0.11/0.12	% Problem  : theBenchmark.p : TPTP v0.0.0. Released v0.0.0.
0.11/0.12	% Command  : /export/starexec/sandbox2/solver/bin/do_cvc5 /export/starexec/sandbox2/benchmark/theBenchmark.p 240 THM
0.12/0.33	% Computer : n031.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 : 1920
0.12/0.33	% WCLimit  : 240
0.12/0.33	% DateTime : Fri Sep  5 18:40:52 EDT 2025
0.12/0.33	% CPUTime  : 
0.18/0.48	%----Proving TH0
0.41/0.60	--- Run --mbqi --mbqi-enum --mbqi-enum-choice-grammar --mbqi-enum-global-syms-grammar --sygus-grammar-ho-partial --no-cegqi --no-sygus-inst at 72s...
0.41/0.60	% SZS status Theorem
0.41/0.60	% SZS output start Proof
0.41/0.60	(
0.41/0.60	(declare-type tptp.a ())
0.41/0.60	(define @t1 () (@var "Y" tptp.a))
0.41/0.60	(define @t2 () (@var "X" tptp.a))
0.41/0.60	(define @t3 () (@list @t2 @t1))
0.41/0.60	(define @t4 () (lambda @t3 (= @t2 @t1)))
0.41/0.60	(define @t5 () (@var "Xq" (-> (-> tptp.a tptp.a Bool) Bool)))
0.41/0.60	(define @t6 () (_ @t5 @t4))
0.41/0.60	(define @t7 () (@var "Xq0" (-> tptp.a Bool)))
0.41/0.60	(define @t8 () (_ @t7 @t1))
0.41/0.60	(define @t9 () (_ @t7 @t2))
0.41/0.60	(define @t10 () (@list @t7))
0.41/0.60	(define @t11 () (forall @t10 (=> @t9 @t8)))
0.41/0.60	(define @t12 () (lambda @t3 @t11))
0.41/0.60	(define @t13 () (=> (_ @t5 @t12) @t6))
0.41/0.60	(define @t14 () (@list @t5))
0.41/0.60	(define @t15 () (forall @t14 @t13))
0.41/0.60	(define @t16 () (not @t15))
0.41/0.60	(define @t17 () (_ @t5 @t4))
0.41/0.60	(define @t18 () (not @t9))
0.41/0.60	(define @t19 () (or @t18 @t8))
0.41/0.60	(define @t20 () (forall @t10 @t19))
0.41/0.60	(define @t21 () (lambda @t3 @t20))
0.41/0.60	(define @t22 () (_ @t7 @t1))
0.41/0.60	(define @t23 () (_ @t7 @t2))
0.41/0.60	(define @t24 () (not @t23))
0.41/0.60	(define @t25 () (or @t24 @t22))
0.41/0.60	(define @t26 () (forall @t10 @t25))
0.41/0.60	(define @t27 () (lambda @t3 @t26))
0.41/0.60	(define @t28 () (_ @t5 @t27))
0.41/0.60	(define @t29 () (_ @t5 @t27))
0.41/0.60	(define @t30 () (not @t29))
0.41/0.60	(define @t31 () (or @t30 @t6))
0.41/0.60	(define @t32 () (@purify @t4))
0.41/0.60	(define @t33 () (forall @t14 (or (not @t28) @t17)))
0.41/0.60	(define @t34 () (@quantifiers_skolemize @t33 0))
0.41/0.60	(define @t35 () (_ @t34 @t32))
0.41/0.60	(define @t36 () (@purify @t27))
0.41/0.60	(define @t37 () (_ @t34 @t36))
0.41/0.60	(define @t38 () (not @t37))
0.41/0.60	(define @t39 () (or @t38 @t35))
0.41/0.60	(define @t40 () (not @t39))
0.41/0.60	(define @t41 () (not @t33))
0.41/0.60	(define @t42 () (_ @t34 @t4))
0.41/0.60	(define @t43 () (_ @t34 @t27))
0.41/0.60	(define @t44 () (not @t43))
0.41/0.60	(define @t45 () (or @t44 @t42))
0.41/0.60	(define @t46 () (not @t45))
0.41/0.60	(define @t47 () (@list true))
0.41/0.60	(define @t48 () (@list @t39))
0.41/0.60	(define @t49 () (= @t32 @t36))
0.41/0.60	(define @t50 () (not @t49))
0.41/0.60	(define @t51 () (not @t35))
0.41/0.60	(define @t52 () (and @t51 @t49 @t37))
0.41/0.60	(define @t53 () (@const 0 tptp.a))
0.41/0.60	(define @t54 () (@const 1 tptp.a))
0.41/0.60	(define @t55 () (= @t54 @t53))
0.41/0.60	(define @t56 () (forall @t10 (or (not (_ @t7 @t54)) (_ @t7 @t53))))
0.41/0.60	(define @t57 () (= (_ @t27 @t54 @t53) @t56))
0.41/0.60	(define @t58 () (_ @t36 @t54 @t53))
0.41/0.60	(define @t59 () (= (_ @t4 @t54 @t53) @t55))
0.41/0.60	(define @t60 () (_ @t32 @t54 @t53))
0.41/0.60	(define @t61 () (= @t60 @t58))
0.41/0.60	(define @t62 () (not @t61))
0.41/0.60	(define @t63 () (or @t49 @t62))
0.41/0.60	(define @t64 () (= @t56 @t55))
0.41/0.60	(define @t65 () (@var "BOUND_VARIABLE_14407" tptp.a))
0.41/0.60	(define @t66 () (lambda (@list @t65) (= @t65 @t54)))
0.41/0.60	(define @t67 () (_ @t66 @t53))
0.41/0.60	(define @t68 () (_ @t66 @t54))
0.41/0.60	(define @t69 () (not @t68))
0.41/0.60	(define @t70 () (or @t69 @t67))
0.41/0.60	(define @t71 () (not @t56))
0.41/0.60	(define @t72 () (@list true true))
0.41/0.60	(define @t73 () (@quantifiers_skolemize @t56 0))
0.41/0.60	(define @t74 () (_ @t73 @t53))
0.41/0.60	(define @t75 () (_ @t73 @t54))
0.41/0.60	(define @t76 () (not @t75))
0.41/0.60	(define @t77 () (or @t76 @t74))
0.41/0.60	(define @t78 () (not @t77))
0.41/0.60	(define @t79 () (@list @t77))
0.41/0.60	(define @t80 () (and @t55 @t75))
0.41/0.60	(assume @p1 @t16)
0.41/0.60	(assume @p2 true)
0.41/0.60	(step @p3 :rule refl :args (@t17))
0.41/0.60	(step @p4 :rule refl :args (@t6))
0.41/0.60	(step @p5 :rule cong :premises (@p4 @p3) :args ((= @t6 @t17)))
0.41/0.60	(step @p6 :rule symm :premises (@p5))
0.41/0.60	(step @p7 :rule eq_resolve :premises (@p4 @p6))
0.41/0.60	(step @p8 :rule refl :args ((_ @t5 @t21)))
0.41/0.60	(step @p9 :rule refl :args (@t22))
0.41/0.60	(step @p10 :rule refl :args (@t23))
0.41/0.60	(step @p11 :rule cong :premises (@p10) :args (@t24))
0.41/0.60	(step @p12 :rule nary_cong :premises (@p11 @p9) :args (@t25))
0.41/0.60	(step @p13 :rule cong :premises (@p12) :args (@t26))
0.41/0.60	(step @p14 :rule cong :premises (@p13) :args (@t27))
0.41/0.60	(step @p15 :rule cong :premises (@p14) :args (@t28))
0.41/0.60	(step @p16 :rule trans :premises (@p15 @p8))
0.41/0.60	(step @p17 :rule refl :args (@t5))
0.41/0.60	(step @p18 :rule ho_cong :premises (@p17 @p14))
0.41/0.60	(step @p19 :rule cong :premises (@p18 @p16) :args ((= @t29 @t28)))
0.41/0.60	(step @p20 :rule symm :premises (@p19))
0.41/0.60	(step @p21 :rule refl :args ((_ @t5 @t21)))
0.41/0.60	(step @p22 :rule eq_resolve :premises (@p21 @p20))
0.41/0.60	(step @p23 :rule cong :premises (@p22) :args (@t30))
0.41/0.60	(step @p24 :rule nary_cong :premises (@p23 @p7) :args (@t31))
0.41/0.60	(step @p25 :rule cong :premises (@p24) :args ((forall @t14 @t31)))
0.41/0.60	(step @p26 :rule bool-impl-elim :args (@t29 @t6))
0.41/0.60	(step @p27 :rule cong :premises (@p26) :args ((forall @t14 (=> @t29 @t6))))
0.41/0.60	(step @p28 :rule trans :premises (@p27 @p25))
0.41/0.60	(step @p29 :rule refl :args (@t6))
0.41/0.60	(step @p30 :rule refl :args (@t8))
0.41/0.60	(step @p31 :rule cong :premises (@p30 @p9) :args ((= @t8 @t22)))
0.41/0.60	(step @p32 :rule symm :premises (@p31))
0.41/0.60	(step @p33 :rule eq_resolve :premises (@p30 @p32))
0.41/0.60	(step @p34 :rule refl :args (@t9))
0.41/0.60	(step @p35 :rule cong :premises (@p34 @p10) :args ((= @t9 @t23)))
0.41/0.60	(step @p36 :rule symm :premises (@p35))
0.41/0.60	(step @p37 :rule eq_resolve :premises (@p34 @p36))
0.41/0.60	(step @p38 :rule cong :premises (@p37) :args (@t18))
0.41/0.60	(step @p39 :rule nary_cong :premises (@p38 @p33) :args (@t19))
0.41/0.60	(step @p40 :rule cong :premises (@p39) :args (@t20))
0.41/0.60	(step @p41 :rule bool-impl-elim :args (@t9 @t8))
0.41/0.60	(step @p42 :rule cong :premises (@p41) :args (@t11))
0.41/0.60	(step @p43 :rule trans :premises (@p42 @p40))
0.41/0.60	(step @p44 :rule cong :premises (@p43) :args (@t12))
0.41/0.60	(step @p45 :rule refl :args (@t5))
0.41/0.60	(step @p46 :rule ho_cong :premises (@p45 @p44))
0.41/0.60	(step @p47 :rule cong :premises (@p46 @p29) :args (@t13))
0.41/0.60	(step @p48 :rule cong :premises (@p47) :args (@t15))
0.41/0.60	(step @p49 :rule trans :premises (@p48 @p28))
0.41/0.60	(step @p50 :rule cong :premises (@p49) :args (@t16))
0.41/0.60	(step @p51 :rule eq_resolve :premises (@p1 @p50))
0.41/0.60	(step @p52 :rule refl :args (@t40))
0.41/0.60	(step @p53 :rule bool-double-not-elim :args (@t33))
0.41/0.60	(step @p54 :rule nary_cong :premises (@p53 @p52) :args ((or (not @t41) @t40)))
0.41/0.60	(step @p55 :rule eq-refl :args (@t4))
0.41/0.60	(step @p56 :rule skolem_intro :args (@t32))
0.41/0.60	(step @p57 :rule refl :args (@t4))
0.41/0.60	(step @p58 :rule cong :premises (@p57 @p56) :args ((= @t4 @t32)))
0.41/0.60	(step @p59 :rule trans :premises (@p58 @p55))
0.41/0.60	(step @p60 :rule true_elim :premises (@p59))
0.41/0.60	(step @p61 :rule cong :premises (@p60) :args (@t42))
0.41/0.60	(step @p62 :rule eq-refl :args (@t27))
0.41/0.60	(step @p63 :rule skolem_intro :args (@t36))
0.41/0.60	(step @p64 :rule refl :args (@t27))
0.41/0.60	(step @p65 :rule cong :premises (@p64 @p63) :args ((= @t27 @t36)))
0.41/0.60	(step @p66 :rule trans :premises (@p65 @p62))
0.41/0.60	(step @p67 :rule true_elim :premises (@p66))
0.41/0.60	(step @p68 :rule cong :premises (@p67) :args (@t43))
0.41/0.60	(step @p69 :rule cong :premises (@p68) :args (@t44))
0.41/0.60	(step @p70 :rule nary_cong :premises (@p69 @p61) :args (@t45))
0.41/0.60	(step @p71 :rule cong :premises (@p70) :args (@t46))
0.41/0.60	(step @p72 :rule refl :args (@t41))
0.41/0.60	(step @p73 :rule cong :premises (@p72 @p71) :args ((=> @t41 @t46)))
0.41/0.60	(assume-push @p219 @t41)
0.41/0.60	(step @p75 :rule skolemize :premises (@p51))
0.41/0.60	(step-pop @p219 :rule scope :premises (@p75))
0.41/0.60	(step @p76 :rule process_scope :premises (@p219) :args (@t46))
0.41/0.60	(step @p78 :rule eq_resolve :premises (@p76 @p73))
0.41/0.60	(step @p79 :rule implies_elim :premises (@p78))
0.41/0.60	(step @p80 :rule eq_resolve :premises (@p79 @p54))
0.41/0.60	(step @p81 :rule chain_resolution :premises (@p80 @p51) :args (@t47 (@list @t33)))
0.41/0.60	(step @p82 :rule bool-double-not-elim :args (@t37))
0.41/0.60	(step @p83 :rule refl :args (@t39))
0.41/0.60	(step @p84 :rule nary_cong :premises (@p83 @p82) :args ((or @t39 (not @t38))))
0.41/0.60	(step @p85 :rule cnf_or_neg :args (@t39 0))
0.41/0.60	(step @p86 :rule eq_resolve :premises (@p85 @p84))
0.41/0.60	(step @p87 :rule reordering :premises (@p86) :args ((or @t37 @t39)))
0.41/0.60	(step @p88 :rule chain_resolution :premises (@p87 @p81) :args (@t47 @t48))
0.41/0.60	(step @p89 :rule cnf_or_neg :args (@t39 1))
0.41/0.60	(step @p90 :rule chain_resolution :premises (@p89 @p81) :args (@t47 @t48))
0.41/0.60	(step @p91 :rule refl :args (@t50))
0.41/0.60	(step @p92 :rule bool-double-not-elim :args (@t35))
0.41/0.60	(step @p93 :rule refl :args (@t38))
0.41/0.60	(step @p94 :rule nary_cong :premises (@p93 @p92 @p91) :args ((or @t38 (not @t51) @t50)))
0.41/0.60	(assume-push @p221 @t51)
0.41/0.60	(assume-push @p222 @t49)
0.41/0.60	(assume-push @p223 @t37)
0.41/0.60	(step @p98 :rule evaluate :args ((= true false)))
0.41/0.60	(step @p99 :rule false_intro :premises (@p90))
0.41/0.60	(step @p100 :rule symm :premises (@p222))
0.41/0.60	(step @p101 :rule cong :premises (@p100) :args (@t37))
0.41/0.60	(step @p102 :rule true_intro :premises (@p88))
0.41/0.60	(step @p103 :rule symm :premises (@p102))
0.41/0.60	(step @p104 :rule trans :premises (@p103 @p101 @p99))
0.41/0.60	(step @p105 false :rule eq_resolve :premises (@p104 @p98))
0.41/0.60	(step-pop @p223 :rule scope :premises (@p105))
0.41/0.60	(step-pop @p224 :rule scope :premises (@p223))
0.41/0.60	(step-pop @p225 :rule scope :premises (@p224))
0.41/0.60	(step @p106 :rule process_scope :premises (@p225) :args (false))
0.41/0.60	(assume-push @p227 @t37)
0.41/0.60	(assume-push @p228 @t51)
0.41/0.60	(assume-push @p229 @t49)
0.41/0.60	(step @p113 :rule and_intro :premises (@p90 @p229 @p88))
0.41/0.60	(step-pop @p229 :rule scope :premises (@p113))
0.41/0.60	(step-pop @p230 :rule scope :premises (@p229))
0.41/0.60	(step-pop @p231 :rule scope :premises (@p230))
0.41/0.60	(step @p114 :rule process_scope :premises (@p231) :args (@t52))
0.41/0.60	(step @p118 :rule implies_elim :premises (@p114))
0.41/0.60	(step @p119 :rule resolution :premises (@p118 @p106) :args (true @t52))
0.41/0.60	(step @p120 :rule not_and :premises (@p119))
0.41/0.60	(step @p121 :rule eq_resolve :premises (@p120 @p94))
0.41/0.60	(step @p122 :rule reordering :premises (@p121) :args ((or @t35 @t38 @t50)))
0.41/0.60	(step @p123 :rule chain_resolution :premises (@p122 @p90 @p88) :args ((@list true false) (@list @t35 @t37)))
0.41/0.60	(step @p124 :rule eq-symm :args (@t55 @t56))
0.41/0.60	(step @p125 :rule eq-refl :args (@t56))
0.41/0.60	(step @p126 :rule refl :args (@t56))
0.41/0.60	(step @p127 :rule beta-reduce :args (@t57))
0.41/0.60	(step @p128 :rule cong :premises (@p127 @p126) :args (@t57))
0.41/0.60	(step @p129 :rule trans :premises (@p128 @p125))
0.41/0.60	(step @p130 :rule refl :args (@t53))
0.41/0.60	(step @p131 :rule refl :args (@t54))
0.41/0.60	(step @p132 :rule ho_cong :premises (@p63 @p131 @p130))
0.41/0.60	(step @p133 :rule cong :premises (@p132 @p126) :args ((= @t58 @t56)))
0.41/0.60	(step @p134 :rule trans :premises (@p133 @p129))
0.41/0.60	(step @p135 :rule true_elim :premises (@p134))
0.41/0.60	(step @p136 :rule eq-refl :args (@t55))
0.41/0.60	(step @p137 :rule refl :args (@t55))
0.41/0.60	(step @p138 :rule beta-reduce :args (@t59))
0.41/0.60	(step @p139 :rule cong :premises (@p138 @p137) :args (@t59))
0.41/0.60	(step @p140 :rule trans :premises (@p139 @p136))
0.41/0.60	(step @p141 :rule ho_cong :premises (@p56 @p131 @p130))
0.41/0.60	(step @p142 :rule cong :premises (@p141 @p137) :args ((= @t60 @t55)))
0.41/0.60	(step @p143 :rule trans :premises (@p142 @p140))
0.41/0.60	(step @p144 :rule true_elim :premises (@p143))
0.41/0.60	(step @p145 :rule cong :premises (@p144 @p135) :args (@t61))
0.41/0.60	(step @p146 :rule trans :premises (@p145 @p124))
0.41/0.60	(step @p147 :rule cong :premises (@p146) :args (@t62))
0.41/0.60	(step @p148 :rule refl :args (@t49))
0.41/0.60	(step @p149 :rule nary_cong :premises (@p148 @p147) :args (@t63))
0.41/0.60	; WARNING: add trust step for TRUST
0.41/0.60	; trust TRUST THEORY_LEMMA
0.41/0.60	(step @p150 :rule trust :premises () :args (@t63))
0.41/0.60	(step @p151 :rule eq_resolve :premises (@p150 @p149))
0.41/0.60	(step @p152 :rule chain_resolution :premises (@p151 @p123) :args (@t47 (@list @t49)))
0.41/0.60	(step @p153 :rule cnf_equiv_neg2 :args (@t64))
0.41/0.60	(step @p154 :rule aci_norm :args ((= (or false @t55) @t55)))
0.41/0.60	(step @p155 :rule eq-symm :args (@t53 @t54))
0.41/0.60	(step @p156 :rule beta-reduce :args ((= @t67 (= @t53 @t54))))
0.41/0.60	(step @p157 :rule trans :premises (@p156 @p155))
0.41/0.60	(step @p158 :rule evaluate :args ((not true)))
0.41/0.60	(step @p159 :rule eq-refl :args (@t54))
0.41/0.60	(step @p160 :rule beta-reduce :args ((= @t68 (= @t54 @t54))))
0.41/0.60	(step @p161 :rule trans :premises (@p160 @p159))
0.41/0.60	(step @p162 :rule cong :premises (@p161) :args (@t69))
0.41/0.60	(step @p163 :rule trans :premises (@p162 @p158))
0.41/0.60	(step @p164 :rule nary_cong :premises (@p163 @p157) :args (@t70))
0.41/0.60	(step @p165 :rule trans :premises (@p164 @p154))
0.41/0.60	(step @p166 :rule cong :premises (@p126 @p165) :args ((=> @t56 @t70)))
0.41/0.60	(assume-push @p233 @t56)
0.41/0.60	(step @p168 :rule instantiate :premises (@p233) :args ((@list @t66)))
0.41/0.60	(step-pop @p233 :rule scope :premises (@p168))
0.41/0.60	(step @p169 :rule process_scope :premises (@p233) :args (@t70))
0.41/0.60	(step @p171 :rule eq_resolve :premises (@p169 @p166))
0.41/0.60	(step @p172 :rule implies_elim :premises (@p171))
0.41/0.60	(step @p173 :rule reordering :premises (@p172) :args ((or @t55 @t71)))
0.41/0.60	(step @p174 :rule chain_resolution :premises (@p173 @p153 @p152) :args (@t72 (@list @t55 @t64)))
0.41/0.60	(step @p175 :rule factoring :premises (@p174))
0.41/0.60	(step @p176 :rule cnf_equiv_neg1 :args (@t64))
0.41/0.60	(step @p177 :rule reordering :premises (@p176) :args ((or @t56 @t55 @t64)))
0.41/0.60	(step @p178 :rule chain_resolution :premises (@p177 @p175 @p152) :args (@t72 (@list @t56 @t64)))
0.41/0.60	(step @p179 :rule refl :args (@t78))
0.41/0.60	(step @p180 :rule bool-double-not-elim :args (@t56))
0.41/0.60	(step @p181 :rule nary_cong :premises (@p180 @p179) :args ((or (not @t71) @t78)))
0.41/0.60	(assume-push @p235 @t71)
0.41/0.60	(step @p183 :rule skolemize :premises (@p235))
0.41/0.60	(step-pop @p235 :rule scope :premises (@p183))
0.41/0.60	(step @p184 :rule process_scope :premises (@p235) :args (@t78))
0.41/0.60	(step @p186 :rule implies_elim :premises (@p184))
0.41/0.60	(step @p187 :rule eq_resolve :premises (@p186 @p181))
0.41/0.60	(step @p188 :rule chain_resolution :premises (@p187 @p175) :args (@t47 (@list @t56)))
0.41/0.60	(step @p189 :rule bool-double-not-elim :args (@t75))
0.41/0.60	(step @p190 :rule refl :args (@t77))
0.41/0.60	(step @p191 :rule nary_cong :premises (@p190 @p189) :args ((or @t77 (not @t76))))
0.41/0.60	(step @p192 :rule cnf_or_neg :args (@t77 0))
0.41/0.60	(step @p193 :rule eq_resolve :premises (@p192 @p191))
0.41/0.60	(step @p194 :rule reordering :premises (@p193) :args ((or @t75 @t77)))
0.41/0.60	(step @p195 :rule chain_resolution :premises (@p194 @p188) :args (@t47 @t79))
0.41/0.60	(step @p196 :rule cnf_or_neg :args (@t77 1))
0.41/0.60	(step @p197 :rule chain_resolution :premises (@p196 @p188) :args (@t47 @t79))
0.41/0.60	(assume-push @p237 @t55)
0.41/0.60	(assume-push @p238 @t75)
0.41/0.60	(assume-push @p239 @t75)
0.41/0.60	(assume-push @p240 @t55)
0.41/0.60	(step @p202 :rule true_intro :premises (@p238))
0.41/0.60	(step @p203 :rule symm :premises (@p237))
0.41/0.60	(step @p204 :rule cong :premises (@p203) :args (@t74))
0.41/0.60	(step @p205 :rule trans :premises (@p204 @p202))
0.41/0.60	(step @p206 :rule true_elim :premises (@p205))
0.41/0.60	(step-pop @p240 :rule scope :premises (@p206))
0.41/0.60	(step-pop @p241 :rule scope :premises (@p240))
0.41/0.60	(step @p207 :rule process_scope :premises (@p241) :args (@t74))
0.41/0.60	(step @p210 :rule and_intro :premises (@p238 @p237))
0.41/0.60	(step @p211 :rule modus_ponens :premises (@p210 @p207))
0.41/0.60	(step-pop @p242 :rule scope :premises (@p211))
0.41/0.60	(step-pop @p243 :rule scope :premises (@p242))
0.41/0.60	(step @p212 :rule process_scope :premises (@p243) :args (@t74))
0.41/0.60	(step @p215 :rule implies_elim :premises (@p212))
0.41/0.60	(step @p216 :rule cnf_and_neg :args (@t80))
0.41/0.60	(step @p217 :rule resolution :premises (@p216 @p215) :args (true @t80))
0.41/0.60	(step @p218 false :rule chain_resolution :premises (@p217 @p197 @p195 @p178) :args ((@list true false false) (@list @t74 @t75 @t55)))
0.41/0.60	)
0.41/0.60	% SZS output end Proof
0.41/0.60	% cvc5 exiting
0.41/0.61	EOF