TSTP Solution File: SET612^3 by cvc5---1.0.5
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%------------------------------------------------------------------------------
% File : cvc5---1.0.5
% Problem : SET612^3 : TPTP v8.1.2. Released v3.6.0.
% Transfm : none
% Format : tptp
% Command : do_cvc5 %s %d
% Computer : n026.cluster.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory : 8042.1875MB
% OS : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit : 300s
% DateTime : Thu Aug 31 14:39:27 EDT 2023
% Result : Theorem 0.21s 0.70s
% Output : Proof 0.21s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.11/0.13 % Problem : SET612^3 : TPTP v8.1.2. Released v3.6.0.
% 0.11/0.14 % Command : do_cvc5 %s %d
% 0.13/0.36 % Computer : n026.cluster.edu
% 0.13/0.36 % Model : x86_64 x86_64
% 0.13/0.36 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.36 % Memory : 8042.1875MB
% 0.13/0.36 % OS : Linux 3.10.0-693.el7.x86_64
% 0.13/0.36 % CPULimit : 300
% 0.13/0.36 % WCLimit : 300
% 0.13/0.36 % DateTime : Sat Aug 26 16:42:18 EDT 2023
% 0.13/0.36 % CPUTime :
% 0.21/0.50 %----Proving TH0
% 0.21/0.50 %------------------------------------------------------------------------------
% 0.21/0.50 % File : SET612^3 : TPTP v8.1.2. Released v3.6.0.
% 0.21/0.50 % Domain : Set Theory
% 0.21/0.50 % Problem : X \ (Y U Z) = (X \ Y) ^ (X \ Z)
% 0.21/0.50 % Version : [BS+08] axioms.
% 0.21/0.50 % English : The difference of X and (the union of Y and Z) is the
% 0.21/0.50 % intersection of (the difference of X and Y) and (the difference
% 0.21/0.50 % of X and Z).
% 0.21/0.50
% 0.21/0.50 % Refs : [BS+05] Benzmueller et al. (2005), Can a Higher-Order and a Fi
% 0.21/0.50 % : [BS+08] Benzmueller et al. (2008), Combined Reasoning by Autom
% 0.21/0.50 % : [Ben08] Benzmueller (2008), Email to Geoff Sutcliffe
% 0.21/0.50 % Source : [Ben08]
% 0.21/0.50 % Names :
% 0.21/0.50
% 0.21/0.50 % Status : Theorem
% 0.21/0.50 % Rating : 0.31 v8.1.0, 0.18 v7.5.0, 0.14 v7.4.0, 0.11 v7.2.0, 0.00 v7.1.0, 0.12 v7.0.0, 0.14 v6.4.0, 0.17 v6.3.0, 0.20 v6.2.0, 0.14 v5.5.0, 0.17 v5.4.0, 0.20 v5.3.0, 0.40 v5.2.0, 0.20 v5.1.0, 0.40 v5.0.0, 0.20 v4.1.0, 0.00 v4.0.1, 0.33 v3.7.0
% 0.21/0.50 % Syntax : Number of formulae : 29 ( 15 unt; 14 typ; 14 def)
% 0.21/0.50 % Number of atoms : 41 ( 19 equ; 0 cnn)
% 0.21/0.50 % Maximal formula atoms : 1 ( 2 avg)
% 0.21/0.50 % Number of connectives : 46 ( 5 ~; 3 |; 6 &; 31 @)
% 0.21/0.50 % ( 0 <=>; 1 =>; 0 <=; 0 <~>)
% 0.21/0.50 % Maximal formula depth : 4 ( 1 avg)
% 0.21/0.50 % Number of types : 2 ( 0 usr)
% 0.21/0.50 % Number of type conns : 73 ( 73 >; 0 *; 0 +; 0 <<)
% 0.21/0.50 % Number of symbols : 19 ( 17 usr; 4 con; 0-3 aty)
% 0.21/0.50 % Number of variables : 38 ( 32 ^; 4 !; 2 ?; 38 :)
% 0.21/0.50 % SPC : TH0_THM_EQU_NAR
% 0.21/0.50
% 0.21/0.50 % Comments :
% 0.21/0.50 %------------------------------------------------------------------------------
% 0.21/0.50 %----Basic set theory definitions
% 0.21/0.50 %------------------------------------------------------------------------------
% 0.21/0.50 thf(in_decl,type,
% 0.21/0.50 in: $i > ( $i > $o ) > $o ).
% 0.21/0.50
% 0.21/0.50 thf(in,definition,
% 0.21/0.50 ( in
% 0.21/0.50 = ( ^ [X: $i,M: $i > $o] : ( M @ X ) ) ) ).
% 0.21/0.50
% 0.21/0.50 thf(is_a_decl,type,
% 0.21/0.50 is_a: $i > ( $i > $o ) > $o ).
% 0.21/0.50
% 0.21/0.50 thf(is_a,definition,
% 0.21/0.50 ( is_a
% 0.21/0.50 = ( ^ [X: $i,M: $i > $o] : ( M @ X ) ) ) ).
% 0.21/0.50
% 0.21/0.50 thf(emptyset_decl,type,
% 0.21/0.50 emptyset: $i > $o ).
% 0.21/0.50
% 0.21/0.50 thf(emptyset,definition,
% 0.21/0.50 ( emptyset
% 0.21/0.50 = ( ^ [X: $i] : $false ) ) ).
% 0.21/0.50
% 0.21/0.50 thf(unord_pair_decl,type,
% 0.21/0.50 unord_pair: $i > $i > $i > $o ).
% 0.21/0.50
% 0.21/0.50 thf(unord_pair,definition,
% 0.21/0.50 ( unord_pair
% 0.21/0.50 = ( ^ [X: $i,Y: $i,U: $i] :
% 0.21/0.50 ( ( U = X )
% 0.21/0.50 | ( U = Y ) ) ) ) ).
% 0.21/0.50
% 0.21/0.50 thf(singleton_decl,type,
% 0.21/0.50 singleton: $i > $i > $o ).
% 0.21/0.50
% 0.21/0.50 thf(singleton,definition,
% 0.21/0.50 ( singleton
% 0.21/0.50 = ( ^ [X: $i,U: $i] : ( U = X ) ) ) ).
% 0.21/0.50
% 0.21/0.50 thf(union_decl,type,
% 0.21/0.50 union: ( $i > $o ) > ( $i > $o ) > $i > $o ).
% 0.21/0.50
% 0.21/0.50 thf(union,definition,
% 0.21/0.50 ( union
% 0.21/0.50 = ( ^ [X: $i > $o,Y: $i > $o,U: $i] :
% 0.21/0.50 ( ( X @ U )
% 0.21/0.50 | ( Y @ U ) ) ) ) ).
% 0.21/0.50
% 0.21/0.50 thf(excl_union_decl,type,
% 0.21/0.50 excl_union: ( $i > $o ) > ( $i > $o ) > $i > $o ).
% 0.21/0.50
% 0.21/0.50 thf(excl_union,definition,
% 0.21/0.50 ( excl_union
% 0.21/0.50 = ( ^ [X: $i > $o,Y: $i > $o,U: $i] :
% 0.21/0.50 ( ( ( X @ U )
% 0.21/0.50 & ~ ( Y @ U ) )
% 0.21/0.50 | ( ~ ( X @ U )
% 0.21/0.50 & ( Y @ U ) ) ) ) ) ).
% 0.21/0.50
% 0.21/0.50 thf(intersection_decl,type,
% 0.21/0.50 intersection: ( $i > $o ) > ( $i > $o ) > $i > $o ).
% 0.21/0.50
% 0.21/0.50 thf(intersection,definition,
% 0.21/0.50 ( intersection
% 0.21/0.50 = ( ^ [X: $i > $o,Y: $i > $o,U: $i] :
% 0.21/0.50 ( ( X @ U )
% 0.21/0.50 & ( Y @ U ) ) ) ) ).
% 0.21/0.50
% 0.21/0.50 thf(setminus_decl,type,
% 0.21/0.50 setminus: ( $i > $o ) > ( $i > $o ) > $i > $o ).
% 0.21/0.50
% 0.21/0.50 thf(setminus,definition,
% 0.21/0.50 ( setminus
% 0.21/0.50 = ( ^ [X: $i > $o,Y: $i > $o,U: $i] :
% 0.21/0.50 ( ( X @ U )
% 0.21/0.50 & ~ ( Y @ U ) ) ) ) ).
% 0.21/0.50
% 0.21/0.50 thf(complement_decl,type,
% 0.21/0.50 complement: ( $i > $o ) > $i > $o ).
% 0.21/0.50
% 0.21/0.50 thf(complement,definition,
% 0.21/0.50 ( complement
% 0.21/0.50 = ( ^ [X: $i > $o,U: $i] :
% 0.21/0.50 ~ ( X @ U ) ) ) ).
% 0.21/0.50
% 0.21/0.50 thf(disjoint_decl,type,
% 0.21/0.50 disjoint: ( $i > $o ) > ( $i > $o ) > $o ).
% 0.21/0.50
% 0.21/0.50 thf(disjoint,definition,
% 0.21/0.50 ( disjoint
% 0.21/0.50 = ( ^ [X: $i > $o,Y: $i > $o] :
% 0.21/0.50 ( ( intersection @ X @ Y )
% 0.21/0.50 = emptyset ) ) ) ).
% 0.21/0.50
% 0.21/0.50 thf(subset_decl,type,
% 0.21/0.50 subset: ( $i > $o ) > ( $i > $o ) > $o ).
% 0.21/0.50
% 0.21/0.50 thf(subset,definition,
% 0.21/0.50 ( subset
% 0.21/0.50 = ( ^ [X: $i > $o,Y: $i > $o] :
% 0.21/0.50 ! [U: $i] :
% 0.21/0.50 ( ( X @ U )
% 0.21/0.50 => ( Y @ U ) ) ) ) ).
% 0.21/0.52
% 0.21/0.52 thf(meets_decl,type,
% 0.21/0.52 meets: ( $i > $o ) > ( $i > $o ) > $o ).
% 0.21/0.52
% 0.21/0.52 thf(meets,definition,
% 0.21/0.52 ( meets
% 0.21/0.52 = ( ^ [X: $i > $o,Y: $i > $o] :
% 0.21/0.52 ? [U: $i] :
% 0.21/0.52 ( ( X @ U )
% 0.21/0.52 & ( Y @ U ) ) ) ) ).
% 0.21/0.52
% 0.21/0.52 thf(misses_decl,type,
% 0.21/0.52 misses: ( $i > $o ) > ( $i > $o ) > $o ).
% 0.21/0.52
% 0.21/0.52 thf(misses,definition,
% 0.21/0.52 ( misses
% 0.21/0.52 = ( ^ [X: $i > $o,Y: $i > $o] :
% 0.21/0.52 ~ ? [U: $i] :
% 0.21/0.52 ( ( X @ U )
% 0.21/0.52 & ( Y @ U ) ) ) ) ).
% 0.21/0.52
% 0.21/0.52 %------------------------------------------------------------------------------
% 0.21/0.52 %------------------------------------------------------------------------------
% 0.21/0.52 thf(thm,conjecture,
% 0.21/0.52 ! [X: $i > $o,Y: $i > $o,Z: $i > $o] :
% 0.21/0.52 ( ( setminus @ X @ ( union @ Y @ Z ) )
% 0.21/0.52 = ( intersection @ ( setminus @ X @ Y ) @ ( setminus @ X @ Z ) ) ) ).
% 0.21/0.52
% 0.21/0.52 %------------------------------------------------------------------------------
% 0.21/0.52 ------- convert to smt2 : /export/starexec/sandbox/tmp/tmp.r2VjrmNMB7/cvc5---1.0.5_26696.p...
% 0.21/0.52 (declare-sort $$unsorted 0)
% 0.21/0.52 (declare-fun tptp.in ($$unsorted (-> $$unsorted Bool)) Bool)
% 0.21/0.52 (assert (= tptp.in (lambda ((X $$unsorted) (M (-> $$unsorted Bool))) (@ M X))))
% 0.21/0.52 (declare-fun tptp.is_a ($$unsorted (-> $$unsorted Bool)) Bool)
% 0.21/0.52 (assert (= tptp.is_a (lambda ((X $$unsorted) (M (-> $$unsorted Bool))) (@ M X))))
% 0.21/0.52 (declare-fun tptp.emptyset ($$unsorted) Bool)
% 0.21/0.52 (assert (= tptp.emptyset (lambda ((X $$unsorted)) false)))
% 0.21/0.52 (declare-fun tptp.unord_pair ($$unsorted $$unsorted $$unsorted) Bool)
% 0.21/0.52 (assert (= tptp.unord_pair (lambda ((X $$unsorted) (Y $$unsorted) (U $$unsorted)) (or (= U X) (= U Y)))))
% 0.21/0.52 (declare-fun tptp.singleton ($$unsorted $$unsorted) Bool)
% 0.21/0.52 (assert (= tptp.singleton (lambda ((X $$unsorted) (U $$unsorted)) (= U X))))
% 0.21/0.52 (declare-fun tptp.union ((-> $$unsorted Bool) (-> $$unsorted Bool) $$unsorted) Bool)
% 0.21/0.52 (assert (= tptp.union (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (U $$unsorted)) (or (@ X U) (@ Y U)))))
% 0.21/0.52 (declare-fun tptp.excl_union ((-> $$unsorted Bool) (-> $$unsorted Bool) $$unsorted) Bool)
% 0.21/0.52 (assert (= tptp.excl_union (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (U $$unsorted)) (let ((_let_1 (@ Y U))) (let ((_let_2 (@ X U))) (or (and _let_2 (not _let_1)) (and (not _let_2) _let_1)))))))
% 0.21/0.52 (declare-fun tptp.intersection ((-> $$unsorted Bool) (-> $$unsorted Bool) $$unsorted) Bool)
% 0.21/0.52 (assert (= tptp.intersection (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (U $$unsorted)) (and (@ X U) (@ Y U)))))
% 0.21/0.52 (declare-fun tptp.setminus ((-> $$unsorted Bool) (-> $$unsorted Bool) $$unsorted) Bool)
% 0.21/0.52 (assert (= tptp.setminus (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (U $$unsorted)) (and (@ X U) (not (@ Y U))))))
% 0.21/0.52 (declare-fun tptp.complement ((-> $$unsorted Bool) $$unsorted) Bool)
% 0.21/0.52 (assert (= tptp.complement (lambda ((X (-> $$unsorted Bool)) (U $$unsorted)) (not (@ X U)))))
% 0.21/0.52 (declare-fun tptp.disjoint ((-> $$unsorted Bool) (-> $$unsorted Bool)) Bool)
% 0.21/0.52 (assert (= tptp.disjoint (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool))) (= (@ (@ tptp.intersection X) Y) tptp.emptyset))))
% 0.21/0.52 (declare-fun tptp.subset ((-> $$unsorted Bool) (-> $$unsorted Bool)) Bool)
% 0.21/0.52 (assert (= tptp.subset (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool))) (forall ((U $$unsorted)) (=> (@ X U) (@ Y U))))))
% 0.21/0.52 (declare-fun tptp.meets ((-> $$unsorted Bool) (-> $$unsorted Bool)) Bool)
% 0.21/0.52 (assert (= tptp.meets (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool))) (exists ((U $$unsorted)) (and (@ X U) (@ Y U))))))
% 0.21/0.52 (declare-fun tptp.misses ((-> $$unsorted Bool) (-> $$unsorted Bool)) Bool)
% 0.21/0.52 (assert (= tptp.misses (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool))) (not (exists ((U $$unsorted)) (and (@ X U) (@ Y U)))))))
% 0.21/0.52 (assert (not (forall ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (Z (-> $$unsorted Bool))) (let ((_let_1 (@ tptp.setminus X))) (= (@ _let_1 (@ (@ tptp.union Y) Z)) (@ (@ tptp.intersection (@ _let_1 Y)) (@ _let_1 Z)))))))
% 0.21/0.52 (set-info :filename cvc5---1.0.5_26696)
% 0.21/0.52 (check-sat-assuming ( true ))
% 0.21/0.52 ------- get file name : TPTP file name is SET612^3
% 0.21/0.52 ------- cvc5-thf : /export/starexec/sandbox/solver/bin/cvc5---1.0.5_26696.smt2...
% 0.21/0.52 --- Run --ho-elim --full-saturate-quant at 10...
% 0.21/0.70 % SZS status Theorem for SET612^3
% 0.21/0.70 % SZS output start Proof for SET612^3
% 0.21/0.70 (
% 0.21/0.70 (let ((_let_1 (not (forall ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (Z (-> $$unsorted Bool))) (let ((_let_1 (@ tptp.setminus X))) (= (@ _let_1 (@ (@ tptp.union Y) Z)) (@ (@ tptp.intersection (@ _let_1 Y)) (@ _let_1 Z)))))))) (let ((_let_2 (= tptp.misses (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool))) (not (exists ((U $$unsorted)) (and (@ X U) (@ Y U)))))))) (let ((_let_3 (= tptp.meets (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool))) (exists ((U $$unsorted)) (and (@ X U) (@ Y U))))))) (let ((_let_4 (= tptp.subset (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool))) (forall ((U $$unsorted)) (=> (@ X U) (@ Y U))))))) (let ((_let_5 (= tptp.disjoint (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool))) (= (@ (@ tptp.intersection X) Y) tptp.emptyset))))) (let ((_let_6 (= tptp.complement (lambda ((X (-> $$unsorted Bool)) (U $$unsorted)) (not (@ X U)))))) (let ((_let_7 (= tptp.setminus (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (U $$unsorted)) (and (@ X U) (not (@ Y U))))))) (let ((_let_8 (= tptp.intersection (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (U $$unsorted)) (and (@ X U) (@ Y U)))))) (let ((_let_9 (= tptp.excl_union (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (U $$unsorted)) (let ((_let_1 (@ Y U))) (let ((_let_2 (@ X U))) (or (and _let_2 (not _let_1)) (and (not _let_2) _let_1)))))))) (let ((_let_10 (= tptp.union (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (U $$unsorted)) (or (@ X U) (@ Y U)))))) (let ((_let_11 (= tptp.singleton (lambda ((X $$unsorted) (U $$unsorted)) (= U X))))) (let ((_let_12 (= tptp.unord_pair (lambda ((X $$unsorted) (Y $$unsorted) (U $$unsorted)) (or (= U X) (= U Y)))))) (let ((_let_13 (= tptp.emptyset (lambda ((X $$unsorted)) false)))) (let ((_let_14 (= tptp.is_a (lambda ((X $$unsorted) (M (-> $$unsorted Bool))) (@ M X))))) (let ((_let_15 (= tptp.in (lambda ((X $$unsorted) (M (-> $$unsorted Bool))) (@ M X))))) (let ((_let_16 (and (ho_4 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_10 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_203) (not (ho_4 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_11 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_203)) (not (ho_4 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_12 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_203))))) (let ((_let_17 (ho_8 (ho_7 (ho_6 k_5 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_10) SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_11) SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_12))) (let ((_let_18 (ho_4 _let_17 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_203))) (let ((_let_19 (= _let_18 _let_16))) (let ((_let_20 (forall ((BOUND_VARIABLE_1014 |u_(-> $$unsorted Bool)|) (BOUND_VARIABLE_1011 |u_(-> $$unsorted Bool)|) (BOUND_VARIABLE_1006 |u_(-> $$unsorted Bool)|) (BOUND_VARIABLE_979 $$unsorted)) (= (and (ho_4 BOUND_VARIABLE_1014 BOUND_VARIABLE_979) (not (ho_4 BOUND_VARIABLE_1011 BOUND_VARIABLE_979)) (not (ho_4 BOUND_VARIABLE_1006 BOUND_VARIABLE_979))) (ho_4 (ho_8 (ho_7 (ho_6 k_5 BOUND_VARIABLE_1014) BOUND_VARIABLE_1011) BOUND_VARIABLE_1006) BOUND_VARIABLE_979))))) (let ((_let_21 (forall ((u |u_(-> $$unsorted Bool)|) (e Bool) (i $$unsorted)) (not (forall ((v |u_(-> $$unsorted Bool)|)) (not (forall ((ii $$unsorted)) (= (ho_4 v ii) (ite (= i ii) e (ho_4 u ii)))))))))) (let ((_let_22 (forall ((x |u_(-> $$unsorted Bool)|) (y |u_(-> $$unsorted Bool)|)) (or (not (forall ((z $$unsorted)) (= (ho_4 x z) (ho_4 y z)))) (= x y))))) (let ((_let_23 (forall ((u |u_(-> _u_(-> $$unsorted Bool)_ $$unsorted Bool)|) (e |u_(-> $$unsorted Bool)|) (i |u_(-> $$unsorted Bool)|)) (not (forall ((v |u_(-> _u_(-> $$unsorted Bool)_ $$unsorted Bool)|)) (not (forall ((ii |u_(-> $$unsorted Bool)|)) (= (ho_8 v ii) (ite (= i ii) e (ho_8 u ii)))))))))) (let ((_let_24 (forall ((x |u_(-> _u_(-> $$unsorted Bool)_ $$unsorted Bool)|) (y |u_(-> _u_(-> $$unsorted Bool)_ $$unsorted Bool)|)) (or (not (forall ((z |u_(-> $$unsorted Bool)|)) (= (ho_8 x z) (ho_8 y z)))) (= x y))))) (let ((_let_25 (forall ((u |u_(-> _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ $$unsorted Bool)|) (e |u_(-> _u_(-> $$unsorted Bool)_ $$unsorted Bool)|) (i |u_(-> $$unsorted Bool)|)) (not (forall ((v |u_(-> _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ $$unsorted Bool)|)) (not (forall ((ii |u_(-> $$unsorted Bool)|)) (= (ho_7 v ii) (ite (= i ii) e (ho_7 u ii)))))))))) (let ((_let_26 (forall ((x |u_(-> _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ $$unsorted Bool)|) (y |u_(-> _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ $$unsorted Bool)|)) (or (not (forall ((z |u_(-> $$unsorted Bool)|)) (= (ho_7 x z) (ho_7 y z)))) (= x y))))) (let ((_let_27 (forall ((u |u_(-> _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ $$unsorted Bool)|) (e |u_(-> _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ $$unsorted Bool)|) (i |u_(-> $$unsorted Bool)|)) (not (forall ((v |u_(-> _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ $$unsorted Bool)|)) (not (forall ((ii |u_(-> $$unsorted Bool)|)) (= (ho_6 v ii) (ite (= i ii) e (ho_6 u ii)))))))))) (let ((_let_28 (forall ((x |u_(-> _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ $$unsorted Bool)|) (y |u_(-> _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ _u_(-> $$unsorted Bool)_ $$unsorted Bool)|)) (or (not (forall ((z |u_(-> $$unsorted Bool)|)) (= (ho_6 x z) (ho_6 y z)))) (= x y))))) (let ((_let_29 (forall ((BOUND_VARIABLE_1046 |u_(-> $$unsorted Bool)|) (BOUND_VARIABLE_1045 |u_(-> $$unsorted Bool)|) (BOUND_VARIABLE_1044 |u_(-> $$unsorted Bool)|) (BOUND_VARIABLE_965 $$unsorted)) (= (ho_4 (ho_8 (ho_7 (ho_6 k_9 BOUND_VARIABLE_1046) BOUND_VARIABLE_1045) BOUND_VARIABLE_1044) BOUND_VARIABLE_965) (and (ho_4 BOUND_VARIABLE_1046 BOUND_VARIABLE_965) (not (ho_4 BOUND_VARIABLE_1045 BOUND_VARIABLE_965)) (not (ho_4 BOUND_VARIABLE_1044 BOUND_VARIABLE_965))))))) (let ((_let_30 (and (forall ((BOUND_VARIABLE_962 (-> $$unsorted Bool)) (BOUND_VARIABLE_963 (-> $$unsorted Bool)) (BOUND_VARIABLE_964 (-> $$unsorted Bool)) (BOUND_VARIABLE_965 $$unsorted)) (= (and (@ BOUND_VARIABLE_962 BOUND_VARIABLE_965) (not (@ BOUND_VARIABLE_963 BOUND_VARIABLE_965)) (not (@ BOUND_VARIABLE_964 BOUND_VARIABLE_965))) (ll_2 BOUND_VARIABLE_962 BOUND_VARIABLE_963 BOUND_VARIABLE_964 BOUND_VARIABLE_965))) (forall ((BOUND_VARIABLE_976 (-> $$unsorted Bool)) (BOUND_VARIABLE_977 (-> $$unsorted Bool)) (BOUND_VARIABLE_978 (-> $$unsorted Bool)) (BOUND_VARIABLE_979 $$unsorted)) (= (ll_3 BOUND_VARIABLE_976 BOUND_VARIABLE_977 BOUND_VARIABLE_978 BOUND_VARIABLE_979) (and (@ BOUND_VARIABLE_976 BOUND_VARIABLE_979) (not (@ BOUND_VARIABLE_977 BOUND_VARIABLE_979)) (not (@ BOUND_VARIABLE_978 BOUND_VARIABLE_979)))))))) (let ((_let_31 (MACRO_SR_PRED_TRANSFORM (AND_INTRO (EQ_RESOLVE (PREPROCESS_LEMMA :args (_let_30)) (PREPROCESS :args ((= _let_30 (and _let_29 _let_20))))) (PREPROCESS :args ((and _let_28 _let_27 _let_26 _let_25 _let_24 _let_23 _let_22 _let_21)))) :args ((and _let_29 _let_20 _let_28 _let_27 _let_26 _let_25 _let_24 _let_23 _let_22 _let_21))))) (let ((_let_32 (AND_ELIM _let_31 :args (1)))) (let ((_let_33 (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (MACRO_SR_PRED_ELIM (SCOPE (INSTANTIATE _let_32 :args (SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_10 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_11 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_12 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_203 QUANTIFIERS_INST_E_MATCHING ((ho_4 (ho_8 (ho_7 (ho_6 k_5 BOUND_VARIABLE_1014) BOUND_VARIABLE_1011) BOUND_VARIABLE_1006) BOUND_VARIABLE_979)))) :args (_let_20)))) _let_32 :args (_let_19 false _let_20)))) (let ((_let_34 (ho_8 (ho_7 (ho_6 k_9 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_10) SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_11) SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_12))) (let ((_let_35 (ho_4 _let_34 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_203))) (let ((_let_36 (= _let_35 _let_18))) (let ((_let_37 (forall ((z $$unsorted)) (= (ho_4 (ho_8 (ho_7 (ho_6 k_9 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_10) SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_11) SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_12) z) (ho_4 (ho_8 (ho_7 (ho_6 k_5 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_10) SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_11) SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_12) z))))) (let ((_let_38 (not _let_36))) (let ((_let_39 (= _let_17 _let_34))) (let ((_let_40 (not _let_37))) (let ((_let_41 (or _let_40 _let_39))) (let ((_let_42 (AND_ELIM _let_31 :args (8)))) (let ((_let_43 (forall ((BOUND_VARIABLE_1070 |u_(-> $$unsorted Bool)|) (BOUND_VARIABLE_1069 |u_(-> $$unsorted Bool)|) (BOUND_VARIABLE_1068 |u_(-> $$unsorted Bool)|)) (= (ho_8 (ho_7 (ho_6 k_5 BOUND_VARIABLE_1070) BOUND_VARIABLE_1069) BOUND_VARIABLE_1068) (ho_8 (ho_7 (ho_6 k_9 BOUND_VARIABLE_1070) BOUND_VARIABLE_1069) BOUND_VARIABLE_1068))))) (let ((_let_44 (not _let_39))) (let ((_let_45 (not _let_43))) (let ((_let_46 (not (forall ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (Z (-> $$unsorted Bool))) (= (@ (@ (@ ll_2 X) Y) Z) (@ (@ (@ ll_3 X) Y) Z)))))) (let ((_let_47 (ASSUME :args (_let_15)))) (let ((_let_48 (ASSUME :args (_let_14)))) (let ((_let_49 (EQ_RESOLVE (ASSUME :args (_let_13)) (MACRO_SR_EQ_INTRO :args (_let_13 SB_DEFAULT SBA_FIXPOINT))))) (let ((_let_50 (EQ_RESOLVE (ASSUME :args (_let_12)) (MACRO_SR_EQ_INTRO :args (_let_12 SB_DEFAULT SBA_FIXPOINT))))) (let ((_let_51 (EQ_RESOLVE (ASSUME :args (_let_11)) (MACRO_SR_EQ_INTRO :args (_let_11 SB_DEFAULT SBA_FIXPOINT))))) (let ((_let_52 (ASSUME :args (_let_10)))) (let ((_let_53 (ASSUME :args (_let_9)))) (let ((_let_54 (ASSUME :args (_let_8)))) (let ((_let_55 (ASSUME :args (_let_7)))) (let ((_let_56 (ASSUME :args (_let_6)))) (let ((_let_57 (EQ_RESOLVE (ASSUME :args (_let_1)) (TRANS (MACRO_SR_EQ_INTRO (AND_INTRO (EQ_RESOLVE (ASSUME :args (_let_2)) (MACRO_SR_EQ_INTRO :args (_let_2 SB_DEFAULT SBA_FIXPOINT))) (EQ_RESOLVE (ASSUME :args (_let_3)) (MACRO_SR_EQ_INTRO :args (_let_3 SB_DEFAULT SBA_FIXPOINT))) (EQ_RESOLVE (ASSUME :args (_let_4)) (MACRO_SR_EQ_INTRO :args (_let_4 SB_DEFAULT SBA_FIXPOINT))) (EQ_RESOLVE (EQ_RESOLVE (ASSUME :args (_let_5)) (MACRO_SR_EQ_INTRO :args (_let_5 SB_DEFAULT SBA_FIXPOINT))) (MACRO_SR_EQ_INTRO (AND_INTRO _let_56 _let_55 _let_54 _let_53 _let_52 _let_51 _let_50 _let_49 _let_48 _let_47) :args ((= tptp.disjoint (lambda ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool))) (= tptp.emptyset (@ (@ tptp.intersection X) Y)))) SB_DEFAULT SBA_FIXPOINT))) _let_56 _let_55 _let_54 _let_53 _let_52 _let_51 _let_50 _let_49 _let_48 _let_47) :args (_let_1 SB_DEFAULT SBA_FIXPOINT)) (PREPROCESS :args ((= (not (forall ((X (-> $$unsorted Bool)) (Y (-> $$unsorted Bool)) (Z (-> $$unsorted Bool))) (= (lambda ((U $$unsorted)) (and (@ X U) (not (or (@ Y U) (@ Z U))))) (lambda ((U $$unsorted)) (and (@ X U) (not (@ Y U)) (not (@ Z U))))))) _let_46))) (PREPROCESS :args ((= _let_46 _let_45))))))) (let ((_let_58 (or))) (let ((_let_59 (_let_40))) (let ((_let_60 (MACRO_RESOLUTION_TRUST (EQ_RESOLVE (IMPLIES_ELIM (SCOPE (SKOLEMIZE (ASSUME :args _let_59)) :args _let_59)) (CONG (MACRO_SR_PRED_INTRO :args ((= (not _let_40) _let_37))) (REFL :args (_let_38)) :args _let_58)) (MACRO_RESOLUTION_TRUST (REORDERING (CNF_OR_POS :args (_let_41)) :args ((or _let_39 _let_40 (not _let_41)))) (MACRO_RESOLUTION_TRUST (EQ_RESOLVE (IMPLIES_ELIM (SCOPE (SKOLEMIZE _let_57) :args (_let_45))) (CONG (MACRO_SR_PRED_INTRO :args ((= (not _let_45) _let_43))) (REFL :args (_let_44)) :args _let_58)) _let_57 :args (_let_44 true _let_43)) (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (MACRO_SR_PRED_ELIM (SCOPE (INSTANTIATE _let_42 :args (_let_34 _let_17 QUANTIFIERS_INST_ENUM)) :args (_let_22)))) _let_42 :args (_let_41 false _let_22)) :args (_let_40 true _let_39 false _let_41)) :args (_let_38 true _let_37)))) (let ((_let_61 (= _let_35 _let_16))) (let ((_let_62 (not _let_35))) (let ((_let_63 (_let_36))) (let ((_let_64 (AND_ELIM _let_31 :args (0)))) (let ((_let_65 (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (SCOPE (INSTANTIATE _let_64 :args (SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_10 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_11 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_12 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_203 QUANTIFIERS_INST_E_MATCHING ((ho_4 (ho_8 (ho_7 (ho_6 k_9 BOUND_VARIABLE_1046) BOUND_VARIABLE_1045) BOUND_VARIABLE_1044) BOUND_VARIABLE_965)))) :args (_let_29))) _let_64 :args (_let_61 false _let_29)))) (let ((_let_66 (not _let_61))) (let ((_let_67 (_let_61))) (let ((_let_68 (not _let_19))) (let ((_let_69 (not _let_16))) (let ((_let_70 (_let_19))) (let ((_let_71 (MACRO_RESOLUTION_TRUST (REORDERING (CNF_EQUIV_POS2 :args _let_70) :args ((or _let_18 _let_69 _let_68))) _let_33 (REORDERING (CNF_EQUIV_POS1 :args _let_67) :args ((or _let_62 _let_16 _let_66))) _let_65 (CNF_EQUIV_NEG2 :args _let_63) _let_60 :args (_let_62 false _let_19 false _let_16 false _let_61 true _let_18 true _let_36)))) (SCOPE (SCOPE (MACRO_RESOLUTION_TRUST (REORDERING (CNF_EQUIV_POS1 :args _let_70) :args ((or (not _let_18) _let_16 _let_68))) (MACRO_RESOLUTION_TRUST (REORDERING (CNF_EQUIV_POS2 :args _let_67) :args ((or _let_35 _let_69 _let_66))) _let_71 _let_65 :args (_let_69 true _let_35 false _let_61)) (MACRO_RESOLUTION_TRUST (REORDERING (CNF_EQUIV_NEG1 :args _let_63) :args ((or _let_35 _let_18 _let_36))) _let_71 _let_60 :args (_let_18 true _let_35 true _let_36)) _let_33 :args (false true _let_16 false _let_18 false _let_19)) :args (_let_15 _let_14 _let_13 _let_12 _let_11 _let_10 _let_9 _let_8 _let_7 _let_6 _let_5 _let_4 _let_3 _let_2 _let_1 true))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
% 0.21/0.71 )
% 0.21/0.71 % SZS output end Proof for SET612^3
% 0.21/0.71 % cvc5---1.0.5 exiting
% 0.21/0.71 % cvc5---1.0.5 exiting
%------------------------------------------------------------------------------