TSTP Solution File: NLP267^1 by cvc5---1.0.5
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%------------------------------------------------------------------------------
% File : cvc5---1.0.5
% Problem : NLP267^1 : TPTP v8.1.2. Released v8.1.0.
% Transfm : none
% Format : tptp
% Command : do_cvc5 %s %d
% Computer : n032.cluster.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory : 8042.1875MB
% OS : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit : 300s
% DateTime : Thu Aug 31 09:41:04 EDT 2023
% Result : Theorem 0.15s 0.42s
% Output : Proof 0.15s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.10 % Problem : NLP267^1 : TPTP v8.1.2. Released v8.1.0.
% 0.00/0.11 % Command : do_cvc5 %s %d
% 0.12/0.30 % Computer : n032.cluster.edu
% 0.12/0.30 % Model : x86_64 x86_64
% 0.12/0.30 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.30 % Memory : 8042.1875MB
% 0.12/0.30 % OS : Linux 3.10.0-693.el7.x86_64
% 0.12/0.30 % CPULimit : 300
% 0.12/0.30 % WCLimit : 300
% 0.12/0.30 % DateTime : Thu Aug 24 13:00:57 EDT 2023
% 0.12/0.30 % CPUTime :
% 0.15/0.39 %----Proving TH0
% 0.15/0.39 %------------------------------------------------------------------------------
% 0.15/0.39 % File : NLP267^1 : TPTP v8.1.2. Released v8.1.0.
% 0.15/0.39 % Domain : Natural Language Processing
% 0.15/0.39 % Problem : Ticket example
% 0.15/0.39 % Version : [BP13] axioms.
% 0.15/0.39 % English :
% 0.15/0.39
% 0.15/0.39 % Refs : [FH+98] Farinas del Cerro et al. (1998), Belief Reconstruction
% 0.15/0.39 % : [RO12] Raths & Otten (2012), The QMLTP Problem Library for Fi
% 0.15/0.39 % : [BP13] Benzmueller & Paulson (2013), Quantified Multimodal Lo
% 0.15/0.39 % : [Ste22] Steen (2022), An Extensible Logic Embedding Tool for L
% 0.15/0.39 % Source : [TPTP]
% 0.15/0.39 % Names : APM001+1 [QMLTP]
% 0.15/0.39
% 0.15/0.39 % Status : Theorem
% 0.15/0.39 % Rating : 0.15 v8.1.0
% 0.15/0.39 % Syntax : Number of formulae : 34 ( 8 unt; 19 typ; 8 def)
% 0.15/0.39 % Number of atoms : 53 ( 8 equ; 0 cnn)
% 0.15/0.39 % Maximal formula atoms : 7 ( 3 avg)
% 0.15/0.39 % Number of connectives : 64 ( 1 ~; 1 |; 2 &; 57 @)
% 0.15/0.39 % ( 1 <=>; 2 =>; 0 <=; 0 <~>)
% 0.15/0.39 % Maximal formula depth : 8 ( 3 avg)
% 0.15/0.39 % Number of types : 3 ( 1 usr)
% 0.15/0.39 % Number of type conns : 51 ( 51 >; 0 *; 0 +; 0 <<)
% 0.15/0.39 % Number of symbols : 19 ( 18 usr; 6 con; 0-3 aty)
% 0.15/0.39 % Number of variables : 21 ( 19 ^; 1 !; 1 ?; 21 :)
% 0.15/0.39 % SPC : TH0_THM_EQU_NAR
% 0.15/0.39
% 0.15/0.39 % Comments : This output was generated by embedproblem, version 1.7.1 (library
% 0.15/0.39 % version 1.3). Generated on Thu Apr 28 13:18:18 EDT 2022 using
% 0.15/0.39 % 'modal' embedding, version 1.5.2. Logic specification used:
% 0.15/0.39 % $modal == [$constants == $rigid,$quantification == $constant,
% 0.15/0.39 % $modalities == $modal_system_K].
% 0.15/0.39 %------------------------------------------------------------------------------
% 0.15/0.39 thf(mworld,type,
% 0.15/0.39 mworld: $tType ).
% 0.15/0.39
% 0.15/0.39 thf(mrel_type,type,
% 0.15/0.39 mrel: mworld > mworld > $o ).
% 0.15/0.39
% 0.15/0.39 thf(mactual_type,type,
% 0.15/0.39 mactual: mworld ).
% 0.15/0.39
% 0.15/0.39 thf(mlocal_type,type,
% 0.15/0.39 mlocal: ( mworld > $o ) > $o ).
% 0.15/0.39
% 0.15/0.39 thf(mlocal_def,definition,
% 0.15/0.39 ( mlocal
% 0.15/0.39 = ( ^ [Phi: mworld > $o] : ( Phi @ mactual ) ) ) ).
% 0.15/0.39
% 0.15/0.39 thf(mnot_type,type,
% 0.15/0.39 mnot: ( mworld > $o ) > mworld > $o ).
% 0.15/0.39
% 0.15/0.39 thf(mand_type,type,
% 0.15/0.39 mand: ( mworld > $o ) > ( mworld > $o ) > mworld > $o ).
% 0.15/0.39
% 0.15/0.39 thf(mor_type,type,
% 0.15/0.39 mor: ( mworld > $o ) > ( mworld > $o ) > mworld > $o ).
% 0.15/0.39
% 0.15/0.39 thf(mimplies_type,type,
% 0.15/0.39 mimplies: ( mworld > $o ) > ( mworld > $o ) > mworld > $o ).
% 0.15/0.39
% 0.15/0.39 thf(mequiv_type,type,
% 0.15/0.39 mequiv: ( mworld > $o ) > ( mworld > $o ) > mworld > $o ).
% 0.15/0.39
% 0.15/0.39 thf(mnot_def,definition,
% 0.15/0.39 ( mnot
% 0.15/0.39 = ( ^ [A: mworld > $o,W: mworld] :
% 0.15/0.39 ~ ( A @ W ) ) ) ).
% 0.15/0.39
% 0.15/0.39 thf(mand_def,definition,
% 0.15/0.39 ( mand
% 0.15/0.39 = ( ^ [A: mworld > $o,B: mworld > $o,W: mworld] :
% 0.15/0.39 ( ( A @ W )
% 0.15/0.39 & ( B @ W ) ) ) ) ).
% 0.15/0.39
% 0.15/0.39 thf(mor_def,definition,
% 0.15/0.39 ( mor
% 0.15/0.39 = ( ^ [A: mworld > $o,B: mworld > $o,W: mworld] :
% 0.15/0.39 ( ( A @ W )
% 0.15/0.39 | ( B @ W ) ) ) ) ).
% 0.15/0.39
% 0.15/0.39 thf(mimplies_def,definition,
% 0.15/0.39 ( mimplies
% 0.15/0.39 = ( ^ [A: mworld > $o,B: mworld > $o,W: mworld] :
% 0.15/0.39 ( ( A @ W )
% 0.15/0.39 => ( B @ W ) ) ) ) ).
% 0.15/0.39
% 0.15/0.39 thf(mequiv_def,definition,
% 0.15/0.39 ( mequiv
% 0.15/0.39 = ( ^ [A: mworld > $o,B: mworld > $o,W: mworld] :
% 0.15/0.39 ( ( A @ W )
% 0.15/0.39 <=> ( B @ W ) ) ) ) ).
% 0.15/0.39
% 0.15/0.39 thf(mbox_type,type,
% 0.15/0.39 mbox: ( mworld > $o ) > mworld > $o ).
% 0.15/0.39
% 0.15/0.39 thf(mbox_def,definition,
% 0.15/0.39 ( mbox
% 0.15/0.39 = ( ^ [Phi: mworld > $o,W: mworld] :
% 0.15/0.39 ! [V: mworld] :
% 0.15/0.39 ( ( mrel @ W @ V )
% 0.15/0.39 => ( Phi @ V ) ) ) ) ).
% 0.15/0.39
% 0.15/0.39 thf(mdia_type,type,
% 0.15/0.39 mdia: ( mworld > $o ) > mworld > $o ).
% 0.15/0.39
% 0.15/0.39 thf(mdia_def,definition,
% 0.15/0.39 ( mdia
% 0.15/0.39 = ( ^ [Phi: mworld > $o,W: mworld] :
% 0.15/0.39 ? [V: mworld] :
% 0.15/0.39 ( ( mrel @ W @ V )
% 0.15/0.39 & ( Phi @ V ) ) ) ) ).
% 0.15/0.39
% 0.15/0.39 thf(seventy_decl,type,
% 0.15/0.39 seventy: $i ).
% 0.15/0.39
% 0.15/0.39 thf(ninetyfive_decl,type,
% 0.15/0.39 ninetyfive: $i ).
% 0.15/0.39
% 0.15/0.39 thf(second_decl,type,
% 0.15/0.39 second: $i ).
% 0.15/0.39
% 0.15/0.39 thf(paris_decl,type,
% 0.15/0.39 paris: $i ).
% 0.15/0.39
% 0.15/0.39 thf(first_decl,type,
% 0.15/0.39 first: $i ).
% 0.15/0.39
% 0.15/0.39 thf(price_decl,type,
% 0.15/0.39 price: $i > mworld > $o ).
% 0.15/0.39
% 0.15/0.39 thf(dest_decl,type,
% 0.15/0.39 dest: $i > mworld > $o ).
% 0.15/0.39
% 0.15/0.39 thf(class_decl,type,
% 0.15/0.39 class: $i > mworld > $o ).
% 0.15/0.39
% 0.15/0.39 thf(law1,axiom,
% 0.15/0.39 mlocal @ ( mbox @ ( mimplies @ ( mand @ ( dest @ paris ) @ ( class @ first ) ) @ ( price @ ninetyfive ) ) ) ).
% 0.15/0.42
% 0.15/0.42 thf(law2,axiom,
% 0.15/0.42 mlocal @ ( mbox @ ( mimplies @ ( mand @ ( dest @ paris ) @ ( class @ second ) ) @ ( price @ seventy ) ) ) ).
% 0.15/0.42
% 0.15/0.42 thf(law3,axiom,
% 0.15/0.42 mlocal @ ( mbox @ ( mnot @ ( mand @ ( class @ first ) @ ( class @ second ) ) ) ) ).
% 0.15/0.42
% 0.15/0.42 thf(law4,axiom,
% 0.15/0.42 mlocal @ ( mbox @ ( mnot @ ( mand @ ( price @ ninetyfive ) @ ( price @ seventy ) ) ) ) ).
% 0.15/0.42
% 0.15/0.42 thf(belief1,axiom,
% 0.15/0.42 mlocal @ ( mbox @ ( dest @ paris ) ) ).
% 0.15/0.42
% 0.15/0.42 thf(belief2,axiom,
% 0.15/0.42 mlocal @ ( mbox @ ( class @ second ) ) ).
% 0.15/0.42
% 0.15/0.42 thf(con,conjecture,
% 0.15/0.42 mlocal @ ( mbox @ ( price @ seventy ) ) ).
% 0.15/0.42
% 0.15/0.42 %------------------------------------------------------------------------------
% 0.15/0.42 ------- convert to smt2 : /export/starexec/sandbox2/tmp/tmp.2sqDuHsK1I/cvc5---1.0.5_32438.p...
% 0.15/0.42 (declare-sort $$unsorted 0)
% 0.15/0.42 (declare-sort tptp.mworld 0)
% 0.15/0.42 (declare-fun tptp.mrel (tptp.mworld tptp.mworld) Bool)
% 0.15/0.42 (declare-fun tptp.mactual () tptp.mworld)
% 0.15/0.42 (declare-fun tptp.mlocal ((-> tptp.mworld Bool)) Bool)
% 0.15/0.42 (assert (= tptp.mlocal (lambda ((Phi (-> tptp.mworld Bool))) (@ Phi tptp.mactual))))
% 0.15/0.42 (declare-fun tptp.mnot ((-> tptp.mworld Bool) tptp.mworld) Bool)
% 0.15/0.42 (declare-fun tptp.mand ((-> tptp.mworld Bool) (-> tptp.mworld Bool) tptp.mworld) Bool)
% 0.15/0.42 (declare-fun tptp.mor ((-> tptp.mworld Bool) (-> tptp.mworld Bool) tptp.mworld) Bool)
% 0.15/0.42 (declare-fun tptp.mimplies ((-> tptp.mworld Bool) (-> tptp.mworld Bool) tptp.mworld) Bool)
% 0.15/0.42 (declare-fun tptp.mequiv ((-> tptp.mworld Bool) (-> tptp.mworld Bool) tptp.mworld) Bool)
% 0.15/0.42 (assert (= tptp.mnot (lambda ((A (-> tptp.mworld Bool)) (W tptp.mworld)) (not (@ A W)))))
% 0.15/0.42 (assert (= tptp.mand (lambda ((A (-> tptp.mworld Bool)) (B (-> tptp.mworld Bool)) (W tptp.mworld)) (and (@ A W) (@ B W)))))
% 0.15/0.42 (assert (= tptp.mor (lambda ((A (-> tptp.mworld Bool)) (B (-> tptp.mworld Bool)) (W tptp.mworld)) (or (@ A W) (@ B W)))))
% 0.15/0.42 (assert (= tptp.mimplies (lambda ((A (-> tptp.mworld Bool)) (B (-> tptp.mworld Bool)) (W tptp.mworld)) (=> (@ A W) (@ B W)))))
% 0.15/0.42 (assert (= tptp.mequiv (lambda ((A (-> tptp.mworld Bool)) (B (-> tptp.mworld Bool)) (W tptp.mworld)) (= (@ A W) (@ B W)))))
% 0.15/0.42 (declare-fun tptp.mbox ((-> tptp.mworld Bool) tptp.mworld) Bool)
% 0.15/0.42 (assert (= tptp.mbox (lambda ((Phi (-> tptp.mworld Bool)) (W tptp.mworld)) (forall ((V tptp.mworld)) (=> (@ (@ tptp.mrel W) V) (@ Phi V))))))
% 0.15/0.42 (declare-fun tptp.mdia ((-> tptp.mworld Bool) tptp.mworld) Bool)
% 0.15/0.42 (assert (= tptp.mdia (lambda ((Phi (-> tptp.mworld Bool)) (W tptp.mworld)) (exists ((V tptp.mworld)) (and (@ (@ tptp.mrel W) V) (@ Phi V))))))
% 0.15/0.42 (declare-fun tptp.seventy () $$unsorted)
% 0.15/0.42 (declare-fun tptp.ninetyfive () $$unsorted)
% 0.15/0.42 (declare-fun tptp.second () $$unsorted)
% 0.15/0.42 (declare-fun tptp.paris () $$unsorted)
% 0.15/0.42 (declare-fun tptp.first () $$unsorted)
% 0.15/0.42 (declare-fun tptp.price ($$unsorted tptp.mworld) Bool)
% 0.15/0.42 (declare-fun tptp.dest ($$unsorted tptp.mworld) Bool)
% 0.15/0.42 (declare-fun tptp.class ($$unsorted tptp.mworld) Bool)
% 0.15/0.42 (assert (@ tptp.mlocal (@ tptp.mbox (@ (@ tptp.mimplies (@ (@ tptp.mand (@ tptp.dest tptp.paris)) (@ tptp.class tptp.first))) (@ tptp.price tptp.ninetyfive)))))
% 0.15/0.42 (assert (@ tptp.mlocal (@ tptp.mbox (@ (@ tptp.mimplies (@ (@ tptp.mand (@ tptp.dest tptp.paris)) (@ tptp.class tptp.second))) (@ tptp.price tptp.seventy)))))
% 0.15/0.42 (assert (@ tptp.mlocal (@ tptp.mbox (@ tptp.mnot (@ (@ tptp.mand (@ tptp.class tptp.first)) (@ tptp.class tptp.second))))))
% 0.15/0.42 (assert (@ tptp.mlocal (@ tptp.mbox (@ tptp.mnot (@ (@ tptp.mand (@ tptp.price tptp.ninetyfive)) (@ tptp.price tptp.seventy))))))
% 0.15/0.42 (assert (@ tptp.mlocal (@ tptp.mbox (@ tptp.dest tptp.paris))))
% 0.15/0.42 (assert (@ tptp.mlocal (@ tptp.mbox (@ tptp.class tptp.second))))
% 0.15/0.42 (assert (not (@ tptp.mlocal (@ tptp.mbox (@ tptp.price tptp.seventy)))))
% 0.15/0.42 (set-info :filename cvc5---1.0.5_32438)
% 0.15/0.42 (check-sat-assuming ( true ))
% 0.15/0.42 ------- get file name : TPTP file name is NLP267^1
% 0.15/0.42 ------- cvc5-thf : /export/starexec/sandbox2/solver/bin/cvc5---1.0.5_32438.smt2...
% 0.15/0.42 --- Run --ho-elim --full-saturate-quant at 10...
% 0.15/0.42 % SZS status Theorem for NLP267^1
% 0.15/0.42 % SZS output start Proof for NLP267^1
% 0.15/0.42 (
% 0.15/0.42 (let ((_let_1 (@ tptp.price tptp.seventy))) (let ((_let_2 (not (@ tptp.mlocal (@ tptp.mbox _let_1))))) (let ((_let_3 (@ tptp.class tptp.second))) (let ((_let_4 (@ tptp.mlocal (@ tptp.mbox _let_3)))) (let ((_let_5 (@ tptp.dest tptp.paris))) (let ((_let_6 (@ tptp.mlocal (@ tptp.mbox _let_5)))) (let ((_let_7 (@ tptp.price tptp.ninetyfive))) (let ((_let_8 (@ tptp.class tptp.first))) (let ((_let_9 (@ tptp.mand _let_5))) (let ((_let_10 (@ tptp.mlocal (@ tptp.mbox (@ (@ tptp.mimplies (@ _let_9 _let_3)) _let_1))))) (let ((_let_11 (= tptp.mdia (lambda ((Phi (-> tptp.mworld Bool)) (W tptp.mworld)) (exists ((V tptp.mworld)) (and (@ (@ tptp.mrel W) V) (@ Phi V))))))) (let ((_let_12 (= tptp.mbox (lambda ((Phi (-> tptp.mworld Bool)) (W tptp.mworld)) (forall ((V tptp.mworld)) (=> (@ (@ tptp.mrel W) V) (@ Phi V))))))) (let ((_let_13 (= tptp.mequiv (lambda ((A (-> tptp.mworld Bool)) (B (-> tptp.mworld Bool)) (W tptp.mworld)) (= (@ A W) (@ B W)))))) (let ((_let_14 (= tptp.mimplies (lambda ((A (-> tptp.mworld Bool)) (B (-> tptp.mworld Bool)) (W tptp.mworld)) (=> (@ A W) (@ B W)))))) (let ((_let_15 (= tptp.mor (lambda ((A (-> tptp.mworld Bool)) (B (-> tptp.mworld Bool)) (W tptp.mworld)) (or (@ A W) (@ B W)))))) (let ((_let_16 (= tptp.mand (lambda ((A (-> tptp.mworld Bool)) (B (-> tptp.mworld Bool)) (W tptp.mworld)) (and (@ A W) (@ B W)))))) (let ((_let_17 (= tptp.mnot (lambda ((A (-> tptp.mworld Bool)) (W tptp.mworld)) (not (@ A W)))))) (let ((_let_18 (= tptp.mlocal (lambda ((Phi (-> tptp.mworld Bool))) (@ Phi tptp.mactual))))) (let ((_let_19 (ho_8 k_7 tptp.mactual))) (let ((_let_20 (ho_4 _let_19 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_9))) (let ((_let_21 (ho_3 k_2 tptp.seventy))) (let ((_let_22 (ho_4 _let_21 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_9))) (let ((_let_23 (ho_4 (ho_3 k_5 tptp.second) SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_9))) (let ((_let_24 (not _let_23))) (let ((_let_25 (ho_4 (ho_3 k_6 tptp.paris) SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_9))) (let ((_let_26 (not _let_25))) (let ((_let_27 (not _let_20))) (let ((_let_28 (or _let_27 _let_26 _let_24 _let_22))) (let ((_let_29 (or _let_27 _let_22))) (let ((_let_30 (forall ((V tptp.mworld)) (or (not (ho_4 (ho_8 k_7 tptp.mactual) V)) (ho_4 (ho_3 k_2 tptp.seventy) V))))) (let ((_let_31 (not _let_29))) (let ((_let_32 (not _let_30))) (let ((_let_33 (AND_INTRO (EQ_RESOLVE (ASSUME :args (_let_11)) (MACRO_SR_EQ_INTRO :args (_let_11 SB_DEFAULT SBA_FIXPOINT))) (EQ_RESOLVE (ASSUME :args (_let_12)) (MACRO_SR_EQ_INTRO :args (_let_12 SB_DEFAULT SBA_FIXPOINT))) (ASSUME :args (_let_13)) (ASSUME :args (_let_14)) (ASSUME :args (_let_15)) (ASSUME :args (_let_16)) (ASSUME :args (_let_17)) (ASSUME :args (_let_18))))) (let ((_let_34 (EQ_RESOLVE (ASSUME :args (_let_2)) (TRANS (MACRO_SR_EQ_INTRO _let_33 :args (_let_2 SB_DEFAULT SBA_FIXPOINT)) (PREPROCESS :args ((= (not (forall ((V tptp.mworld)) (or (not (@ (@ tptp.mrel tptp.mactual) V)) (@ (@ tptp.price tptp.seventy) V)))) _let_32))))))) (let ((_let_35 (or))) (let ((_let_36 (MACRO_RESOLUTION_TRUST (EQ_RESOLVE (IMPLIES_ELIM (SCOPE (SKOLEMIZE _let_34) :args (_let_32))) (CONG (MACRO_SR_PRED_INTRO :args ((= (not _let_32) _let_30))) (REFL :args (_let_31)) :args _let_35)) _let_34 :args (_let_31 true _let_30)))) (let ((_let_37 (MACRO_RESOLUTION_TRUST (REORDERING (EQ_RESOLVE (CNF_OR_NEG :args (_let_29 0)) (CONG (REFL :args (_let_29)) (MACRO_SR_PRED_INTRO :args ((= (not _let_27) _let_20))) :args _let_35)) :args ((or _let_20 _let_29))) _let_36 :args (_let_20 true _let_29)))) (let ((_let_38 (forall ((V tptp.mworld)) (or (not (ho_4 (ho_8 k_7 tptp.mactual) V)) (not (ho_4 (ho_3 k_6 tptp.paris) V)) (not (ho_4 (ho_3 k_5 tptp.second) V)) (ho_4 (ho_3 k_2 tptp.seventy) V))))) (let ((_let_39 (EQ_RESOLVE (ASSUME :args (_let_10)) (TRANS (MACRO_SR_EQ_INTRO _let_33 :args (_let_10 SB_DEFAULT SBA_FIXPOINT)) (PREPROCESS :args ((= (forall ((V tptp.mworld)) (or (not (@ (@ tptp.mrel tptp.mactual) V)) (not (@ (@ tptp.dest tptp.paris) V)) (not (@ (@ tptp.class tptp.second) V)) (@ (@ tptp.price tptp.seventy) V))) _let_38))))))) (let ((_let_40 (or _let_27 _let_25))) (let ((_let_41 (forall ((V tptp.mworld)) (or (not (ho_4 (ho_8 k_7 tptp.mactual) V)) (ho_4 (ho_3 k_6 tptp.paris) V))))) (let ((_let_42 (EQ_RESOLVE (ASSUME :args (_let_6)) (TRANS (MACRO_SR_EQ_INTRO _let_33 :args (_let_6 SB_DEFAULT SBA_FIXPOINT)) (PREPROCESS :args ((= (forall ((V tptp.mworld)) (or (not (@ (@ tptp.mrel tptp.mactual) V)) (@ (@ tptp.dest tptp.paris) V))) _let_41))))))) (let ((_let_43 (SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_9 QUANTIFIERS_INST_E_MATCHING_SIMPLE ((not (= (ho_4 _let_19 V) false)))))) (let ((_let_44 (or _let_27 _let_23))) (let ((_let_45 (forall ((V tptp.mworld)) (or (not (ho_4 (ho_8 k_7 tptp.mactual) V)) (ho_4 (ho_3 k_5 tptp.second) V))))) (let ((_let_46 (EQ_RESOLVE (ASSUME :args (_let_4)) (TRANS (MACRO_SR_EQ_INTRO _let_33 :args (_let_4 SB_DEFAULT SBA_FIXPOINT)) (PREPROCESS :args ((= (forall ((V tptp.mworld)) (or (not (@ (@ tptp.mrel tptp.mactual) V)) (@ (@ tptp.class tptp.second) V))) _let_45))))))) (SCOPE (SCOPE (MACRO_RESOLUTION_TRUST (REORDERING (CNF_OR_POS :args (_let_28)) :args ((or _let_27 _let_22 _let_26 _let_24 (not _let_28)))) (MACRO_RESOLUTION_TRUST (REORDERING (CNF_OR_POS :args (_let_44)) :args ((or _let_27 _let_23 (not _let_44)))) _let_37 (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (SCOPE (INSTANTIATE _let_46 :args _let_43) :args (_let_45))) _let_46 :args (_let_44 false _let_45)) :args (_let_23 false _let_20 false _let_44)) (MACRO_RESOLUTION_TRUST (REORDERING (CNF_OR_POS :args (_let_40)) :args ((or _let_27 _let_25 (not _let_40)))) _let_37 (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (SCOPE (INSTANTIATE _let_42 :args _let_43) :args (_let_41))) _let_42 :args (_let_40 false _let_41)) :args (_let_25 false _let_20 false _let_40)) (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (SCOPE (INSTANTIATE _let_39 :args (SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_9 QUANTIFIERS_INST_E_MATCHING_SIMPLE ((not (= (ho_4 _let_21 V) true))))) :args (_let_38))) _let_39 :args (_let_28 false _let_38)) (MACRO_RESOLUTION_TRUST (CNF_OR_NEG :args (_let_29 1)) _let_36 :args ((not _let_22) true _let_29)) _let_37 :args (false false _let_23 false _let_25 false _let_28 true _let_22 false _let_20)) :args (_let_18 _let_17 _let_16 _let_15 _let_14 _let_13 _let_12 _let_11 (@ tptp.mlocal (@ tptp.mbox (@ (@ tptp.mimplies (@ _let_9 _let_8)) _let_7))) _let_10 (@ tptp.mlocal (@ tptp.mbox (@ tptp.mnot (@ (@ tptp.mand _let_8) _let_3)))) (@ tptp.mlocal (@ tptp.mbox (@ tptp.mnot (@ (@ tptp.mand _let_7) _let_1)))) _let_6 _let_4 _let_2 true)))))))))))))))))))))))))))))))))))))))))))))))))
% 0.15/0.42 )
% 0.15/0.42 % SZS output end Proof for NLP267^1
% 0.15/0.42 % cvc5---1.0.5 exiting
% 0.15/0.42 % cvc5---1.0.5 exiting
%------------------------------------------------------------------------------