ( ( lattice @ SV227 )
= $true )
| ( ( latt_str @ SV227 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2248]) ).
thf(2327,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2250]) ).
thf(2328,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2251]) ).
thf(2329,plain,
! [SV240: $i] :
( ( ( ( empty_carrier @ SV240 )
| ~ ( lattice @ SV240 )
| ~ ( complete_latt_str @ SV240 ) )
= $true )
| ( ( ~ ( latt_str @ SV240 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV240 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2252]) ).
thf(2330,plain,
! [SV228: $i] :
( ( ( lattice @ SV228 )
= $false )
| ( ( empty_carrier @ SV228 )
= $true )
| ( ( ~ ( complete_latt_str @ SV228 ) )
= $true )
| ( ( ~ ( latt_str @ SV228 ) )
= $true )
| ( ( bounded_relstr @ ( poset_of_lattice @ SV228 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2253]) ).
thf(2331,plain,
! [SV241: $i] :
( ( ( latt_str @ SV241 )
= $false )
| ( ( ( empty_carrier @ SV241 )
| ~ ( boolean_lattstr @ SV241 )
| ~ ( empty_carrier @ SV241 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2255]) ).
thf(2332,plain,
! [SV242: $i] :
( ( ( latt_str @ SV242 )
= $false )
| ( ( ( empty_carrier @ SV242 )
| ~ ( boolean_lattstr @ SV242 )
| ( distributive_lattstr @ SV242 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2256]) ).
thf(2333,plain,
! [SV229: $i] :
( ( ( boolean_lattstr @ SV229 )
= $false )
| ( ( empty_carrier @ SV229 )
= $true )
| ( ( lower_bounded_semilattstr @ SV229 )
= $true )
| ( ( latt_str @ SV229 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2257]) ).
thf(2334,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2258]) ).
thf(2335,plain,
( ( join_absorbing @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2259]) ).
thf(2336,plain,
! [SV139: $i,SV49: $i,SV145: $i] :
( ( ( relation_of2 @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV145 )
= $false )
| ( ( quasi_total @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV139 )
= $false )
| ( ( relation_of2 @ SV139 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( quasi_total @ SV145 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( latt_str @ ( latt_str_of @ SV49 @ SV139 @ SV145 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2260]) ).
thf(2337,plain,
! [SV140: $i,SV49: $i,SV146: $i] :
( ( ( relation_of2 @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV146 )
= $false )
| ( ( quasi_total @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( function @ SV140 )
= $false )
| ( ( relation_of2 @ SV140 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( quasi_total @ SV146 @ ( cartesian_product2 @ SV49 @ SV49 ) @ SV49 )
= $false )
| ( ( strict_latt_str @ ( latt_str_of @ SV49 @ SV140 @ SV146 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2261]) ).
thf(2338,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ~ ~ ( ~ ( ! [SY121: $i,SY122: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY121 @ SY122 ) )
| ( SV50 = SV243 ) )
| ~ ! [SY123: $i] :
( ! [SY124: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY123 @ SY124 ) )
| ( SV66 = SY123 ) ) ) )
= $false )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[2262]) ).
thf(2339,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ~ ! [SY125: $i,SY126: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY125 @ SY126 ) )
| ( SV71 = SY126 ) ) )
= $false )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[2262]) ).
thf(2340,plain,
! [SV244: $i] :
( ( ( empty_carrier @ SV244 )
| ~ ( lattice @ SV244 )
| ~ ( latt_str @ SV244 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SV244 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2263]) ).
thf(2341,plain,
! [SV245: $i] :
( ( ( empty_carrier @ SV245 )
| ~ ( lattice @ SV245 )
| ~ ( latt_str @ SV245 )
| ( strict_rel_str @ ( poset_of_lattice @ SV245 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2264]) ).
thf(2342,plain,
! [SV230: $i] :
( ( ( empty_carrier @ SV230 )
= $true )
| ( ( ~ ( lattice @ SV230 ) )
= $true )
| ( ( ~ ( latt_str @ SV230 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV230 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2265]) ).
thf(2343,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2267]) ).
thf(2344,plain,
! [SV246: $i] :
( ( ( empty_carrier @ SV246 )
| ~ ( lattice @ SV246 )
| ~ ( upper_bounded_semilattstr @ SV246 )
| ~ ( latt_str @ SV246 )
| ( reflexive_relstr @ ( poset_of_lattice @ SV246 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2268]) ).
thf(2345,plain,
! [SV231: $i] :
( ( ( ( empty_carrier @ SV231 )
| ~ ( lattice @ SV231 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV231 ) )
= $true )
| ( ( ~ ( latt_str @ SV231 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV231 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2269]) ).
thf(2346,plain,
! [SV207: $i] :
( ( ( upper_bounded_semilattstr @ SV207 )
= $false )
| ( ( empty_carrier @ SV207 )
= $true )
| ( ( lattice @ SV207 )
= $false )
| ( ( ~ ( latt_str @ SV207 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV207 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2270]) ).
thf(2347,plain,
! [SV76: $i] :
( ( ( join_absorbing @ SV76 )
= $false )
| ( ( meet_associative @ SV76 )
= $false )
| ( ( join_associative @ SV76 )
= $false )
| ( ( empty_carrier @ SV76 )
= $true )
| ( ( join_commutative @ SV76 )
= $false )
| ( ( meet_commutative @ SV76 )
= $false )
| ( ( meet_absorbing @ SV76 )
= $false )
| ( ( ~ ( empty_carrier @ SV76 ) )
= $true )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2271]) ).
thf(2348,plain,
! [SV77: $i] :
( ( ( join_absorbing @ SV77 )
= $false )
| ( ( meet_associative @ SV77 )
= $false )
| ( ( join_associative @ SV77 )
= $false )
| ( ( empty_carrier @ SV77 )
= $true )
| ( ( join_commutative @ SV77 )
= $false )
| ( ( meet_commutative @ SV77 )
= $false )
| ( ( meet_absorbing @ SV77 )
= $false )
| ( ( lattice @ SV77 )
= $true )
| ( ( latt_str @ SV77 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2272]) ).
thf(2349,plain,
( ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
| ~ ( strict_rel_str @ sK13_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2273]) ).
thf(2350,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
| ~ ( meet_associative @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2275]) ).
thf(2351,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
| ~ ( antisymmetric_relstr @ sK8_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2277]) ).
thf(2352,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2279]) ).
thf(2353,plain,
! [SV247: $i] :
( ( lower_bounded_relstr @ ( boole_POSet @ SV247 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2280]) ).
thf(2354,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2281]) ).
thf(2355,plain,
! [SV248: $i] :
( ( join_associative @ ( boole_lattice @ SV248 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2282]) ).
thf(2356,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2283]) ).
thf(2357,plain,
! [SV249: $i] :
( ( lower_bounded_semilattstr @ ( boole_lattice @ SV249 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2284]) ).
thf(2358,plain,
! [SV250: $i] :
( ( ~ ( latt_str @ SV250 )
| ( empty_carrier @ SV250 )
| ~ ( lattice @ SV250 )
| ~ ( empty_carrier @ SV250 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2285]) ).
thf(2359,plain,
! [SV251: $i] :
( ( ~ ( latt_str @ SV251 )
| ( empty_carrier @ SV251 )
| ~ ( lattice @ SV251 )
| ( join_commutative @ SV251 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2286]) ).
thf(2360,plain,
! [SV235: $i] :
( ( ( ( empty_carrier @ SV235 )
| ~ ( lattice @ SV235 ) )
= $true )
| ( ( join_associative @ SV235 )
= $true )
| ( ( latt_str @ SV235 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2287]) ).
thf(2361,plain,
( ( empty_carrier @ sK17_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2290]) ).
thf(2362,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
| ~ ( lattice @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2291]) ).
thf(2363,plain,
! [SV214: $i] :
( ( ( complete_latt_str @ SV214 )
= $false )
| ( ( empty_carrier @ SV214 )
= $true )
| ( ( lattice @ SV214 )
= $false )
| ( ( ~ ( latt_str @ SV214 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV214 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2293]) ).
thf(2364,plain,
! [SV215: $i] :
( ( ( complete_latt_str @ SV215 )
= $false )
| ( ( empty_carrier @ SV215 )
= $true )
| ( ( lattice @ SV215 )
= $false )
| ( ( ~ ( latt_str @ SV215 ) )
= $true )
| ( ( lattice @ SV215 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2294]) ).
thf(2365,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2297]) ).
thf(2366,plain,
! [SV252: $i] :
( ( ~ ( latt_str @ SV252 )
| ( empty_carrier @ SV252 )
| ~ ( lattice @ SV252 )
| ~ ( distributive_lattstr @ SV252 )
| ( meet_commutative @ SV252 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2298]) ).
thf(2367,plain,
! [SV236: $i] :
( ( ( ( empty_carrier @ SV236 )
| ~ ( lattice @ SV236 )
| ~ ( distributive_lattstr @ SV236 ) )
= $true )
| ( ( meet_associative @ SV236 )
= $true )
| ( ( latt_str @ SV236 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2299]) ).
thf(2368,plain,
! [SV218: $i] :
( ( ( lattice @ SV218 )
= $false )
| ( ( empty_carrier @ SV218 )
= $true )
| ( ( ~ ( distributive_lattstr @ SV218 ) )
= $true )
| ( ( meet_absorbing @ SV218 )
= $true )
| ( ( latt_str @ SV218 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2300]) ).
thf(2369,plain,
! [SV191: $i,SV202: $i] :
( ( ( transitive @ SV202 )
= $false )
| ( ( antisymmetric @ SV202 )
= $false )
| ( ( reflexive @ SV202 )
= $false )
| ( ( ~ ( v1_partfun1 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( reflexive_relstr @ ( rel_str_of @ SV191 @ SV202 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2301]) ).
thf(2370,plain,
! [SV192: $i,SV203: $i] :
( ( ( transitive @ SV203 )
= $false )
| ( ( antisymmetric @ SV203 )
= $false )
| ( ( reflexive @ SV203 )
= $false )
| ( ( ~ ( v1_partfun1 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( ~ ( relation_of2 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV192 @ SV203 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2302]) ).
thf(2371,plain,
( ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
| ~ ( join_commutative @ sK3_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2306]) ).
thf(2372,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
| ~ ( meet_absorbing @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2308]) ).
thf(2373,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2310]) ).
thf(2374,plain,
! [SV253: $i] :
( ( modular_lattstr @ ( boole_lattice @ SV253 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2311]) ).
thf(2375,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2312]) ).
thf(2376,plain,
! [SV254: $i] :
( ( ( empty_carrier @ SV254 )
| ~ ( lattice @ SV254 )
| ~ ( lower_bounded_semilattstr @ SV254 )
| ~ ( latt_str @ SV254 )
| ( reflexive_relstr @ ( poset_of_lattice @ SV254 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2313]) ).
thf(2377,plain,
! [SV238: $i] :
( ( ( ( empty_carrier @ SV238 )
| ~ ( lattice @ SV238 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV238 ) )
= $true )
| ( ( ~ ( latt_str @ SV238 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV238 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2314]) ).
thf(2378,plain,
! [SV222: $i] :
( ( ( lower_bounded_semilattstr @ SV222 )
= $false )
| ( ( empty_carrier @ SV222 )
= $true )
| ( ( lattice @ SV222 )
= $false )
| ( ( ~ ( latt_str @ SV222 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV222 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2315]) ).
thf(2379,plain,
! [SV135: $i,SV45: $i,SV143: $i] :
( ( ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( function @ SV143 )
= $false )
| ( ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( function @ SV135 )
= $false )
| ( ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( ~ ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2316]) ).
thf(2380,plain,
! [SV136: $i,SV45: $i,SV144: $i] :
( ( ( relation_of2 @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( function @ SV144 )
= $false )
| ( ( quasi_total @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( function @ SV136 )
= $false )
| ( ( relation_of2 @ SV136 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( quasi_total @ SV144 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( strict_latt_str @ ( latt_str_of @ SV45 @ SV136 @ SV144 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2317]) ).
thf(2381,plain,
! [SV223: $i] :
( ( ( transitive_relstr @ SV223 )
= $false )
| ( ( reflexive_relstr @ SV223 )
= $false )
| ( ( ~ ( antisymmetric_relstr @ SV223 ) )
= $true )
| ( ( ~ ( rel_str @ SV223 ) )
= $true )
| ( ( reflexive @ ( the_InternalRel @ SV223 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2318]) ).
thf(2382,plain,
! [SV224: $i] :
( ( ( transitive_relstr @ SV224 )
= $false )
| ( ( reflexive_relstr @ SV224 )
= $false )
| ( ( ~ ( antisymmetric_relstr @ SV224 ) )
= $true )
| ( ( ~ ( rel_str @ SV224 ) )
= $true )
| ( ( relation @ ( the_InternalRel @ SV224 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2319]) ).
thf(2383,plain,
! [SV225: $i] :
( ( ( empty_carrier @ ( poset_of_lattice @ SV225 ) )
= $false )
| ( ( lattice @ SV225 )
= $false )
| ( ( empty_carrier @ SV225 )
= $true )
| ( ( latt_str @ SV225 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2321]) ).
thf(2384,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2323]) ).
thf(2385,plain,
! [SV255: $i] :
( ( ~ ( latt_str @ SV255 )
| ( empty_carrier @ SV255 )
| ~ ( lattice @ SV255 )
| ~ ( complete_latt_str @ SV255 )
| ( meet_absorbing @ SV255 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2324]) ).
thf(2386,plain,
! [SV239: $i] :
( ( ( ( empty_carrier @ SV239 )
| ~ ( lattice @ SV239 )
| ~ ( complete_latt_str @ SV239 ) )
= $true )
| ( ( join_absorbing @ SV239 )
= $true )
| ( ( latt_str @ SV239 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2325]) ).
thf(2387,plain,
! [SV227: $i] :
( ( ( lattice @ SV227 )
= $false )
| ( ( empty_carrier @ SV227 )
= $true )
| ( ( ~ ( complete_latt_str @ SV227 ) )
= $true )
| ( ( lattice @ SV227 )
= $true )
| ( ( latt_str @ SV227 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2326]) ).
thf(2388,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2327]) ).
thf(2389,plain,
! [SV256: $i] :
( ( ( empty_carrier @ SV256 )
| ~ ( lattice @ SV256 )
| ~ ( complete_latt_str @ SV256 )
| ~ ( latt_str @ SV256 )
| ( lower_bounded_relstr @ ( poset_of_lattice @ SV256 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2328]) ).
thf(2390,plain,
! [SV240: $i] :
( ( ( ( empty_carrier @ SV240 )
| ~ ( lattice @ SV240 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV240 ) )
= $true )
| ( ( ~ ( latt_str @ SV240 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV240 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2329]) ).
thf(2391,plain,
! [SV228: $i] :
( ( ( complete_latt_str @ SV228 )
= $false )
| ( ( empty_carrier @ SV228 )
= $true )
| ( ( lattice @ SV228 )
= $false )
| ( ( ~ ( latt_str @ SV228 ) )
= $true )
| ( ( bounded_relstr @ ( poset_of_lattice @ SV228 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2330]) ).
thf(2392,plain,
! [SV241: $i] :
( ( ( ( empty_carrier @ SV241 )
| ~ ( boolean_lattstr @ SV241 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV241 ) )
= $true )
| ( ( latt_str @ SV241 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2331]) ).
thf(2393,plain,
! [SV242: $i] :
( ( ( ( empty_carrier @ SV242 )
| ~ ( boolean_lattstr @ SV242 ) )
= $true )
| ( ( distributive_lattstr @ SV242 )
= $true )
| ( ( latt_str @ SV242 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2332]) ).
thf(2394,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
| ~ ( meet_absorbing @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2334]) ).
thf(2395,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ~ ( ~ ( ! [SY121: $i,SY122: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY121 @ SY122 ) )
| ( SV50 = SV243 ) )
| ~ ! [SY123: $i] :
( ! [SY124: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY123 @ SY124 ) )
| ( SV66 = SY123 ) ) ) )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[2338]) ).
thf(2396,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ! [SY125: $i,SY126: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY125 @ SY126 ) )
| ( SV71 = SY126 ) ) )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[2339]) ).
thf(2397,plain,
! [SV244: $i] :
( ( ( ( empty_carrier @ SV244 )
| ~ ( lattice @ SV244 )
| ~ ( latt_str @ SV244 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV244 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2340]) ).
thf(2398,plain,
! [SV245: $i] :
( ( ( ( empty_carrier @ SV245 )
| ~ ( lattice @ SV245 )
| ~ ( latt_str @ SV245 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV245 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2341]) ).
thf(2399,plain,
! [SV230: $i] :
( ( ( lattice @ SV230 )
= $false )
| ( ( empty_carrier @ SV230 )
= $true )
| ( ( ~ ( latt_str @ SV230 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV230 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2342]) ).
thf(2400,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2343]) ).
thf(2401,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2343]) ).
thf(2402,plain,
! [SV246: $i] :
( ( ( ( empty_carrier @ SV246 )
| ~ ( lattice @ SV246 )
| ~ ( upper_bounded_semilattstr @ SV246 )
| ~ ( latt_str @ SV246 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV246 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2344]) ).
thf(2403,plain,
! [SV231: $i] :
( ( ( empty_carrier @ SV231 )
= $true )
| ( ( ~ ( lattice @ SV231 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV231 ) )
= $true )
| ( ( ~ ( latt_str @ SV231 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV231 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2345]) ).
thf(2404,plain,
! [SV207: $i] :
( ( ( latt_str @ SV207 )
= $false )
| ( ( lattice @ SV207 )
= $false )
| ( ( empty_carrier @ SV207 )
= $true )
| ( ( upper_bounded_semilattstr @ SV207 )
= $false )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV207 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2346]) ).
thf(2405,plain,
! [SV76: $i] :
( ( ( empty_carrier @ SV76 )
= $false )
| ( ( meet_absorbing @ SV76 )
= $false )
| ( ( meet_commutative @ SV76 )
= $false )
| ( ( join_commutative @ SV76 )
= $false )
| ( ( empty_carrier @ SV76 )
= $true )
| ( ( join_associative @ SV76 )
= $false )
| ( ( meet_associative @ SV76 )
= $false )
| ( ( join_absorbing @ SV76 )
= $false )
| ( ( latt_str @ SV76 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2347]) ).
thf(2406,plain,
( ( ~ ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2349]) ).
thf(2407,plain,
( ( ~ ( strict_rel_str @ sK13_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2349]) ).
thf(2408,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2350]) ).
thf(2409,plain,
( ( ~ ( meet_associative @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2350]) ).
thf(2410,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2351]) ).
thf(2411,plain,
( ( ~ ( antisymmetric_relstr @ sK8_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2351]) ).
thf(2412,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2352]) ).
thf(2413,plain,
( ( ~ ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2352]) ).
thf(2414,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2354]) ).
thf(2415,plain,
( ( ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2354]) ).
thf(2416,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2356]) ).
thf(2417,plain,
( ( ~ ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2356]) ).
thf(2418,plain,
! [SV250: $i] :
( ( ( ~ ( latt_str @ SV250 ) )
= $true )
| ( ( ( empty_carrier @ SV250 )
| ~ ( lattice @ SV250 )
| ~ ( empty_carrier @ SV250 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2358]) ).
thf(2419,plain,
! [SV251: $i] :
( ( ( ~ ( latt_str @ SV251 ) )
= $true )
| ( ( ( empty_carrier @ SV251 )
| ~ ( lattice @ SV251 )
| ( join_commutative @ SV251 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2359]) ).
thf(2420,plain,
! [SV235: $i] :
( ( ( empty_carrier @ SV235 )
= $true )
| ( ( ~ ( lattice @ SV235 ) )
= $true )
| ( ( join_associative @ SV235 )
= $true )
| ( ( latt_str @ SV235 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2360]) ).
thf(2421,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2362]) ).
thf(2422,plain,
( ( ~ ( lattice @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2362]) ).
thf(2423,plain,
! [SV214: $i] :
( ( ( latt_str @ SV214 )
= $false )
| ( ( lattice @ SV214 )
= $false )
| ( ( empty_carrier @ SV214 )
= $true )
| ( ( complete_latt_str @ SV214 )
= $false )
| ( ( ~ ( empty_carrier @ SV214 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2363]) ).
thf(2424,plain,
! [SV215: $i] :
( ( ( latt_str @ SV215 )
= $false )
| ( ( lattice @ SV215 )
= $false )
| ( ( empty_carrier @ SV215 )
= $true )
| ( ( complete_latt_str @ SV215 )
= $false )
| ( ( lattice @ SV215 )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2364]) ).
thf(2425,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2365]) ).
thf(2426,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2365]) ).
thf(2427,plain,
! [SV252: $i] :
( ( ( ~ ( latt_str @ SV252 ) )
= $true )
| ( ( ( empty_carrier @ SV252 )
| ~ ( lattice @ SV252 )
| ~ ( distributive_lattstr @ SV252 )
| ( meet_commutative @ SV252 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2366]) ).
thf(2428,plain,
! [SV236: $i] :
( ( ( ( empty_carrier @ SV236 )
| ~ ( lattice @ SV236 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV236 ) )
= $true )
| ( ( meet_associative @ SV236 )
= $true )
| ( ( latt_str @ SV236 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2367]) ).
thf(2429,plain,
! [SV218: $i] :
( ( ( distributive_lattstr @ SV218 )
= $false )
| ( ( empty_carrier @ SV218 )
= $true )
| ( ( lattice @ SV218 )
= $false )
| ( ( meet_absorbing @ SV218 )
= $true )
| ( ( latt_str @ SV218 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2368]) ).
thf(2430,plain,
! [SV191: $i,SV202: $i] :
( ( ( v1_partfun1 @ SV202 @ SV191 @ SV191 )
= $false )
| ( ( reflexive @ SV202 )
= $false )
| ( ( antisymmetric @ SV202 )
= $false )
| ( ( transitive @ SV202 )
= $false )
| ( ( ~ ( relation_of2 @ SV202 @ SV191 @ SV191 ) )
= $true )
| ( ( reflexive_relstr @ ( rel_str_of @ SV191 @ SV202 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2369]) ).
thf(2431,plain,
! [SV192: $i,SV203: $i] :
( ( ( v1_partfun1 @ SV203 @ SV192 @ SV192 )
= $false )
| ( ( reflexive @ SV203 )
= $false )
| ( ( antisymmetric @ SV203 )
= $false )
| ( ( transitive @ SV203 )
= $false )
| ( ( ~ ( relation_of2 @ SV203 @ SV192 @ SV192 ) )
= $true )
| ( ( strict_rel_str @ ( rel_str_of @ SV192 @ SV203 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2370]) ).
thf(2432,plain,
( ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2371]) ).
thf(2433,plain,
( ( ~ ( join_commutative @ sK3_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2371]) ).
thf(2434,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2372]) ).
thf(2435,plain,
( ( ~ ( meet_absorbing @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2372]) ).
thf(2436,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2373]) ).
thf(2437,plain,
( ( ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2373]) ).
thf(2438,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2375]) ).
thf(2439,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2375]) ).
thf(2440,plain,
! [SV254: $i] :
( ( ( ( empty_carrier @ SV254 )
| ~ ( lattice @ SV254 )
| ~ ( lower_bounded_semilattstr @ SV254 )
| ~ ( latt_str @ SV254 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV254 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2376]) ).
thf(2441,plain,
! [SV238: $i] :
( ( ( empty_carrier @ SV238 )
= $true )
| ( ( ~ ( lattice @ SV238 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV238 ) )
= $true )
| ( ( ~ ( latt_str @ SV238 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV238 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2377]) ).
thf(2442,plain,
! [SV222: $i] :
( ( ( latt_str @ SV222 )
= $false )
| ( ( lattice @ SV222 )
= $false )
| ( ( empty_carrier @ SV222 )
= $true )
| ( ( lower_bounded_semilattstr @ SV222 )
= $false )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV222 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2378]) ).
thf(2443,plain,
! [SV143: $i,SV135: $i,SV45: $i] :
( ( ( empty_carrier @ ( latt_str_of @ SV45 @ SV135 @ SV143 ) )
= $false )
| ( ( quasi_total @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( relation_of2 @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( function @ SV135 )
= $false )
| ( ( empty @ SV45 )
= $true )
| ( ( quasi_total @ SV135 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false )
| ( ( function @ SV143 )
= $false )
| ( ( relation_of2 @ SV143 @ ( cartesian_product2 @ SV45 @ SV45 ) @ SV45 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2379]) ).
thf(2444,plain,
! [SV223: $i] :
( ( ( antisymmetric_relstr @ SV223 )
= $false )
| ( ( reflexive_relstr @ SV223 )
= $false )
| ( ( transitive_relstr @ SV223 )
= $false )
| ( ( ~ ( rel_str @ SV223 ) )
= $true )
| ( ( reflexive @ ( the_InternalRel @ SV223 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2381]) ).
thf(2445,plain,
! [SV224: $i] :
( ( ( antisymmetric_relstr @ SV224 )
= $false )
| ( ( reflexive_relstr @ SV224 )
= $false )
| ( ( transitive_relstr @ SV224 )
= $false )
| ( ( ~ ( rel_str @ SV224 ) )
= $true )
| ( ( relation @ ( the_InternalRel @ SV224 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2382]) ).
thf(2446,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2384]) ).
thf(2447,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2384]) ).
thf(2448,plain,
! [SV255: $i] :
( ( ( ~ ( latt_str @ SV255 ) )
= $true )
| ( ( ( empty_carrier @ SV255 )
| ~ ( lattice @ SV255 )
| ~ ( complete_latt_str @ SV255 )
| ( meet_absorbing @ SV255 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2385]) ).
thf(2449,plain,
! [SV239: $i] :
( ( ( ( empty_carrier @ SV239 )
| ~ ( lattice @ SV239 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV239 ) )
= $true )
| ( ( join_absorbing @ SV239 )
= $true )
| ( ( latt_str @ SV239 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2386]) ).
thf(2450,plain,
! [SV227: $i] :
( ( ( complete_latt_str @ SV227 )
= $false )
| ( ( empty_carrier @ SV227 )
= $true )
| ( ( lattice @ SV227 )
= $false )
| ( ( lattice @ SV227 )
= $true )
| ( ( latt_str @ SV227 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2387]) ).
thf(2451,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2388]) ).
thf(2452,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2388]) ).
thf(2453,plain,
! [SV256: $i] :
( ( ( ( empty_carrier @ SV256 )
| ~ ( lattice @ SV256 )
| ~ ( complete_latt_str @ SV256 )
| ~ ( latt_str @ SV256 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV256 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2389]) ).
thf(2454,plain,
! [SV240: $i] :
( ( ( empty_carrier @ SV240 )
= $true )
| ( ( ~ ( lattice @ SV240 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV240 ) )
= $true )
| ( ( ~ ( latt_str @ SV240 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV240 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2390]) ).
thf(2455,plain,
! [SV228: $i] :
( ( ( latt_str @ SV228 )
= $false )
| ( ( lattice @ SV228 )
= $false )
| ( ( empty_carrier @ SV228 )
= $true )
| ( ( complete_latt_str @ SV228 )
= $false )
| ( ( bounded_relstr @ ( poset_of_lattice @ SV228 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2391]) ).
thf(2456,plain,
! [SV241: $i] :
( ( ( empty_carrier @ SV241 )
= $true )
| ( ( ~ ( boolean_lattstr @ SV241 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV241 ) )
= $true )
| ( ( latt_str @ SV241 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2392]) ).
thf(2457,plain,
! [SV242: $i] :
( ( ( empty_carrier @ SV242 )
= $true )
| ( ( ~ ( boolean_lattstr @ SV242 ) )
= $true )
| ( ( distributive_lattstr @ SV242 )
= $true )
| ( ( latt_str @ SV242 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2393]) ).
thf(2458,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2394]) ).
thf(2459,plain,
( ( ~ ( meet_absorbing @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2394]) ).
thf(2460,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ~ ( ! [SY121: $i,SY122: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY121 @ SY122 ) )
| ( SV50 = SV243 ) )
| ~ ! [SY123: $i] :
( ! [SY124: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY123 @ SY124 ) )
| ( SV66 = SY123 ) ) )
= $false )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2395]) ).
thf(2461,plain,
! [SV257: $i,SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ! [SY127: $i] :
( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SV257 @ SY127 ) )
| ( SV71 = SY127 ) ) )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[2396]) ).
thf(2462,plain,
! [SV244: $i] :
( ( ( ( empty_carrier @ SV244 )
| ~ ( lattice @ SV244 ) )
= $true )
| ( ( ~ ( latt_str @ SV244 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV244 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2397]) ).
thf(2463,plain,
! [SV245: $i] :
( ( ( ( empty_carrier @ SV245 )
| ~ ( lattice @ SV245 ) )
= $true )
| ( ( ~ ( latt_str @ SV245 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV245 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2398]) ).
thf(2464,plain,
! [SV230: $i] :
( ( ( latt_str @ SV230 )
= $false )
| ( ( empty_carrier @ SV230 )
= $true )
| ( ( lattice @ SV230 )
= $false )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV230 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2399]) ).
thf(2465,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2400]) ).
thf(2466,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( upper_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2401]) ).
thf(2467,plain,
! [SV246: $i] :
( ( ( ( empty_carrier @ SV246 )
| ~ ( lattice @ SV246 )
| ~ ( upper_bounded_semilattstr @ SV246 ) )
= $true )
| ( ( ~ ( latt_str @ SV246 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV246 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2402]) ).
thf(2468,plain,
! [SV231: $i] :
( ( ( lattice @ SV231 )
= $false )
| ( ( empty_carrier @ SV231 )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV231 ) )
= $true )
| ( ( ~ ( latt_str @ SV231 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV231 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2403]) ).
thf(2469,plain,
( ( ~ ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2406]) ).
thf(2470,plain,
( ( strict_rel_str @ sK13_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2407]) ).
thf(2471,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2408]) ).
thf(2472,plain,
( ( meet_associative @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2409]) ).
thf(2473,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2410]) ).
thf(2474,plain,
( ( antisymmetric_relstr @ sK8_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2411]) ).
thf(2475,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2412]) ).
thf(2476,plain,
( ( ! [SX0: $i] : ( antisymmetric_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2413]) ).
thf(2477,plain,
( ( ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2414]) ).
thf(2478,plain,
( ( ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2415]) ).
thf(2479,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2416]) ).
thf(2480,plain,
( ( ! [SX0: $i] : ( modular_lattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2417]) ).
thf(2481,plain,
! [SV250: $i] :
( ( ( latt_str @ SV250 )
= $false )
| ( ( ( empty_carrier @ SV250 )
| ~ ( lattice @ SV250 )
| ~ ( empty_carrier @ SV250 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2418]) ).
thf(2482,plain,
! [SV251: $i] :
( ( ( latt_str @ SV251 )
= $false )
| ( ( ( empty_carrier @ SV251 )
| ~ ( lattice @ SV251 )
| ( join_commutative @ SV251 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2419]) ).
thf(2483,plain,
! [SV235: $i] :
( ( ( lattice @ SV235 )
= $false )
| ( ( empty_carrier @ SV235 )
= $true )
| ( ( join_associative @ SV235 )
= $true )
| ( ( latt_str @ SV235 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2420]) ).
thf(2484,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2421]) ).
thf(2485,plain,
( ( lattice @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2422]) ).
thf(2486,plain,
! [SV214: $i] :
( ( ( empty_carrier @ SV214 )
= $false )
| ( ( complete_latt_str @ SV214 )
= $false )
| ( ( empty_carrier @ SV214 )
= $true )
| ( ( lattice @ SV214 )
= $false )
| ( ( latt_str @ SV214 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2423]) ).
thf(2487,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2425]) ).
thf(2488,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_associative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2426]) ).
thf(2489,plain,
! [SV252: $i] :
( ( ( latt_str @ SV252 )
= $false )
| ( ( ( empty_carrier @ SV252 )
| ~ ( lattice @ SV252 )
| ~ ( distributive_lattstr @ SV252 )
| ( meet_commutative @ SV252 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2427]) ).
thf(2490,plain,
! [SV236: $i] :
( ( ( empty_carrier @ SV236 )
= $true )
| ( ( ~ ( lattice @ SV236 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV236 ) )
= $true )
| ( ( meet_associative @ SV236 )
= $true )
| ( ( latt_str @ SV236 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2428]) ).
thf(2491,plain,
! [SV191: $i,SV202: $i] :
( ( ( relation_of2 @ SV202 @ SV191 @ SV191 )
= $false )
| ( ( transitive @ SV202 )
= $false )
| ( ( antisymmetric @ SV202 )
= $false )
| ( ( reflexive @ SV202 )
= $false )
| ( ( v1_partfun1 @ SV202 @ SV191 @ SV191 )
= $false )
| ( ( reflexive_relstr @ ( rel_str_of @ SV191 @ SV202 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2430]) ).
thf(2492,plain,
! [SV192: $i,SV203: $i] :
( ( ( relation_of2 @ SV203 @ SV192 @ SV192 )
= $false )
| ( ( transitive @ SV203 )
= $false )
| ( ( antisymmetric @ SV203 )
= $false )
| ( ( reflexive @ SV203 )
= $false )
| ( ( v1_partfun1 @ SV203 @ SV192 @ SV192 )
= $false )
| ( ( strict_rel_str @ ( rel_str_of @ SV192 @ SV203 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2431]) ).
thf(2493,plain,
( ( ~ ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2432]) ).
thf(2494,plain,
( ( join_commutative @ sK3_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2433]) ).
thf(2495,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2434]) ).
thf(2496,plain,
( ( meet_absorbing @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2435]) ).
thf(2497,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2436]) ).
thf(2498,plain,
( ( ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2437]) ).
thf(2499,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2438]) ).
thf(2500,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( lower_bounded_semilattstr @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2439]) ).
thf(2501,plain,
! [SV254: $i] :
( ( ( ( empty_carrier @ SV254 )
| ~ ( lattice @ SV254 )
| ~ ( lower_bounded_semilattstr @ SV254 ) )
= $true )
| ( ( ~ ( latt_str @ SV254 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV254 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2440]) ).
thf(2502,plain,
! [SV238: $i] :
( ( ( lattice @ SV238 )
= $false )
| ( ( empty_carrier @ SV238 )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV238 ) )
= $true )
| ( ( ~ ( latt_str @ SV238 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV238 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2441]) ).
thf(2503,plain,
! [SV223: $i] :
( ( ( rel_str @ SV223 )
= $false )
| ( ( transitive_relstr @ SV223 )
= $false )
| ( ( reflexive_relstr @ SV223 )
= $false )
| ( ( antisymmetric_relstr @ SV223 )
= $false )
| ( ( reflexive @ ( the_InternalRel @ SV223 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2444]) ).
thf(2504,plain,
! [SV224: $i] :
( ( ( rel_str @ SV224 )
= $false )
| ( ( transitive_relstr @ SV224 )
= $false )
| ( ( reflexive_relstr @ SV224 )
= $false )
| ( ( antisymmetric_relstr @ SV224 )
= $false )
| ( ( relation @ ( the_InternalRel @ SV224 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2445]) ).
thf(2505,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2446]) ).
thf(2506,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_associative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2447]) ).
thf(2507,plain,
! [SV255: $i] :
( ( ( latt_str @ SV255 )
= $false )
| ( ( ( empty_carrier @ SV255 )
| ~ ( lattice @ SV255 )
| ~ ( complete_latt_str @ SV255 )
| ( meet_absorbing @ SV255 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2448]) ).
thf(2508,plain,
! [SV239: $i] :
( ( ( empty_carrier @ SV239 )
= $true )
| ( ( ~ ( lattice @ SV239 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV239 ) )
= $true )
| ( ( join_absorbing @ SV239 )
= $true )
| ( ( latt_str @ SV239 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2449]) ).
thf(2509,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2451]) ).
thf(2510,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2452]) ).
thf(2511,plain,
! [SV256: $i] :
( ( ( ( empty_carrier @ SV256 )
| ~ ( lattice @ SV256 )
| ~ ( complete_latt_str @ SV256 ) )
= $true )
| ( ( ~ ( latt_str @ SV256 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV256 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2453]) ).
thf(2512,plain,
! [SV240: $i] :
( ( ( lattice @ SV240 )
= $false )
| ( ( empty_carrier @ SV240 )
= $true )
| ( ( ~ ( complete_latt_str @ SV240 ) )
= $true )
| ( ( ~ ( latt_str @ SV240 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV240 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2454]) ).
thf(2513,plain,
! [SV241: $i] :
( ( ( boolean_lattstr @ SV241 )
= $false )
| ( ( empty_carrier @ SV241 )
= $true )
| ( ( ~ ( empty_carrier @ SV241 ) )
= $true )
| ( ( latt_str @ SV241 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2456]) ).
thf(2514,plain,
! [SV242: $i] :
( ( ( boolean_lattstr @ SV242 )
= $false )
| ( ( empty_carrier @ SV242 )
= $true )
| ( ( distributive_lattstr @ SV242 )
= $true )
| ( ( latt_str @ SV242 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2457]) ).
thf(2515,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2458]) ).
thf(2516,plain,
( ( meet_absorbing @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2459]) ).
thf(2517,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ~ ( ! [SY121: $i,SY122: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY121 @ SY122 ) )
| ( SV50 = SV243 ) ) )
= $false )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[2460]) ).
thf(2518,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ~ ! [SY123: $i] :
( ! [SY124: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY123 @ SY124 ) )
| ( SV66 = SY123 ) ) )
= $false )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_or_neg,[status(thm)],[2460]) ).
thf(2519,plain,
! [SV258: $i,SV257: $i,SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SV257 @ SV258 ) )
| ( SV71 = SV258 ) )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[2461]) ).
thf(2520,plain,
! [SV244: $i] :
( ( ( empty_carrier @ SV244 )
= $true )
| ( ( ~ ( lattice @ SV244 ) )
= $true )
| ( ( ~ ( latt_str @ SV244 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV244 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2462]) ).
thf(2521,plain,
! [SV245: $i] :
( ( ( empty_carrier @ SV245 )
= $true )
| ( ( ~ ( lattice @ SV245 ) )
= $true )
| ( ( ~ ( latt_str @ SV245 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV245 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2463]) ).
thf(2522,plain,
! [SV259: $i] :
( ( ( empty_carrier @ SV259 )
| ~ ( lattice @ SV259 )
| ~ ( upper_bounded_semilattstr @ SV259 )
| ~ ( latt_str @ SV259 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SV259 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2465]) ).
thf(2523,plain,
! [SV260: $i] :
( ( ( empty_carrier @ SV260 )
| ~ ( lattice @ SV260 )
| ~ ( upper_bounded_semilattstr @ SV260 )
| ~ ( latt_str @ SV260 )
| ( strict_rel_str @ ( poset_of_lattice @ SV260 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2466]) ).
thf(2524,plain,
! [SV246: $i] :
( ( ( ( empty_carrier @ SV246 )
| ~ ( lattice @ SV246 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV246 ) )
= $true )
| ( ( ~ ( latt_str @ SV246 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV246 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2467]) ).
thf(2525,plain,
! [SV231: $i] :
( ( ( upper_bounded_semilattstr @ SV231 )
= $false )
| ( ( empty_carrier @ SV231 )
= $true )
| ( ( lattice @ SV231 )
= $false )
| ( ( ~ ( latt_str @ SV231 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV231 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2468]) ).
thf(2526,plain,
( ( ~ ( rel_str @ sK13_A )
| ~ ~ ( empty_carrier @ sK13_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2469]) ).
thf(2527,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
| ~ ( meet_commutative @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2471]) ).
thf(2528,plain,
( ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
| ~ ( transitive_relstr @ sK8_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2473]) ).
thf(2529,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2475]) ).
thf(2530,plain,
! [SV261: $i] :
( ( antisymmetric_relstr @ ( boole_POSet @ SV261 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2476]) ).
thf(2531,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2477]) ).
thf(2532,plain,
! [SV262: $i] :
( ( join_commutative @ ( boole_lattice @ SV262 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2478]) ).
thf(2533,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2479]) ).
thf(2534,plain,
! [SV263: $i] :
( ( modular_lattstr @ ( boole_lattice @ SV263 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2480]) ).
thf(2535,plain,
! [SV250: $i] :
( ( ( ( empty_carrier @ SV250 )
| ~ ( lattice @ SV250 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV250 ) )
= $true )
| ( ( latt_str @ SV250 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2481]) ).
thf(2536,plain,
! [SV251: $i] :
( ( ( ( empty_carrier @ SV251 )
| ~ ( lattice @ SV251 ) )
= $true )
| ( ( join_commutative @ SV251 )
= $true )
| ( ( latt_str @ SV251 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2482]) ).
thf(2537,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
| ~ ( join_absorbing @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2484]) ).
thf(2538,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2487]) ).
thf(2539,plain,
! [SV264: $i] :
( ( ~ ( latt_str @ SV264 )
| ( empty_carrier @ SV264 )
| ~ ( lattice @ SV264 )
| ~ ( distributive_lattstr @ SV264 )
| ( join_associative @ SV264 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2488]) ).
thf(2540,plain,
! [SV252: $i] :
( ( ( ( empty_carrier @ SV252 )
| ~ ( lattice @ SV252 )
| ~ ( distributive_lattstr @ SV252 ) )
= $true )
| ( ( meet_commutative @ SV252 )
= $true )
| ( ( latt_str @ SV252 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2489]) ).
thf(2541,plain,
! [SV236: $i] :
( ( ( lattice @ SV236 )
= $false )
| ( ( empty_carrier @ SV236 )
= $true )
| ( ( ~ ( distributive_lattstr @ SV236 ) )
= $true )
| ( ( meet_associative @ SV236 )
= $true )
| ( ( latt_str @ SV236 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2490]) ).
thf(2542,plain,
( ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
| ~ ( strict_latt_str @ sK3_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2493]) ).
thf(2543,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
| ~ ( meet_associative @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2495]) ).
thf(2544,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2497]) ).
thf(2545,plain,
! [SV265: $i] :
( ( distributive_lattstr @ ( boole_lattice @ SV265 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2498]) ).
thf(2546,plain,
! [SV266: $i] :
( ( ( empty_carrier @ SV266 )
| ~ ( lattice @ SV266 )
| ~ ( lower_bounded_semilattstr @ SV266 )
| ~ ( latt_str @ SV266 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SV266 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2499]) ).
thf(2547,plain,
! [SV267: $i] :
( ( ( empty_carrier @ SV267 )
| ~ ( lattice @ SV267 )
| ~ ( lower_bounded_semilattstr @ SV267 )
| ~ ( latt_str @ SV267 )
| ( strict_rel_str @ ( poset_of_lattice @ SV267 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2500]) ).
thf(2548,plain,
! [SV254: $i] :
( ( ( ( empty_carrier @ SV254 )
| ~ ( lattice @ SV254 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV254 ) )
= $true )
| ( ( ~ ( latt_str @ SV254 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV254 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2501]) ).
thf(2549,plain,
! [SV238: $i] :
( ( ( lower_bounded_semilattstr @ SV238 )
= $false )
| ( ( empty_carrier @ SV238 )
= $true )
| ( ( lattice @ SV238 )
= $false )
| ( ( ~ ( latt_str @ SV238 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV238 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2502]) ).
thf(2550,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2505]) ).
thf(2551,plain,
! [SV268: $i] :
( ( ~ ( latt_str @ SV268 )
| ( empty_carrier @ SV268 )
| ~ ( lattice @ SV268 )
| ~ ( complete_latt_str @ SV268 )
| ( meet_associative @ SV268 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2506]) ).
thf(2552,plain,
! [SV255: $i] :
( ( ( ( empty_carrier @ SV255 )
| ~ ( lattice @ SV255 )
| ~ ( complete_latt_str @ SV255 ) )
= $true )
| ( ( meet_absorbing @ SV255 )
= $true )
| ( ( latt_str @ SV255 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2507]) ).
thf(2553,plain,
! [SV239: $i] :
( ( ( lattice @ SV239 )
= $false )
| ( ( empty_carrier @ SV239 )
= $true )
| ( ( ~ ( complete_latt_str @ SV239 ) )
= $true )
| ( ( join_absorbing @ SV239 )
= $true )
| ( ( latt_str @ SV239 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2508]) ).
thf(2554,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2509]) ).
thf(2555,plain,
! [SV269: $i] :
( ( ( empty_carrier @ SV269 )
| ~ ( lattice @ SV269 )
| ~ ( complete_latt_str @ SV269 )
| ~ ( latt_str @ SV269 )
| ( antisymmetric_relstr @ ( poset_of_lattice @ SV269 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2510]) ).
thf(2556,plain,
! [SV256: $i] :
( ( ( ( empty_carrier @ SV256 )
| ~ ( lattice @ SV256 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV256 ) )
= $true )
| ( ( ~ ( latt_str @ SV256 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV256 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2511]) ).
thf(2557,plain,
! [SV240: $i] :
( ( ( complete_latt_str @ SV240 )
= $false )
| ( ( empty_carrier @ SV240 )
= $true )
| ( ( lattice @ SV240 )
= $false )
| ( ( ~ ( latt_str @ SV240 ) )
= $true )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV240 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2512]) ).
thf(2558,plain,
! [SV241: $i] :
( ( ( empty_carrier @ SV241 )
= $false )
| ( ( empty_carrier @ SV241 )
= $true )
| ( ( boolean_lattstr @ SV241 )
= $false )
| ( ( latt_str @ SV241 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2513]) ).
thf(2559,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
| ~ ( meet_associative @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2515]) ).
thf(2560,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ! [SY121: $i,SY122: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY121 @ SY122 ) )
| ( SV50 = SV243 ) )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[2517]) ).
thf(2561,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ! [SY123: $i] :
( ! [SY124: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY123 @ SY124 ) )
| ( SV66 = SY123 ) ) )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_not_neg,[status(thm)],[2518]) ).
thf(2562,plain,
! [SV258: $i,SV257: $i,SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SV257 @ SV258 ) ) )
= $true )
| ( ( SV71 = SV258 )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2519]) ).
thf(2563,plain,
! [SV244: $i] :
( ( ( lattice @ SV244 )
= $false )
| ( ( empty_carrier @ SV244 )
= $true )
| ( ( ~ ( latt_str @ SV244 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV244 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2520]) ).
thf(2564,plain,
! [SV245: $i] :
( ( ( lattice @ SV245 )
= $false )
| ( ( empty_carrier @ SV245 )
= $true )
| ( ( ~ ( latt_str @ SV245 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV245 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2521]) ).
thf(2565,plain,
! [SV259: $i] :
( ( ( ( empty_carrier @ SV259 )
| ~ ( lattice @ SV259 )
| ~ ( upper_bounded_semilattstr @ SV259 )
| ~ ( latt_str @ SV259 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV259 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2522]) ).
thf(2566,plain,
! [SV260: $i] :
( ( ( ( empty_carrier @ SV260 )
| ~ ( lattice @ SV260 )
| ~ ( upper_bounded_semilattstr @ SV260 )
| ~ ( latt_str @ SV260 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV260 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2523]) ).
thf(2567,plain,
! [SV246: $i] :
( ( ( empty_carrier @ SV246 )
= $true )
| ( ( ~ ( lattice @ SV246 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV246 ) )
= $true )
| ( ( ~ ( latt_str @ SV246 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV246 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2524]) ).
thf(2568,plain,
! [SV231: $i] :
( ( ( latt_str @ SV231 )
= $false )
| ( ( lattice @ SV231 )
= $false )
| ( ( empty_carrier @ SV231 )
= $true )
| ( ( upper_bounded_semilattstr @ SV231 )
= $false )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV231 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2525]) ).
thf(2569,plain,
( ( ~ ( rel_str @ sK13_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2526]) ).
thf(2570,plain,
( ( ~ ~ ( empty_carrier @ sK13_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2526]) ).
thf(2571,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2527]) ).
thf(2572,plain,
( ( ~ ( meet_commutative @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2527]) ).
thf(2573,plain,
( ( ~ ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2528]) ).
thf(2574,plain,
( ( ~ ( transitive_relstr @ sK8_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2528]) ).
thf(2575,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2529]) ).
thf(2576,plain,
( ( ~ ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2529]) ).
thf(2577,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2531]) ).
thf(2578,plain,
( ( ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2531]) ).
thf(2579,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2533]) ).
thf(2580,plain,
( ( ~ ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2533]) ).
thf(2581,plain,
! [SV250: $i] :
( ( ( empty_carrier @ SV250 )
= $true )
| ( ( ~ ( lattice @ SV250 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV250 ) )
= $true )
| ( ( latt_str @ SV250 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2535]) ).
thf(2582,plain,
! [SV251: $i] :
( ( ( empty_carrier @ SV251 )
= $true )
| ( ( ~ ( lattice @ SV251 ) )
= $true )
| ( ( join_commutative @ SV251 )
= $true )
| ( ( latt_str @ SV251 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2536]) ).
thf(2583,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2537]) ).
thf(2584,plain,
( ( ~ ( join_absorbing @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2537]) ).
thf(2585,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2538]) ).
thf(2586,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2538]) ).
thf(2587,plain,
! [SV264: $i] :
( ( ( ~ ( latt_str @ SV264 ) )
= $true )
| ( ( ( empty_carrier @ SV264 )
| ~ ( lattice @ SV264 )
| ~ ( distributive_lattstr @ SV264 )
| ( join_associative @ SV264 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2539]) ).
thf(2588,plain,
! [SV252: $i] :
( ( ( ( empty_carrier @ SV252 )
| ~ ( lattice @ SV252 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV252 ) )
= $true )
| ( ( meet_commutative @ SV252 )
= $true )
| ( ( latt_str @ SV252 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2540]) ).
thf(2589,plain,
! [SV236: $i] :
( ( ( distributive_lattstr @ SV236 )
= $false )
| ( ( empty_carrier @ SV236 )
= $true )
| ( ( lattice @ SV236 )
= $false )
| ( ( meet_associative @ SV236 )
= $true )
| ( ( latt_str @ SV236 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2541]) ).
thf(2590,plain,
( ( ~ ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2542]) ).
thf(2591,plain,
( ( ~ ( strict_latt_str @ sK3_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2542]) ).
thf(2592,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2543]) ).
thf(2593,plain,
( ( ~ ( meet_associative @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2543]) ).
thf(2594,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2544]) ).
thf(2595,plain,
( ( ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2544]) ).
thf(2596,plain,
! [SV266: $i] :
( ( ( ( empty_carrier @ SV266 )
| ~ ( lattice @ SV266 )
| ~ ( lower_bounded_semilattstr @ SV266 )
| ~ ( latt_str @ SV266 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV266 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2546]) ).
thf(2597,plain,
! [SV267: $i] :
( ( ( ( empty_carrier @ SV267 )
| ~ ( lattice @ SV267 )
| ~ ( lower_bounded_semilattstr @ SV267 )
| ~ ( latt_str @ SV267 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV267 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2547]) ).
thf(2598,plain,
! [SV254: $i] :
( ( ( empty_carrier @ SV254 )
= $true )
| ( ( ~ ( lattice @ SV254 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV254 ) )
= $true )
| ( ( ~ ( latt_str @ SV254 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV254 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2548]) ).
thf(2599,plain,
! [SV238: $i] :
( ( ( latt_str @ SV238 )
= $false )
| ( ( lattice @ SV238 )
= $false )
| ( ( empty_carrier @ SV238 )
= $true )
| ( ( lower_bounded_semilattstr @ SV238 )
= $false )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV238 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2549]) ).
thf(2600,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2550]) ).
thf(2601,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2550]) ).
thf(2602,plain,
! [SV268: $i] :
( ( ( ~ ( latt_str @ SV268 ) )
= $true )
| ( ( ( empty_carrier @ SV268 )
| ~ ( lattice @ SV268 )
| ~ ( complete_latt_str @ SV268 )
| ( meet_associative @ SV268 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2551]) ).
thf(2603,plain,
! [SV255: $i] :
( ( ( ( empty_carrier @ SV255 )
| ~ ( lattice @ SV255 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV255 ) )
= $true )
| ( ( meet_absorbing @ SV255 )
= $true )
| ( ( latt_str @ SV255 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2552]) ).
thf(2604,plain,
! [SV239: $i] :
( ( ( complete_latt_str @ SV239 )
= $false )
| ( ( empty_carrier @ SV239 )
= $true )
| ( ( lattice @ SV239 )
= $false )
| ( ( join_absorbing @ SV239 )
= $true )
| ( ( latt_str @ SV239 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2553]) ).
thf(2605,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2554]) ).
thf(2606,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2554]) ).
thf(2607,plain,
! [SV269: $i] :
( ( ( ( empty_carrier @ SV269 )
| ~ ( lattice @ SV269 )
| ~ ( complete_latt_str @ SV269 )
| ~ ( latt_str @ SV269 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV269 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2555]) ).
thf(2608,plain,
! [SV256: $i] :
( ( ( empty_carrier @ SV256 )
= $true )
| ( ( ~ ( lattice @ SV256 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV256 ) )
= $true )
| ( ( ~ ( latt_str @ SV256 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV256 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2556]) ).
thf(2609,plain,
! [SV240: $i] :
( ( ( latt_str @ SV240 )
= $false )
| ( ( lattice @ SV240 )
= $false )
| ( ( empty_carrier @ SV240 )
= $true )
| ( ( complete_latt_str @ SV240 )
= $false )
| ( ( upper_bounded_relstr @ ( poset_of_lattice @ SV240 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2557]) ).
thf(2610,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2559]) ).
thf(2611,plain,
( ( ~ ( meet_associative @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2559]) ).
thf(2612,plain,
! [SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ! [SY121: $i,SY122: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SY121 @ SY122 ) ) )
= $true )
| ( ( SV50 = SV243 )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2560]) ).
thf(2613,plain,
! [SV270: $i,SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ! [SY128: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SV270 @ SY128 ) )
| ( SV66 = SV270 ) )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[2561]) ).
thf(2614,plain,
! [SV258: $i,SV257: $i,SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
= ( latt_str_of @ SV243 @ SV257 @ SV258 ) )
= $false )
| ( ( SV71 = SV258 )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2562]) ).
thf(2615,plain,
! [SV244: $i] :
( ( ( latt_str @ SV244 )
= $false )
| ( ( empty_carrier @ SV244 )
= $true )
| ( ( lattice @ SV244 )
= $false )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV244 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2563]) ).
thf(2616,plain,
! [SV245: $i] :
( ( ( latt_str @ SV245 )
= $false )
| ( ( empty_carrier @ SV245 )
= $true )
| ( ( lattice @ SV245 )
= $false )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV245 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2564]) ).
thf(2617,plain,
! [SV259: $i] :
( ( ( ( empty_carrier @ SV259 )
| ~ ( lattice @ SV259 )
| ~ ( upper_bounded_semilattstr @ SV259 ) )
= $true )
| ( ( ~ ( latt_str @ SV259 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV259 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2565]) ).
thf(2618,plain,
! [SV260: $i] :
( ( ( ( empty_carrier @ SV260 )
| ~ ( lattice @ SV260 )
| ~ ( upper_bounded_semilattstr @ SV260 ) )
= $true )
| ( ( ~ ( latt_str @ SV260 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV260 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2566]) ).
thf(2619,plain,
! [SV246: $i] :
( ( ( lattice @ SV246 )
= $false )
| ( ( empty_carrier @ SV246 )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV246 ) )
= $true )
| ( ( ~ ( latt_str @ SV246 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV246 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2567]) ).
thf(2620,plain,
( ( rel_str @ sK13_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2569]) ).
thf(2621,plain,
( ( ~ ( empty_carrier @ sK13_A ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2570]) ).
thf(2622,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2571]) ).
thf(2623,plain,
( ( meet_commutative @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2572]) ).
thf(2624,plain,
( ( ~ ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2573]) ).
thf(2625,plain,
( ( transitive_relstr @ sK8_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2574]) ).
thf(2626,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2575]) ).
thf(2627,plain,
( ( ! [SX0: $i] : ( transitive_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2576]) ).
thf(2628,plain,
( ( ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2577]) ).
thf(2629,plain,
( ( ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2578]) ).
thf(2630,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2579]) ).
thf(2631,plain,
( ( ! [SX0: $i] : ( distributive_lattstr @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2580]) ).
thf(2632,plain,
! [SV250: $i] :
( ( ( lattice @ SV250 )
= $false )
| ( ( empty_carrier @ SV250 )
= $true )
| ( ( ~ ( empty_carrier @ SV250 ) )
= $true )
| ( ( latt_str @ SV250 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2581]) ).
thf(2633,plain,
! [SV251: $i] :
( ( ( lattice @ SV251 )
= $false )
| ( ( empty_carrier @ SV251 )
= $true )
| ( ( join_commutative @ SV251 )
= $true )
| ( ( latt_str @ SV251 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2582]) ).
thf(2634,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2583]) ).
thf(2635,plain,
( ( join_absorbing @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2584]) ).
thf(2636,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2585]) ).
thf(2637,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( distributive_lattstr @ SX0 )
| ( join_commutative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2586]) ).
thf(2638,plain,
! [SV264: $i] :
( ( ( latt_str @ SV264 )
= $false )
| ( ( ( empty_carrier @ SV264 )
| ~ ( lattice @ SV264 )
| ~ ( distributive_lattstr @ SV264 )
| ( join_associative @ SV264 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2587]) ).
thf(2639,plain,
! [SV252: $i] :
( ( ( empty_carrier @ SV252 )
= $true )
| ( ( ~ ( lattice @ SV252 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV252 ) )
= $true )
| ( ( meet_commutative @ SV252 )
= $true )
| ( ( latt_str @ SV252 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2588]) ).
thf(2640,plain,
( ( ~ ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2590]) ).
thf(2641,plain,
( ( strict_latt_str @ sK3_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2591]) ).
thf(2642,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2592]) ).
thf(2643,plain,
( ( meet_associative @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2593]) ).
thf(2644,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2594]) ).
thf(2645,plain,
( ( ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2595]) ).
thf(2646,plain,
! [SV266: $i] :
( ( ( ( empty_carrier @ SV266 )
| ~ ( lattice @ SV266 )
| ~ ( lower_bounded_semilattstr @ SV266 ) )
= $true )
| ( ( ~ ( latt_str @ SV266 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV266 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2596]) ).
thf(2647,plain,
! [SV267: $i] :
( ( ( ( empty_carrier @ SV267 )
| ~ ( lattice @ SV267 )
| ~ ( lower_bounded_semilattstr @ SV267 ) )
= $true )
| ( ( ~ ( latt_str @ SV267 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV267 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2597]) ).
thf(2648,plain,
! [SV254: $i] :
( ( ( lattice @ SV254 )
= $false )
| ( ( empty_carrier @ SV254 )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV254 ) )
= $true )
| ( ( ~ ( latt_str @ SV254 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV254 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2598]) ).
thf(2649,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2600]) ).
thf(2650,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( meet_commutative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2601]) ).
thf(2651,plain,
! [SV268: $i] :
( ( ( latt_str @ SV268 )
= $false )
| ( ( ( empty_carrier @ SV268 )
| ~ ( lattice @ SV268 )
| ~ ( complete_latt_str @ SV268 )
| ( meet_associative @ SV268 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2602]) ).
thf(2652,plain,
! [SV255: $i] :
( ( ( empty_carrier @ SV255 )
= $true )
| ( ( ~ ( lattice @ SV255 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV255 ) )
= $true )
| ( ( meet_absorbing @ SV255 )
= $true )
| ( ( latt_str @ SV255 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2603]) ).
thf(2653,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2605]) ).
thf(2654,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( transitive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2606]) ).
thf(2655,plain,
! [SV269: $i] :
( ( ( ( empty_carrier @ SV269 )
| ~ ( lattice @ SV269 )
| ~ ( complete_latt_str @ SV269 ) )
= $true )
| ( ( ~ ( latt_str @ SV269 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV269 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2607]) ).
thf(2656,plain,
! [SV256: $i] :
( ( ( lattice @ SV256 )
= $false )
| ( ( empty_carrier @ SV256 )
= $true )
| ( ( ~ ( complete_latt_str @ SV256 ) )
= $true )
| ( ( ~ ( latt_str @ SV256 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV256 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2608]) ).
thf(2657,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2610]) ).
thf(2658,plain,
( ( meet_associative @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2611]) ).
thf(2659,plain,
! [SV271: $i,SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ! [SY129: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SV271 @ SY129 ) ) )
= $true )
| ( ( SV50 = SV243 )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[2612]) ).
thf(2660,plain,
! [SV270: $i,SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ! [SY128: $i] :
( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SV270 @ SY128 ) ) )
= $true )
| ( ( SV66 = SV270 )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2613]) ).
thf(2661,plain,
! [SV244: $i] :
( ( ( empty_carrier @ ( poset_of_lattice @ SV244 ) )
= $false )
| ( ( lattice @ SV244 )
= $false )
| ( ( empty_carrier @ SV244 )
= $true )
| ( ( latt_str @ SV244 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2615]) ).
thf(2662,plain,
! [SV259: $i] :
( ( ( ( empty_carrier @ SV259 )
| ~ ( lattice @ SV259 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV259 ) )
= $true )
| ( ( ~ ( latt_str @ SV259 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV259 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2617]) ).
thf(2663,plain,
! [SV260: $i] :
( ( ( ( empty_carrier @ SV260 )
| ~ ( lattice @ SV260 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV260 ) )
= $true )
| ( ( ~ ( latt_str @ SV260 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV260 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2618]) ).
thf(2664,plain,
! [SV246: $i] :
( ( ( upper_bounded_semilattstr @ SV246 )
= $false )
| ( ( empty_carrier @ SV246 )
= $true )
| ( ( lattice @ SV246 )
= $false )
| ( ( ~ ( latt_str @ SV246 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV246 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2619]) ).
thf(2665,plain,
( ( empty_carrier @ sK13_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2621]) ).
thf(2666,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
| ~ ( join_associative @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2622]) ).
thf(2667,plain,
( ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
| ~ ( reflexive_relstr @ sK8_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2624]) ).
thf(2668,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
| ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2626]) ).
thf(2669,plain,
! [SV272: $i] :
( ( transitive_relstr @ ( boole_POSet @ SV272 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2627]) ).
thf(2670,plain,
! [SV273: $i] :
( ( ~ ( empty_carrier @ ( boole_lattice @ SV273 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2628]) ).
thf(2671,plain,
! [SV274: $i] :
( ( strict_latt_str @ ( boole_lattice @ SV274 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2629]) ).
thf(2672,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2630]) ).
thf(2673,plain,
! [SV275: $i] :
( ( distributive_lattstr @ ( boole_lattice @ SV275 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2631]) ).
thf(2674,plain,
! [SV250: $i] :
( ( ( empty_carrier @ SV250 )
= $false )
| ( ( empty_carrier @ SV250 )
= $true )
| ( ( lattice @ SV250 )
= $false )
| ( ( latt_str @ SV250 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2632]) ).
thf(2675,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
| ~ ( meet_absorbing @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2634]) ).
thf(2676,plain,
! [SV276: $i] :
( ( ~ ( latt_str @ SV276 )
| ( empty_carrier @ SV276 )
| ~ ( lattice @ SV276 )
| ~ ( distributive_lattstr @ SV276 )
| ~ ( empty_carrier @ SV276 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2636]) ).
thf(2677,plain,
! [SV277: $i] :
( ( ~ ( latt_str @ SV277 )
| ( empty_carrier @ SV277 )
| ~ ( lattice @ SV277 )
| ~ ( distributive_lattstr @ SV277 )
| ( join_commutative @ SV277 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2637]) ).
thf(2678,plain,
! [SV264: $i] :
( ( ( ( empty_carrier @ SV264 )
| ~ ( lattice @ SV264 )
| ~ ( distributive_lattstr @ SV264 ) )
= $true )
| ( ( join_associative @ SV264 )
= $true )
| ( ( latt_str @ SV264 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2638]) ).
thf(2679,plain,
! [SV252: $i] :
( ( ( lattice @ SV252 )
= $false )
| ( ( empty_carrier @ SV252 )
= $true )
| ( ( ~ ( distributive_lattstr @ SV252 ) )
= $true )
| ( ( meet_commutative @ SV252 )
= $true )
| ( ( latt_str @ SV252 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2639]) ).
thf(2680,plain,
( ( ~ ( latt_str @ sK3_A )
| ~ ~ ( empty_carrier @ sK3_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2640]) ).
thf(2681,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
| ~ ( meet_commutative @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2642]) ).
thf(2682,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2644]) ).
thf(2683,plain,
! [SV278: $i] :
( ( lattice @ ( boole_lattice @ SV278 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2645]) ).
thf(2684,plain,
! [SV266: $i] :
( ( ( ( empty_carrier @ SV266 )
| ~ ( lattice @ SV266 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV266 ) )
= $true )
| ( ( ~ ( latt_str @ SV266 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV266 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2646]) ).
thf(2685,plain,
! [SV267: $i] :
( ( ( ( empty_carrier @ SV267 )
| ~ ( lattice @ SV267 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV267 ) )
= $true )
| ( ( ~ ( latt_str @ SV267 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV267 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2647]) ).
thf(2686,plain,
! [SV254: $i] :
( ( ( lower_bounded_semilattstr @ SV254 )
= $false )
| ( ( empty_carrier @ SV254 )
= $true )
| ( ( lattice @ SV254 )
= $false )
| ( ( ~ ( latt_str @ SV254 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV254 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2648]) ).
thf(2687,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2649]) ).
thf(2688,plain,
! [SV279: $i] :
( ( ~ ( latt_str @ SV279 )
| ( empty_carrier @ SV279 )
| ~ ( lattice @ SV279 )
| ~ ( complete_latt_str @ SV279 )
| ( meet_commutative @ SV279 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2650]) ).
thf(2689,plain,
! [SV268: $i] :
( ( ( ( empty_carrier @ SV268 )
| ~ ( lattice @ SV268 )
| ~ ( complete_latt_str @ SV268 ) )
= $true )
| ( ( meet_associative @ SV268 )
= $true )
| ( ( latt_str @ SV268 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2651]) ).
thf(2690,plain,
! [SV255: $i] :
( ( ( lattice @ SV255 )
= $false )
| ( ( empty_carrier @ SV255 )
= $true )
| ( ( ~ ( complete_latt_str @ SV255 ) )
= $true )
| ( ( meet_absorbing @ SV255 )
= $true )
| ( ( latt_str @ SV255 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2652]) ).
thf(2691,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2653]) ).
thf(2692,plain,
! [SV280: $i] :
( ( ( empty_carrier @ SV280 )
| ~ ( lattice @ SV280 )
| ~ ( complete_latt_str @ SV280 )
| ~ ( latt_str @ SV280 )
| ( transitive_relstr @ ( poset_of_lattice @ SV280 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2654]) ).
thf(2693,plain,
! [SV269: $i] :
( ( ( ( empty_carrier @ SV269 )
| ~ ( lattice @ SV269 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV269 ) )
= $true )
| ( ( ~ ( latt_str @ SV269 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV269 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2655]) ).
thf(2694,plain,
! [SV256: $i] :
( ( ( complete_latt_str @ SV256 )
= $false )
| ( ( empty_carrier @ SV256 )
= $true )
| ( ( lattice @ SV256 )
= $false )
| ( ( ~ ( latt_str @ SV256 ) )
= $true )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV256 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2656]) ).
thf(2695,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
| ~ ( meet_commutative @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2657]) ).
thf(2696,plain,
! [SV281: $i,SV271: $i,SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SV271 @ SV281 ) ) )
= $true )
| ( ( SV50 = SV243 )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[2659]) ).
thf(2697,plain,
! [SV282: $i,SV270: $i,SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
!= ( latt_str_of @ SV243 @ SV270 @ SV282 ) ) )
= $true )
| ( ( SV66 = SV270 )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_forall_pos,[status(thm)],[2660]) ).
thf(2698,plain,
! [SV259: $i] :
( ( ( empty_carrier @ SV259 )
= $true )
| ( ( ~ ( lattice @ SV259 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV259 ) )
= $true )
| ( ( ~ ( latt_str @ SV259 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV259 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2662]) ).
thf(2699,plain,
! [SV260: $i] :
( ( ( empty_carrier @ SV260 )
= $true )
| ( ( ~ ( lattice @ SV260 ) )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV260 ) )
= $true )
| ( ( ~ ( latt_str @ SV260 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV260 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2663]) ).
thf(2700,plain,
! [SV246: $i] :
( ( ( latt_str @ SV246 )
= $false )
| ( ( lattice @ SV246 )
= $false )
| ( ( empty_carrier @ SV246 )
= $true )
| ( ( upper_bounded_semilattstr @ SV246 )
= $false )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV246 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2664]) ).
thf(2701,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2666]) ).
thf(2702,plain,
( ( ~ ( join_associative @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2666]) ).
thf(2703,plain,
( ( ~ ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2667]) ).
thf(2704,plain,
( ( ~ ( reflexive_relstr @ sK8_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2667]) ).
thf(2705,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2668]) ).
thf(2706,plain,
( ( ~ ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2668]) ).
thf(2707,plain,
! [SV273: $i] :
( ( empty_carrier @ ( boole_lattice @ SV273 ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2670]) ).
thf(2708,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2672]) ).
thf(2709,plain,
( ( ~ ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2672]) ).
thf(2710,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2675]) ).
thf(2711,plain,
( ( ~ ( meet_absorbing @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2675]) ).
thf(2712,plain,
! [SV276: $i] :
( ( ( ~ ( latt_str @ SV276 ) )
= $true )
| ( ( ( empty_carrier @ SV276 )
| ~ ( lattice @ SV276 )
| ~ ( distributive_lattstr @ SV276 )
| ~ ( empty_carrier @ SV276 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2676]) ).
thf(2713,plain,
! [SV277: $i] :
( ( ( ~ ( latt_str @ SV277 ) )
= $true )
| ( ( ( empty_carrier @ SV277 )
| ~ ( lattice @ SV277 )
| ~ ( distributive_lattstr @ SV277 )
| ( join_commutative @ SV277 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2677]) ).
thf(2714,plain,
! [SV264: $i] :
( ( ( ( empty_carrier @ SV264 )
| ~ ( lattice @ SV264 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV264 ) )
= $true )
| ( ( join_associative @ SV264 )
= $true )
| ( ( latt_str @ SV264 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2678]) ).
thf(2715,plain,
! [SV252: $i] :
( ( ( distributive_lattstr @ SV252 )
= $false )
| ( ( empty_carrier @ SV252 )
= $true )
| ( ( lattice @ SV252 )
= $false )
| ( ( meet_commutative @ SV252 )
= $true )
| ( ( latt_str @ SV252 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2679]) ).
thf(2716,plain,
( ( ~ ( latt_str @ sK3_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2680]) ).
thf(2717,plain,
( ( ~ ~ ( empty_carrier @ sK3_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2680]) ).
thf(2718,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2681]) ).
thf(2719,plain,
( ( ~ ( meet_commutative @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2681]) ).
thf(2720,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2682]) ).
thf(2721,plain,
( ( ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2682]) ).
thf(2722,plain,
! [SV266: $i] :
( ( ( empty_carrier @ SV266 )
= $true )
| ( ( ~ ( lattice @ SV266 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV266 ) )
= $true )
| ( ( ~ ( latt_str @ SV266 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV266 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2684]) ).
thf(2723,plain,
! [SV267: $i] :
( ( ( empty_carrier @ SV267 )
= $true )
| ( ( ~ ( lattice @ SV267 ) )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV267 ) )
= $true )
| ( ( ~ ( latt_str @ SV267 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV267 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2685]) ).
thf(2724,plain,
! [SV254: $i] :
( ( ( latt_str @ SV254 )
= $false )
| ( ( lattice @ SV254 )
= $false )
| ( ( empty_carrier @ SV254 )
= $true )
| ( ( lower_bounded_semilattstr @ SV254 )
= $false )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV254 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2686]) ).
thf(2725,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2687]) ).
thf(2726,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2687]) ).
thf(2727,plain,
! [SV279: $i] :
( ( ( ~ ( latt_str @ SV279 ) )
= $true )
| ( ( ( empty_carrier @ SV279 )
| ~ ( lattice @ SV279 )
| ~ ( complete_latt_str @ SV279 )
| ( meet_commutative @ SV279 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2688]) ).
thf(2728,plain,
! [SV268: $i] :
( ( ( ( empty_carrier @ SV268 )
| ~ ( lattice @ SV268 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV268 ) )
= $true )
| ( ( meet_associative @ SV268 )
= $true )
| ( ( latt_str @ SV268 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2689]) ).
thf(2729,plain,
! [SV255: $i] :
( ( ( complete_latt_str @ SV255 )
= $false )
| ( ( empty_carrier @ SV255 )
= $true )
| ( ( lattice @ SV255 )
= $false )
| ( ( meet_absorbing @ SV255 )
= $true )
| ( ( latt_str @ SV255 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2690]) ).
thf(2730,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2691]) ).
thf(2731,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2691]) ).
thf(2732,plain,
! [SV280: $i] :
( ( ( ( empty_carrier @ SV280 )
| ~ ( lattice @ SV280 )
| ~ ( complete_latt_str @ SV280 )
| ~ ( latt_str @ SV280 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV280 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2692]) ).
thf(2733,plain,
! [SV269: $i] :
( ( ( empty_carrier @ SV269 )
= $true )
| ( ( ~ ( lattice @ SV269 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV269 ) )
= $true )
| ( ( ~ ( latt_str @ SV269 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV269 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2693]) ).
thf(2734,plain,
! [SV256: $i] :
( ( ( latt_str @ SV256 )
= $false )
| ( ( lattice @ SV256 )
= $false )
| ( ( empty_carrier @ SV256 )
= $true )
| ( ( complete_latt_str @ SV256 )
= $false )
| ( ( lower_bounded_relstr @ ( poset_of_lattice @ SV256 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2694]) ).
thf(2735,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2695]) ).
thf(2736,plain,
( ( ~ ( meet_commutative @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2695]) ).
thf(2737,plain,
! [SV281: $i,SV271: $i,SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
= ( latt_str_of @ SV243 @ SV271 @ SV281 ) )
= $false )
| ( ( SV50 = SV243 )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2696]) ).
thf(2738,plain,
! [SV282: $i,SV270: $i,SV243: $i,SV71: $i,SV66: $i,SV50: $i] :
( ( ( ( latt_str_of @ SV50 @ SV66 @ SV71 )
= ( latt_str_of @ SV243 @ SV270 @ SV282 ) )
= $false )
| ( ( SV66 = SV270 )
= $true )
| ( ( quasi_total @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( relation_of2 @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV66 )
= $false )
| ( ( quasi_total @ SV66 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false )
| ( ( function @ SV71 )
= $false )
| ( ( relation_of2 @ SV71 @ ( cartesian_product2 @ SV50 @ SV50 ) @ SV50 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2697]) ).
thf(2739,plain,
! [SV259: $i] :
( ( ( lattice @ SV259 )
= $false )
| ( ( empty_carrier @ SV259 )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV259 ) )
= $true )
| ( ( ~ ( latt_str @ SV259 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV259 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2698]) ).
thf(2740,plain,
! [SV260: $i] :
( ( ( lattice @ SV260 )
= $false )
| ( ( empty_carrier @ SV260 )
= $true )
| ( ( ~ ( upper_bounded_semilattstr @ SV260 ) )
= $true )
| ( ( ~ ( latt_str @ SV260 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV260 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2699]) ).
thf(2741,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2701]) ).
thf(2742,plain,
( ( join_associative @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2702]) ).
thf(2743,plain,
( ( ~ ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2703]) ).
thf(2744,plain,
( ( reflexive_relstr @ sK8_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2704]) ).
thf(2745,plain,
( ( ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2705]) ).
thf(2746,plain,
( ( ! [SX0: $i] : ( reflexive_relstr @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2706]) ).
thf(2747,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2708]) ).
thf(2748,plain,
( ( ! [SX0: $i] : ( lattice @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2709]) ).
thf(2749,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2710]) ).
thf(2750,plain,
( ( meet_absorbing @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2711]) ).
thf(2751,plain,
! [SV276: $i] :
( ( ( latt_str @ SV276 )
= $false )
| ( ( ( empty_carrier @ SV276 )
| ~ ( lattice @ SV276 )
| ~ ( distributive_lattstr @ SV276 )
| ~ ( empty_carrier @ SV276 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2712]) ).
thf(2752,plain,
! [SV277: $i] :
( ( ( latt_str @ SV277 )
= $false )
| ( ( ( empty_carrier @ SV277 )
| ~ ( lattice @ SV277 )
| ~ ( distributive_lattstr @ SV277 )
| ( join_commutative @ SV277 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2713]) ).
thf(2753,plain,
! [SV264: $i] :
( ( ( empty_carrier @ SV264 )
= $true )
| ( ( ~ ( lattice @ SV264 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV264 ) )
= $true )
| ( ( join_associative @ SV264 )
= $true )
| ( ( latt_str @ SV264 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2714]) ).
thf(2754,plain,
( ( latt_str @ sK3_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2716]) ).
thf(2755,plain,
( ( ~ ( empty_carrier @ sK3_A ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2717]) ).
thf(2756,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2718]) ).
thf(2757,plain,
( ( meet_commutative @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2719]) ).
thf(2758,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2720]) ).
thf(2759,plain,
( ( ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2721]) ).
thf(2760,plain,
! [SV266: $i] :
( ( ( lattice @ SV266 )
= $false )
| ( ( empty_carrier @ SV266 )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV266 ) )
= $true )
| ( ( ~ ( latt_str @ SV266 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV266 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2722]) ).
thf(2761,plain,
! [SV267: $i] :
( ( ( lattice @ SV267 )
= $false )
| ( ( empty_carrier @ SV267 )
= $true )
| ( ( ~ ( lower_bounded_semilattstr @ SV267 ) )
= $true )
| ( ( ~ ( latt_str @ SV267 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV267 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2723]) ).
thf(2762,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2725]) ).
thf(2763,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_associative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2726]) ).
thf(2764,plain,
! [SV279: $i] :
( ( ( latt_str @ SV279 )
= $false )
| ( ( ( empty_carrier @ SV279 )
| ~ ( lattice @ SV279 )
| ~ ( complete_latt_str @ SV279 )
| ( meet_commutative @ SV279 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2727]) ).
thf(2765,plain,
! [SV268: $i] :
( ( ( empty_carrier @ SV268 )
= $true )
| ( ( ~ ( lattice @ SV268 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV268 ) )
= $true )
| ( ( meet_associative @ SV268 )
= $true )
| ( ( latt_str @ SV268 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2728]) ).
thf(2766,plain,
( ( ~ ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2730]) ).
thf(2767,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( reflexive_relstr @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2731]) ).
thf(2768,plain,
! [SV280: $i] :
( ( ( ( empty_carrier @ SV280 )
| ~ ( lattice @ SV280 )
| ~ ( complete_latt_str @ SV280 ) )
= $true )
| ( ( ~ ( latt_str @ SV280 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV280 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2732]) ).
thf(2769,plain,
! [SV269: $i] :
( ( ( lattice @ SV269 )
= $false )
| ( ( empty_carrier @ SV269 )
= $true )
| ( ( ~ ( complete_latt_str @ SV269 ) )
= $true )
| ( ( ~ ( latt_str @ SV269 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV269 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2733]) ).
thf(2770,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2735]) ).
thf(2771,plain,
( ( meet_commutative @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2736]) ).
thf(2772,plain,
! [SV259: $i] :
( ( ( upper_bounded_semilattstr @ SV259 )
= $false )
| ( ( empty_carrier @ SV259 )
= $true )
| ( ( lattice @ SV259 )
= $false )
| ( ( ~ ( latt_str @ SV259 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV259 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2739]) ).
thf(2773,plain,
! [SV260: $i] :
( ( ( upper_bounded_semilattstr @ SV260 )
= $false )
| ( ( empty_carrier @ SV260 )
= $true )
| ( ( lattice @ SV260 )
= $false )
| ( ( ~ ( latt_str @ SV260 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV260 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2740]) ).
thf(2774,plain,
( ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
| ~ ( join_commutative @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2741]) ).
thf(2775,plain,
( ( ~ ( rel_str @ sK8_A )
| ~ ~ ( empty_carrier @ sK8_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2743]) ).
thf(2776,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2745]) ).
thf(2777,plain,
! [SV283: $i] :
( ( reflexive_relstr @ ( boole_POSet @ SV283 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2746]) ).
thf(2778,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2747]) ).
thf(2779,plain,
! [SV284: $i] :
( ( lattice @ ( boole_lattice @ SV284 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2748]) ).
thf(2780,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
| ~ ( meet_associative @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2749]) ).
thf(2781,plain,
! [SV276: $i] :
( ( ( ( empty_carrier @ SV276 )
| ~ ( lattice @ SV276 )
| ~ ( distributive_lattstr @ SV276 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV276 ) )
= $true )
| ( ( latt_str @ SV276 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2751]) ).
thf(2782,plain,
! [SV277: $i] :
( ( ( ( empty_carrier @ SV277 )
| ~ ( lattice @ SV277 )
| ~ ( distributive_lattstr @ SV277 ) )
= $true )
| ( ( join_commutative @ SV277 )
= $true )
| ( ( latt_str @ SV277 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2752]) ).
thf(2783,plain,
! [SV264: $i] :
( ( ( lattice @ SV264 )
= $false )
| ( ( empty_carrier @ SV264 )
= $true )
| ( ( ~ ( distributive_lattstr @ SV264 ) )
= $true )
| ( ( join_associative @ SV264 )
= $true )
| ( ( latt_str @ SV264 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2753]) ).
thf(2784,plain,
( ( empty_carrier @ sK3_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2755]) ).
thf(2785,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
| ~ ( join_associative @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2756]) ).
thf(2786,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2758]) ).
thf(2787,plain,
! [SV285: $i] :
( ( join_absorbing @ ( boole_lattice @ SV285 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2759]) ).
thf(2788,plain,
! [SV266: $i] :
( ( ( lower_bounded_semilattstr @ SV266 )
= $false )
| ( ( empty_carrier @ SV266 )
= $true )
| ( ( lattice @ SV266 )
= $false )
| ( ( ~ ( latt_str @ SV266 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV266 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2760]) ).
thf(2789,plain,
! [SV267: $i] :
( ( ( lower_bounded_semilattstr @ SV267 )
= $false )
| ( ( empty_carrier @ SV267 )
= $true )
| ( ( lattice @ SV267 )
= $false )
| ( ( ~ ( latt_str @ SV267 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV267 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2761]) ).
thf(2790,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) )
| ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2762]) ).
thf(2791,plain,
! [SV286: $i] :
( ( ~ ( latt_str @ SV286 )
| ( empty_carrier @ SV286 )
| ~ ( lattice @ SV286 )
| ~ ( complete_latt_str @ SV286 )
| ( join_associative @ SV286 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2763]) ).
thf(2792,plain,
! [SV279: $i] :
( ( ( ( empty_carrier @ SV279 )
| ~ ( lattice @ SV279 )
| ~ ( complete_latt_str @ SV279 ) )
= $true )
| ( ( meet_commutative @ SV279 )
= $true )
| ( ( latt_str @ SV279 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2764]) ).
thf(2793,plain,
! [SV268: $i] :
( ( ( lattice @ SV268 )
= $false )
| ( ( empty_carrier @ SV268 )
= $true )
| ( ( ~ ( complete_latt_str @ SV268 ) )
= $true )
| ( ( meet_associative @ SV268 )
= $true )
| ( ( latt_str @ SV268 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2765]) ).
thf(2794,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2766]) ).
thf(2795,plain,
! [SV287: $i] :
( ( ( empty_carrier @ SV287 )
| ~ ( lattice @ SV287 )
| ~ ( complete_latt_str @ SV287 )
| ~ ( latt_str @ SV287 )
| ( reflexive_relstr @ ( poset_of_lattice @ SV287 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2767]) ).
thf(2796,plain,
! [SV280: $i] :
( ( ( ( empty_carrier @ SV280 )
| ~ ( lattice @ SV280 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV280 ) )
= $true )
| ( ( ~ ( latt_str @ SV280 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV280 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2768]) ).
thf(2797,plain,
! [SV269: $i] :
( ( ( complete_latt_str @ SV269 )
= $false )
| ( ( empty_carrier @ SV269 )
= $true )
| ( ( lattice @ SV269 )
= $false )
| ( ( ~ ( latt_str @ SV269 ) )
= $true )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV269 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2769]) ).
thf(2798,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
| ~ ( join_associative @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2770]) ).
thf(2799,plain,
! [SV259: $i] :
( ( ( latt_str @ SV259 )
= $false )
| ( ( lattice @ SV259 )
= $false )
| ( ( empty_carrier @ SV259 )
= $true )
| ( ( upper_bounded_semilattstr @ SV259 )
= $false )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV259 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2772]) ).
thf(2800,plain,
! [SV260: $i] :
( ( ( latt_str @ SV260 )
= $false )
| ( ( lattice @ SV260 )
= $false )
| ( ( empty_carrier @ SV260 )
= $true )
| ( ( upper_bounded_semilattstr @ SV260 )
= $false )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV260 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2773]) ).
thf(2801,plain,
( ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2774]) ).
thf(2802,plain,
( ( ~ ( join_commutative @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2774]) ).
thf(2803,plain,
( ( ~ ( rel_str @ sK8_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2775]) ).
thf(2804,plain,
( ( ~ ~ ( empty_carrier @ sK8_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2775]) ).
thf(2805,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2776]) ).
thf(2806,plain,
( ( ~ ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2776]) ).
thf(2807,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2778]) ).
thf(2808,plain,
( ( ~ ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2778]) ).
thf(2809,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2780]) ).
thf(2810,plain,
( ( ~ ( meet_associative @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2780]) ).
thf(2811,plain,
! [SV276: $i] :
( ( ( ( empty_carrier @ SV276 )
| ~ ( lattice @ SV276 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV276 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV276 ) )
= $true )
| ( ( latt_str @ SV276 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2781]) ).
thf(2812,plain,
! [SV277: $i] :
( ( ( ( empty_carrier @ SV277 )
| ~ ( lattice @ SV277 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV277 ) )
= $true )
| ( ( join_commutative @ SV277 )
= $true )
| ( ( latt_str @ SV277 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2782]) ).
thf(2813,plain,
! [SV264: $i] :
( ( ( distributive_lattstr @ SV264 )
= $false )
| ( ( empty_carrier @ SV264 )
= $true )
| ( ( lattice @ SV264 )
= $false )
| ( ( join_associative @ SV264 )
= $true )
| ( ( latt_str @ SV264 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2783]) ).
thf(2814,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2785]) ).
thf(2815,plain,
( ( ~ ( join_associative @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2785]) ).
thf(2816,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2786]) ).
thf(2817,plain,
( ( ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2786]) ).
thf(2818,plain,
! [SV266: $i] :
( ( ( latt_str @ SV266 )
= $false )
| ( ( lattice @ SV266 )
= $false )
| ( ( empty_carrier @ SV266 )
= $true )
| ( ( lower_bounded_semilattstr @ SV266 )
= $false )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV266 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2788]) ).
thf(2819,plain,
! [SV267: $i] :
( ( ( latt_str @ SV267 )
= $false )
| ( ( lattice @ SV267 )
= $false )
| ( ( empty_carrier @ SV267 )
= $true )
| ( ( lower_bounded_semilattstr @ SV267 )
= $false )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV267 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2789]) ).
thf(2820,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2790]) ).
thf(2821,plain,
( ( ~ ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2790]) ).
thf(2822,plain,
! [SV286: $i] :
( ( ( ~ ( latt_str @ SV286 ) )
= $true )
| ( ( ( empty_carrier @ SV286 )
| ~ ( lattice @ SV286 )
| ~ ( complete_latt_str @ SV286 )
| ( join_associative @ SV286 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2791]) ).
thf(2823,plain,
! [SV279: $i] :
( ( ( ( empty_carrier @ SV279 )
| ~ ( lattice @ SV279 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV279 ) )
= $true )
| ( ( meet_commutative @ SV279 )
= $true )
| ( ( latt_str @ SV279 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2792]) ).
thf(2824,plain,
! [SV268: $i] :
( ( ( complete_latt_str @ SV268 )
= $false )
| ( ( empty_carrier @ SV268 )
= $true )
| ( ( lattice @ SV268 )
= $false )
| ( ( meet_associative @ SV268 )
= $true )
| ( ( latt_str @ SV268 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2793]) ).
thf(2825,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2794]) ).
thf(2826,plain,
( ( ~ ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2794]) ).
thf(2827,plain,
! [SV287: $i] :
( ( ( ( empty_carrier @ SV287 )
| ~ ( lattice @ SV287 )
| ~ ( complete_latt_str @ SV287 )
| ~ ( latt_str @ SV287 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV287 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2795]) ).
thf(2828,plain,
! [SV280: $i] :
( ( ( empty_carrier @ SV280 )
= $true )
| ( ( ~ ( lattice @ SV280 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV280 ) )
= $true )
| ( ( ~ ( latt_str @ SV280 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV280 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2796]) ).
thf(2829,plain,
! [SV269: $i] :
( ( ( latt_str @ SV269 )
= $false )
| ( ( lattice @ SV269 )
= $false )
| ( ( empty_carrier @ SV269 )
= $true )
| ( ( complete_latt_str @ SV269 )
= $false )
| ( ( antisymmetric_relstr @ ( poset_of_lattice @ SV269 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2797]) ).
thf(2830,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2798]) ).
thf(2831,plain,
( ( ~ ( join_associative @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2798]) ).
thf(2832,plain,
! [SV259: $i] :
( ( ( empty_carrier @ ( poset_of_lattice @ SV259 ) )
= $false )
| ( ( upper_bounded_semilattstr @ SV259 )
= $false )
| ( ( empty_carrier @ SV259 )
= $true )
| ( ( lattice @ SV259 )
= $false )
| ( ( latt_str @ SV259 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2799]) ).
thf(2833,plain,
( ( ~ ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2801]) ).
thf(2834,plain,
( ( join_commutative @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2802]) ).
thf(2835,plain,
( ( rel_str @ sK8_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2803]) ).
thf(2836,plain,
( ( ~ ( empty_carrier @ sK8_A ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2804]) ).
thf(2837,plain,
( ( ! [SX0: $i] :
~ ( empty_carrier @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2805]) ).
thf(2838,plain,
( ( ! [SX0: $i] : ( strict_rel_str @ ( boole_POSet @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2806]) ).
thf(2839,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2807]) ).
thf(2840,plain,
( ( ! [SX0: $i] : ( join_absorbing @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2808]) ).
thf(2841,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2809]) ).
thf(2842,plain,
( ( meet_associative @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2810]) ).
thf(2843,plain,
! [SV276: $i] :
( ( ( empty_carrier @ SV276 )
= $true )
| ( ( ~ ( lattice @ SV276 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV276 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV276 ) )
= $true )
| ( ( latt_str @ SV276 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2811]) ).
thf(2844,plain,
! [SV277: $i] :
( ( ( empty_carrier @ SV277 )
= $true )
| ( ( ~ ( lattice @ SV277 ) )
= $true )
| ( ( ~ ( distributive_lattstr @ SV277 ) )
= $true )
| ( ( join_commutative @ SV277 )
= $true )
| ( ( latt_str @ SV277 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2812]) ).
thf(2845,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2814]) ).
thf(2846,plain,
( ( join_associative @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2815]) ).
thf(2847,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2816]) ).
thf(2848,plain,
( ( ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2817]) ).
thf(2849,plain,
! [SV266: $i] :
( ( ( empty_carrier @ ( poset_of_lattice @ SV266 ) )
= $false )
| ( ( lower_bounded_semilattstr @ SV266 )
= $false )
| ( ( empty_carrier @ SV266 )
= $true )
| ( ( lattice @ SV266 )
= $false )
| ( ( latt_str @ SV266 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2818]) ).
thf(2850,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( empty_carrier @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2820]) ).
thf(2851,plain,
( ( ! [SX0: $i] :
( ~ ( latt_str @ SX0 )
| ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ( join_commutative @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2821]) ).
thf(2852,plain,
! [SV286: $i] :
( ( ( latt_str @ SV286 )
= $false )
| ( ( ( empty_carrier @ SV286 )
| ~ ( lattice @ SV286 )
| ~ ( complete_latt_str @ SV286 )
| ( join_associative @ SV286 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2822]) ).
thf(2853,plain,
! [SV279: $i] :
( ( ( empty_carrier @ SV279 )
= $true )
| ( ( ~ ( lattice @ SV279 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV279 ) )
= $true )
| ( ( meet_commutative @ SV279 )
= $true )
| ( ( latt_str @ SV279 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2823]) ).
thf(2854,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2825]) ).
thf(2855,plain,
( ( ! [SX0: $i] :
( ( empty_carrier @ SX0 )
| ~ ( lattice @ SX0 )
| ~ ( complete_latt_str @ SX0 )
| ~ ( latt_str @ SX0 )
| ( strict_rel_str @ ( poset_of_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2826]) ).
thf(2856,plain,
! [SV287: $i] :
( ( ( ( empty_carrier @ SV287 )
| ~ ( lattice @ SV287 )
| ~ ( complete_latt_str @ SV287 ) )
= $true )
| ( ( ~ ( latt_str @ SV287 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV287 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2827]) ).
thf(2857,plain,
! [SV280: $i] :
( ( ( lattice @ SV280 )
= $false )
| ( ( empty_carrier @ SV280 )
= $true )
| ( ( ~ ( complete_latt_str @ SV280 ) )
= $true )
| ( ( ~ ( latt_str @ SV280 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV280 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2828]) ).
thf(2858,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2830]) ).
thf(2859,plain,
( ( join_associative @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2831]) ).
thf(2860,plain,
( ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
| ~ ( strict_latt_str @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2833]) ).
thf(2861,plain,
( ( empty_carrier @ sK8_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2836]) ).
thf(2862,plain,
! [SV288: $i] :
( ( ~ ( empty_carrier @ ( boole_POSet @ SV288 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2837]) ).
thf(2863,plain,
! [SV289: $i] :
( ( strict_rel_str @ ( boole_POSet @ SV289 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2838]) ).
thf(2864,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2839]) ).
thf(2865,plain,
! [SV290: $i] :
( ( join_absorbing @ ( boole_lattice @ SV290 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2840]) ).
thf(2866,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
| ~ ( meet_commutative @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2841]) ).
thf(2867,plain,
! [SV276: $i] :
( ( ( lattice @ SV276 )
= $false )
| ( ( empty_carrier @ SV276 )
= $true )
| ( ( ~ ( distributive_lattstr @ SV276 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV276 ) )
= $true )
| ( ( latt_str @ SV276 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2843]) ).
thf(2868,plain,
! [SV277: $i] :
( ( ( lattice @ SV277 )
= $false )
| ( ( empty_carrier @ SV277 )
= $true )
| ( ( ~ ( distributive_lattstr @ SV277 ) )
= $true )
| ( ( join_commutative @ SV277 )
= $true )
| ( ( latt_str @ SV277 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2844]) ).
thf(2869,plain,
( ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
| ~ ( join_commutative @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2845]) ).
thf(2870,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2847]) ).
thf(2871,plain,
! [SV291: $i] :
( ( meet_absorbing @ ( boole_lattice @ SV291 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2848]) ).
thf(2872,plain,
! [SV292: $i] :
( ( ~ ( latt_str @ SV292 )
| ( empty_carrier @ SV292 )
| ~ ( lattice @ SV292 )
| ~ ( complete_latt_str @ SV292 )
| ~ ( empty_carrier @ SV292 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2850]) ).
thf(2873,plain,
! [SV293: $i] :
( ( ~ ( latt_str @ SV293 )
| ( empty_carrier @ SV293 )
| ~ ( lattice @ SV293 )
| ~ ( complete_latt_str @ SV293 )
| ( join_commutative @ SV293 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2851]) ).
thf(2874,plain,
! [SV286: $i] :
( ( ( ( empty_carrier @ SV286 )
| ~ ( lattice @ SV286 )
| ~ ( complete_latt_str @ SV286 ) )
= $true )
| ( ( join_associative @ SV286 )
= $true )
| ( ( latt_str @ SV286 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2852]) ).
thf(2875,plain,
! [SV279: $i] :
( ( ( lattice @ SV279 )
= $false )
| ( ( empty_carrier @ SV279 )
= $true )
| ( ( ~ ( complete_latt_str @ SV279 ) )
= $true )
| ( ( meet_commutative @ SV279 )
= $true )
| ( ( latt_str @ SV279 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2853]) ).
thf(2876,plain,
! [SV294: $i] :
( ( ( empty_carrier @ SV294 )
| ~ ( lattice @ SV294 )
| ~ ( complete_latt_str @ SV294 )
| ~ ( latt_str @ SV294 )
| ~ ( empty_carrier @ ( poset_of_lattice @ SV294 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2854]) ).
thf(2877,plain,
! [SV295: $i] :
( ( ( empty_carrier @ SV295 )
| ~ ( lattice @ SV295 )
| ~ ( complete_latt_str @ SV295 )
| ~ ( latt_str @ SV295 )
| ( strict_rel_str @ ( poset_of_lattice @ SV295 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2855]) ).
thf(2878,plain,
! [SV287: $i] :
( ( ( ( empty_carrier @ SV287 )
| ~ ( lattice @ SV287 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV287 ) )
= $true )
| ( ( ~ ( latt_str @ SV287 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV287 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2856]) ).
thf(2879,plain,
! [SV280: $i] :
( ( ( complete_latt_str @ SV280 )
= $false )
| ( ( empty_carrier @ SV280 )
= $true )
| ( ( lattice @ SV280 )
= $false )
| ( ( ~ ( latt_str @ SV280 ) )
= $true )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV280 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2857]) ).
thf(2880,plain,
( ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
| ~ ( join_commutative @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2858]) ).
thf(2881,plain,
( ( ~ ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2860]) ).
thf(2882,plain,
( ( ~ ( strict_latt_str @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2860]) ).
thf(2883,plain,
! [SV288: $i] :
( ( empty_carrier @ ( boole_POSet @ SV288 ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2862]) ).
thf(2884,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2864]) ).
thf(2885,plain,
( ( ~ ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2864]) ).
thf(2886,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2866]) ).
thf(2887,plain,
( ( ~ ( meet_commutative @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2866]) ).
thf(2888,plain,
! [SV276: $i] :
( ( ( distributive_lattstr @ SV276 )
= $false )
| ( ( empty_carrier @ SV276 )
= $true )
| ( ( lattice @ SV276 )
= $false )
| ( ( ~ ( empty_carrier @ SV276 ) )
= $true )
| ( ( latt_str @ SV276 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2867]) ).
thf(2889,plain,
! [SV277: $i] :
( ( ( distributive_lattstr @ SV277 )
= $false )
| ( ( empty_carrier @ SV277 )
= $true )
| ( ( lattice @ SV277 )
= $false )
| ( ( join_commutative @ SV277 )
= $true )
| ( ( latt_str @ SV277 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2868]) ).
thf(2890,plain,
( ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2869]) ).
thf(2891,plain,
( ( ~ ( join_commutative @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2869]) ).
thf(2892,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2870]) ).
thf(2893,plain,
( ( ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2870]) ).
thf(2894,plain,
! [SV292: $i] :
( ( ( ~ ( latt_str @ SV292 ) )
= $true )
| ( ( ( empty_carrier @ SV292 )
| ~ ( lattice @ SV292 )
| ~ ( complete_latt_str @ SV292 )
| ~ ( empty_carrier @ SV292 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2872]) ).
thf(2895,plain,
! [SV293: $i] :
( ( ( ~ ( latt_str @ SV293 ) )
= $true )
| ( ( ( empty_carrier @ SV293 )
| ~ ( lattice @ SV293 )
| ~ ( complete_latt_str @ SV293 )
| ( join_commutative @ SV293 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2873]) ).
thf(2896,plain,
! [SV286: $i] :
( ( ( ( empty_carrier @ SV286 )
| ~ ( lattice @ SV286 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV286 ) )
= $true )
| ( ( join_associative @ SV286 )
= $true )
| ( ( latt_str @ SV286 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2874]) ).
thf(2897,plain,
! [SV279: $i] :
( ( ( complete_latt_str @ SV279 )
= $false )
| ( ( empty_carrier @ SV279 )
= $true )
| ( ( lattice @ SV279 )
= $false )
| ( ( meet_commutative @ SV279 )
= $true )
| ( ( latt_str @ SV279 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2875]) ).
thf(2898,plain,
! [SV294: $i] :
( ( ( ( empty_carrier @ SV294 )
| ~ ( lattice @ SV294 )
| ~ ( complete_latt_str @ SV294 )
| ~ ( latt_str @ SV294 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV294 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2876]) ).
thf(2899,plain,
! [SV295: $i] :
( ( ( ( empty_carrier @ SV295 )
| ~ ( lattice @ SV295 )
| ~ ( complete_latt_str @ SV295 )
| ~ ( latt_str @ SV295 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV295 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2877]) ).
thf(2900,plain,
! [SV287: $i] :
( ( ( empty_carrier @ SV287 )
= $true )
| ( ( ~ ( lattice @ SV287 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV287 ) )
= $true )
| ( ( ~ ( latt_str @ SV287 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV287 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2878]) ).
thf(2901,plain,
! [SV280: $i] :
( ( ( latt_str @ SV280 )
= $false )
| ( ( lattice @ SV280 )
= $false )
| ( ( empty_carrier @ SV280 )
= $true )
| ( ( complete_latt_str @ SV280 )
= $false )
| ( ( transitive_relstr @ ( poset_of_lattice @ SV280 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2879]) ).
thf(2902,plain,
( ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2880]) ).
thf(2903,plain,
( ( ~ ( join_commutative @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2880]) ).
thf(2904,plain,
( ( ~ ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2881]) ).
thf(2905,plain,
( ( strict_latt_str @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2882]) ).
thf(2906,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2884]) ).
thf(2907,plain,
( ( ! [SX0: $i] : ( meet_absorbing @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2885]) ).
thf(2908,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2886]) ).
thf(2909,plain,
( ( meet_commutative @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2887]) ).
thf(2910,plain,
! [SV276: $i] :
( ( ( empty_carrier @ SV276 )
= $false )
| ( ( lattice @ SV276 )
= $false )
| ( ( empty_carrier @ SV276 )
= $true )
| ( ( distributive_lattstr @ SV276 )
= $false )
| ( ( latt_str @ SV276 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2888]) ).
thf(2911,plain,
( ( ~ ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2890]) ).
thf(2912,plain,
( ( join_commutative @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2891]) ).
thf(2913,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2892]) ).
thf(2914,plain,
( ( ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2893]) ).
thf(2915,plain,
! [SV292: $i] :
( ( ( latt_str @ SV292 )
= $false )
| ( ( ( empty_carrier @ SV292 )
| ~ ( lattice @ SV292 )
| ~ ( complete_latt_str @ SV292 )
| ~ ( empty_carrier @ SV292 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2894]) ).
thf(2916,plain,
! [SV293: $i] :
( ( ( latt_str @ SV293 )
= $false )
| ( ( ( empty_carrier @ SV293 )
| ~ ( lattice @ SV293 )
| ~ ( complete_latt_str @ SV293 )
| ( join_commutative @ SV293 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2895]) ).
thf(2917,plain,
! [SV286: $i] :
( ( ( empty_carrier @ SV286 )
= $true )
| ( ( ~ ( lattice @ SV286 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV286 ) )
= $true )
| ( ( join_associative @ SV286 )
= $true )
| ( ( latt_str @ SV286 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2896]) ).
thf(2918,plain,
! [SV294: $i] :
( ( ( ( empty_carrier @ SV294 )
| ~ ( lattice @ SV294 )
| ~ ( complete_latt_str @ SV294 ) )
= $true )
| ( ( ~ ( latt_str @ SV294 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV294 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2898]) ).
thf(2919,plain,
! [SV295: $i] :
( ( ( ( empty_carrier @ SV295 )
| ~ ( lattice @ SV295 )
| ~ ( complete_latt_str @ SV295 ) )
= $true )
| ( ( ~ ( latt_str @ SV295 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV295 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2899]) ).
thf(2920,plain,
! [SV287: $i] :
( ( ( lattice @ SV287 )
= $false )
| ( ( empty_carrier @ SV287 )
= $true )
| ( ( ~ ( complete_latt_str @ SV287 ) )
= $true )
| ( ( ~ ( latt_str @ SV287 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV287 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2900]) ).
thf(2921,plain,
( ( ~ ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2902]) ).
thf(2922,plain,
( ( join_commutative @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2903]) ).
thf(2923,plain,
( ( ~ ( latt_str @ sK20_A )
| ~ ~ ( empty_carrier @ sK20_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2904]) ).
thf(2924,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2906]) ).
thf(2925,plain,
! [SV296: $i] :
( ( meet_absorbing @ ( boole_lattice @ SV296 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2907]) ).
thf(2926,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
| ~ ( join_associative @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2908]) ).
thf(2927,plain,
( ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
| ~ ( strict_latt_str @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2911]) ).
thf(2928,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2913]) ).
thf(2929,plain,
! [SV297: $i] :
( ( meet_associative @ ( boole_lattice @ SV297 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2914]) ).
thf(2930,plain,
! [SV292: $i] :
( ( ( ( empty_carrier @ SV292 )
| ~ ( lattice @ SV292 )
| ~ ( complete_latt_str @ SV292 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV292 ) )
= $true )
| ( ( latt_str @ SV292 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2915]) ).
thf(2931,plain,
! [SV293: $i] :
( ( ( ( empty_carrier @ SV293 )
| ~ ( lattice @ SV293 )
| ~ ( complete_latt_str @ SV293 ) )
= $true )
| ( ( join_commutative @ SV293 )
= $true )
| ( ( latt_str @ SV293 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2916]) ).
thf(2932,plain,
! [SV286: $i] :
( ( ( lattice @ SV286 )
= $false )
| ( ( empty_carrier @ SV286 )
= $true )
| ( ( ~ ( complete_latt_str @ SV286 ) )
= $true )
| ( ( join_associative @ SV286 )
= $true )
| ( ( latt_str @ SV286 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2917]) ).
thf(2933,plain,
! [SV294: $i] :
( ( ( ( empty_carrier @ SV294 )
| ~ ( lattice @ SV294 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV294 ) )
= $true )
| ( ( ~ ( latt_str @ SV294 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV294 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2918]) ).
thf(2934,plain,
! [SV295: $i] :
( ( ( ( empty_carrier @ SV295 )
| ~ ( lattice @ SV295 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV295 ) )
= $true )
| ( ( ~ ( latt_str @ SV295 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV295 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2919]) ).
thf(2935,plain,
! [SV287: $i] :
( ( ( complete_latt_str @ SV287 )
= $false )
| ( ( empty_carrier @ SV287 )
= $true )
| ( ( lattice @ SV287 )
= $false )
| ( ( ~ ( latt_str @ SV287 ) )
= $true )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV287 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2920]) ).
thf(2936,plain,
( ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
| ~ ( strict_latt_str @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2921]) ).
thf(2937,plain,
( ( ~ ( latt_str @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2923]) ).
thf(2938,plain,
( ( ~ ~ ( empty_carrier @ sK20_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2923]) ).
thf(2939,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2924]) ).
thf(2940,plain,
( ( ~ ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2924]) ).
thf(2941,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2926]) ).
thf(2942,plain,
( ( ~ ( join_associative @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2926]) ).
thf(2943,plain,
( ( ~ ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2927]) ).
thf(2944,plain,
( ( ~ ( strict_latt_str @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2927]) ).
thf(2945,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2928]) ).
thf(2946,plain,
( ( ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2928]) ).
thf(2947,plain,
! [SV292: $i] :
( ( ( ( empty_carrier @ SV292 )
| ~ ( lattice @ SV292 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV292 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV292 ) )
= $true )
| ( ( latt_str @ SV292 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2930]) ).
thf(2948,plain,
! [SV293: $i] :
( ( ( ( empty_carrier @ SV293 )
| ~ ( lattice @ SV293 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV293 ) )
= $true )
| ( ( join_commutative @ SV293 )
= $true )
| ( ( latt_str @ SV293 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2931]) ).
thf(2949,plain,
! [SV286: $i] :
( ( ( complete_latt_str @ SV286 )
= $false )
| ( ( empty_carrier @ SV286 )
= $true )
| ( ( lattice @ SV286 )
= $false )
| ( ( join_associative @ SV286 )
= $true )
| ( ( latt_str @ SV286 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2932]) ).
thf(2950,plain,
! [SV294: $i] :
( ( ( empty_carrier @ SV294 )
= $true )
| ( ( ~ ( lattice @ SV294 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV294 ) )
= $true )
| ( ( ~ ( latt_str @ SV294 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV294 ) ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2933]) ).
thf(2951,plain,
! [SV295: $i] :
( ( ( empty_carrier @ SV295 )
= $true )
| ( ( ~ ( lattice @ SV295 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV295 ) )
= $true )
| ( ( ~ ( latt_str @ SV295 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV295 ) )
= $true ) ),
inference(extcnf_or_pos,[status(thm)],[2934]) ).
thf(2952,plain,
! [SV287: $i] :
( ( ( latt_str @ SV287 )
= $false )
| ( ( lattice @ SV287 )
= $false )
| ( ( empty_carrier @ SV287 )
= $true )
| ( ( complete_latt_str @ SV287 )
= $false )
| ( ( reflexive_relstr @ ( poset_of_lattice @ SV287 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2935]) ).
thf(2953,plain,
( ( ~ ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2936]) ).
thf(2954,plain,
( ( ~ ( strict_latt_str @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2936]) ).
thf(2955,plain,
( ( latt_str @ sK20_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2937]) ).
thf(2956,plain,
( ( ~ ( empty_carrier @ sK20_A ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2938]) ).
thf(2957,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2939]) ).
thf(2958,plain,
( ( ! [SX0: $i] : ( meet_associative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2940]) ).
thf(2959,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2941]) ).
thf(2960,plain,
( ( join_associative @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2942]) ).
thf(2961,plain,
( ( ~ ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2943]) ).
thf(2962,plain,
( ( strict_latt_str @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2944]) ).
thf(2963,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2945]) ).
thf(2964,plain,
( ( ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2946]) ).
thf(2965,plain,
! [SV292: $i] :
( ( ( empty_carrier @ SV292 )
= $true )
| ( ( ~ ( lattice @ SV292 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV292 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV292 ) )
= $true )
| ( ( latt_str @ SV292 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2947]) ).
thf(2966,plain,
! [SV293: $i] :
( ( ( empty_carrier @ SV293 )
= $true )
| ( ( ~ ( lattice @ SV293 ) )
= $true )
| ( ( ~ ( complete_latt_str @ SV293 ) )
= $true )
| ( ( join_commutative @ SV293 )
= $true )
| ( ( latt_str @ SV293 )
= $false ) ),
inference(extcnf_or_pos,[status(thm)],[2948]) ).
thf(2967,plain,
! [SV294: $i] :
( ( ( lattice @ SV294 )
= $false )
| ( ( empty_carrier @ SV294 )
= $true )
| ( ( ~ ( complete_latt_str @ SV294 ) )
= $true )
| ( ( ~ ( latt_str @ SV294 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV294 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2950]) ).
thf(2968,plain,
! [SV295: $i] :
( ( ( lattice @ SV295 )
= $false )
| ( ( empty_carrier @ SV295 )
= $true )
| ( ( ~ ( complete_latt_str @ SV295 ) )
= $true )
| ( ( ~ ( latt_str @ SV295 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV295 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2951]) ).
thf(2969,plain,
( ( ~ ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2953]) ).
thf(2970,plain,
( ( strict_latt_str @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2954]) ).
thf(2971,plain,
( ( empty_carrier @ sK20_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2956]) ).
thf(2972,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2957]) ).
thf(2973,plain,
! [SV298: $i] :
( ( meet_associative @ ( boole_lattice @ SV298 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2958]) ).
thf(2974,plain,
( ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
| ~ ( join_commutative @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2959]) ).
thf(2975,plain,
( ( ~ ( latt_str @ sK21_A )
| ~ ~ ( empty_carrier @ sK21_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2961]) ).
thf(2976,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2963]) ).
thf(2977,plain,
! [SV299: $i] :
( ( meet_commutative @ ( boole_lattice @ SV299 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2964]) ).
thf(2978,plain,
! [SV292: $i] :
( ( ( lattice @ SV292 )
= $false )
| ( ( empty_carrier @ SV292 )
= $true )
| ( ( ~ ( complete_latt_str @ SV292 ) )
= $true )
| ( ( ~ ( empty_carrier @ SV292 ) )
= $true )
| ( ( latt_str @ SV292 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2965]) ).
thf(2979,plain,
! [SV293: $i] :
( ( ( lattice @ SV293 )
= $false )
| ( ( empty_carrier @ SV293 )
= $true )
| ( ( ~ ( complete_latt_str @ SV293 ) )
= $true )
| ( ( join_commutative @ SV293 )
= $true )
| ( ( latt_str @ SV293 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2966]) ).
thf(2980,plain,
! [SV294: $i] :
( ( ( complete_latt_str @ SV294 )
= $false )
| ( ( empty_carrier @ SV294 )
= $true )
| ( ( lattice @ SV294 )
= $false )
| ( ( ~ ( latt_str @ SV294 ) )
= $true )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV294 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2967]) ).
thf(2981,plain,
! [SV295: $i] :
( ( ( complete_latt_str @ SV295 )
= $false )
| ( ( empty_carrier @ SV295 )
= $true )
| ( ( lattice @ SV295 )
= $false )
| ( ( ~ ( latt_str @ SV295 ) )
= $true )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV295 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2968]) ).
thf(2982,plain,
( ( ~ ( latt_str @ sK19_A )
| ~ ~ ( empty_carrier @ sK19_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2969]) ).
thf(2983,plain,
( ( ~ ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2972]) ).
thf(2984,plain,
( ( ~ ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2972]) ).
thf(2985,plain,
( ( ~ ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2974]) ).
thf(2986,plain,
( ( ~ ( join_commutative @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2974]) ).
thf(2987,plain,
( ( ~ ( latt_str @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2975]) ).
thf(2988,plain,
( ( ~ ~ ( empty_carrier @ sK21_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2975]) ).
thf(2989,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2976]) ).
thf(2990,plain,
( ( ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2976]) ).
thf(2991,plain,
! [SV292: $i] :
( ( ( complete_latt_str @ SV292 )
= $false )
| ( ( empty_carrier @ SV292 )
= $true )
| ( ( lattice @ SV292 )
= $false )
| ( ( ~ ( empty_carrier @ SV292 ) )
= $true )
| ( ( latt_str @ SV292 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2978]) ).
thf(2992,plain,
! [SV293: $i] :
( ( ( complete_latt_str @ SV293 )
= $false )
| ( ( empty_carrier @ SV293 )
= $true )
| ( ( lattice @ SV293 )
= $false )
| ( ( join_commutative @ SV293 )
= $true )
| ( ( latt_str @ SV293 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2979]) ).
thf(2993,plain,
! [SV294: $i] :
( ( ( latt_str @ SV294 )
= $false )
| ( ( lattice @ SV294 )
= $false )
| ( ( empty_carrier @ SV294 )
= $true )
| ( ( complete_latt_str @ SV294 )
= $false )
| ( ( ~ ( empty_carrier @ ( poset_of_lattice @ SV294 ) ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2980]) ).
thf(2994,plain,
! [SV295: $i] :
( ( ( latt_str @ SV295 )
= $false )
| ( ( lattice @ SV295 )
= $false )
| ( ( empty_carrier @ SV295 )
= $true )
| ( ( complete_latt_str @ SV295 )
= $false )
| ( ( strict_rel_str @ ( poset_of_lattice @ SV295 ) )
= $true ) ),
inference(extcnf_not_pos,[status(thm)],[2981]) ).
thf(2995,plain,
( ( ~ ( latt_str @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2982]) ).
thf(2996,plain,
( ( ~ ~ ( empty_carrier @ sK19_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[2982]) ).
thf(2997,plain,
( ( ~ ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2983]) ).
thf(2998,plain,
( ( ! [SX0: $i] : ( meet_commutative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2984]) ).
thf(2999,plain,
( ( ~ ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2985]) ).
thf(3000,plain,
( ( join_commutative @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2986]) ).
thf(3001,plain,
( ( latt_str @ sK21_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2987]) ).
thf(3002,plain,
( ( ~ ( empty_carrier @ sK21_A ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2988]) ).
thf(3003,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2989]) ).
thf(3004,plain,
( ( ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2990]) ).
thf(3005,plain,
! [SV292: $i] :
( ( ( empty_carrier @ SV292 )
= $false )
| ( ( lattice @ SV292 )
= $false )
| ( ( empty_carrier @ SV292 )
= $true )
| ( ( complete_latt_str @ SV292 )
= $false )
| ( ( latt_str @ SV292 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2991]) ).
thf(3006,plain,
! [SV294: $i] :
( ( ( empty_carrier @ ( poset_of_lattice @ SV294 ) )
= $false )
| ( ( complete_latt_str @ SV294 )
= $false )
| ( ( empty_carrier @ SV294 )
= $true )
| ( ( lattice @ SV294 )
= $false )
| ( ( latt_str @ SV294 )
= $false ) ),
inference(extcnf_not_pos,[status(thm)],[2993]) ).
thf(3007,plain,
( ( latt_str @ sK19_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2995]) ).
thf(3008,plain,
( ( ~ ( empty_carrier @ sK19_A ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[2996]) ).
thf(3009,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2997]) ).
thf(3010,plain,
! [SV300: $i] :
( ( meet_commutative @ ( boole_lattice @ SV300 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[2998]) ).
thf(3011,plain,
( ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
| ~ ( strict_latt_str @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[2999]) ).
thf(3012,plain,
( ( empty_carrier @ sK21_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[3002]) ).
thf(3013,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[3003]) ).
thf(3014,plain,
! [SV301: $i] :
( ( join_associative @ ( boole_lattice @ SV301 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[3004]) ).
thf(3015,plain,
( ( empty_carrier @ sK19_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[3008]) ).
thf(3016,plain,
( ( ~ ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3009]) ).
thf(3017,plain,
( ( ~ ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3009]) ).
thf(3018,plain,
( ( ~ ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3011]) ).
thf(3019,plain,
( ( ~ ( strict_latt_str @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3011]) ).
thf(3020,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3013]) ).
thf(3021,plain,
( ( ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3013]) ).
thf(3022,plain,
( ( ~ ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3016]) ).
thf(3023,plain,
( ( ! [SX0: $i] : ( join_associative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3017]) ).
thf(3024,plain,
( ( ~ ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3018]) ).
thf(3025,plain,
( ( strict_latt_str @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3019]) ).
thf(3026,plain,
( ( ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3020]) ).
thf(3027,plain,
( ( ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3021]) ).
thf(3028,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
| ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[3022]) ).
thf(3029,plain,
! [SV302: $i] :
( ( join_associative @ ( boole_lattice @ SV302 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[3023]) ).
thf(3030,plain,
( ( ~ ( latt_str @ sK18_A )
| ~ ~ ( empty_carrier @ sK18_A ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[3024]) ).
thf(3031,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[3026]) ).
thf(3032,plain,
! [SV303: $i] :
( ( join_commutative @ ( boole_lattice @ SV303 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[3027]) ).
thf(3033,plain,
( ( ~ ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3028]) ).
thf(3034,plain,
( ( ~ ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3028]) ).
thf(3035,plain,
( ( ~ ( latt_str @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3030]) ).
thf(3036,plain,
( ( ~ ~ ( empty_carrier @ sK18_A ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3030]) ).
thf(3037,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3031]) ).
thf(3038,plain,
( ( ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3031]) ).
thf(3039,plain,
( ( ~ ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3033]) ).
thf(3040,plain,
( ( ! [SX0: $i] : ( join_commutative @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3034]) ).
thf(3041,plain,
( ( latt_str @ sK18_A )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3035]) ).
thf(3042,plain,
( ( ~ ( empty_carrier @ sK18_A ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3036]) ).
thf(3043,plain,
( ( ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3037]) ).
thf(3044,plain,
( ( ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3038]) ).
thf(3045,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) )
| ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[3039]) ).
thf(3046,plain,
! [SV304: $i] :
( ( join_commutative @ ( boole_lattice @ SV304 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[3040]) ).
thf(3047,plain,
( ( empty_carrier @ sK18_A )
= $false ),
inference(extcnf_not_pos,[status(thm)],[3042]) ).
thf(3048,plain,
! [SV305: $i] :
( ( ~ ( empty_carrier @ ( boole_lattice @ SV305 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[3043]) ).
thf(3049,plain,
! [SV306: $i] :
( ( strict_latt_str @ ( boole_lattice @ SV306 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[3044]) ).
thf(3050,plain,
( ( ~ ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3045]) ).
thf(3051,plain,
( ( ~ ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $false ),
inference(extcnf_or_neg,[status(thm)],[3045]) ).
thf(3052,plain,
! [SV305: $i] :
( ( empty_carrier @ ( boole_lattice @ SV305 ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[3048]) ).
thf(3053,plain,
( ( ! [SX0: $i] :
~ ( empty_carrier @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3050]) ).
thf(3054,plain,
( ( ! [SX0: $i] : ( strict_latt_str @ ( boole_lattice @ SX0 ) ) )
= $true ),
inference(extcnf_not_neg,[status(thm)],[3051]) ).
thf(3055,plain,
! [SV307: $i] :
( ( ~ ( empty_carrier @ ( boole_lattice @ SV307 ) ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[3053]) ).
thf(3056,plain,
! [SV308: $i] :
( ( strict_latt_str @ ( boole_lattice @ SV308 ) )
= $true ),
inference(extcnf_forall_pos,[status(thm)],[3054]) ).
thf(3057,plain,
! [SV307: $i] :
( ( empty_carrier @ ( boole_lattice @ SV307 ) )
= $false ),
inference(extcnf_not_pos,[status(thm)],[3055]) ).
thf(3058,plain,
$false = $true,
inference(fo_atp_e,[status(thm)],[250,3057,3056,3052,3049,3047,3046,3041,3032,3029,3025,3015,3014,3012,3010,3007,3006,3005,3001,3000,2994,2992,2977,2973,2971,2970,2962,2960,2955,2952,2949,2929,2925,2922,2912,2910,2909,2905,2901,2897,2889,2883,2871,2865,2863,2861,2859,2849,2846,2842,2835,2834,2832,2829,2824,2819,2813,2800,2787,2784,2779,2777,2771,2757,2754,2750,2744,2742,2738,2737,2734,2729,2724,2715,2707,2700,2683,2674,2673,2671,2669,2665,2661,2658,2643,2641,2635,2633,2625,2623,2620,2616,2614,2609,2604,2599,2589,2568,2558,2545,2534,2532,2530,2516,2514,2504,2503,2496,2494,2492,2491,2486,2485,2483,2474,2472,2470,2464,2455,2450,2443,2442,2429,2424,2405,2404,2383,2380,2374,2361,2357,2355,2353,2348,2337,2336,2335,2333,2322,2320,2309,2307,2305,2304,2303,2296,2295,2292,2289,2288,2278,2276,2274,2266,2254,2249,2237,2221,2214,2193,2192,2187,2152,2129,2127,2125,2123,2118,2104,2102,2090,2087,2075,2073,2071,2068,2060,2054,2052,2050,2039,2038,2036,2032,2024,2011,2006,1992,1974,1966,1965,1951,1940,1933,1923,1895,1880,1876,1865,1863,1861,1859,1840,1836,1834,1826,1825,1820,1816,1803,1801,1799,1787,1785,1775,1773,1771,1763,1758,1756,1754,1750,1742,1727,1720,1704,1685,1672,1671,1670,1653,1635,1594,1587,1560,1558,1554,1552,1534,1533,1532,1527,1525,1512,1508,1495,1493,1491,1487,1477,1474,1473,1461,1459,1457,1453,1452,1441,1439,1437,1433,1425,1398,1397,1358,1344,1343,1332,1323,1322,1299,1274,1269,1268,1262,1259,1258,1226,1219,1218,1216,1212,1208,1191,1190,1188,1180,1150,1146,1116,1114,1111,1107,1096,1089,1087,1085,1081,1079,1078,1069,1066,1065,1064,1062,1061,1039,967,950,938,935,933,932,931,929,928,926,923,921,920,919,890,885,884,882,881,864,862,861,848,846,840,839,838,834,826,811,805,804,803,784,767,766,759,753,749,748,730,722,720,718,696,694,692,688,674,666,664,663,662,659,652,525,523,522,438,430,428,423,409,310,286,277,276,275,274,273,271,267,266,263,255,252]) ).
thf(3059,plain,
$false,
inference(solved_all_splits,[solved_all_splits(join,[])],[3058]) ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.03/0.12 % Problem : SEU371+1 : TPTP v8.1.0. Released v3.3.0.
% 0.03/0.13 % Command : leo --timeout %d --proofoutput 1 --foatp e --atp e=./eprover %s
% 0.12/0.33 % Computer : n007.cluster.edu
% 0.12/0.33 % Model : x86_64 x86_64
% 0.12/0.33 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.33 % Memory : 8042.1875MB
% 0.12/0.33 % OS : Linux 3.10.0-693.el7.x86_64
% 0.12/0.33 % CPULimit : 300
% 0.12/0.33 % WCLimit : 600
% 0.12/0.33 % DateTime : Sun Jun 19 05:01:43 EDT 2022
% 0.12/0.33 % CPUTime :
% 0.18/0.39 ..
% 0.18/0.47
% 0.18/0.47 No.of.Axioms: 114
% 0.18/0.47
% 0.18/0.47 Length.of.Defs: 0
% 0.18/0.47
% 0.18/0.47 Contains.Choice.Funs: false
% 0.18/0.50 .....
% 0.18/0.51 (rf:2,axioms:14,ps:3,u:5,ude:true,rLeibEQ:true,rAndEQ:true,use_choice:true,use_extuni:true,use_extcnf_combined:true,expand_extuni:false,foatp:e,atp_timeout:600,atp_calls_frequency:10,ordering:none,proof_output:1,protocol_output:false,clause_count:116,loop_count:0,foatp_calls:0,translation:fof_full).......................................................ignored arguments false
% 82.43/82.64 ...
% 82.49/82.70 (rf:0,axioms:114,ps:0,u:1,ude:false,rLeibEQ:true,rAndEQ:true,use_choice:true,use_extuni:false,use_extcnf_combined:true,expand_extuni:false,foatp:e,atp_timeout:600,atp_calls_frequency:10,ordering:none,proof_output:1,protocol_output:false,clause_count:116,loop_count:0,foatp_calls:0,translation:fof_full)...............................................................................................................................................................................................................................
% 83.65/84.08
% 83.65/84.08 ********************************
% 83.65/84.08 * All subproblems solved! *
% 83.65/84.08 ********************************
% 83.65/84.08 % SZS status Theorem for /export/starexec/sandbox2/benchmark/theBenchmark.p : (rf:0,axioms:114,ps:0,u:1,ude:false,rLeibEQ:true,rAndEQ:true,use_choice:true,use_extuni:false,use_extcnf_combined:true,expand_extuni:false,foatp:e,atp_timeout:70,atp_calls_frequency:10,ordering:none,proof_output:1,protocol_output:false,clause_count:3058,loop_count:0,foatp_calls:1,translation:fof_full)
% 86.68/86.87
% 86.68/86.87 %**** Beginning of derivation protocol ****
% 86.68/86.87 % SZS output start CNFRefutation
% See solution above
% 86.68/86.88
% 86.68/86.88 %**** End of derivation protocol ****
% 86.68/86.88 %**** no. of clauses in derivation: 3059 ****
% 86.68/86.88 %**** clause counter: 3058 ****
% 86.68/86.88
% 86.68/86.88 % SZS status Theorem for /export/starexec/sandbox2/benchmark/theBenchmark.p : (rf:0,axioms:114,ps:0,u:1,ude:false,rLeibEQ:true,rAndEQ:true,use_choice:true,use_extuni:false,use_extcnf_combined:true,expand_extuni:false,foatp:e,atp_timeout:70,atp_calls_frequency:10,ordering:none,proof_output:1,protocol_output:false,clause_count:3058,loop_count:0,foatp_calls:1,translation:fof_full)
%------------------------------------------------------------------------------