0.07/0.12	% Problem  : theBenchmark.p : TPTP v0.0.0. Released v0.0.0.
0.07/0.13	% Command  : /export/starexec/sandbox2/solver/bin/do_cvc5 /export/starexec/sandbox2/benchmark/theBenchmark.p 240 THM
0.13/0.34	% Computer : n031.cluster.edu
0.13/0.34	% Model    : x86_64 x86_64
0.13/0.34	% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
0.13/0.34	% Memory   : 8042.1875MB
0.13/0.34	% OS       : Linux 3.10.0-693.el7.x86_64
0.13/0.34	% CPULimit : 1920
0.13/0.34	% WCLimit  : 240
0.13/0.34	% DateTime : Fri Sep  5 23:13:22 EDT 2025
0.13/0.34	% CPUTime  : 
0.43/0.64	%----Proving TH0
1.90/2.09	--- Run --mbqi --mbqi-enum --mbqi-enum-choice-grammar --mbqi-enum-global-syms-grammar --sygus-grammar-ho-partial --no-cegqi --no-sygus-inst at 72s...
1.90/2.09	% SZS status Theorem
1.90/2.09	% SZS output start Proof
1.90/2.09	(
1.90/2.09	(declare-type $$unsorted ())
1.90/2.09	(declare-const tptp.emptyset $$unsorted)
1.90/2.09	(declare-const tptp.setadjoin (-> $$unsorted $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.in (-> $$unsorted $$unsorted Bool))
1.90/2.09	(declare-const tptp.dsetconstr (-> $$unsorted (-> $$unsorted Bool) $$unsorted))
1.90/2.09	(declare-const tptp.cartprod (-> $$unsorted $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.subset (-> $$unsorted $$unsorted Bool))
1.90/2.09	(declare-const tptp.kpair (-> $$unsorted $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.dpsetconstr (-> $$unsorted $$unsorted (-> $$unsorted $$unsorted Bool) $$unsorted))
1.90/2.09	(declare-const tptp.funcextLem Bool)
1.90/2.09	(declare-const tptp.ex1E2 Bool)
1.90/2.09	(declare-const tptp.brelnall2 Bool)
1.90/2.09	(declare-const tptp.lam2p Bool)
1.90/2.09	(declare-const tptp.lamp Bool)
1.90/2.09	(declare-const tptp.lamProp Bool)
1.90/2.09	(declare-const tptp.ap2p Bool)
1.90/2.09	(declare-const tptp.apProp Bool)
1.90/2.09	(declare-const tptp.dpsetconstrERa Bool)
1.90/2.09	(declare-const tptp.setOfPairsIsBReln Bool)
1.90/2.09	(declare-const tptp.cartprodpairsurjEq Bool)
1.90/2.09	(declare-const tptp.cartprodpairmemEL Bool)
1.90/2.09	(declare-const tptp.ap (-> $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.upairequniteq Bool)
1.90/2.09	(declare-const tptp.setukpairinjR1 Bool)
1.90/2.09	(declare-const tptp.setukpairinjR12 Bool)
1.90/2.09	(declare-const tptp.setukpairinjR11 Bool)
1.90/2.09	(declare-const tptp.setukpairinjL Bool)
1.90/2.09	(declare-const tptp.cartprodfstin Bool)
1.90/2.09	(declare-const tptp.kfstpairEq Bool)
1.90/2.09	(declare-const tptp.theprop Bool)
1.90/2.09	(declare-const tptp.setukpairinjL1 Bool)
1.90/2.09	(declare-const tptp.singletonsuniq Bool)
1.90/2.09	(declare-const tptp.setunionsingleton Bool)
1.90/2.09	(declare-const tptp.setunionE2 Bool)
1.90/2.09	(declare-const tptp.cartprodmempair Bool)
1.90/2.09	(declare-const tptp.ubforcartprodlem3 Bool)
1.90/2.09	(declare-const tptp.ubforcartprodlem2 Bool)
1.90/2.09	(declare-const tptp.upairsubunion Bool)
1.90/2.09	(declare-const tptp.singletoninpowunion Bool)
1.90/2.09	(declare-const tptp.singletoninpowerset Bool)
1.90/2.09	(declare-const tptp.setukpairIR Bool)
1.90/2.09	(declare-const tptp.secondinupair Bool)
1.90/2.09	(declare-const tptp.symdiffIneg2 Bool)
1.90/2.09	(declare-const tptp.symdiffI2 Bool)
1.90/2.09	(declare-const tptp.symdiffI1 Bool)
1.90/2.09	(declare-const tptp.setminusIRneg Bool)
1.90/2.09	(declare-const tptp.setminusILneg Bool)
1.90/2.09	(declare-const tptp.setminusERneg Bool)
1.90/2.09	(declare-const tptp.setminusI Bool)
1.90/2.09	(declare-const tptp.funcGraphProp1 Bool)
1.90/2.09	(declare-const tptp.dpsetconstrSub Bool)
1.90/2.09	(declare-const tptp.setminus (-> $$unsorted $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.funcSet (-> $$unsorted $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.emptyE1 Bool)
1.90/2.09	(declare-const tptp.upairset2E Bool)
1.90/2.09	(declare-const tptp.inPowerset Bool)
1.90/2.09	(declare-const tptp.upairsetIR Bool)
1.90/2.09	(declare-const tptp.setunion__Cong Bool)
1.90/2.09	(declare-const tptp.powersetE1 Bool)
1.90/2.09	(declare-const tptp.kfst (-> $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.singletonsswitch Bool)
1.90/2.09	(declare-const tptp.subset2powerset Bool)
1.90/2.09	(declare-const tptp.notinsingleton Bool)
1.90/2.09	(declare-const tptp.subPowSU Bool)
1.90/2.09	(declare-const tptp.cartprodsndin Bool)
1.90/2.09	(declare-const tptp.binintersectSubset5 Bool)
1.90/2.09	(declare-const tptp.exuE1 Bool)
1.90/2.09	(declare-const tptp.binintersect (-> $$unsorted $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.setunionI Bool)
1.90/2.09	(declare-const tptp.ksndpairEq Bool)
1.90/2.09	(declare-const tptp.notdexE Bool)
1.90/2.09	(declare-const tptp.ex1E1 Bool)
1.90/2.09	(declare-const tptp.powersetE Bool)
1.90/2.09	(declare-const tptp.omegaSAx Bool)
1.90/2.09	(declare-const tptp.dpsetconstrEL1 Bool)
1.90/2.09	(declare-const tptp.setadjoinE Bool)
1.90/2.09	(declare-const tptp.emptyinunitempty Bool)
1.90/2.09	(declare-const tptp.funcGraphProp3 Bool)
1.90/2.09	(declare-const tptp.setminusEL Bool)
1.90/2.09	(declare-const tptp.descr__Cong Bool)
1.90/2.09	(declare-const tptp.nonemptyI1 Bool)
1.90/2.09	(declare-const tptp.emptysetAx Bool)
1.90/2.09	(declare-const tptp.singletonprop Bool)
1.90/2.09	(declare-const tptp.nonemptyI Bool)
1.90/2.09	(declare-const tptp.upairsetIL Bool)
1.90/2.09	(declare-const tptp.setukpairinjL2 Bool)
1.90/2.09	(declare-const tptp.powersetI1 Bool)
1.90/2.09	(declare-const tptp.kpairp Bool)
1.90/2.09	(declare-const tptp.eqinunit Bool)
1.90/2.09	(declare-const tptp.brelnall1 Bool)
1.90/2.09	(declare-const tptp.noeltsimpempty Bool)
1.90/2.09	(declare-const tptp.upairsetE Bool)
1.90/2.09	(declare-const tptp.replAx Bool)
1.90/2.09	(declare-const tptp.powersetI Bool)
1.90/2.09	(declare-const tptp.setukpairinjR Bool)
1.90/2.09	(declare-const tptp.quantDeMorgan4 Bool)
1.90/2.09	(declare-const tptp.setunionE Bool)
1.90/2.09	(declare-const tptp.omegaIndAx Bool)
1.90/2.09	(declare-const tptp.setunionAx Bool)
1.90/2.09	(declare-const tptp.setoftrueEq Bool)
1.90/2.09	(declare-const tptp.setunion (-> $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.upairset2IR Bool)
1.90/2.09	(declare-const tptp.setminusELneg Bool)
1.90/2.09	(declare-const tptp.powersetAx Bool)
1.90/2.09	(declare-const tptp.dpsetconstrEL2 Bool)
1.90/2.09	(declare-const tptp.powerset (-> $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.emptyI Bool)
1.90/2.09	(declare-const tptp.subsetemptysetimpeq Bool)
1.90/2.09	(declare-const tptp.funcGraphProp2 Bool)
1.90/2.09	(declare-const tptp.setminusER Bool)
1.90/2.09	(declare-const tptp.setadjoinAx Bool)
1.90/2.09	(declare-const tptp.subbreln Bool)
1.90/2.09	(declare-const tptp.symdiff (-> $$unsorted $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.omega $$unsorted)
1.90/2.09	(declare-const tptp.emptyInPowerset Bool)
1.90/2.09	(declare-const tptp.eqimpsubset1 Bool)
1.90/2.09	(declare-const tptp.infuncsetfunc Bool)
1.90/2.09	(declare-const tptp.cartprodpairin Bool)
1.90/2.09	(declare-const tptp.binunionE Bool)
1.90/2.09	(declare-const tptp.kpairsurjEq Bool)
1.90/2.09	(declare-const tptp.dsetconstrER Bool)
1.90/2.09	(declare-const tptp.funcinfuncset Bool)
1.90/2.09	(declare-const tptp.notdallE Bool)
1.90/2.09	(declare-const tptp.ksnd (-> $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.cartprodmempair1 Bool)
1.90/2.09	(declare-const tptp.binunionRsub Bool)
1.90/2.09	(declare-const tptp.emptysetimpfalse Bool)
1.90/2.09	(declare-const tptp.foundationAx Bool)
1.90/2.09	(declare-const tptp.kfstsingleton Bool)
1.90/2.09	(declare-const tptp.uniqinunit Bool)
1.90/2.09	(declare-const tptp.cartprodfstpairEq Bool)
1.90/2.09	(declare-const tptp.exuE3u Bool)
1.90/2.09	(declare-const tptp.setukpairIL Bool)
1.90/2.09	(declare-const tptp.subsetTrans Bool)
1.90/2.09	(declare-const tptp.dpsetconstrER Bool)
1.90/2.09	(declare-const tptp.setadjoinOr Bool)
1.90/2.09	(declare-const tptp.wellorderingAx Bool)
1.90/2.09	(declare-const tptp.descr (-> (-> $$unsorted Bool) $$unsorted))
1.90/2.09	(declare-const tptp.vacuousDall Bool)
1.90/2.09	(declare-const tptp.upairinpowunion Bool)
1.90/2.09	(declare-const tptp.sepInPowerset Bool)
1.90/2.09	(declare-const tptp.iskpair (-> $$unsorted Bool))
1.90/2.09	(declare-const tptp.nonemptyImpWitness Bool)
1.90/2.09	(declare-const tptp.binintersectLsub Bool)
1.90/2.09	(declare-const tptp.dsetconstrI Bool)
1.90/2.09	(declare-const tptp.funcGraphProp4 Bool)
1.90/2.09	(declare-const tptp.setminusSubset1 Bool)
1.90/2.09	(declare-const tptp.emptyinPowerset Bool)
1.90/2.09	(declare-const tptp.ksndsingleton Bool)
1.90/2.09	(declare-const tptp.prop2setI Bool)
1.90/2.09	(declare-const tptp.dpsetconstrI Bool)
1.90/2.09	(declare-const tptp.binunionIL Bool)
1.90/2.09	(declare-const tptp.dsetconstrEL Bool)
1.90/2.09	(declare-const tptp.prop2set2propI Bool)
1.90/2.09	(declare-const tptp.binunionLsub Bool)
1.90/2.09	(declare-const tptp.prop2set (-> Bool $$unsorted))
1.90/2.09	(declare-const tptp.exuI2 Bool)
1.90/2.09	(declare-const tptp.prop2setE Bool)
1.90/2.09	(declare-const tptp.exuEu Bool)
1.90/2.09	(declare-const tptp.setadjoinIL Bool)
1.90/2.09	(declare-const tptp.omega__Cong Bool)
1.90/2.09	(declare-const tptp.cartprodpairmemER Bool)
1.90/2.09	(declare-const tptp.emptysetE Bool)
1.90/2.09	(declare-const tptp.symdiffIneg1 Bool)
1.90/2.09	(declare-const tptp.notequalI1 Bool)
1.90/2.09	(declare-const tptp.exuE2 Bool)
1.90/2.09	(declare-const tptp.notinemptyset Bool)
1.90/2.09	(declare-const tptp.subsetRefl Bool)
1.90/2.09	(declare-const tptp.ubforcartprodlem1 Bool)
1.90/2.09	(declare-const tptp.quantDeMorgan1 Bool)
1.90/2.09	(declare-const tptp.setminusSubset2 Bool)
1.90/2.09	(declare-const tptp.setadjoinIR Bool)
1.90/2.09	(declare-const tptp.dsetconstr__Cong Bool)
1.90/2.09	(declare-const tptp.sepSubset Bool)
1.90/2.09	(declare-const tptp.quantDeMorgan2 Bool)
1.90/2.09	(declare-const tptp.subsetI1 Bool)
1.90/2.09	(declare-const tptp.set2prop (-> $$unsorted Bool))
1.90/2.09	(declare-const tptp.ex1I Bool)
1.90/2.09	(declare-const tptp.subsetE Bool)
1.90/2.09	(declare-const tptp.exuI3 Bool)
1.90/2.09	(declare-const tptp.subsetE2 Bool)
1.90/2.09	(declare-const tptp.inCongP Bool)
1.90/2.09	(declare-const tptp.cartprodmempaircEq Bool)
1.90/2.09	(declare-const tptp.setunionsingleton1 Bool)
1.90/2.09	(declare-const tptp.in__Cong Bool)
1.90/2.09	(declare-const tptp.exu__Cong Bool)
1.90/2.09	(declare-const tptp.setunionsingleton2 Bool)
1.90/2.09	(declare-const tptp.exuE3e Bool)
1.90/2.09	(declare-const tptp.binintersectSubset3 Bool)
1.90/2.09	(declare-const tptp.setadjoin__Cong Bool)
1.90/2.09	(declare-const tptp.emptyset__Cong Bool)
1.90/2.09	(declare-const tptp.binintersectRsub Bool)
1.90/2.09	(declare-const tptp.nonemptyE1 Bool)
1.90/2.09	(declare-const tptp.setextAx Bool)
1.90/2.09	(declare-const tptp.powerset__Cong Bool)
1.90/2.09	(declare-const tptp.bs114d Bool)
1.90/2.09	(declare-const tptp.setminusLsub Bool)
1.90/2.09	(declare-const tptp.eqimpsubset2 Bool)
1.90/2.09	(declare-const tptp.symdiffE Bool)
1.90/2.09	(declare-const tptp.omega0Ax Bool)
1.90/2.09	(declare-const tptp.subsetI2 Bool)
1.90/2.09	(declare-const tptp.emptysetsubset Bool)
1.90/2.09	(declare-const tptp.ex1I2 Bool)
1.90/2.09	(declare-const tptp.notsubsetI Bool)
1.90/2.09	(declare-const tptp.notequalI2 Bool)
1.90/2.09	(declare-const tptp.setadjoinSub Bool)
1.90/2.09	(declare-const tptp.kpairiskpair Bool)
1.90/2.09	(declare-const tptp.setadjoinSub2 Bool)
1.90/2.09	(declare-const tptp.disjointsetsI1 Bool)
1.90/2.09	(declare-const tptp.singletonsubset Bool)
1.90/2.09	(declare-const tptp.setextsub Bool)
1.90/2.09	(declare-const tptp.setbeta Bool)
1.90/2.09	(declare-const tptp.binintersectSubset4 Bool)
1.90/2.09	(declare-const tptp.funcImageSingleton Bool)
1.90/2.09	(declare-const tptp.powersetsubset Bool)
1.90/2.09	(declare-const tptp.binunion (-> $$unsorted $$unsorted $$unsorted))
1.90/2.09	(declare-const tptp.app Bool)
1.90/2.09	(declare-const tptp.binunionIR Bool)
1.90/2.09	(declare-const tptp.setukpairinjR2 Bool)
1.90/2.09	(declare-const tptp.descrp Bool)
1.90/2.09	(declare-const tptp.quantDeMorgan3 Bool)
1.90/2.09	(declare-const tptp.binunionEcases Bool)
1.90/2.09	(declare-const tptp.exuI1 Bool)
1.90/2.09	(declare-const tptp.binintersectI Bool)
1.90/2.09	(declare-const tptp.binintersectEL Bool)
1.90/2.09	(declare-const tptp.binintersectSubset2 Bool)
1.90/2.09	(declare-const tptp.cartprodsndpairEq Bool)
1.90/2.09	(declare-const tptp.setext Bool)
1.90/2.09	(declare-const tptp.binintersectER Bool)
1.90/2.09	(declare-const tptp.binintersectSubset1 Bool)
1.90/2.09	(define tptp.exu () (let ((_let_1 (@var "Xy" $$unsorted))) (let ((_let_2 (@var "Xx" $$unsorted))) (let ((_let_3 (@var "Xphi" (-> $$unsorted Bool)))) (lambda (@list _let_3) (exists (@list _let_2) (and (_ _let_3 _let_2) (forall (@list _let_1) (=> (_ _let_3 _let_1) (= _let_2 _let_1))))))))))
1.90/2.09	(define tptp.nonempty () (let ((_let_1 (@var "Xx" $$unsorted))) (lambda (@list _let_1) (not (= _let_1 tptp.emptyset)))))
1.90/2.09	(define tptp.singleton () (let ((_let_1 (@var "Xx" $$unsorted))) (let ((_let_2 (@var "A" $$unsorted))) (lambda (@list _let_2) (exists (@list _let_1) (and (_ (_ tptp.in _let_1) _let_2) (= _let_2 (_ (_ tptp.setadjoin _let_1) tptp.emptyset))))))))
1.90/2.09	(define tptp.ex1 () (let ((_let_1 (@var "Xx" $$unsorted))) (let ((_let_2 (@var "Xphi" (-> $$unsorted Bool)))) (let ((_let_3 (@var "A" $$unsorted))) (lambda (@list _let_3 _let_2) (_ tptp.singleton (_ (_ tptp.dsetconstr _let_3) (lambda (@list _let_1) (_ _let_2 _let_1)))))))))
1.90/2.09	(define tptp.breln () (let ((_let_1 (@var "B" $$unsorted))) (let ((_let_2 (@var "A" $$unsorted))) (let ((_let_3 (@var "C" $$unsorted))) (lambda (@list _let_2 _let_1 _let_3) (_ (_ tptp.subset _let_3) (_ (_ tptp.cartprod _let_2) _let_1)))))))
1.90/2.09	(define tptp.func () (let ((_let_1 (@var "R" $$unsorted))) (let ((_let_2 (@var "Xy" $$unsorted))) (let ((_let_3 (@var "Xx" $$unsorted))) (let ((_let_4 (@var "B" $$unsorted))) (let ((_let_5 (@var "A" $$unsorted))) (lambda (@list _let_5 _let_4 _let_1) (and (_ (_ (_ tptp.breln _let_5) _let_4) _let_1) (forall (@list _let_3) (=> (_ (_ tptp.in _let_3) _let_5) (_ (_ tptp.ex1 _let_4) (lambda (@list _let_2) (_ (_ tptp.in (_ (_ tptp.kpair _let_3) _let_2)) _let_1)))))))))))))
1.90/2.09	(define tptp.lam () (let ((_let_1 (@var "Xy" $$unsorted))) (let ((_let_2 (@var "Xx" $$unsorted))) (let ((_let_3 (@var "Xf" (-> $$unsorted $$unsorted)))) (let ((_let_4 (@var "B" $$unsorted))) (let ((_let_5 (@var "A" $$unsorted))) (lambda (@list _let_5 _let_4 _let_3) (_ (_ (_ tptp.dpsetconstr _let_5) _let_4) (lambda (@list _let_2 _let_1) (= (_ _let_3 _let_2) _let_1))))))))))
1.90/2.09	(define @t1 () (@var "B" $$unsorted))
1.90/2.09	(define @t2 () (@var "A" $$unsorted))
1.90/2.09	(define @t3 () (= @t2 @t1))
1.90/2.09	(define @t4 () (@var "Xx" $$unsorted))
1.90/2.09	(define @t5 () (_ tptp.in @t4))
1.90/2.09	(define @t6 () (_ @t5 @t1))
1.90/2.09	(define @t7 () (_ @t5 @t2))
1.90/2.09	(define @t8 () (= @t7 @t6))
1.90/2.09	(define @t9 () (@list @t4))
1.90/2.09	(define @t10 () (forall @t9 @t8))
1.90/2.09	(define @t11 () (=> @t10 @t3))
1.90/2.09	(define @t12 () (@list @t2 @t1))
1.90/2.09	(define @t13 () (forall @t12 @t11))
1.90/2.09	(define @t14 () (= tptp.setextAx @t13))
1.90/2.09	(define @t15 () (_ @t5 tptp.emptyset))
1.90/2.09	(define @t16 () (not @t15))
1.90/2.09	(define @t17 () (forall @t9 @t16))
1.90/2.09	(define @t18 () (= tptp.emptysetAx @t17))
1.90/2.09	(define @t19 () (@var "Xy" $$unsorted))
1.90/2.09	(define @t20 () (_ tptp.in @t19))
1.90/2.09	(define @t21 () (_ @t20 @t2))
1.90/2.09	(define @t22 () (= @t19 @t4))
1.90/2.09	(define @t23 () (or @t22 @t21))
1.90/2.09	(define @t24 () (_ tptp.setadjoin @t4))
1.90/2.09	(define @t25 () (_ @t24 @t2))
1.90/2.09	(define @t26 () (_ @t20 @t25))
1.90/2.09	(define @t27 () (= @t26 @t23))
1.90/2.09	(define @t28 () (@list @t4 @t2 @t19))
1.90/2.09	(define @t29 () (forall @t28 @t27))
1.90/2.09	(define @t30 () (= tptp.setadjoinAx @t29))
1.90/2.09	(define @t31 () (=> @t6 @t7))
1.90/2.09	(define @t32 () (forall @t9 @t31))
1.90/2.09	(define @t33 () (_ tptp.powerset @t2))
1.90/2.09	(define @t34 () (_ tptp.in @t1))
1.90/2.09	(define @t35 () (_ @t34 @t33))
1.90/2.09	(define @t36 () (= @t35 @t32))
1.90/2.09	(define @t37 () (forall @t12 @t36))
1.90/2.09	(define @t38 () (= tptp.powersetAx @t37))
1.90/2.09	(define @t39 () (_ @t34 @t2))
1.90/2.09	(define @t40 () (and @t6 @t39))
1.90/2.09	(define @t41 () (@list @t1))
1.90/2.09	(define @t42 () (exists @t41 @t40))
1.90/2.09	(define @t43 () (_ tptp.setunion @t2))
1.90/2.09	(define @t44 () (_ @t5 @t43))
1.90/2.09	(define @t45 () (= @t44 @t42))
1.90/2.09	(define @t46 () (@list @t2 @t4))
1.90/2.09	(define @t47 () (forall @t46 @t45))
1.90/2.09	(define @t48 () (= tptp.setunionAx @t47))
1.90/2.09	(define @t49 () (_ tptp.in tptp.emptyset))
1.90/2.09	(define @t50 () (_ @t49 tptp.omega))
1.90/2.09	(define @t51 () (_ @t24 @t4))
1.90/2.09	(define @t52 () (_ tptp.in @t51))
1.90/2.09	(define @t53 () (_ @t52 tptp.omega))
1.90/2.09	(define @t54 () (_ @t5 tptp.omega))
1.90/2.09	(define @t55 () (forall @t9 (=> @t54 @t53)))
1.90/2.09	(define @t56 () (= tptp.omegaSAx @t55))
1.90/2.09	(define @t57 () (forall @t9 (=> @t54 @t7)))
1.90/2.09	(define @t58 () (_ @t52 @t2))
1.90/2.09	(define @t59 () (and @t54 @t7))
1.90/2.09	(define @t60 () (forall @t9 (=> @t59 @t58)))
1.90/2.09	(define @t61 () (_ @t49 @t2))
1.90/2.09	(define @t62 () (and @t61 @t60))
1.90/2.09	(define @t63 () (=> @t62 @t57))
1.90/2.09	(define @t64 () (@list @t2))
1.90/2.09	(define @t65 () (forall @t64 @t63))
1.90/2.09	(define @t66 () (= tptp.omegaIndAx @t65))
1.90/2.09	(define @t67 () (@var "Xphi" (-> $$unsorted $$unsorted Bool)))
1.90/2.09	(define @t68 () (_ (_ @t67 @t19) @t4))
1.90/2.09	(define @t69 () (and @t21 @t68))
1.90/2.09	(define @t70 () (@list @t19))
1.90/2.09	(define @t71 () (exists @t70 @t69))
1.90/2.09	(define @t72 () (= @t6 @t71))
1.90/2.09	(define @t73 () (forall @t9 @t72))
1.90/2.09	(define @t74 () (exists @t41 @t73))
1.90/2.09	(define @t75 () (_ @t67 @t4))
1.90/2.09	(define @t76 () (_ @t75 @t19))
1.90/2.09	(define @t77 () (lambda @t70 @t76))
1.90/2.09	(define @t78 () (=> @t7 (_ tptp.exu @t77)))
1.90/2.09	(define @t79 () (forall @t9 @t78))
1.90/2.09	(define @t80 () (=> @t79 @t74))
1.90/2.09	(define @t81 () (@list @t67 @t2))
1.90/2.09	(define @t82 () (forall @t81 @t80))
1.90/2.09	(define @t83 () (= tptp.replAx @t82))
1.90/2.09	(define @t84 () (and @t6 @t7))
1.90/2.09	(define @t85 () (exists @t9 @t84))
1.90/2.09	(define @t86 () (not @t85))
1.90/2.09	(define @t87 () (and @t39 @t86))
1.90/2.09	(define @t88 () (exists @t41 @t87))
1.90/2.09	(define @t89 () (exists @t9 @t7))
1.90/2.09	(define @t90 () (=> @t89 @t88))
1.90/2.09	(define @t91 () (forall @t64 @t90))
1.90/2.09	(define @t92 () (= tptp.foundationAx @t91))
1.90/2.09	(define @t93 () (@var "E" $$unsorted))
1.90/2.09	(define @t94 () (_ @t5 @t93))
1.90/2.09	(define @t95 () (@var "D" $$unsorted))
1.90/2.09	(define @t96 () (_ @t20 @t95))
1.90/2.09	(define @t97 () (_ @t20 @t93))
1.90/2.09	(define @t98 () (forall @t70 (=> @t97 @t96)))
1.90/2.09	(define @t99 () (or @t98 @t94))
1.90/2.09	(define @t100 () (_ (_ tptp.in @t93) @t1))
1.90/2.09	(define @t101 () (=> @t100 @t99))
1.90/2.09	(define @t102 () (@list @t93))
1.90/2.09	(define @t103 () (forall @t102 @t101))
1.90/2.09	(define @t104 () (@var "C" $$unsorted))
1.90/2.09	(define @t105 () (_ @t20 @t104))
1.90/2.09	(define @t106 () (and @t96 @t105))
1.90/2.09	(define @t107 () (exists @t70 @t106))
1.90/2.09	(define @t108 () (not @t107))
1.90/2.09	(define @t109 () (_ @t5 @t104))
1.90/2.09	(define @t110 () (_ (_ tptp.in @t95) @t1))
1.90/2.09	(define @t111 () (and @t110 @t109 @t108 @t103))
1.90/2.09	(define @t112 () (@list @t95 @t4))
1.90/2.09	(define @t113 () (exists @t112 @t111))
1.90/2.09	(define @t114 () (exists @t9 @t109))
1.90/2.09	(define @t115 () (forall @t9 (=> @t109 @t7)))
1.90/2.09	(define @t116 () (and @t115 @t114))
1.90/2.09	(define @t117 () (=> @t116 @t113))
1.90/2.09	(define @t118 () (@list @t104))
1.90/2.09	(define @t119 () (forall @t118 @t117))
1.90/2.09	(define @t120 () (_ @t5 @t95))
1.90/2.09	(define @t121 () (forall @t9 (=> @t120 @t109)))
1.90/2.09	(define @t122 () (forall @t9 (=> @t109 @t120)))
1.90/2.09	(define @t123 () (or @t122 @t121))
1.90/2.09	(define @t124 () (_ (_ tptp.in @t104) @t1))
1.90/2.09	(define @t125 () (and @t124 @t110))
1.90/2.09	(define @t126 () (=> @t125 @t123))
1.90/2.09	(define @t127 () (@list @t104 @t95))
1.90/2.09	(define @t128 () (forall @t127 @t126))
1.90/2.09	(define @t129 () (= @t4 @t19))
1.90/2.09	(define @t130 () (= @t109 @t105))
1.90/2.09	(define @t131 () (forall @t118 (=> @t124 @t130)))
1.90/2.09	(define @t132 () (=> @t131 @t129))
1.90/2.09	(define @t133 () (and @t7 @t21))
1.90/2.09	(define @t134 () (=> @t133 @t132))
1.90/2.09	(define @t135 () (@list @t4 @t19))
1.90/2.09	(define @t136 () (forall @t135 @t134))
1.90/2.09	(define @t137 () (=> @t124 @t115))
1.90/2.09	(define @t138 () (forall @t118 @t137))
1.90/2.09	(define @t139 () (and @t138 @t136 @t128 @t119))
1.90/2.09	(define @t140 () (exists @t41 @t139))
1.90/2.09	(define @t141 () (forall @t64 @t140))
1.90/2.09	(define @t142 () (= tptp.wellorderingAx @t141))
1.90/2.09	(define @t143 () (@var "Xphi" (-> $$unsorted Bool)))
1.90/2.09	(define @t144 () (_ @t143 @t4))
1.90/2.09	(define @t145 () (lambda @t9 @t144))
1.90/2.09	(define @t146 () (_ tptp.descr @t145))
1.90/2.09	(define @t147 () (_ @t143 @t146))
1.90/2.09	(define @t148 () (_ tptp.exu @t145))
1.90/2.09	(define @t149 () (=> @t148 @t147))
1.90/2.09	(define @t150 () (@list @t143))
1.90/2.09	(define @t151 () (forall @t150 @t149))
1.90/2.09	(define @t152 () (= tptp.descrp @t151))
1.90/2.09	(define @t153 () (_ @t143 @t19))
1.90/2.09	(define @t154 () (lambda @t70 @t153))
1.90/2.09	(define @t155 () (_ tptp.dsetconstr @t2))
1.90/2.09	(define @t156 () (_ @t155 @t154))
1.90/2.09	(define @t157 () (_ @t5 @t156))
1.90/2.09	(define @t158 () (=> @t144 @t157))
1.90/2.09	(define @t159 () (@list @t2 @t143 @t4))
1.90/2.09	(define @t160 () (forall @t159 (=> @t7 @t158)))
1.90/2.09	(define @t161 () (= tptp.dsetconstrI @t160))
1.90/2.09	(define @t162 () (forall @t159 (=> @t157 @t7)))
1.90/2.09	(define @t163 () (= tptp.dsetconstrEL @t162))
1.90/2.09	(define @t164 () (forall @t159 (=> @t157 @t144)))
1.90/2.09	(define @t165 () (= tptp.dsetconstrER @t164))
1.90/2.09	(define @t166 () (=> @t153 @t129))
1.90/2.09	(define @t167 () (forall @t70 @t166))
1.90/2.09	(define @t168 () (and @t144 @t167))
1.90/2.09	(define @t169 () (exists @t9 @t168))
1.90/2.09	(define @t170 () (=> @t148 @t169))
1.90/2.09	(define @t171 () (forall @t150 @t170))
1.90/2.09	(define @t172 () (= tptp.exuE1 @t171))
1.90/2.09	(define @t173 () (@var "Xphi" Bool))
1.90/2.09	(define @t174 () (_ tptp.prop2set @t173))
1.90/2.09	(define @t175 () (_ @t5 @t174))
1.90/2.09	(define @t176 () (@list @t173 @t4))
1.90/2.09	(define @t177 () (forall @t176 (=> @t175 @t173)))
1.90/2.09	(define @t178 () (= tptp.prop2setE @t177))
1.90/2.09	(define @t179 () (@list @t173))
1.90/2.09	(define @t180 () (forall @t179 @t173))
1.90/2.09	(define @t181 () (=> @t15 @t180))
1.90/2.09	(define @t182 () (forall @t9 @t181))
1.90/2.09	(define @t183 () (= tptp.emptysetE @t182))
1.90/2.09	(define @t184 () (forall @t9 (=> @t15 false)))
1.90/2.09	(define @t185 () (= tptp.emptysetimpfalse @t184))
1.90/2.09	(define @t186 () (exists @t9 @t144))
1.90/2.09	(define @t187 () (=> @t148 @t186))
1.90/2.09	(define @t188 () (forall @t150 @t187))
1.90/2.09	(define @t189 () (= tptp.exuE3e @t188))
1.90/2.09	(define @t190 () (=> @t32 @t3))
1.90/2.09	(define @t191 () (=> @t7 @t6))
1.90/2.09	(define @t192 () (forall @t9 @t191))
1.90/2.09	(define @t193 () (=> @t192 @t190))
1.90/2.09	(define @t194 () (forall @t12 @t193))
1.90/2.09	(define @t195 () (= tptp.setext @t194))
1.90/2.09	(define @t196 () (= @t2 tptp.emptyset))
1.90/2.09	(define @t197 () (not @t7))
1.90/2.09	(define @t198 () (forall @t9 @t197))
1.90/2.09	(define @t199 () (=> @t198 @t196))
1.90/2.09	(define @t200 () (forall @t64 @t199))
1.90/2.09	(define @t201 () (= tptp.emptyI @t200))
1.90/2.09	(define @t202 () (=> @t7 (= @t157 @t144)))
1.90/2.09	(define @t203 () (forall @t159 @t202))
1.90/2.09	(define @t204 () (= tptp.setbeta @t203))
1.90/2.09	(define @t205 () (_ tptp.nonempty @t2))
1.90/2.09	(define @t206 () (=> @t205 @t89))
1.90/2.09	(define @t207 () (forall @t64 @t206))
1.90/2.09	(define @t208 () (= tptp.nonemptyE1 @t207))
1.90/2.09	(define @t209 () (=> @t144 (_ tptp.nonempty @t156)))
1.90/2.09	(define @t210 () (=> @t7 @t209))
1.90/2.09	(define @t211 () (forall @t159 @t210))
1.90/2.09	(define @t212 () (= tptp.nonemptyI @t211))
1.90/2.09	(define @t213 () (=> @t89 @t205))
1.90/2.09	(define @t214 () (forall @t64 @t213))
1.90/2.09	(define @t215 () (= tptp.nonemptyI1 @t214))
1.90/2.09	(define @t216 () (_ @t24 @t19))
1.90/2.09	(define @t217 () (_ @t5 @t216))
1.90/2.09	(define @t218 () (forall @t135 @t217))
1.90/2.09	(define @t219 () (= tptp.setadjoinIL @t218))
1.90/2.09	(define @t220 () (_ (_ tptp.setadjoin tptp.emptyset) tptp.emptyset))
1.90/2.09	(define @t221 () (_ @t49 @t220))
1.90/2.09	(define @t222 () (forall @t28 (=> @t21 @t26)))
1.90/2.09	(define @t223 () (= tptp.setadjoinIR @t222))
1.90/2.09	(define @t224 () (=> @t21 @t173))
1.90/2.09	(define @t225 () (=> @t224 @t173))
1.90/2.09	(define @t226 () (=> @t22 @t173))
1.90/2.09	(define @t227 () (=> @t226 @t225))
1.90/2.09	(define @t228 () (forall @t179 @t227))
1.90/2.09	(define @t229 () (=> @t26 @t228))
1.90/2.09	(define @t230 () (forall @t28 @t229))
1.90/2.09	(define @t231 () (= tptp.setadjoinE @t230))
1.90/2.09	(define @t232 () (=> @t26 @t23))
1.90/2.09	(define @t233 () (forall @t28 @t232))
1.90/2.09	(define @t234 () (= tptp.setadjoinOr @t233))
1.90/2.09	(define @t235 () (lambda @t9 true))
1.90/2.09	(define @t236 () (= (_ @t155 @t235) @t2))
1.90/2.09	(define @t237 () (forall @t64 @t236))
1.90/2.09	(define @t238 () (= tptp.setoftrueEq @t237))
1.90/2.09	(define @t239 () (=> @t32 @t35))
1.90/2.09	(define @t240 () (forall @t12 @t239))
1.90/2.09	(define @t241 () (= tptp.powersetI @t240))
1.90/2.09	(define @t242 () (_ @t49 @t33))
1.90/2.09	(define @t243 () (forall @t64 @t242))
1.90/2.09	(define @t244 () (= tptp.emptyinPowerset @t243))
1.90/2.09	(define @t245 () (@list @t2 @t1 @t4))
1.90/2.09	(define @t246 () (forall @t245 (=> @t35 @t31)))
1.90/2.09	(define @t247 () (= tptp.powersetE @t246))
1.90/2.09	(define @t248 () (=> @t39 @t44))
1.90/2.09	(define @t249 () (@list @t2 @t4 @t1))
1.90/2.09	(define @t250 () (forall @t249 (=> @t6 @t248)))
1.90/2.09	(define @t251 () (= tptp.setunionI @t250))
1.90/2.09	(define @t252 () (=> @t39 @t173))
1.90/2.09	(define @t253 () (forall @t41 (=> @t6 @t252)))
1.90/2.09	(define @t254 () (=> @t253 @t173))
1.90/2.09	(define @t255 () (forall @t179 @t254))
1.90/2.09	(define @t256 () (=> @t44 @t255))
1.90/2.09	(define @t257 () (forall @t46 @t256))
1.90/2.09	(define @t258 () (= tptp.setunionE @t257))
1.90/2.09	(define @t259 () (_ tptp.powerset @t43))
1.90/2.09	(define @t260 () (_ @t5 @t259))
1.90/2.09	(define @t261 () (forall @t46 (=> @t7 @t260)))
1.90/2.09	(define @t262 () (= tptp.subPowSU @t261))
1.90/2.09	(define @t263 () (= @t153 @t22))
1.90/2.09	(define @t264 () (forall @t70 @t263))
1.90/2.09	(define @t265 () (exists @t9 @t264))
1.90/2.09	(define @t266 () (=> @t148 @t265))
1.90/2.09	(define @t267 () (forall @t150 @t266))
1.90/2.09	(define @t268 () (= tptp.exuE2 @t267))
1.90/2.09	(define @t269 () (and @t7 true))
1.90/2.09	(define @t270 () (exists @t9 @t269))
1.90/2.09	(define @t271 () (=> @t205 @t270))
1.90/2.09	(define @t272 () (forall @t64 @t271))
1.90/2.09	(define @t273 () (= tptp.nonemptyImpWitness @t272))
1.90/2.09	(define @t274 () (_ tptp.setadjoin @t19))
1.90/2.09	(define @t275 () (_ @t274 tptp.emptyset))
1.90/2.09	(define @t276 () (_ @t5 @t275))
1.90/2.09	(define @t277 () (forall @t135 (=> @t276 @t129)))
1.90/2.09	(define @t278 () (= tptp.uniqinunit @t277))
1.90/2.09	(define @t279 () (_ @t24 tptp.emptyset))
1.90/2.09	(define @t280 () (_ @t20 @t279))
1.90/2.09	(define @t281 () (not @t280))
1.90/2.09	(define @t282 () (not @t129))
1.90/2.09	(define @t283 () (forall @t135 (=> @t282 @t281)))
1.90/2.09	(define @t284 () (= tptp.notinsingleton @t283))
1.90/2.09	(define @t285 () (forall @t135 (=> @t129 @t276)))
1.90/2.09	(define @t286 () (= tptp.eqinunit @t285))
1.90/2.09	(define @t287 () (forall @t135 (=> @t276 @t280)))
1.90/2.09	(define @t288 () (= tptp.singletonsswitch @t287))
1.90/2.09	(define @t289 () (@var "Xz" $$unsorted))
1.90/2.09	(define @t290 () (or (= @t289 @t4) (= @t289 @t19)))
1.90/2.09	(define @t291 () (_ @t24 @t275))
1.90/2.09	(define @t292 () (_ tptp.in @t289))
1.90/2.09	(define @t293 () (_ @t292 @t291))
1.90/2.09	(define @t294 () (=> @t293 @t290))
1.90/2.09	(define @t295 () (@list @t4 @t19 @t289))
1.90/2.09	(define @t296 () (forall @t295 @t294))
1.90/2.09	(define @t297 () (= tptp.upairsetE @t296))
1.90/2.09	(define @t298 () (_ @t5 @t291))
1.90/2.09	(define @t299 () (forall @t135 @t298))
1.90/2.09	(define @t300 () (= tptp.upairsetIL @t299))
1.90/2.09	(define @t301 () (_ @t20 @t291))
1.90/2.09	(define @t302 () (forall @t135 @t301))
1.90/2.09	(define @t303 () (= tptp.upairsetIR @t302))
1.90/2.09	(define @t304 () (_ @t155 @t145))
1.90/2.09	(define @t305 () (= @t304 tptp.emptyset))
1.90/2.09	(define @t306 () (and @t7 @t144))
1.90/2.09	(define @t307 () (exists @t9 @t306))
1.90/2.09	(define @t308 () (=> @t307 (=> @t305 false)))
1.90/2.09	(define @t309 () (@list @t2 @t143))
1.90/2.09	(define @t310 () (forall @t309 @t308))
1.90/2.09	(define @t311 () (= tptp.emptyE1 @t310))
1.90/2.09	(define @t312 () (@list @t143 @t4))
1.90/2.09	(define @t313 () (forall @t312 (=> @t15 @t144)))
1.90/2.09	(define @t314 () (= tptp.vacuousDall @t313))
1.90/2.09	(define @t315 () (not @t144))
1.90/2.09	(define @t316 () (and @t7 @t315))
1.90/2.09	(define @t317 () (exists @t9 @t316))
1.90/2.09	(define @t318 () (forall @t9 (=> @t7 @t144)))
1.90/2.09	(define @t319 () (not @t318))
1.90/2.09	(define @t320 () (=> @t319 @t317))
1.90/2.09	(define @t321 () (forall @t309 @t320))
1.90/2.09	(define @t322 () (= tptp.quantDeMorgan1 @t321))
1.90/2.09	(define @t323 () (not @t307))
1.90/2.09	(define @t324 () (forall @t9 (=> @t7 @t315)))
1.90/2.09	(define @t325 () (=> @t324 @t323))
1.90/2.09	(define @t326 () (forall @t309 @t325))
1.90/2.09	(define @t327 () (= tptp.quantDeMorgan2 @t326))
1.90/2.09	(define @t328 () (=> @t323 @t324))
1.90/2.09	(define @t329 () (forall @t309 @t328))
1.90/2.09	(define @t330 () (= tptp.quantDeMorgan3 @t329))
1.90/2.09	(define @t331 () (=> @t317 @t319))
1.90/2.09	(define @t332 () (forall @t309 @t331))
1.90/2.09	(define @t333 () (= tptp.quantDeMorgan4 @t332))
1.90/2.09	(define @t334 () (_ @t49 @t174))
1.90/2.09	(define @t335 () (forall @t179 (=> @t173 @t334)))
1.90/2.09	(define @t336 () (= tptp.prop2setI @t335))
1.90/2.09	(define @t337 () (_ tptp.set2prop @t174))
1.90/2.09	(define @t338 () (forall @t179 (=> @t173 @t337)))
1.90/2.09	(define @t339 () (= tptp.prop2set2propI @t338))
1.90/2.09	(define @t340 () (=> @t169 @t148))
1.90/2.09	(define @t341 () (forall @t150 @t340))
1.90/2.09	(define @t342 () (= tptp.exuI1 @t341))
1.90/2.09	(define @t343 () (=> @t144 @t166))
1.90/2.09	(define @t344 () (forall @t135 @t343))
1.90/2.09	(define @t345 () (=> @t344 @t148))
1.90/2.09	(define @t346 () (=> @t186 @t345))
1.90/2.09	(define @t347 () (forall @t150 @t346))
1.90/2.09	(define @t348 () (= tptp.exuI3 @t347))
1.90/2.09	(define @t349 () (=> @t265 @t148))
1.90/2.09	(define @t350 () (forall @t150 @t349))
1.90/2.09	(define @t351 () (= tptp.exuI2 @t350))
1.90/2.09	(define @t352 () (_ @t20 @t1))
1.90/2.09	(define @t353 () (=> @t7 @t352))
1.90/2.09	(define @t354 () (forall @t135 (=> @t129 @t353)))
1.90/2.09	(define @t355 () (=> @t3 @t354))
1.90/2.09	(define @t356 () (forall @t12 @t355))
1.90/2.09	(define @t357 () (= tptp.inCongP @t356))
1.90/2.09	(define @t358 () (= @t7 @t352))
1.90/2.09	(define @t359 () (forall @t135 (=> @t129 @t358)))
1.90/2.09	(define @t360 () (=> @t3 @t359))
1.90/2.09	(define @t361 () (forall @t12 @t360))
1.90/2.09	(define @t362 () (= tptp.in__Cong @t361))
1.90/2.09	(define @t363 () (=> @t148 @t344))
1.90/2.09	(define @t364 () (forall @t150 @t363))
1.90/2.09	(define @t365 () (= tptp.exuE3u @t364))
1.90/2.09	(define @t366 () (@var "Xpsi" (-> $$unsorted Bool)))
1.90/2.09	(define @t367 () (_ @t366 @t4))
1.90/2.09	(define @t368 () (lambda @t9 @t367))
1.90/2.09	(define @t369 () (_ tptp.exu @t368))
1.90/2.09	(define @t370 () (= @t148 @t369))
1.90/2.09	(define @t371 () (_ @t366 @t19))
1.90/2.09	(define @t372 () (= @t144 @t371))
1.90/2.09	(define @t373 () (=> @t129 @t372))
1.90/2.09	(define @t374 () (forall @t135 @t373))
1.90/2.09	(define @t375 () (=> @t374 @t370))
1.90/2.09	(define @t376 () (@list @t143 @t366))
1.90/2.09	(define @t377 () (forall @t376 @t375))
1.90/2.09	(define @t378 () (= tptp.exu__Cong @t377))
1.90/2.09	(define @t379 () (= tptp.emptyset tptp.emptyset))
1.90/2.09	(define @t380 () (= tptp.emptyset__Cong @t379))
1.90/2.09	(define @t381 () (@var "Xu" $$unsorted))
1.90/2.09	(define @t382 () (_ @t274 @t381))
1.90/2.09	(define @t383 () (_ @t24 @t289))
1.90/2.09	(define @t384 () (= @t383 @t382))
1.90/2.09	(define @t385 () (= @t289 @t381))
1.90/2.09	(define @t386 () (@list @t289 @t381))
1.90/2.09	(define @t387 () (forall @t386 (=> @t385 @t384)))
1.90/2.09	(define @t388 () (=> @t129 @t387))
1.90/2.09	(define @t389 () (forall @t135 @t388))
1.90/2.09	(define @t390 () (= tptp.setadjoin__Cong @t389))
1.90/2.09	(define @t391 () (_ tptp.powerset @t1))
1.90/2.09	(define @t392 () (= @t33 @t391))
1.90/2.09	(define @t393 () (forall @t12 (=> @t3 @t392)))
1.90/2.09	(define @t394 () (= tptp.powerset__Cong @t393))
1.90/2.09	(define @t395 () (_ tptp.setunion @t1))
1.90/2.09	(define @t396 () (= @t43 @t395))
1.90/2.09	(define @t397 () (forall @t12 (=> @t3 @t396)))
1.90/2.09	(define @t398 () (= tptp.setunion__Cong @t397))
1.90/2.09	(define @t399 () (= tptp.omega__Cong (= tptp.omega tptp.omega)))
1.90/2.09	(define @t400 () (= tptp.exuEu @t364))
1.90/2.09	(define @t401 () (_ tptp.descr @t368))
1.90/2.09	(define @t402 () (= @t146 @t401))
1.90/2.09	(define @t403 () (=> @t369 @t402))
1.90/2.09	(define @t404 () (=> @t148 @t403))
1.90/2.09	(define @t405 () (=> @t374 @t404))
1.90/2.09	(define @t406 () (forall @t376 @t405))
1.90/2.09	(define @t407 () (= tptp.descr__Cong @t406))
1.90/2.09	(define @t408 () (_ tptp.dsetconstr @t1))
1.90/2.09	(define @t409 () (_ @t408 @t368))
1.90/2.09	(define @t410 () (= @t304 @t409))
1.90/2.09	(define @t411 () (forall @t70 (=> @t352 @t373)))
1.90/2.09	(define @t412 () (=> @t7 @t411))
1.90/2.09	(define @t413 () (forall @t9 @t412))
1.90/2.09	(define @t414 () (=> @t413 @t410))
1.90/2.09	(define @t415 () (forall @t376 @t414))
1.90/2.09	(define @t416 () (=> @t3 @t415))
1.90/2.09	(define @t417 () (forall @t12 @t416))
1.90/2.09	(define @t418 () (= tptp.dsetconstr__Cong @t417))
1.90/2.09	(define @t419 () (_ tptp.subset @t2))
1.90/2.09	(define @t420 () (_ @t419 @t1))
1.90/2.09	(define @t421 () (=> @t192 @t420))
1.90/2.09	(define @t422 () (forall @t12 @t421))
1.90/2.09	(define @t423 () (= tptp.subsetI1 @t422))
1.90/2.09	(define @t424 () (_ tptp.subset @t1))
1.90/2.09	(define @t425 () (_ @t424 @t2))
1.90/2.09	(define @t426 () (forall @t12 (=> @t3 @t425)))
1.90/2.09	(define @t427 () (= tptp.eqimpsubset2 @t426))
1.90/2.09	(define @t428 () (forall @t12 (=> @t3 @t420)))
1.90/2.09	(define @t429 () (= tptp.eqimpsubset1 @t428))
1.90/2.09	(define @t430 () (_ (_ tptp.subset tptp.emptyset) @t2))
1.90/2.09	(define @t431 () (forall @t64 @t430))
1.90/2.09	(define @t432 () (= tptp.emptysetsubset @t431))
1.90/2.09	(define @t433 () (forall @t245 (=> @t420 @t191)))
1.90/2.09	(define @t434 () (= tptp.subsetE @t433))
1.90/2.09	(define @t435 () (not @t6))
1.90/2.09	(define @t436 () (=> @t435 @t197))
1.90/2.09	(define @t437 () (forall @t245 (=> @t420 @t436)))
1.90/2.09	(define @t438 () (= tptp.subsetE2 @t437))
1.90/2.09	(define @t439 () (not @t420))
1.90/2.09	(define @t440 () (=> @t435 @t439))
1.90/2.09	(define @t441 () (forall @t245 (=> @t7 @t440)))
1.90/2.09	(define @t442 () (= tptp.notsubsetI @t441))
1.90/2.09	(define @t443 () (not @t3))
1.90/2.09	(define @t444 () (forall @t12 (=> @t439 @t443)))
1.90/2.09	(define @t445 () (= tptp.notequalI1 @t444))
1.90/2.09	(define @t446 () (=> @t435 @t443))
1.90/2.09	(define @t447 () (forall @t245 (=> @t7 @t446)))
1.90/2.09	(define @t448 () (= tptp.notequalI2 @t447))
1.90/2.09	(define @t449 () (_ @t419 @t2))
1.90/2.09	(define @t450 () (forall @t64 @t449))
1.90/2.09	(define @t451 () (= tptp.subsetRefl @t450))
1.90/2.09	(define @t452 () (_ @t419 @t104))
1.90/2.09	(define @t453 () (_ @t424 @t104))
1.90/2.09	(define @t454 () (=> @t453 @t452))
1.90/2.09	(define @t455 () (@list @t2 @t1 @t104))
1.90/2.09	(define @t456 () (forall @t455 (=> @t420 @t454)))
1.90/2.09	(define @t457 () (= tptp.subsetTrans @t456))
1.90/2.09	(define @t458 () (_ @t419 @t25))
1.90/2.09	(define @t459 () (@list @t4 @t2))
1.90/2.09	(define @t460 () (forall @t459 @t458))
1.90/2.09	(define @t461 () (= tptp.setadjoinSub @t460))
1.90/2.09	(define @t462 () (_ @t24 @t1))
1.90/2.09	(define @t463 () (_ @t419 @t462))
1.90/2.09	(define @t464 () (forall @t249 (=> @t420 @t463)))
1.90/2.09	(define @t465 () (= tptp.setadjoinSub2 @t464))
1.90/2.09	(define @t466 () (_ tptp.in @t2))
1.90/2.09	(define @t467 () (_ @t466 @t391))
1.90/2.09	(define @t468 () (forall @t12 (=> @t420 @t467)))
1.90/2.09	(define @t469 () (= tptp.subset2powerset @t468))
1.90/2.09	(define @t470 () (=> @t425 @t3))
1.90/2.09	(define @t471 () (forall @t12 (=> @t420 @t470)))
1.90/2.09	(define @t472 () (= tptp.setextsub @t471))
1.90/2.09	(define @t473 () (_ @t419 tptp.emptyset))
1.90/2.09	(define @t474 () (forall @t64 (=> @t473 @t196)))
1.90/2.09	(define @t475 () (= tptp.subsetemptysetimpeq @t474))
1.90/2.09	(define @t476 () (forall @t12 (=> @t425 @t35)))
1.90/2.09	(define @t477 () (= tptp.powersetI1 @t476))
1.90/2.09	(define @t478 () (forall @t12 (=> @t35 @t425)))
1.90/2.09	(define @t479 () (= tptp.powersetE1 @t478))
1.90/2.09	(define @t480 () (_ @t466 @t33))
1.90/2.09	(define @t481 () (forall @t64 @t480))
1.90/2.09	(define @t482 () (= tptp.inPowerset @t481))
1.90/2.09	(define @t483 () (_ (_ tptp.subset @t33) @t391))
1.90/2.09	(define @t484 () (forall @t12 (=> @t420 @t483)))
1.90/2.09	(define @t485 () (= tptp.powersetsubset @t484))
1.90/2.09	(define @t486 () (_ (_ tptp.in @t304) @t33))
1.90/2.09	(define @t487 () (forall @t309 @t486))
1.90/2.09	(define @t488 () (= tptp.sepInPowerset @t487))
1.90/2.09	(define @t489 () (_ (_ tptp.subset @t304) @t2))
1.90/2.09	(define @t490 () (forall @t309 @t489))
1.90/2.09	(define @t491 () (= tptp.sepSubset @t490))
1.90/2.09	(define @t492 () (_ (_ tptp.binunion @t2) @t1))
1.90/2.09	(define @t493 () (_ @t5 @t492))
1.90/2.09	(define @t494 () (forall @t245 (=> @t7 @t493)))
1.90/2.09	(define @t495 () (= tptp.binunionIL @t494))
1.90/2.09	(define @t496 () (forall @t245 (=> @t6 @t493)))
1.90/2.09	(define @t497 () (= tptp.binunionIR @t496))
1.90/2.09	(define @t498 () (=> @t6 @t173))
1.90/2.09	(define @t499 () (=> @t498 @t173))
1.90/2.09	(define @t500 () (=> @t7 @t173))
1.90/2.09	(define @t501 () (=> @t500 @t499))
1.90/2.09	(define @t502 () (@list @t2 @t1 @t4 @t173))
1.90/2.09	(define @t503 () (forall @t502 (=> @t493 @t501)))
1.90/2.09	(define @t504 () (= tptp.binunionEcases @t503))
1.90/2.09	(define @t505 () (or @t7 @t6))
1.90/2.09	(define @t506 () (forall @t245 (=> @t493 @t505)))
1.90/2.09	(define @t507 () (= tptp.binunionE @t506))
1.90/2.09	(define @t508 () (_ @t419 @t492))
1.90/2.09	(define @t509 () (forall @t12 @t508))
1.90/2.09	(define @t510 () (= tptp.binunionLsub @t509))
1.90/2.09	(define @t511 () (_ @t424 @t492))
1.90/2.09	(define @t512 () (forall @t12 @t511))
1.90/2.09	(define @t513 () (= tptp.binunionRsub @t512))
1.90/2.09	(define @t514 () (_ tptp.binintersect @t2))
1.90/2.09	(define @t515 () (_ @t514 @t1))
1.90/2.09	(define @t516 () (_ @t5 @t515))
1.90/2.09	(define @t517 () (=> @t6 @t516))
1.90/2.09	(define @t518 () (forall @t245 (=> @t7 @t517)))
1.90/2.09	(define @t519 () (= tptp.binintersectI @t518))
1.90/2.09	(define @t520 () (_ tptp.subset @t104))
1.90/2.09	(define @t521 () (_ @t520 @t515))
1.90/2.09	(define @t522 () (_ @t520 @t1))
1.90/2.09	(define @t523 () (=> @t522 @t521))
1.90/2.09	(define @t524 () (_ @t520 @t2))
1.90/2.09	(define @t525 () (forall @t455 (=> @t524 @t523)))
1.90/2.09	(define @t526 () (= tptp.binintersectSubset5 @t525))
1.90/2.09	(define @t527 () (forall @t245 (=> @t516 @t7)))
1.90/2.09	(define @t528 () (= tptp.binintersectEL @t527))
1.90/2.09	(define @t529 () (_ tptp.subset @t515))
1.90/2.09	(define @t530 () (_ @t529 @t2))
1.90/2.09	(define @t531 () (forall @t12 @t530))
1.90/2.09	(define @t532 () (= tptp.binintersectLsub @t531))
1.90/2.09	(define @t533 () (= @t515 @t2))
1.90/2.09	(define @t534 () (=> @t420 @t533))
1.90/2.09	(define @t535 () (forall @t12 @t534))
1.90/2.09	(define @t536 () (= tptp.binintersectSubset2 @t535))
1.90/2.09	(define @t537 () (= @t515 @t1))
1.90/2.09	(define @t538 () (=> @t537 @t425))
1.90/2.09	(define @t539 () (forall @t12 @t538))
1.90/2.09	(define @t540 () (= tptp.binintersectSubset3 @t539))
1.90/2.09	(define @t541 () (forall @t245 (=> @t516 @t6)))
1.90/2.09	(define @t542 () (= tptp.binintersectER @t541))
1.90/2.09	(define @t543 () (and @t7 @t6))
1.90/2.09	(define @t544 () (exists @t9 @t543))
1.90/2.09	(define @t545 () (not @t544))
1.90/2.09	(define @t546 () (=> @t545 (= @t515 tptp.emptyset)))
1.90/2.09	(define @t547 () (forall @t12 @t546))
1.90/2.09	(define @t548 () (= tptp.disjointsetsI1 @t547))
1.90/2.09	(define @t549 () (_ @t529 @t1))
1.90/2.09	(define @t550 () (forall @t12 @t549))
1.90/2.09	(define @t551 () (= tptp.binintersectRsub @t550))
1.90/2.09	(define @t552 () (=> @t425 @t537))
1.90/2.09	(define @t553 () (forall @t12 @t552))
1.90/2.09	(define @t554 () (= tptp.binintersectSubset4 @t553))
1.90/2.09	(define @t555 () (=> @t533 @t420))
1.90/2.09	(define @t556 () (forall @t12 @t555))
1.90/2.09	(define @t557 () (= tptp.binintersectSubset1 @t556))
1.90/2.09	(define @t558 () (_ @t514 @t104))
1.90/2.09	(define @t559 () (_ (_ tptp.binunion @t515) @t558))
1.90/2.09	(define @t560 () (_ (_ tptp.binunion @t1) @t104))
1.90/2.09	(define @t561 () (_ @t514 @t560))
1.90/2.09	(define @t562 () (= @t561 @t559))
1.90/2.09	(define @t563 () (forall @t455 @t562))
1.90/2.09	(define @t564 () (= tptp.bs114d @t563))
1.90/2.09	(define @t565 () (_ (_ tptp.setminus @t2) @t1))
1.90/2.09	(define @t566 () (_ @t5 @t565))
1.90/2.09	(define @t567 () (=> @t435 @t566))
1.90/2.09	(define @t568 () (forall @t245 (=> @t7 @t567)))
1.90/2.09	(define @t569 () (= tptp.setminusI @t568))
1.90/2.09	(define @t570 () (forall @t245 (=> @t566 @t7)))
1.90/2.09	(define @t571 () (= tptp.setminusEL @t570))
1.90/2.09	(define @t572 () (forall @t245 (=> @t566 @t435)))
1.90/2.09	(define @t573 () (= tptp.setminusER @t572))
1.90/2.09	(define @t574 () (= @t565 tptp.emptyset))
1.90/2.09	(define @t575 () (=> @t420 @t574))
1.90/2.09	(define @t576 () (forall @t12 @t575))
1.90/2.09	(define @t577 () (= tptp.setminusSubset2 @t576))
1.90/2.09	(define @t578 () (not @t566))
1.90/2.09	(define @t579 () (forall @t245 (=> @t578 @t191)))
1.90/2.09	(define @t580 () (= tptp.setminusERneg @t579))
1.90/2.09	(define @t581 () (forall @t245 (=> @t578 @t436)))
1.90/2.09	(define @t582 () (= tptp.setminusELneg @t581))
1.90/2.09	(define @t583 () (forall @t245 (=> @t197 @t578)))
1.90/2.09	(define @t584 () (= tptp.setminusILneg @t583))
1.90/2.09	(define @t585 () (forall @t245 (=> @t6 @t578)))
1.90/2.09	(define @t586 () (= tptp.setminusIRneg @t585))
1.90/2.09	(define @t587 () (_ (_ tptp.subset @t565) @t2))
1.90/2.09	(define @t588 () (forall @t12 @t587))
1.90/2.09	(define @t589 () (= tptp.setminusLsub @t588))
1.90/2.09	(define @t590 () (=> @t574 @t420))
1.90/2.09	(define @t591 () (forall @t12 @t590))
1.90/2.09	(define @t592 () (= tptp.setminusSubset1 @t591))
1.90/2.09	(define @t593 () (=> @t197 @t498))
1.90/2.09	(define @t594 () (=> @t593 @t173))
1.90/2.09	(define @t595 () (=> @t435 @t173))
1.90/2.09	(define @t596 () (=> @t7 @t595))
1.90/2.09	(define @t597 () (forall @t179 (=> @t596 @t594)))
1.90/2.09	(define @t598 () (_ (_ tptp.symdiff @t2) @t1))
1.90/2.09	(define @t599 () (_ @t5 @t598))
1.90/2.09	(define @t600 () (=> @t599 @t597))
1.90/2.09	(define @t601 () (forall @t245 @t600))
1.90/2.09	(define @t602 () (= tptp.symdiffE @t601))
1.90/2.09	(define @t603 () (=> @t435 @t599))
1.90/2.09	(define @t604 () (forall @t245 (=> @t7 @t603)))
1.90/2.09	(define @t605 () (= tptp.symdiffI1 @t604))
1.90/2.09	(define @t606 () (=> @t6 @t599))
1.90/2.09	(define @t607 () (forall @t245 (=> @t197 @t606)))
1.90/2.09	(define @t608 () (= tptp.symdiffI2 @t607))
1.90/2.09	(define @t609 () (not @t599))
1.90/2.09	(define @t610 () (=> @t6 @t609))
1.90/2.09	(define @t611 () (forall @t245 (=> @t7 @t610)))
1.90/2.09	(define @t612 () (= tptp.symdiffIneg1 @t611))
1.90/2.09	(define @t613 () (=> @t435 @t609))
1.90/2.09	(define @t614 () (forall @t245 (=> @t197 @t613)))
1.90/2.09	(define @t615 () (= tptp.symdiffIneg2 @t614))
1.90/2.09	(define @t616 () (_ (_ tptp.setadjoin @t291) tptp.emptyset))
1.90/2.09	(define @t617 () (_ tptp.setadjoin @t279))
1.90/2.09	(define @t618 () (_ @t617 @t616))
1.90/2.09	(define @t619 () (_ tptp.setunion @t618))
1.90/2.09	(define @t620 () (_ @t5 @t619))
1.90/2.09	(define @t621 () (forall @t135 @t620))
1.90/2.09	(define @t622 () (= tptp.setukpairIL @t621))
1.90/2.09	(define @t623 () (_ @t20 @t619))
1.90/2.09	(define @t624 () (forall @t135 @t623))
1.90/2.09	(define @t625 () (= tptp.setukpairIR @t624))
1.90/2.09	(define @t626 () (_ tptp.iskpair @t618))
1.90/2.09	(define @t627 () (forall @t135 @t626))
1.90/2.09	(define @t628 () (= tptp.kpairiskpair @t627))
1.90/2.09	(define @t629 () (_ tptp.kpair @t4))
1.90/2.09	(define @t630 () (_ @t629 @t19))
1.90/2.09	(define @t631 () (_ tptp.iskpair @t630))
1.90/2.09	(define @t632 () (forall @t135 @t631))
1.90/2.09	(define @t633 () (= tptp.kpairp @t632))
1.90/2.09	(define @t634 () (_ (_ tptp.subset @t279) @t2))
1.90/2.09	(define @t635 () (forall @t46 (=> @t7 @t634)))
1.90/2.09	(define @t636 () (= tptp.singletonsubset @t635))
1.90/2.09	(define @t637 () (_ tptp.in @t279))
1.90/2.09	(define @t638 () (_ @t637 @t33))
1.90/2.09	(define @t639 () (forall @t46 (=> @t7 @t638)))
1.90/2.09	(define @t640 () (= tptp.singletoninpowerset @t639))
1.90/2.09	(define @t641 () (_ tptp.powerset @t492))
1.92/2.10	(define @t642 () (_ @t637 @t641))
1.92/2.10	(define @t643 () (forall @t245 (=> @t7 @t642)))
1.92/2.10	(define @t644 () (= tptp.singletoninpowunion @t643))
1.92/2.10	(define @t645 () (_ (_ tptp.subset @t291) @t492))
1.92/2.10	(define @t646 () (forall @t70 (=> @t352 @t645)))
1.92/2.10	(define @t647 () (=> @t7 @t646))
1.92/2.10	(define @t648 () (forall @t245 @t647))
1.92/2.10	(define @t649 () (= tptp.upairsubunion @t648))
1.92/2.10	(define @t650 () (_ (_ tptp.in @t291) @t641))
1.92/2.10	(define @t651 () (forall @t70 (=> @t352 @t650)))
1.92/2.10	(define @t652 () (=> @t7 @t651))
1.92/2.10	(define @t653 () (forall @t245 @t652))
1.92/2.10	(define @t654 () (= tptp.upairinpowunion @t653))
1.92/2.10	(define @t655 () (_ (_ tptp.subset @t618) @t641))
1.92/2.10	(define @t656 () (forall @t70 (=> @t352 @t655)))
1.92/2.10	(define @t657 () (=> @t7 @t656))
1.92/2.10	(define @t658 () (forall @t245 @t657))
1.92/2.10	(define @t659 () (= tptp.ubforcartprodlem1 @t658))
1.92/2.10	(define @t660 () (_ tptp.powerset @t641))
1.92/2.10	(define @t661 () (_ (_ tptp.in @t618) @t660))
1.92/2.10	(define @t662 () (forall @t70 (=> @t352 @t661)))
1.92/2.10	(define @t663 () (=> @t7 @t662))
1.92/2.10	(define @t664 () (forall @t245 @t663))
1.92/2.10	(define @t665 () (= tptp.ubforcartprodlem2 @t664))
1.92/2.10	(define @t666 () (_ tptp.in @t630))
1.92/2.10	(define @t667 () (_ @t666 @t660))
1.92/2.10	(define @t668 () (forall @t70 (=> @t352 @t667)))
1.92/2.10	(define @t669 () (=> @t7 @t668))
1.92/2.10	(define @t670 () (forall @t245 @t669))
1.92/2.10	(define @t671 () (= tptp.ubforcartprodlem3 @t670))
1.92/2.10	(define @t672 () (_ (_ tptp.cartprod @t2) @t1))
1.92/2.10	(define @t673 () (_ @t666 @t672))
1.92/2.10	(define @t674 () (forall @t70 (=> @t352 @t673)))
1.92/2.10	(define @t675 () (=> @t7 @t674))
1.92/2.10	(define @t676 () (forall @t245 @t675))
1.92/2.10	(define @t677 () (= tptp.cartprodpairin @t676))
1.92/2.10	(define @t678 () (= @t381 @t630))
1.92/2.10	(define @t679 () (and @t352 @t678))
1.92/2.10	(define @t680 () (exists @t70 @t679))
1.92/2.10	(define @t681 () (and @t7 @t680))
1.92/2.10	(define @t682 () (exists @t9 @t681))
1.92/2.10	(define @t683 () (_ tptp.in @t381))
1.92/2.10	(define @t684 () (_ @t683 @t672))
1.92/2.10	(define @t685 () (=> @t684 @t682))
1.92/2.10	(define @t686 () (@list @t2 @t1 @t381))
1.92/2.10	(define @t687 () (forall @t686 @t685))
1.92/2.10	(define @t688 () (= tptp.cartprodmempair1 @t687))
1.92/2.10	(define @t689 () (_ tptp.iskpair @t381))
1.92/2.10	(define @t690 () (forall @t686 (=> @t684 @t689)))
1.92/2.10	(define @t691 () (= tptp.cartprodmempair @t690))
1.92/2.10	(define @t692 () (@var "X" $$unsorted))
1.92/2.10	(define @t693 () (_ @t5 @t692))
1.92/2.10	(define @t694 () (_ (_ tptp.in @t692) @t2))
1.92/2.10	(define @t695 () (and @t694 @t693))
1.92/2.10	(define @t696 () (@list @t692))
1.92/2.10	(define @t697 () (exists @t696 @t695))
1.92/2.10	(define @t698 () (=> @t44 @t697))
1.92/2.10	(define @t699 () (forall @t46 @t698))
1.92/2.10	(define @t700 () (= tptp.setunionE2 @t699))
1.92/2.10	(define @t701 () (_ (_ tptp.setadjoin @t2) tptp.emptyset))
1.92/2.10	(define @t702 () (_ tptp.setunion @t701))
1.92/2.10	(define @t703 () (_ (_ tptp.subset @t702) @t2))
1.92/2.10	(define @t704 () (forall @t64 @t703))
1.92/2.10	(define @t705 () (= tptp.setunionsingleton1 @t704))
1.92/2.10	(define @t706 () (_ @t419 @t702))
1.92/2.10	(define @t707 () (forall @t64 @t706))
1.92/2.10	(define @t708 () (= tptp.setunionsingleton2 @t707))
1.92/2.10	(define @t709 () (_ tptp.setunion @t279))
1.92/2.10	(define @t710 () (forall @t9 (= @t709 @t4)))
1.92/2.10	(define @t711 () (= tptp.setunionsingleton @t710))
1.92/2.10	(define @t712 () (_ tptp.singleton @t304))
1.92/2.10	(define @t713 () (=> @t307 @t712))
1.92/2.10	(define @t714 () (forall @t70 (=> @t21 @t343)))
1.92/2.10	(define @t715 () (=> @t7 @t714))
1.92/2.10	(define @t716 () (forall @t9 @t715))
1.92/2.10	(define @t717 () (=> @t716 @t713))
1.92/2.10	(define @t718 () (forall @t309 @t717))
1.92/2.10	(define @t719 () (= tptp.singletonprop @t718))
1.92/2.10	(define @t720 () (_ tptp.ex1 @t2))
1.92/2.10	(define @t721 () (_ @t720 @t145))
1.92/2.10	(define @t722 () (=> @t721 @t307))
1.92/2.10	(define @t723 () (forall @t309 @t722))
1.92/2.10	(define @t724 () (= tptp.ex1E1 @t723))
1.92/2.10	(define @t725 () (=> @t153 @t22))
1.92/2.10	(define @t726 () (=> @t21 @t725))
1.92/2.10	(define @t727 () (forall @t70 @t726))
1.92/2.10	(define @t728 () (=> @t727 (_ @t720 @t154)))
1.92/2.10	(define @t729 () (=> @t144 @t728))
1.92/2.10	(define @t730 () (=> @t7 @t729))
1.92/2.10	(define @t731 () (forall @t159 @t730))
1.92/2.10	(define @t732 () (= tptp.ex1I @t731))
1.92/2.10	(define @t733 () (=> @t307 @t721))
1.92/2.10	(define @t734 () (=> @t716 @t733))
1.92/2.10	(define @t735 () (forall @t309 @t734))
1.92/2.10	(define @t736 () (= tptp.ex1I2 @t735))
1.92/2.10	(define @t737 () (=> (= @t279 @t275) @t129))
1.92/2.10	(define @t738 () (forall @t135 @t737))
1.92/2.10	(define @t739 () (= tptp.singletonsuniq @t738))
1.92/2.10	(define @t740 () (= @t4 @t289))
1.92/2.10	(define @t741 () (_ tptp.setadjoin @t289))
1.92/2.10	(define @t742 () (_ @t741 tptp.emptyset))
1.92/2.10	(define @t743 () (_ (_ tptp.in @t742) @t618))
1.92/2.10	(define @t744 () (forall @t295 (=> @t743 @t740)))
1.92/2.10	(define @t745 () (= tptp.setukpairinjL1 @t744))
1.92/2.10	(define @t746 () (_ @t637 @t381))
1.92/2.10	(define @t747 () (lambda @t9 @t746))
1.92/2.10	(define @t748 () (_ tptp.setunion @t381))
1.92/2.10	(define @t749 () (_ tptp.dsetconstr @t748))
1.92/2.10	(define @t750 () (_ @t749 @t747))
1.92/2.10	(define @t751 () (=> @t689 (_ tptp.singleton @t750)))
1.92/2.10	(define @t752 () (@list @t381))
1.92/2.10	(define @t753 () (forall @t752 @t751))
1.92/2.10	(define @t754 () (= tptp.kfstsingleton @t753))
1.92/2.10	(define @t755 () (_ tptp.setunion @t692))
1.92/2.10	(define @t756 () (_ (_ tptp.in @t755) @t692))
1.92/2.10	(define @t757 () (=> (_ tptp.singleton @t692) @t756))
1.92/2.10	(define @t758 () (forall @t696 @t757))
1.92/2.10	(define @t759 () (= tptp.theprop @t758))
1.92/2.10	(define @t760 () (_ tptp.kfst @t630))
1.92/2.10	(define @t761 () (= @t760 @t4))
1.92/2.10	(define @t762 () (forall @t135 @t761))
1.92/2.10	(define @t763 () (= tptp.kfstpairEq @t762))
1.92/2.10	(define @t764 () (_ tptp.kfst @t381))
1.92/2.10	(define @t765 () (_ (_ tptp.in @t764) @t2))
1.92/2.10	(define @t766 () (forall @t686 (=> @t684 @t765)))
1.92/2.10	(define @t767 () (= tptp.cartprodfstin @t766))
1.92/2.10	(define @t768 () (_ (_ tptp.setadjoin @t381) tptp.emptyset))
1.92/2.10	(define @t769 () (_ @t741 @t768))
1.92/2.10	(define @t770 () (_ (_ tptp.setadjoin @t769) tptp.emptyset))
1.92/2.10	(define @t771 () (_ (_ tptp.setadjoin @t742) @t770))
1.92/2.10	(define @t772 () (= @t618 @t771))
1.92/2.10	(define @t773 () (@list @t4 @t19 @t289 @t381))
1.92/2.10	(define @t774 () (forall @t773 (=> @t772 @t740)))
1.92/2.10	(define @t775 () (= tptp.setukpairinjL2 @t774))
1.92/2.10	(define @t776 () (_ (_ tptp.kpair @t289) @t381))
1.92/2.10	(define @t777 () (= @t630 @t776))
1.92/2.10	(define @t778 () (forall @t773 (=> @t777 @t740)))
1.92/2.10	(define @t779 () (= tptp.setukpairinjL @t778))
1.92/2.10	(define @t780 () (=> @t129 (= @t291 @t279)))
1.92/2.10	(define @t781 () (forall @t135 @t780))
1.92/2.10	(define @t782 () (= tptp.setukpairinjR11 @t781))
1.92/2.10	(define @t783 () (_ @t617 tptp.emptyset))
1.92/2.10	(define @t784 () (= @t618 @t783))
1.92/2.10	(define @t785 () (forall @t135 (=> @t129 @t784)))
1.92/2.10	(define @t786 () (= tptp.setukpairinjR12 @t785))
1.92/2.10	(define @t787 () (= @t19 @t381))
1.92/2.10	(define @t788 () (=> @t385 @t787))
1.92/2.10	(define @t789 () (forall @t773 (=> @t772 @t788)))
1.92/2.10	(define @t790 () (= tptp.setukpairinjR1 @t789))
1.92/2.10	(define @t791 () (= @t291 @t742))
1.92/2.10	(define @t792 () (forall @t295 (=> @t791 @t129)))
1.92/2.10	(define @t793 () (= tptp.upairequniteq @t792))
1.92/2.10	(define @t794 () (forall @t773 (=> @t772 @t787)))
1.92/2.10	(define @t795 () (= tptp.setukpairinjR2 @t794))
1.92/2.10	(define @t796 () (forall @t773 (=> @t777 @t787)))
1.92/2.10	(define @t797 () (= tptp.setukpairinjR @t796))
1.92/2.10	(define @t798 () (_ tptp.kpair @t764))
1.92/2.10	(define @t799 () (_ @t798 @t4))
1.92/2.10	(define @t800 () (= @t381 @t799))
1.92/2.10	(define @t801 () (lambda @t9 @t800))
1.92/2.10	(define @t802 () (_ @t749 @t801))
1.92/2.10	(define @t803 () (=> @t689 (_ tptp.singleton @t802)))
1.92/2.10	(define @t804 () (forall @t752 @t803))
1.92/2.10	(define @t805 () (= tptp.ksndsingleton @t804))
1.92/2.10	(define @t806 () (_ tptp.ksnd @t630))
1.92/2.10	(define @t807 () (= @t806 @t19))
1.92/2.10	(define @t808 () (forall @t135 @t807))
1.92/2.10	(define @t809 () (= tptp.ksndpairEq @t808))
1.92/2.10	(define @t810 () (_ tptp.ksnd @t381))
1.92/2.10	(define @t811 () (_ @t798 @t810))
1.92/2.10	(define @t812 () (= @t811 @t381))
1.92/2.10	(define @t813 () (=> @t689 @t812))
1.92/2.10	(define @t814 () (forall @t752 @t813))
1.92/2.10	(define @t815 () (= tptp.kpairsurjEq @t814))
1.92/2.10	(define @t816 () (_ (_ tptp.in @t810) @t1))
1.92/2.10	(define @t817 () (forall @t686 (=> @t684 @t816)))
1.92/2.10	(define @t818 () (= tptp.cartprodsndin @t817))
1.92/2.10	(define @t819 () (@list @t2 @t1 @t4 @t19))
1.92/2.10	(define @t820 () (forall @t819 (=> @t673 @t7)))
1.92/2.10	(define @t821 () (= tptp.cartprodpairmemEL @t820))
1.92/2.10	(define @t822 () (forall @t819 (=> @t673 @t352)))
1.92/2.10	(define @t823 () (= tptp.cartprodpairmemER @t822))
1.92/2.10	(define @t824 () (=> @t352 (= @t630 @t630)))
1.92/2.10	(define @t825 () (forall @t70 @t824))
1.92/2.10	(define @t826 () (=> @t7 @t825))
1.92/2.10	(define @t827 () (forall @t245 @t826))
1.92/2.10	(define @t828 () (= tptp.cartprodmempaircEq @t827))
1.92/2.10	(define @t829 () (=> @t352 @t761))
1.92/2.10	(define @t830 () (forall @t70 @t829))
1.92/2.10	(define @t831 () (=> @t7 @t830))
1.92/2.10	(define @t832 () (forall @t245 @t831))
1.92/2.10	(define @t833 () (= tptp.cartprodfstpairEq @t832))
1.92/2.10	(define @t834 () (=> @t352 @t807))
1.92/2.10	(define @t835 () (forall @t70 @t834))
1.92/2.10	(define @t836 () (=> @t7 @t835))
1.92/2.10	(define @t837 () (forall @t245 @t836))
1.92/2.10	(define @t838 () (= tptp.cartprodsndpairEq @t837))
1.92/2.10	(define @t839 () (=> @t684 @t812))
1.92/2.10	(define @t840 () (forall @t686 @t839))
1.92/2.10	(define @t841 () (= tptp.cartprodpairsurjEq @t840))
1.92/2.10	(define @t842 () (_ (_ @t67 @t289) @t381))
1.92/2.10	(define @t843 () (lambda @t386 @t842))
1.92/2.10	(define @t844 () (_ (_ tptp.dpsetconstr @t2) @t1))
1.92/2.10	(define @t845 () (_ @t844 @t843))
1.92/2.10	(define @t846 () (_ @t666 @t845))
1.92/2.10	(define @t847 () (=> @t76 @t846))
1.92/2.10	(define @t848 () (forall @t70 (=> @t352 @t847)))
1.92/2.10	(define @t849 () (=> @t7 @t848))
1.92/2.10	(define @t850 () (@list @t2 @t1 @t67 @t4))
1.92/2.10	(define @t851 () (forall @t850 @t849))
1.92/2.10	(define @t852 () (= tptp.dpsetconstrI @t851))
1.92/2.10	(define @t853 () (lambda @t135 @t76))
1.92/2.10	(define @t854 () (_ @t844 @t853))
1.92/2.10	(define @t855 () (_ (_ tptp.subset @t854) @t672))
1.92/2.10	(define @t856 () (@list @t2 @t1 @t67))
1.92/2.10	(define @t857 () (forall @t856 @t855))
1.92/2.10	(define @t858 () (= tptp.dpsetconstrSub @t857))
1.92/2.10	(define @t859 () (_ (_ tptp.breln @t2) @t1))
1.92/2.10	(define @t860 () (forall @t856 (_ @t859 @t854)))
1.92/2.10	(define @t861 () (= tptp.setOfPairsIsBReln @t860))
1.92/2.10	(define @t862 () (=> @t846 @t76))
1.92/2.10	(define @t863 () (forall @t70 (=> @t352 @t862)))
1.92/2.10	(define @t864 () (=> @t7 @t863))
1.92/2.10	(define @t865 () (forall @t850 @t864))
1.92/2.10	(define @t866 () (= tptp.dpsetconstrERa @t865))
1.92/2.10	(define @t867 () (@list @t2 @t1 @t67 @t4 @t19))
1.92/2.10	(define @t868 () (forall @t867 (=> @t846 @t7)))
1.92/2.10	(define @t869 () (= tptp.dpsetconstrEL1 @t868))
1.92/2.10	(define @t870 () (forall @t867 (=> @t846 @t352)))
1.92/2.10	(define @t871 () (= tptp.dpsetconstrEL2 @t870))
1.92/2.10	(define @t872 () (forall @t867 @t862))
1.92/2.10	(define @t873 () (= tptp.dpsetconstrER @t872))
1.92/2.10	(define @t874 () (@var "Xf" $$unsorted))
1.92/2.10	(define @t875 () (_ @t666 @t874))
1.92/2.10	(define @t876 () (lambda @t70 @t875))
1.92/2.10	(define @t877 () (_ @t408 @t876))
1.92/2.10	(define @t878 () (=> @t7 (_ tptp.singleton @t877)))
1.92/2.10	(define @t879 () (forall @t9 @t878))
1.92/2.10	(define @t880 () (_ (_ tptp.func @t2) @t1))
1.92/2.10	(define @t881 () (_ @t880 @t874))
1.92/2.10	(define @t882 () (=> @t881 @t879))
1.92/2.10	(define @t883 () (@list @t2 @t1 @t874))
1.92/2.10	(define @t884 () (forall @t883 @t882))
1.92/2.10	(define @t885 () (= tptp.funcImageSingleton @t884))
1.92/2.10	(define @t886 () (_ tptp.setunion @t877))
1.92/2.10	(define @t887 () (_ (_ tptp.in @t886) @t1))
1.92/2.10	(define @t888 () (forall @t9 (=> @t7 @t887)))
1.92/2.10	(define @t889 () (=> @t881 @t888))
1.92/2.10	(define @t890 () (forall @t883 @t889))
1.92/2.10	(define @t891 () (= tptp.apProp @t890))
1.92/2.10	(define @t892 () (_ (_ tptp.ap @t2) @t1))
1.92/2.10	(define @t893 () (_ (_ @t892 @t874) @t4))
1.92/2.10	(define @t894 () (_ (_ tptp.in @t893) @t1))
1.92/2.10	(define @t895 () (forall @t9 (=> @t7 @t894)))
1.92/2.10	(define @t896 () (=> @t881 @t895))
1.92/2.10	(define @t897 () (forall @t883 @t896))
1.92/2.10	(define @t898 () (= tptp.app @t897))
1.92/2.10	(define @t899 () (_ (_ tptp.funcSet @t2) @t1))
1.92/2.10	(define @t900 () (_ tptp.in @t874))
1.92/2.10	(define @t901 () (_ @t900 @t899))
1.92/2.10	(define @t902 () (=> @t901 @t881))
1.92/2.10	(define @t903 () (forall @t883 @t902))
1.92/2.10	(define @t904 () (= tptp.infuncsetfunc @t903))
1.92/2.10	(define @t905 () (=> @t901 @t895))
1.92/2.10	(define @t906 () (forall @t883 @t905))
1.92/2.10	(define @t907 () (= tptp.ap2p @t906))
1.92/2.10	(define @t908 () (=> @t881 @t901))
1.92/2.10	(define @t909 () (forall @t883 @t908))
1.92/2.10	(define @t910 () (= tptp.funcinfuncset @t909))
1.92/2.10	(define @t911 () (@var "Xf" (-> $$unsorted $$unsorted)))
1.92/2.10	(define @t912 () (_ @t911 @t4))
1.92/2.10	(define @t913 () (lambda @t135 (= @t912 @t19)))
1.92/2.10	(define @t914 () (_ @t844 @t913))
1.92/2.10	(define @t915 () (_ (_ tptp.in @t912) @t1))
1.92/2.10	(define @t916 () (forall @t9 (=> @t7 @t915)))
1.92/2.10	(define @t917 () (=> @t916 (_ @t880 @t914)))
1.92/2.10	(define @t918 () (@list @t2 @t1 @t911))
1.92/2.10	(define @t919 () (forall @t918 @t917))
1.92/2.10	(define @t920 () (= tptp.lamProp @t919))
1.92/2.10	(define @t921 () (lambda @t9 @t912))
1.92/2.10	(define @t922 () (_ (_ (_ tptp.lam @t2) @t1) @t921))
1.92/2.10	(define @t923 () (=> @t916 (_ @t880 @t922)))
1.92/2.10	(define @t924 () (forall @t918 @t923))
1.92/2.10	(define @t925 () (= tptp.lamp @t924))
1.92/2.10	(define @t926 () (=> @t916 (_ (_ tptp.in @t922) @t899)))
1.92/2.10	(define @t927 () (forall @t918 @t926))
1.92/2.10	(define @t928 () (= tptp.lam2p @t927))
1.92/2.10	(define @t929 () (@var "R" $$unsorted))
1.92/2.10	(define @t930 () (_ @t5 @t929))
1.92/2.10	(define @t931 () (forall @t9 (=> @t930 @t144)))
1.92/2.10	(define @t932 () (_ @t143 @t630))
1.92/2.10	(define @t933 () (_ @t666 @t929))
1.92/2.10	(define @t934 () (=> @t933 @t932))
1.92/2.10	(define @t935 () (forall @t70 (=> @t352 @t934)))
1.92/2.10	(define @t936 () (=> @t7 @t935))
1.92/2.10	(define @t937 () (forall @t9 @t936))
1.92/2.10	(define @t938 () (=> @t937 @t931))
1.92/2.10	(define @t939 () (forall @t150 @t938))
1.92/2.10	(define @t940 () (_ @t859 @t929))
1.92/2.10	(define @t941 () (=> @t940 @t939))
1.92/2.10	(define @t942 () (@list @t2 @t1 @t929))
1.92/2.10	(define @t943 () (forall @t942 @t941))
1.92/2.10	(define @t944 () (= tptp.brelnall1 @t943))
1.92/2.10	(define @t945 () (= tptp.brelnall2 @t943))
1.92/2.10	(define @t946 () (=> @t721 @t716))
1.92/2.10	(define @t947 () (forall @t309 @t946))
1.92/2.10	(define @t948 () (= tptp.ex1E2 @t947))
1.92/2.10	(define @t949 () (_ @t629 @t893))
1.92/2.10	(define @t950 () (_ (_ tptp.in @t949) @t874))
1.92/2.10	(define @t951 () (forall @t9 (=> @t7 @t950)))
1.92/2.10	(define @t952 () (=> @t881 @t951))
1.92/2.10	(define @t953 () (forall @t883 @t952))
1.92/2.10	(define @t954 () (= tptp.funcGraphProp1 @t953))
1.92/2.10	(define @t955 () (=> @t901 @t951))
1.92/2.10	(define @t956 () (forall @t883 @t955))
1.92/2.10	(define @t957 () (= tptp.funcGraphProp3 @t956))
1.92/2.10	(define @t958 () (=> @t875 (= @t893 @t19)))
1.92/2.10	(define @t959 () (=> @t352 @t958))
1.92/2.10	(define @t960 () (forall @t70 @t959))
1.92/2.10	(define @t961 () (=> @t7 @t960))
1.92/2.10	(define @t962 () (forall @t9 @t961))
1.92/2.10	(define @t963 () (=> @t881 @t962))
1.92/2.10	(define @t964 () (forall @t883 @t963))
1.92/2.10	(define @t965 () (= tptp.funcGraphProp2 @t964))
1.92/2.10	(define @t966 () (@var "Xg" $$unsorted))
1.92/2.10	(define @t967 () (_ @t666 @t966))
1.92/2.10	(define @t968 () (=> @t967 @t875))
1.92/2.10	(define @t969 () (forall @t70 (=> @t352 @t968)))
1.92/2.10	(define @t970 () (=> @t7 @t969))
1.92/2.10	(define @t971 () (forall @t9 @t970))
1.92/2.10	(define @t972 () (_ (_ @t892 @t966) @t4))
1.92/2.10	(define @t973 () (= @t893 @t972))
1.92/2.10	(define @t974 () (forall @t9 (=> @t7 @t973)))
1.92/2.10	(define @t975 () (=> @t974 @t971))
1.92/2.10	(define @t976 () (=> (_ @t880 @t966) @t975))
1.92/2.10	(define @t977 () (@list @t966))
1.92/2.10	(define @t978 () (forall @t977 @t976))
1.92/2.10	(define @t979 () (=> @t881 @t978))
1.92/2.10	(define @t980 () (forall @t883 @t979))
1.92/2.10	(define @t981 () (= tptp.funcextLem @t980))
1.92/2.10	(define @t982 () (=> @t901 @t962))
1.92/2.10	(define @t983 () (forall @t883 @t982))
1.92/2.10	(define @t984 () (= tptp.funcGraphProp4 @t983))
1.92/2.10	(define @t985 () (@var "S" $$unsorted))
1.92/2.10	(define @t986 () (_ tptp.subset @t929))
1.92/2.10	(define @t987 () (_ @t986 @t985))
1.92/2.10	(define @t988 () (_ @t666 @t985))
1.92/2.10	(define @t989 () (=> @t933 @t988))
1.92/2.10	(define @t990 () (forall @t70 (=> @t352 @t989)))
1.92/2.10	(define @t991 () (=> @t7 @t990))
1.92/2.10	(define @t992 () (forall @t9 @t991))
1.92/2.10	(define @t993 () (=> @t992 @t987))
1.92/2.10	(define @t994 () (_ @t859 @t985))
1.92/2.10	(define @t995 () (=> @t994 @t993))
1.92/2.10	(define @t996 () (@list @t985))
1.92/2.10	(define @t997 () (forall @t996 @t995))
1.92/2.10	(define @t998 () (=> @t940 @t997))
1.92/2.10	(define @t999 () (forall @t942 @t998))
1.92/2.10	(define @t1000 () (= tptp.subbreln @t999))
1.92/2.10	(define @t1001 () (= @t929 @t985))
1.92/2.10	(define @t1002 () (=> @t988 @t933))
1.92/2.10	(define @t1003 () (forall @t70 (=> @t352 @t1002)))
1.92/2.10	(define @t1004 () (=> @t7 @t1003))
1.92/2.10	(define @t1005 () (forall @t9 @t1004))
1.92/2.10	(define @t1006 () (=> @t1005 @t1001))
1.92/2.10	(define @t1007 () (=> @t992 @t1006))
1.92/2.10	(define @t1008 () (=> @t994 @t1007))
1.92/2.10	(define @t1009 () (forall @t996 @t1008))
1.92/2.10	(define @t1010 () (=> @t940 @t1009))
1.92/2.10	(define @t1011 () (forall @t942 @t1010))
1.92/2.10	(define @t1012 () (=> tptp.subbreln @t1011))
1.92/2.10	(define @t1013 () (=> tptp.funcGraphProp4 @t1012))
1.92/2.10	(define @t1014 () (=> tptp.funcextLem @t1013))
1.92/2.10	(define @t1015 () (=> tptp.funcGraphProp2 @t1014))
1.92/2.10	(define @t1016 () (=> tptp.funcGraphProp3 @t1015))
1.92/2.10	(define @t1017 () (=> tptp.funcGraphProp1 @t1016))
1.92/2.10	(define @t1018 () (=> tptp.ex1E2 @t1017))
1.92/2.10	(define @t1019 () (=> tptp.brelnall2 @t1018))
1.92/2.10	(define @t1020 () (=> tptp.brelnall1 @t1019))
1.92/2.10	(define @t1021 () (=> tptp.lam2p @t1020))
1.92/2.10	(define @t1022 () (=> tptp.lamp @t1021))
1.92/2.10	(define @t1023 () (=> tptp.lamProp @t1022))
1.92/2.10	(define @t1024 () (=> tptp.funcinfuncset @t1023))
1.92/2.10	(define @t1025 () (=> tptp.ap2p @t1024))
1.92/2.10	(define @t1026 () (=> tptp.infuncsetfunc @t1025))
1.92/2.10	(define @t1027 () (=> tptp.app @t1026))
1.92/2.10	(define @t1028 () (=> tptp.apProp @t1027))
1.92/2.10	(define @t1029 () (=> tptp.funcImageSingleton @t1028))
1.92/2.10	(define @t1030 () (=> tptp.dpsetconstrER @t1029))
1.92/2.10	(define @t1031 () (=> tptp.dpsetconstrEL2 @t1030))
1.92/2.10	(define @t1032 () (=> tptp.dpsetconstrEL1 @t1031))
1.92/2.10	(define @t1033 () (=> tptp.dpsetconstrERa @t1032))
1.92/2.10	(define @t1034 () (=> tptp.setOfPairsIsBReln @t1033))
1.92/2.10	(define @t1035 () (=> tptp.dpsetconstrSub @t1034))
1.92/2.10	(define @t1036 () (=> tptp.dpsetconstrI @t1035))
1.92/2.10	(define @t1037 () (=> tptp.cartprodpairsurjEq @t1036))
1.92/2.10	(define @t1038 () (=> tptp.cartprodsndpairEq @t1037))
1.92/2.10	(define @t1039 () (=> tptp.cartprodfstpairEq @t1038))
1.92/2.10	(define @t1040 () (=> tptp.cartprodmempaircEq @t1039))
1.92/2.10	(define @t1041 () (=> tptp.cartprodpairmemER @t1040))
1.92/2.10	(define @t1042 () (=> tptp.cartprodpairmemEL @t1041))
1.92/2.10	(define @t1043 () (=> tptp.cartprodsndin @t1042))
1.92/2.10	(define @t1044 () (=> tptp.kpairsurjEq @t1043))
1.92/2.10	(define @t1045 () (=> tptp.ksndpairEq @t1044))
1.92/2.10	(define @t1046 () (=> tptp.ksndsingleton @t1045))
1.92/2.10	(define @t1047 () (=> tptp.setukpairinjR @t1046))
1.92/2.10	(define @t1048 () (=> tptp.setukpairinjR2 @t1047))
1.92/2.10	(define @t1049 () (=> tptp.upairequniteq @t1048))
1.92/2.10	(define @t1050 () (=> tptp.setukpairinjR1 @t1049))
1.92/2.10	(define @t1051 () (=> tptp.setukpairinjR12 @t1050))
1.92/2.10	(define @t1052 () (=> tptp.setukpairinjR11 @t1051))
1.92/2.10	(define @t1053 () (=> tptp.setukpairinjL @t1052))
1.92/2.10	(define @t1054 () (=> tptp.setukpairinjL2 @t1053))
1.92/2.10	(define @t1055 () (=> tptp.cartprodfstin @t1054))
1.92/2.10	(define @t1056 () (=> tptp.kfstpairEq @t1055))
1.92/2.10	(define @t1057 () (=> tptp.theprop @t1056))
1.92/2.10	(define @t1058 () (=> tptp.kfstsingleton @t1057))
1.92/2.10	(define @t1059 () (=> tptp.setukpairinjL1 @t1058))
1.92/2.10	(define @t1060 () (=> tptp.singletonsuniq @t1059))
1.92/2.10	(define @t1061 () (=> tptp.ex1I2 @t1060))
1.92/2.10	(define @t1062 () (=> tptp.ex1I @t1061))
1.92/2.10	(define @t1063 () (=> tptp.ex1E1 @t1062))
1.92/2.10	(define @t1064 () (=> tptp.singletonprop @t1063))
1.92/2.10	(define @t1065 () (=> tptp.setunionsingleton @t1064))
1.92/2.10	(define @t1066 () (=> tptp.setunionsingleton2 @t1065))
1.92/2.10	(define @t1067 () (=> tptp.setunionsingleton1 @t1066))
1.92/2.10	(define @t1068 () (=> tptp.setunionE2 @t1067))
1.92/2.10	(define @t1069 () (=> tptp.cartprodmempair @t1068))
1.92/2.10	(define @t1070 () (=> tptp.cartprodmempair1 @t1069))
1.92/2.10	(define @t1071 () (=> tptp.cartprodpairin @t1070))
1.92/2.10	(define @t1072 () (=> tptp.ubforcartprodlem3 @t1071))
1.92/2.10	(define @t1073 () (=> tptp.ubforcartprodlem2 @t1072))
1.92/2.10	(define @t1074 () (=> tptp.ubforcartprodlem1 @t1073))
1.92/2.10	(define @t1075 () (=> tptp.upairinpowunion @t1074))
1.92/2.10	(define @t1076 () (=> tptp.upairsubunion @t1075))
1.92/2.10	(define @t1077 () (=> tptp.upairset2E @t1076))
1.92/2.10	(define @t1078 () (=> tptp.singletoninpowunion @t1077))
1.92/2.10	(define @t1079 () (=> tptp.singletoninpowerset @t1078))
1.92/2.10	(define @t1080 () (=> tptp.singletonsubset @t1079))
1.92/2.10	(define @t1081 () (=> tptp.kpairp @t1080))
1.92/2.10	(define @t1082 () (=> tptp.kpairiskpair @t1081))
1.92/2.10	(define @t1083 () (=> tptp.setukpairIR @t1082))
1.92/2.10	(define @t1084 () (=> tptp.setukpairIL @t1083))
1.92/2.10	(define @t1085 () (=> tptp.secondinupair @t1084))
1.92/2.10	(define @t1086 () (=> tptp.symdiffIneg2 @t1085))
1.92/2.10	(define @t1087 () (=> tptp.symdiffIneg1 @t1086))
1.92/2.10	(define @t1088 () (=> tptp.symdiffI2 @t1087))
1.92/2.10	(define @t1089 () (=> tptp.symdiffI1 @t1088))
1.92/2.10	(define @t1090 () (=> tptp.symdiffE @t1089))
1.92/2.10	(define @t1091 () (=> tptp.setminusSubset1 @t1090))
1.92/2.10	(define @t1092 () (=> tptp.setminusLsub @t1091))
1.92/2.10	(define @t1093 () (=> tptp.setminusIRneg @t1092))
1.92/2.10	(define @t1094 () (=> tptp.setminusILneg @t1093))
1.92/2.10	(define @t1095 () (=> tptp.setminusELneg @t1094))
1.92/2.10	(define @t1096 () (=> tptp.setminusERneg @t1095))
1.92/2.10	(define @t1097 () (=> tptp.setminusSubset2 @t1096))
1.92/2.10	(define @t1098 () (=> tptp.setminusER @t1097))
1.92/2.10	(define @t1099 () (=> tptp.setminusEL @t1098))
1.92/2.10	(define @t1100 () (=> tptp.setminusI @t1099))
1.92/2.10	(define @t1101 () (=> tptp.bs114d @t1100))
1.92/2.10	(define @t1102 () (=> tptp.binintersectSubset1 @t1101))
1.92/2.10	(define @t1103 () (=> tptp.binintersectSubset4 @t1102))
1.92/2.10	(define @t1104 () (=> tptp.binintersectRsub @t1103))
1.92/2.10	(define @t1105 () (=> tptp.disjointsetsI1 @t1104))
1.92/2.10	(define @t1106 () (=> tptp.binintersectER @t1105))
1.92/2.10	(define @t1107 () (=> tptp.binintersectSubset3 @t1106))
1.92/2.10	(define @t1108 () (=> tptp.binintersectSubset2 @t1107))
1.92/2.10	(define @t1109 () (=> tptp.binintersectLsub @t1108))
1.92/2.10	(define @t1110 () (=> tptp.binintersectEL @t1109))
1.92/2.10	(define @t1111 () (=> tptp.binintersectSubset5 @t1110))
1.92/2.10	(define @t1112 () (=> tptp.binintersectI @t1111))
1.92/2.10	(define @t1113 () (=> tptp.binunionRsub @t1112))
1.92/2.10	(define @t1114 () (=> tptp.binunionLsub @t1113))
1.92/2.10	(define @t1115 () (=> tptp.binunionE @t1114))
1.92/2.10	(define @t1116 () (=> tptp.binunionEcases @t1115))
1.92/2.10	(define @t1117 () (=> tptp.binunionIR @t1116))
1.92/2.10	(define @t1118 () (=> tptp.upairset2IR @t1117))
1.92/2.10	(define @t1119 () (=> tptp.binunionIL @t1118))
1.92/2.10	(define @t1120 () (=> tptp.sepSubset @t1119))
1.92/2.10	(define @t1121 () (=> tptp.sepInPowerset @t1120))
1.92/2.10	(define @t1122 () (=> tptp.powersetsubset @t1121))
1.92/2.10	(define @t1123 () (=> tptp.inPowerset @t1122))
1.92/2.10	(define @t1124 () (=> tptp.powersetE1 @t1123))
1.92/2.10	(define @t1125 () (=> tptp.powersetI1 @t1124))
1.92/2.10	(define @t1126 () (=> tptp.subsetemptysetimpeq @t1125))
1.92/2.10	(define @t1127 () (=> tptp.setextsub @t1126))
1.92/2.10	(define @t1128 () (=> tptp.subset2powerset @t1127))
1.92/2.10	(define @t1129 () (=> tptp.setadjoinSub2 @t1128))
1.92/2.10	(define @t1130 () (=> tptp.setadjoinSub @t1129))
1.92/2.10	(define @t1131 () (=> tptp.subsetTrans @t1130))
1.92/2.10	(define @t1132 () (=> tptp.subsetRefl @t1131))
1.92/2.10	(define @t1133 () (=> tptp.notequalI2 @t1132))
1.92/2.10	(define @t1134 () (=> tptp.notequalI1 @t1133))
1.92/2.10	(define @t1135 () (=> tptp.notsubsetI @t1134))
1.92/2.10	(define @t1136 () (=> tptp.subsetE2 @t1135))
1.92/2.10	(define @t1137 () (=> tptp.subsetE @t1136))
1.92/2.10	(define @t1138 () (=> tptp.emptysetsubset @t1137))
1.92/2.10	(define @t1139 () (=> tptp.subsetI2 @t1138))
1.92/2.10	(define @t1140 () (=> tptp.eqimpsubset1 @t1139))
1.92/2.10	(define @t1141 () (=> tptp.eqimpsubset2 @t1140))
1.92/2.10	(define @t1142 () (=> tptp.subsetI1 @t1141))
1.92/2.10	(define @t1143 () (=> tptp.dsetconstr__Cong @t1142))
1.92/2.10	(define @t1144 () (=> tptp.descr__Cong @t1143))
1.92/2.10	(define @t1145 () (=> tptp.exuEu @t1144))
1.92/2.10	(define @t1146 () (=> tptp.omega__Cong @t1145))
1.92/2.10	(define @t1147 () (=> tptp.setunion__Cong @t1146))
1.92/2.10	(define @t1148 () (=> tptp.powerset__Cong @t1147))
1.92/2.10	(define @t1149 () (=> tptp.setadjoin__Cong @t1148))
1.92/2.10	(define @t1150 () (=> tptp.emptyset__Cong @t1149))
1.92/2.10	(define @t1151 () (=> tptp.exu__Cong @t1150))
1.92/2.10	(define @t1152 () (=> tptp.exuE3u @t1151))
1.92/2.10	(define @t1153 () (=> tptp.in__Cong @t1152))
1.92/2.10	(define @t1154 () (=> tptp.inCongP @t1153))
1.92/2.10	(define @t1155 () (=> tptp.exuI2 @t1154))
1.92/2.10	(define @t1156 () (=> tptp.exuI3 @t1155))
1.92/2.10	(define @t1157 () (=> tptp.exuI1 @t1156))
1.92/2.10	(define @t1158 () (=> tptp.notdallE @t1157))
1.92/2.10	(define @t1159 () (=> tptp.notdexE @t1158))
1.92/2.10	(define @t1160 () (=> tptp.prop2set2propI @t1159))
1.92/2.10	(define @t1161 () (=> tptp.prop2setI @t1160))
1.92/2.10	(define @t1162 () (=> tptp.quantDeMorgan4 @t1161))
1.92/2.10	(define @t1163 () (=> tptp.quantDeMorgan3 @t1162))
1.92/2.10	(define @t1164 () (=> tptp.quantDeMorgan2 @t1163))
1.92/2.10	(define @t1165 () (=> tptp.quantDeMorgan1 @t1164))
1.92/2.10	(define @t1166 () (=> tptp.vacuousDall @t1165))
1.92/2.10	(define @t1167 () (=> tptp.emptyE1 @t1166))
1.92/2.10	(define @t1168 () (=> tptp.upairsetIR @t1167))
1.92/2.10	(define @t1169 () (=> tptp.upairsetIL @t1168))
1.92/2.10	(define @t1170 () (=> tptp.upairsetE @t1169))
1.92/2.10	(define @t1171 () (=> tptp.singletonsswitch @t1170))
1.92/2.10	(define @t1172 () (=> tptp.eqinunit @t1171))
1.92/2.10	(define @t1173 () (=> tptp.notinsingleton @t1172))
1.92/2.10	(define @t1174 () (=> tptp.uniqinunit @t1173))
1.92/2.10	(define @t1175 () (=> tptp.nonemptyImpWitness @t1174))
1.92/2.10	(define @t1176 () (=> tptp.exuE2 @t1175))
1.92/2.10	(define @t1177 () (=> tptp.subPowSU @t1176))
1.92/2.10	(define @t1178 () (=> tptp.setunionE @t1177))
1.92/2.10	(define @t1179 () (=> tptp.setunionI @t1178))
1.92/2.10	(define @t1180 () (=> tptp.powersetE @t1179))
1.92/2.10	(define @t1181 () (=> tptp.emptyInPowerset @t1180))
1.92/2.10	(define @t1182 () (=> tptp.emptyinPowerset @t1181))
1.92/2.10	(define @t1183 () (=> tptp.powersetI @t1182))
1.92/2.10	(define @t1184 () (=> tptp.setoftrueEq @t1183))
1.92/2.10	(define @t1185 () (=> tptp.setadjoinOr @t1184))
1.92/2.10	(define @t1186 () (=> tptp.setadjoinE @t1185))
1.92/2.10	(define @t1187 () (=> tptp.setadjoinIR @t1186))
1.92/2.10	(define @t1188 () (=> tptp.emptyinunitempty @t1187))
1.92/2.10	(define @t1189 () (=> tptp.setadjoinIL @t1188))
1.92/2.10	(define @t1190 () (=> tptp.nonemptyI1 @t1189))
1.92/2.10	(define @t1191 () (=> tptp.nonemptyI @t1190))
1.92/2.10	(define @t1192 () (=> tptp.nonemptyE1 @t1191))
1.92/2.10	(define @t1193 () (=> tptp.setbeta @t1192))
1.92/2.10	(define @t1194 () (=> tptp.noeltsimpempty @t1193))
1.92/2.10	(define @t1195 () (=> tptp.emptyI @t1194))
1.92/2.10	(define @t1196 () (=> tptp.setext @t1195))
1.92/2.10	(define @t1197 () (=> tptp.exuE3e @t1196))
1.92/2.10	(define @t1198 () (=> tptp.notinemptyset @t1197))
1.92/2.10	(define @t1199 () (=> tptp.emptysetimpfalse @t1198))
1.92/2.10	(define @t1200 () (=> tptp.emptysetE @t1199))
1.92/2.10	(define @t1201 () (=> tptp.prop2setE @t1200))
1.92/2.10	(define @t1202 () (=> tptp.exuE1 @t1201))
1.92/2.10	(define @t1203 () (=> tptp.dsetconstrER @t1202))
1.92/2.10	(define @t1204 () (=> tptp.dsetconstrEL @t1203))
1.92/2.10	(define @t1205 () (=> tptp.dsetconstrI @t1204))
1.92/2.10	(define @t1206 () (=> tptp.descrp @t1205))
1.92/2.10	(define @t1207 () (=> tptp.wellorderingAx @t1206))
1.92/2.10	(define @t1208 () (=> tptp.foundationAx @t1207))
1.92/2.10	(define @t1209 () (=> tptp.replAx @t1208))
1.92/2.10	(define @t1210 () (=> tptp.omegaIndAx @t1209))
1.92/2.10	(define @t1211 () (=> tptp.omegaSAx @t1210))
1.92/2.10	(define @t1212 () (=> tptp.omega0Ax @t1211))
1.92/2.10	(define @t1213 () (=> tptp.setunionAx @t1212))
1.92/2.10	(define @t1214 () (=> tptp.powersetAx @t1213))
1.92/2.10	(define @t1215 () (=> tptp.setadjoinAx @t1214))
1.92/2.10	(define @t1216 () (=> tptp.emptysetAx @t1215))
1.92/2.10	(define @t1217 () (=> tptp.setextAx @t1216))
1.92/2.10	(define @t1218 () (not @t1217))
1.92/2.10	(define @t1219 () (lambda @t150 @t169))
1.92/2.10	(define @t1220 () (lambda @t9 (not (= @t4 tptp.emptyset))))
1.92/2.10	(define @t1221 () (= @t2 @t279))
1.92/2.10	(define @t1222 () (and @t7 @t1221))
1.92/2.10	(define @t1223 () (exists @t9 @t1222))
1.92/2.10	(define @t1224 () (lambda @t64 @t1223))
1.92/2.10	(define @t1225 () (lambda @t309 @t712))
1.92/2.10	(define @t1226 () (_ @t520 @t672))
1.92/2.10	(define @t1227 () (lambda @t455 @t1226))
1.92/2.10	(define @t1228 () (lambda @t70 @t933))
1.92/2.10	(define @t1229 () (=> @t7 (_ (_ tptp.ex1 @t1) @t1228)))
1.92/2.10	(define @t1230 () (forall @t9 @t1229))
1.92/2.10	(define @t1231 () (and @t940 @t1230))
1.92/2.10	(define @t1232 () (lambda @t942 @t1231))
1.92/2.10	(define @t1233 () (lambda @t918 @t914))
1.92/2.10	(define @t1234 () (@var "BOUND_VARIABLE_13201" $$unsorted))
1.92/2.10	(define @t1235 () (= @t929 @t1234))
1.92/2.10	(define @t1236 () (@var "BOUND_VARIABLE_13170" $$unsorted))
1.92/2.10	(define @t1237 () (tptp.kpair @t4 @t1236))
1.92/2.10	(define @t1238 () (tptp.in @t1237 @t929))
1.92/2.10	(define @t1239 () (not (tptp.in @t1236 @t1)))
1.92/2.10	(define @t1240 () (tptp.in @t4 @t2))
1.92/2.10	(define @t1241 () (not @t1240))
1.92/2.10	(define @t1242 () (@list @t4 @t1236))
1.92/2.10	(define @t1243 () (not (forall @t1242 (or @t1241 @t1239 (not (tptp.in @t1237 @t1234)) @t1238))))
1.92/2.10	(define @t1244 () (@var "BOUND_VARIABLE_12895" $$unsorted))
1.92/2.10	(define @t1245 () (tptp.kpair @t4 @t1244))
1.92/2.10	(define @t1246 () (not (tptp.in @t1245 @t929)))
1.92/2.10	(define @t1247 () (not (tptp.in @t1244 @t1)))
1.92/2.10	(define @t1248 () (@list @t4 @t1244))
1.92/2.10	(define @t1249 () (not (forall @t1248 (or @t1241 @t1247 @t1246 (tptp.in @t1245 @t1234)))))
1.92/2.10	(define @t1250 () (tptp.cartprod @t2 @t1))
1.92/2.10	(define @t1251 () (not (tptp.subset @t1234 @t1250)))
1.92/2.10	(define @t1252 () (tptp.subset @t929 @t1250))
1.92/2.10	(define @t1253 () (not @t1252))
1.92/2.10	(define @t1254 () (or @t1253 @t1251 @t1249 @t1243 @t1235))
1.92/2.10	(define @t1255 () (@list @t2 @t1 @t929 @t1234))
1.92/2.10	(define @t1256 () (forall @t1255 @t1254))
1.92/2.10	(define @t1257 () (@var "BOUND_VARIABLE_12929" $$unsorted))
1.92/2.10	(define @t1258 () (tptp.subset @t929 @t1257))
1.92/2.10	(define @t1259 () (not (forall @t1248 (or @t1241 @t1247 @t1246 (tptp.in @t1245 @t1257)))))
1.92/2.10	(define @t1260 () (not (tptp.subset @t1257 @t1250)))
1.92/2.10	(define @t1261 () (or @t1253 @t1260 @t1259 @t1258))
1.92/2.10	(define @t1262 () (@list @t2 @t1 @t929 @t1257))
1.92/2.10	(define @t1263 () (@var "BOUND_VARIABLE_12850" $$unsorted))
1.92/2.10	(define @t1264 () (tptp.ap @t2 @t1 @t874 @t1263))
1.92/2.10	(define @t1265 () (@var "BOUND_VARIABLE_12852" $$unsorted))
1.92/2.10	(define @t1266 () (not (tptp.in (tptp.kpair @t1263 @t1265) @t874)))
1.92/2.10	(define @t1267 () (not (tptp.in @t1265 @t1)))
1.92/2.10	(define @t1268 () (not (tptp.in @t1263 @t2)))
1.92/2.10	(define @t1269 () (tptp.funcSet @t2 @t1))
1.92/2.10	(define @t1270 () (tptp.in @t874 @t1269))
1.92/2.10	(define @t1271 () (not @t1270))
1.92/2.10	(define @t1272 () (@list @t2 @t1 @t874 @t1263 @t1265))
1.92/2.10	(define @t1273 () (@var "BOUND_VARIABLE_12806" $$unsorted))
1.92/2.10	(define @t1274 () (@var "BOUND_VARIABLE_12804" $$unsorted))
1.92/2.10	(define @t1275 () (tptp.kpair @t1274 @t1273))
1.92/2.10	(define @t1276 () (tptp.in @t1275 @t874))
1.92/2.10	(define @t1277 () (@var "BOUND_VARIABLE_12802" $$unsorted))
1.92/2.10	(define @t1278 () (not (tptp.in @t1275 @t1277)))
1.92/2.10	(define @t1279 () (not (tptp.in @t1273 @t1)))
1.92/2.10	(define @t1280 () (not (tptp.in @t1274 @t2)))
1.92/2.10	(define @t1281 () (tptp.ap @t2 @t1 @t874 @t4))
1.92/2.10	(define @t1282 () (not (forall @t9 (or @t1241 (= @t1281 (tptp.ap @t2 @t1 @t1277 @t4))))))
1.92/2.10	(define @t1283 () (tptp.kpair @t4 @t19))
1.92/2.10	(define @t1284 () (tptp.dsetconstr @t1 (lambda @t70 (tptp.in @t1283 @t1277))))
1.92/2.10	(define @t1285 () (@var "BOUND_VARIABLE_8681" $$unsorted))
1.92/2.10	(define @t1286 () (tptp.setadjoin @t1285 tptp.emptyset))
1.92/2.10	(define @t1287 () (@list @t1285))
1.92/2.10	(define @t1288 () (not (forall @t9 (or @t1241 (not (forall @t1287 (or (not (tptp.in @t1285 @t1284)) (not (= @t1286 @t1284)))))))))
1.92/2.10	(define @t1289 () (not (tptp.subset @t1277 @t1250)))
1.92/2.10	(define @t1290 () (tptp.in @t1283 @t874))
1.92/2.10	(define @t1291 () (lambda @t70 @t1290))
1.92/2.10	(define @t1292 () (tptp.dsetconstr @t1 @t1291))
1.92/2.10	(define @t1293 () (forall @t9 (or @t1241 (not (forall @t1287 (or (not (tptp.in @t1285 @t1292)) (not (= @t1286 @t1292))))))))
1.92/2.10	(define @t1294 () (not @t1293))
1.92/2.10	(define @t1295 () (tptp.subset @t874 @t1250))
1.92/2.10	(define @t1296 () (not @t1295))
1.92/2.10	(define @t1297 () (or @t1296 @t1294 @t1289 @t1288 @t1282 @t1280 @t1279 @t1278 @t1276))
1.92/2.10	(define @t1298 () (@list @t2 @t1 @t874 @t1277 @t1274 @t1273))
1.92/2.10	(define @t1299 () (@var "BOUND_VARIABLE_12683" $$unsorted))
1.92/2.10	(define @t1300 () (tptp.ap @t2 @t1 @t874 @t1299))
1.92/2.10	(define @t1301 () (@var "BOUND_VARIABLE_12685" $$unsorted))
1.92/2.10	(define @t1302 () (not (tptp.in (tptp.kpair @t1299 @t1301) @t874)))
1.92/2.10	(define @t1303 () (not (tptp.in @t1301 @t1)))
1.92/2.10	(define @t1304 () (not (tptp.in @t1299 @t2)))
1.92/2.10	(define @t1305 () (@list @t2 @t1 @t874 @t1299 @t1301))
1.92/2.10	(define @t1306 () (@var "BOUND_VARIABLE_12625" $$unsorted))
1.92/2.10	(define @t1307 () (tptp.in (tptp.kpair @t1306 (tptp.ap @t2 @t1 @t874 @t1306)) @t874))
1.92/2.10	(define @t1308 () (not (tptp.in @t1306 @t2)))
1.92/2.10	(define @t1309 () (or @t1271 @t1308 @t1307))
1.92/2.10	(define @t1310 () (@list @t2 @t1 @t874 @t1306))
1.92/2.10	(define @t1311 () (@var "BOUND_VARIABLE_12604" $$unsorted))
1.92/2.10	(define @t1312 () (tptp.in (tptp.kpair @t1311 (tptp.ap @t2 @t1 @t874 @t1311)) @t874))
1.92/2.10	(define @t1313 () (not (tptp.in @t1311 @t2)))
1.92/2.10	(define @t1314 () (or @t1296 @t1294 @t1313 @t1312))
1.92/2.10	(define @t1315 () (@list @t2 @t1 @t874 @t1311))
1.92/2.10	(define @t1316 () (@var "BOUND_VARIABLE_12564" $$unsorted))
1.92/2.10	(define @t1317 () (@var "BOUND_VARIABLE_12562" $$unsorted))
1.92/2.10	(define @t1318 () (= @t1317 @t1316))
1.92/2.10	(define @t1319 () (not (_ @t143 @t1316)))
1.92/2.10	(define @t1320 () (not (tptp.in @t1316 @t2)))
1.92/2.10	(define @t1321 () (not (_ @t143 @t1317)))
1.92/2.10	(define @t1322 () (not (tptp.in @t1317 @t2)))
1.92/2.10	(define @t1323 () (@var "BOUND_VARIABLE_12554" $$unsorted))
1.92/2.10	(define @t1324 () (tptp.setadjoin @t1323 tptp.emptyset))
1.92/2.10	(define @t1325 () (tptp.dsetconstr @t2 @t143))
1.92/2.10	(define @t1326 () (not (tptp.in @t1323 @t1325)))
1.92/2.10	(define @t1327 () (@list @t2 @t143 @t1323 @t1317 @t1316))
1.92/2.10	(define @t1328 () (@var "BOUND_VARIABLE_12527" $$unsorted))
1.92/2.10	(define @t1329 () (@var "BOUND_VARIABLE_12525" (-> $$unsorted Bool)))
1.92/2.10	(define @t1330 () (_ @t1329 @t1328))
1.92/2.10	(define @t1331 () (not (tptp.in @t1328 @t929)))
1.92/2.10	(define @t1332 () (@var "BOUND_VARIABLE_12478" $$unsorted))
1.92/2.10	(define @t1333 () (tptp.kpair @t4 @t1332))
1.92/2.10	(define @t1334 () (not (tptp.in @t1333 @t929)))
1.92/2.10	(define @t1335 () (not (tptp.in @t1332 @t1)))
1.92/2.10	(define @t1336 () (@list @t4 @t1332))
1.92/2.10	(define @t1337 () (not (forall @t1336 (or @t1241 @t1335 @t1334 (_ @t1329 @t1333)))))
1.92/2.10	(define @t1338 () (or @t1253 @t1337 @t1331 @t1330))
1.92/2.10	(define @t1339 () (@list @t2 @t1 @t929 @t1329 @t1328))
1.92/2.10	(define @t1340 () (forall @t1339 @t1338))
1.92/2.10	(define @t1341 () (_ @t911 @t4))
1.92/2.10	(define @t1342 () (= @t19 @t1341))
1.92/2.10	(define @t1343 () (lambda @t135 @t1342))
1.92/2.10	(define @t1344 () (tptp.dpsetconstr @t2 @t1 @t1343))
1.92/2.10	(define @t1345 () (tptp.in @t1344 @t1269))
1.92/2.10	(define @t1346 () (tptp.in @t1341 @t1))
1.92/2.10	(define @t1347 () (forall @t9 (or @t1241 @t1346)))
1.92/2.10	(define @t1348 () (not @t1347))
1.92/2.10	(define @t1349 () (@var "BOUND_VARIABLE_12347" $$unsorted))
1.92/2.10	(define @t1350 () (_ @t911 @t1349))
1.92/2.10	(define @t1351 () (@var "BOUND_VARIABLE_12308" $$unsorted))
1.92/2.10	(define @t1352 () (@list @t1349 @t1351))
1.92/2.10	(define @t1353 () (tptp.dpsetconstr @t2 @t1 (lambda @t1352 (= @t1351 @t1350))))
1.92/2.10	(define @t1354 () (@var "BOUND_VARIABLE_12399" $$unsorted))
1.92/2.10	(define @t1355 () (tptp.dsetconstr @t1 (lambda @t70 (tptp.in (tptp.kpair @t1354 @t19) @t1353))))
1.92/2.10	(define @t1356 () (or (not (tptp.in @t1354 @t2)) (not (forall @t1287 (or (not (tptp.in @t1285 @t1355)) (not (= @t1286 @t1355)))))))
1.92/2.10	(define @t1357 () (tptp.subset @t1344 @t1250))
1.92/2.10	(define @t1358 () (and @t1357 @t1356))
1.92/2.10	(define @t1359 () (or @t1348 @t1358))
1.92/2.10	(define @t1360 () (forall (@list @t2 @t1 @t911 @t1354) @t1359))
1.92/2.10	(define @t1361 () (@var "BOUND_VARIABLE_12255" $$unsorted))
1.92/2.10	(define @t1362 () (tptp.in (tptp.ap @t2 @t1 @t874 @t1361) @t1))
1.92/2.10	(define @t1363 () (not (tptp.in @t1361 @t2)))
1.92/2.10	(define @t1364 () (or @t1271 @t1363 @t1362))
1.92/2.10	(define @t1365 () (@list @t2 @t1 @t874 @t1361))
1.92/2.10	(define @t1366 () (@var "BOUND_VARIABLE_12227" $$unsorted))
1.92/2.10	(define @t1367 () (tptp.dsetconstr @t1 (lambda @t70 (tptp.in (tptp.kpair @t1366 @t19) @t874))))
1.92/2.10	(define @t1368 () (or (not (tptp.in @t1366 @t2)) (not (forall @t1287 (or (not (tptp.in @t1285 @t1367)) (not (= @t1286 @t1367)))))))
1.92/2.10	(define @t1369 () (and @t1295 @t1368))
1.92/2.10	(define @t1370 () (or @t1271 @t1369))
1.92/2.10	(define @t1371 () (forall (@list @t2 @t1 @t874 @t1366) @t1370))
1.92/2.10	(define @t1372 () (@var "BOUND_VARIABLE_12198" $$unsorted))
1.92/2.10	(define @t1373 () (tptp.in (tptp.ap @t2 @t1 @t874 @t1372) @t1))
1.92/2.10	(define @t1374 () (not (tptp.in @t1372 @t2)))
1.92/2.10	(define @t1375 () (or @t1296 @t1294 @t1374 @t1373))
1.92/2.10	(define @t1376 () (@list @t2 @t1 @t874 @t1372))
1.92/2.10	(define @t1377 () (@var "BOUND_VARIABLE_12163" $$unsorted))
1.92/2.10	(define @t1378 () (tptp.in (tptp.setunion (tptp.dsetconstr @t1 (lambda @t70 (tptp.in (tptp.kpair @t1377 @t19) @t874)))) @t1))
1.92/2.10	(define @t1379 () (not (tptp.in @t1377 @t2)))
1.92/2.10	(define @t1380 () (or @t1296 @t1294 @t1379 @t1378))
1.92/2.10	(define @t1381 () (@list @t2 @t1 @t874 @t1377))
1.92/2.10	(define @t1382 () (@var "BOUND_VARIABLE_12116" $$unsorted))
1.92/2.10	(define @t1383 () (tptp.dsetconstr @t1 (lambda @t70 (tptp.in (tptp.kpair @t1382 @t19) @t874))))
1.92/2.10	(define @t1384 () (@var "BOUND_VARIABLE_12068" $$unsorted))
1.92/2.10	(define @t1385 () (tptp.setadjoin @t1384 tptp.emptyset))
1.92/2.10	(define @t1386 () (not (tptp.in @t1384 @t1383)))
1.92/2.10	(define @t1387 () (@list @t1384))
1.92/2.10	(define @t1388 () (not (tptp.in @t1382 @t2)))
1.92/2.10	(define @t1389 () (@list @t2 @t1 @t874 @t1382))
1.92/2.10	(define @t1390 () (_ @t67 @t4 @t19))
1.92/2.10	(define @t1391 () (tptp.dpsetconstr @t2 @t1 @t67))
1.92/2.10	(define @t1392 () (tptp.in @t1283 @t1391))
1.92/2.10	(define @t1393 () (not @t1392))
1.92/2.10	(define @t1394 () (tptp.in @t19 @t1))
1.92/2.10	(define @t1395 () (@var "BOUND_VARIABLE_11995" $$unsorted))
1.92/2.10	(define @t1396 () (_ @t67 @t4 @t1395))
1.92/2.10	(define @t1397 () (not (tptp.in (tptp.kpair @t4 @t1395) @t1391)))
1.92/2.10	(define @t1398 () (not (tptp.in @t1395 @t1)))
1.92/2.10	(define @t1399 () (or @t1241 @t1398 @t1397 @t1396))
1.92/2.10	(define @t1400 () (@list @t2 @t1 @t67 @t4 @t1395))
1.92/2.10	(define @t1401 () (forall @t856 (tptp.subset @t1391 @t1250)))
1.92/2.10	(define @t1402 () (@var "BOUND_VARIABLE_11945" $$unsorted))
1.92/2.10	(define @t1403 () (tptp.in (tptp.kpair @t4 @t1402) @t1391))
1.92/2.10	(define @t1404 () (not (_ @t67 @t4 @t1402)))
1.92/2.10	(define @t1405 () (not (tptp.in @t1402 @t1)))
1.92/2.10	(define @t1406 () (or @t1241 @t1405 @t1404 @t1403))
1.92/2.10	(define @t1407 () (@list @t2 @t1 @t67 @t4 @t1402))
1.92/2.10	(define @t1408 () (tptp.ksnd @t381))
1.92/2.10	(define @t1409 () (tptp.kfst @t381))
1.92/2.10	(define @t1410 () (tptp.kpair @t1409 @t1408))
1.92/2.10	(define @t1411 () (= @t381 @t1410))
1.92/2.10	(define @t1412 () (tptp.in @t381 @t1250))
1.92/2.10	(define @t1413 () (not @t1412))
1.92/2.10	(define @t1414 () (@var "BOUND_VARIABLE_11897" $$unsorted))
1.92/2.10	(define @t1415 () (= @t1414 (tptp.ksnd (tptp.kpair @t4 @t1414))))
1.92/2.10	(define @t1416 () (not (tptp.in @t1414 @t1)))
1.92/2.10	(define @t1417 () (or @t1241 @t1416 @t1415))
1.92/2.10	(define @t1418 () (@list @t2 @t1 @t4 @t1414))
1.92/2.10	(define @t1419 () (@var "BOUND_VARIABLE_11870" $$unsorted))
1.92/2.10	(define @t1420 () (= @t4 (tptp.kfst (tptp.kpair @t4 @t1419))))
1.92/2.10	(define @t1421 () (not (tptp.in @t1419 @t1)))
1.92/2.10	(define @t1422 () (or @t1241 @t1421 @t1420))
1.92/2.10	(define @t1423 () (@list @t2 @t1 @t4 @t1419))
1.92/2.10	(define @t1424 () (=> (forall @t1423 @t1422) (=> (forall @t1418 @t1417) (=> (forall @t686 (or @t1413 @t1411)) (=> (forall @t1407 @t1406) (=> @t1401 (=> @t1401 (=> (forall @t1400 @t1399) (=> (forall @t867 (or @t1393 @t1240)) (=> (forall @t867 (or @t1393 @t1394)) (=> (forall @t867 (or @t1393 @t1390)) (=> (forall @t1389 (or @t1296 @t1294 @t1388 (not (forall @t1387 (or @t1386 (not (= @t1385 @t1383))))))) (=> (forall @t1381 @t1380) (=> (forall @t1376 @t1375) (=> @t1371 (=> (forall @t1365 @t1364) (=> (forall @t883 (or @t1296 @t1294 @t1270)) (=> @t1360 (=> @t1360 (=> (forall @t918 (or @t1348 @t1345)) (=> @t1340 (=> @t1340 (=> (forall @t1327 (or @t1326 (not (= @t1325 @t1324)) @t1322 @t1321 @t1320 @t1319 @t1318)) (=> (forall @t1315 @t1314) (=> (forall @t1310 @t1309) (=> (forall @t1305 (or @t1296 @t1294 @t1304 @t1303 @t1302 (= @t1301 @t1300))) (=> (forall @t1298 @t1297) (=> (forall @t1272 (or @t1271 @t1268 @t1267 @t1266 (= @t1265 @t1264))) (=> (forall @t1262 @t1261) @t1256)))))))))))))))))))))))))))))
1.92/2.10	(define @t1425 () (tptp.in @t1283 @t1250))
1.92/2.10	(define @t1426 () (not @t1425))
1.92/2.10	(define @t1427 () (forall @t819 (or @t1426 @t1394)))
1.92/2.10	(define @t1428 () (forall @t819 (or @t1426 @t1240)))
1.92/2.10	(define @t1429 () (tptp.in @t1408 @t1))
1.92/2.10	(define @t1430 () (forall @t686 (or @t1413 @t1429)))
1.92/2.10	(define @t1431 () (tptp.iskpair @t381))
1.92/2.10	(define @t1432 () (not @t1431))
1.92/2.10	(define @t1433 () (forall @t752 (or @t1432 @t1411)))
1.92/2.10	(define @t1434 () (tptp.ksnd @t1283))
1.92/2.10	(define @t1435 () (= @t19 @t1434))
1.92/2.10	(define @t1436 () (forall @t135 @t1435))
1.92/2.10	(define @t1437 () (@var "BOUND_VARIABLE_11785" $$unsorted))
1.92/2.10	(define @t1438 () (tptp.kpair @t1409 @t1437))
1.92/2.10	(define @t1439 () (= @t381 @t1438))
1.92/2.10	(define @t1440 () (@list @t1437))
1.92/2.10	(define @t1441 () (lambda @t1440 @t1439))
1.92/2.10	(define @t1442 () (tptp.setunion @t381))
1.92/2.10	(define @t1443 () (tptp.dsetconstr @t1442 @t1441))
1.92/2.10	(define @t1444 () (tptp.setadjoin @t4 tptp.emptyset))
1.92/2.10	(define @t1445 () (not (forall @t9 (or (not (tptp.in @t4 @t1443)) (not (= @t1444 @t1443))))))
1.92/2.10	(define @t1446 () (forall @t752 (or @t1432 @t1445)))
1.92/2.10	(define @t1447 () (tptp.kpair @t289 @t381))
1.92/2.10	(define @t1448 () (not (= @t1283 @t1447)))
1.92/2.10	(define @t1449 () (forall @t773 (or @t1448 @t787)))
1.92/2.10	(define @t1450 () (tptp.setadjoin @t381 tptp.emptyset))
1.92/2.10	(define @t1451 () (tptp.setadjoin @t289 @t1450))
1.92/2.10	(define @t1452 () (tptp.setadjoin @t1451 tptp.emptyset))
1.92/2.10	(define @t1453 () (tptp.setadjoin @t289 tptp.emptyset))
1.92/2.10	(define @t1454 () (tptp.setadjoin @t1453 @t1452))
1.92/2.10	(define @t1455 () (tptp.setadjoin @t19 tptp.emptyset))
1.92/2.10	(define @t1456 () (tptp.setadjoin @t4 @t1455))
1.92/2.10	(define @t1457 () (tptp.setadjoin @t1456 tptp.emptyset))
1.92/2.10	(define @t1458 () (tptp.setadjoin @t1444 @t1457))
1.92/2.10	(define @t1459 () (not (= @t1458 @t1454)))
1.92/2.10	(define @t1460 () (forall @t773 (or @t1459 @t787)))
1.92/2.10	(define @t1461 () (forall @t295 (or (not (= @t1456 @t1453)) @t129)))
1.92/2.10	(define @t1462 () (not (= @t1458 (tptp.setadjoin @t1450 (tptp.setadjoin (tptp.setadjoin @t381 @t1450) tptp.emptyset)))))
1.92/2.10	(define @t1463 () (or @t1462 @t787))
1.92/2.10	(define @t1464 () (@list @t4 @t19 @t381))
1.92/2.10	(define @t1465 () (forall @t1464 @t1463))
1.92/2.10	(define @t1466 () (tptp.setadjoin @t19 @t1455))
1.92/2.10	(define @t1467 () (= (tptp.setadjoin @t1455 (tptp.setadjoin @t1466 tptp.emptyset)) (tptp.setadjoin @t1455 tptp.emptyset)))
1.92/2.10	(define @t1468 () (forall @t70 @t1467))
1.92/2.10	(define @t1469 () (= @t1455 @t1466))
1.92/2.10	(define @t1470 () (forall @t70 @t1469))
1.92/2.10	(define @t1471 () (forall @t773 (or @t1448 @t740)))
1.92/2.10	(define @t1472 () (forall @t773 (or @t1459 @t740)))
1.92/2.10	(define @t1473 () (tptp.in @t1409 @t2))
1.92/2.10	(define @t1474 () (forall @t686 (or @t1413 @t1473)))
1.92/2.10	(define @t1475 () (tptp.kfst @t1283))
1.92/2.10	(define @t1476 () (= @t4 @t1475))
1.92/2.10	(define @t1477 () (forall @t135 @t1476))
1.92/2.10	(define @t1478 () (@var "BOUND_VARIABLE_11620" $$unsorted))
1.92/2.10	(define @t1479 () (tptp.setadjoin @t1478 tptp.emptyset))
1.92/2.10	(define @t1480 () (not (tptp.in @t1478 @t1479)))
1.92/2.10	(define @t1481 () (tptp.in (tptp.setunion @t1479) @t1479))
1.92/2.10	(define @t1482 () (or @t1481 @t1480))
1.92/2.10	(define @t1483 () (@list @t1478))
1.92/2.10	(define @t1484 () (forall @t1483 @t1482))
1.92/2.10	(define @t1485 () (@var "BOUND_VARIABLE_11576" $$unsorted))
1.92/2.10	(define @t1486 () (tptp.setadjoin @t1485 tptp.emptyset))
1.92/2.10	(define @t1487 () (tptp.in @t1486 @t381))
1.92/2.10	(define @t1488 () (@list @t1485))
1.92/2.10	(define @t1489 () (lambda @t1488 @t1487))
1.92/2.10	(define @t1490 () (tptp.dsetconstr @t1442 @t1489))
1.92/2.10	(define @t1491 () (not (forall @t9 (or (not (tptp.in @t4 @t1490)) (not (= @t1444 @t1490))))))
1.92/2.10	(define @t1492 () (forall @t752 (or @t1432 @t1491)))
1.92/2.10	(define @t1493 () (tptp.in @t1453 @t1458))
1.92/2.10	(define @t1494 () (forall @t295 (or (not @t1493) @t740)))
1.92/2.10	(define @t1495 () (forall @t135 (or (not (= @t1444 @t1455)) @t129)))
1.92/2.10	(define @t1496 () (@var "BOUND_VARIABLE_11404" $$unsorted))
1.92/2.10	(define @t1497 () (not (_ @t143 @t1496)))
1.92/2.10	(define @t1498 () (not (tptp.in @t1496 @t2)))
1.92/2.10	(define @t1499 () (tptp.in @t4 @t1325))
1.92/2.10	(define @t1500 () (not @t1499))
1.92/2.10	(define @t1501 () (forall @t9 (or @t1500 (not (= @t1444 @t1325)))))
1.92/2.10	(define @t1502 () (not @t1501))
1.92/2.10	(define @t1503 () (@var "BOUND_VARIABLE_11384" $$unsorted))
1.92/2.10	(define @t1504 () (= @t4 @t1503))
1.92/2.10	(define @t1505 () (not (_ @t143 @t1503)))
1.92/2.10	(define @t1506 () (not (tptp.in @t1503 @t2)))
1.92/2.10	(define @t1507 () (_ @t143 @t4))
1.92/2.10	(define @t1508 () (not @t1507))
1.92/2.10	(define @t1509 () (or @t1241 @t1508 @t1506 @t1505 @t1504))
1.92/2.10	(define @t1510 () (@list @t4 @t1503))
1.92/2.10	(define @t1511 () (forall @t1510 @t1509))
1.92/2.10	(define @t1512 () (not @t1511))
1.92/2.10	(define @t1513 () (or @t1512 @t1502 @t1498 @t1497))
1.92/2.10	(define @t1514 () (@list @t2 @t143 @t1496))
1.92/2.10	(define @t1515 () (forall @t1514 @t1513))
1.92/2.10	(define @t1516 () (@var "BOUND_VARIABLE_11500" $$unsorted))
1.92/2.10	(define @t1517 () (tptp.setadjoin @t1516 tptp.emptyset))
1.92/2.10	(define @t1518 () (not (tptp.in @t1516 @t1325)))
1.92/2.10	(define @t1519 () (@list @t1516))
1.92/2.10	(define @t1520 () (_ @t143 @t19))
1.92/2.10	(define @t1521 () (not @t1520))
1.92/2.10	(define @t1522 () (tptp.in @t19 @t2))
1.92/2.10	(define @t1523 () (not @t1522))
1.92/2.10	(define @t1524 () (forall @t70 (or @t1523 @t1521 @t129)))
1.92/2.10	(define @t1525 () (not @t1524))
1.92/2.10	(define @t1526 () (forall @t159 (or @t1241 @t1508 @t1525 (not (forall @t1519 (or @t1518 (not (= @t1325 @t1517))))))))
1.92/2.10	(define @t1527 () (@var "BOUND_VARIABLE_11452" $$unsorted))
1.92/2.10	(define @t1528 () (tptp.setadjoin @t1527 tptp.emptyset))
1.92/2.10	(define @t1529 () (not (tptp.in @t1527 @t1325)))
1.92/2.10	(define @t1530 () (forall @t9 (or @t1241 @t1508)))
1.92/2.10	(define @t1531 () (not @t1530))
1.92/2.10	(define @t1532 () (@list @t2 @t143 @t1527))
1.92/2.10	(define @t1533 () (forall @t1532 (or @t1531 @t1529 (not (= @t1325 @t1528)))))
1.92/2.10	(define @t1534 () (tptp.setunion @t1444))
1.92/2.10	(define @t1535 () (forall @t9 (= @t4 @t1534)))
1.92/2.10	(define @t1536 () (tptp.setadjoin @t2 tptp.emptyset))
1.92/2.10	(define @t1537 () (tptp.setunion @t1536))
1.92/2.10	(define @t1538 () (tptp.subset @t2 @t1537))
1.92/2.10	(define @t1539 () (forall @t64 @t1538))
1.92/2.10	(define @t1540 () (tptp.subset @t1537 @t2))
1.92/2.10	(define @t1541 () (forall @t64 @t1540))
1.92/2.10	(define @t1542 () (tptp.in @t4 @t692))
1.92/2.10	(define @t1543 () (not @t1542))
1.92/2.10	(define @t1544 () (tptp.in @t692 @t2))
1.92/2.10	(define @t1545 () (not (forall @t696 (or (not @t1544) @t1543))))
1.92/2.10	(define @t1546 () (tptp.setunion @t2))
1.92/2.10	(define @t1547 () (tptp.in @t4 @t1546))
1.92/2.10	(define @t1548 () (not @t1547))
1.92/2.10	(define @t1549 () (forall @t46 (or @t1548 @t1545)))
1.92/2.10	(define @t1550 () (forall @t686 (or @t1413 @t1431)))
1.92/2.10	(define @t1551 () (@var "BOUND_VARIABLE_11287" $$unsorted))
1.92/2.10	(define @t1552 () (not (= @t381 (tptp.kpair @t4 @t1551))))
1.92/2.10	(define @t1553 () (not (tptp.in @t1551 @t1)))
1.92/2.10	(define @t1554 () (or @t1241 @t1553 @t1552))
1.92/2.10	(define @t1555 () (@list @t4 @t1551))
1.92/2.10	(define @t1556 () (not (forall @t1555 @t1554)))
1.92/2.10	(define @t1557 () (forall @t686 (or @t1413 @t1556)))
1.92/2.10	(define @t1558 () (@var "BOUND_VARIABLE_11253" $$unsorted))
1.92/2.10	(define @t1559 () (tptp.in (tptp.kpair @t4 @t1558) @t1250))
1.92/2.10	(define @t1560 () (not (tptp.in @t1558 @t1)))
1.92/2.10	(define @t1561 () (or @t1241 @t1560 @t1559))
1.92/2.10	(define @t1562 () (@list @t2 @t1 @t4 @t1558))
1.92/2.10	(define @t1563 () (forall @t1562 @t1561))
1.92/2.10	(define @t1564 () (tptp.binunion @t2 @t1))
1.92/2.10	(define @t1565 () (tptp.powerset @t1564))
1.92/2.10	(define @t1566 () (tptp.powerset @t1565))
1.92/2.10	(define @t1567 () (@var "BOUND_VARIABLE_11226" $$unsorted))
1.92/2.10	(define @t1568 () (tptp.in (tptp.kpair @t4 @t1567) @t1566))
1.92/2.10	(define @t1569 () (not (tptp.in @t1567 @t1)))
1.92/2.10	(define @t1570 () (or @t1241 @t1569 @t1568))
1.92/2.10	(define @t1571 () (@list @t2 @t1 @t4 @t1567))
1.92/2.10	(define @t1572 () (forall @t1571 @t1570))
1.92/2.10	(define @t1573 () (@var "BOUND_VARIABLE_11197" $$unsorted))
1.92/2.10	(define @t1574 () (tptp.in (tptp.setadjoin @t1444 (tptp.setadjoin (tptp.setadjoin @t4 (tptp.setadjoin @t1573 tptp.emptyset)) tptp.emptyset)) @t1566))
1.92/2.10	(define @t1575 () (not (tptp.in @t1573 @t1)))
1.92/2.10	(define @t1576 () (or @t1241 @t1575 @t1574))
1.92/2.10	(define @t1577 () (@list @t2 @t1 @t4 @t1573))
1.92/2.10	(define @t1578 () (forall @t1577 @t1576))
1.92/2.10	(define @t1579 () (@var "BOUND_VARIABLE_11165" $$unsorted))
1.92/2.10	(define @t1580 () (tptp.subset (tptp.setadjoin @t1444 (tptp.setadjoin (tptp.setadjoin @t4 (tptp.setadjoin @t1579 tptp.emptyset)) tptp.emptyset)) @t1565))
1.92/2.10	(define @t1581 () (not (tptp.in @t1579 @t1)))
1.92/2.10	(define @t1582 () (or @t1241 @t1581 @t1580))
1.92/2.10	(define @t1583 () (@list @t2 @t1 @t4 @t1579))
1.92/2.10	(define @t1584 () (forall @t1583 @t1582))
1.92/2.10	(define @t1585 () (@var "BOUND_VARIABLE_11137" $$unsorted))
1.92/2.10	(define @t1586 () (tptp.in (tptp.setadjoin @t4 (tptp.setadjoin @t1585 tptp.emptyset)) @t1565))
1.92/2.10	(define @t1587 () (not (tptp.in @t1585 @t1)))
1.92/2.10	(define @t1588 () (or @t1241 @t1587 @t1586))
1.92/2.10	(define @t1589 () (@list @t2 @t1 @t4 @t1585))
1.92/2.10	(define @t1590 () (forall @t1589 @t1588))
1.92/2.10	(define @t1591 () (@var "BOUND_VARIABLE_11109" $$unsorted))
1.92/2.10	(define @t1592 () (tptp.subset (tptp.setadjoin @t4 (tptp.setadjoin @t1591 tptp.emptyset)) @t1564))
1.92/2.10	(define @t1593 () (not (tptp.in @t1591 @t1)))
1.92/2.10	(define @t1594 () (or @t1241 @t1593 @t1592))
1.92/2.10	(define @t1595 () (@list @t2 @t1 @t4 @t1591))
1.92/2.10	(define @t1596 () (forall @t1595 @t1594))
1.92/2.10	(define @t1597 () (= @t19 @t289))
1.92/2.10	(define @t1598 () (tptp.in @t289 @t1456))
1.92/2.10	(define @t1599 () (forall @t295 (or (not @t1598) @t740 @t1597)))
1.92/2.10	(define @t1600 () (tptp.in @t1444 @t1565))
1.92/2.10	(define @t1601 () (forall @t245 (or @t1241 @t1600)))
1.92/2.10	(define @t1602 () (tptp.powerset @t2))
1.92/2.10	(define @t1603 () (tptp.in @t1444 @t1602))
1.92/2.10	(define @t1604 () (forall @t46 (or @t1241 @t1603)))
1.92/2.10	(define @t1605 () (tptp.subset @t1444 @t2))
1.92/2.10	(define @t1606 () (forall @t46 (or @t1241 @t1605)))
1.92/2.10	(define @t1607 () (tptp.iskpair @t1283))
1.92/2.10	(define @t1608 () (forall @t135 @t1607))
1.92/2.10	(define @t1609 () (tptp.iskpair @t1458))
1.92/2.10	(define @t1610 () (forall @t135 @t1609))
1.92/2.10	(define @t1611 () (tptp.setunion @t1458))
1.92/2.10	(define @t1612 () (tptp.in @t19 @t1611))
1.92/2.10	(define @t1613 () (forall @t135 @t1612))
1.92/2.10	(define @t1614 () (tptp.in @t4 @t1611))
1.92/2.10	(define @t1615 () (forall @t135 @t1614))
1.92/2.10	(define @t1616 () (tptp.in @t19 @t1456))
1.92/2.10	(define @t1617 () (forall @t135 @t1616))
1.92/2.10	(define @t1618 () (tptp.symdiff @t2 @t1))
1.92/2.10	(define @t1619 () (tptp.in @t4 @t1618))
1.92/2.10	(define @t1620 () (not @t1619))
1.92/2.10	(define @t1621 () (tptp.in @t4 @t1))
1.92/2.10	(define @t1622 () (forall @t245 (or @t1240 @t1621 @t1620)))
1.92/2.10	(define @t1623 () (not @t1621))
1.92/2.10	(define @t1624 () (forall @t245 (or @t1241 @t1623 @t1620)))
1.92/2.10	(define @t1625 () (forall @t245 (or @t1240 @t1623 @t1619)))
1.92/2.10	(define @t1626 () (forall @t245 (or @t1241 @t1621 @t1619)))
1.92/2.10	(define @t1627 () (and @t1241 @t1621))
1.92/2.10	(define @t1628 () (and @t1240 @t1623))
1.92/2.10	(define @t1629 () (forall @t245 (or @t1620 @t1628 @t1627)))
1.92/2.10	(define @t1630 () (tptp.subset @t2 @t1))
1.92/2.10	(define @t1631 () (tptp.setminus @t2 @t1))
1.92/2.10	(define @t1632 () (= tptp.emptyset @t1631))
1.92/2.10	(define @t1633 () (forall @t12 (or (not @t1632) @t1630)))
1.92/2.10	(define @t1634 () (tptp.subset @t1631 @t2))
1.92/2.10	(define @t1635 () (forall @t12 @t1634))
1.92/2.10	(define @t1636 () (tptp.in @t4 @t1631))
1.92/2.10	(define @t1637 () (not @t1636))
1.92/2.10	(define @t1638 () (forall @t245 (or @t1623 @t1637)))
1.92/2.10	(define @t1639 () (forall @t245 (or @t1240 @t1637)))
1.92/2.10	(define @t1640 () (forall @t245 (or @t1636 @t1621 @t1241)))
1.92/2.10	(define @t1641 () (forall @t245 (or @t1636 @t1241 @t1621)))
1.92/2.10	(define @t1642 () (not @t1630))
1.92/2.10	(define @t1643 () (forall @t12 (or @t1642 @t1632)))
1.92/2.10	(define @t1644 () (forall @t245 (or @t1637 @t1623)))
1.92/2.10	(define @t1645 () (forall @t245 (or @t1637 @t1240)))
1.92/2.10	(define @t1646 () (forall @t245 (or @t1241 @t1621 @t1636)))
1.92/2.10	(define @t1647 () (tptp.binintersect @t2 @t104))
1.92/2.10	(define @t1648 () (tptp.binintersect @t2 @t1))
1.92/2.10	(define @t1649 () (tptp.binunion @t1648 @t1647))
1.92/2.10	(define @t1650 () (tptp.binunion @t1 @t104))
1.92/2.10	(define @t1651 () (tptp.binintersect @t2 @t1650))
1.92/2.10	(define @t1652 () (forall @t455 (= @t1651 @t1649)))
1.92/2.10	(define @t1653 () (= @t2 @t1648))
1.92/2.10	(define @t1654 () (forall @t12 (or (not @t1653) @t1630)))
1.92/2.10	(define @t1655 () (= @t1 @t1648))
1.92/2.10	(define @t1656 () (tptp.subset @t1 @t2))
1.92/2.10	(define @t1657 () (not @t1656))
1.92/2.10	(define @t1658 () (forall @t12 (or @t1657 @t1655)))
1.92/2.10	(define @t1659 () (tptp.subset @t1648 @t1))
1.92/2.10	(define @t1660 () (forall @t12 @t1659))
1.92/2.10	(define @t1661 () (forall @t9 (or @t1241 @t1623)))
1.92/2.10	(define @t1662 () (not @t1661))
1.92/2.10	(define @t1663 () (forall @t12 (or @t1662 (= tptp.emptyset @t1648))))
1.92/2.10	(define @t1664 () (tptp.in @t4 @t1648))
1.92/2.10	(define @t1665 () (not @t1664))
1.92/2.10	(define @t1666 () (forall @t245 (or @t1665 @t1621)))
1.92/2.10	(define @t1667 () (forall @t12 (or (not @t1655) @t1656)))
1.92/2.10	(define @t1668 () (forall @t12 (or @t1642 @t1653)))
1.92/2.10	(define @t1669 () (tptp.subset @t1648 @t2))
1.92/2.10	(define @t1670 () (forall @t12 @t1669))
1.92/2.10	(define @t1671 () (forall @t245 (or @t1665 @t1240)))
1.92/2.10	(define @t1672 () (tptp.subset @t104 @t1648))
1.92/2.10	(define @t1673 () (tptp.subset @t104 @t1))
1.92/2.10	(define @t1674 () (tptp.subset @t104 @t2))
1.92/2.10	(define @t1675 () (forall @t455 (or (not @t1674) (not @t1673) @t1672)))
1.92/2.10	(define @t1676 () (forall @t245 (or @t1241 @t1623 @t1664)))
1.92/2.10	(define @t1677 () (tptp.subset @t1 @t1564))
1.92/2.10	(define @t1678 () (forall @t12 @t1677))
1.92/2.10	(define @t1679 () (tptp.subset @t2 @t1564))
1.92/2.10	(define @t1680 () (forall @t12 @t1679))
1.92/2.10	(define @t1681 () (tptp.in @t4 @t1564))
1.92/2.10	(define @t1682 () (not @t1681))
1.92/2.10	(define @t1683 () (forall @t245 (or @t1682 @t1240 @t1621)))
1.92/2.10	(define @t1684 () (forall @t245 (or @t1623 @t1681)))
1.92/2.10	(define @t1685 () (forall @t245 (or @t1241 @t1681)))
1.92/2.10	(define @t1686 () (forall @t309 (tptp.subset @t1325 @t2)))
1.92/2.10	(define @t1687 () (forall @t309 (tptp.in @t1325 @t1602)))
1.92/2.10	(define @t1688 () (tptp.powerset @t1))
1.92/2.10	(define @t1689 () (tptp.subset @t1602 @t1688))
1.92/2.10	(define @t1690 () (forall @t12 (or @t1642 @t1689)))
1.92/2.10	(define @t1691 () (tptp.in @t2 @t1602))
1.92/2.10	(define @t1692 () (forall @t64 @t1691))
1.92/2.10	(define @t1693 () (tptp.in @t1 @t1602))
1.92/2.10	(define @t1694 () (not @t1693))
1.92/2.10	(define @t1695 () (forall @t12 (or @t1694 @t1656)))
1.92/2.10	(define @t1696 () (forall @t12 (or @t1657 @t1693)))
1.92/2.10	(define @t1697 () (tptp.subset @t2 tptp.emptyset))
1.92/2.10	(define @t1698 () (forall @t64 (or (not @t1697) @t196)))
1.92/2.10	(define @t1699 () (forall @t12 (or @t1642 @t1657 @t3)))
1.92/2.10	(define @t1700 () (tptp.in @t2 @t1688))
1.92/2.10	(define @t1701 () (forall @t12 (or @t1642 @t1700)))
1.92/2.10	(define @t1702 () (tptp.setadjoin @t4 @t1))
1.92/2.10	(define @t1703 () (tptp.subset @t2 @t1702))
1.92/2.10	(define @t1704 () (forall @t249 (or @t1642 @t1703)))
1.92/2.10	(define @t1705 () (tptp.setadjoin @t4 @t2))
1.92/2.10	(define @t1706 () (tptp.subset @t2 @t1705))
1.92/2.10	(define @t1707 () (forall @t459 @t1706))
1.92/2.10	(define @t1708 () (tptp.subset @t2 @t104))
1.92/2.10	(define @t1709 () (tptp.subset @t1 @t104))
1.92/2.10	(define @t1710 () (forall @t455 (or @t1642 (not @t1709) @t1708)))
1.92/2.10	(define @t1711 () (tptp.subset @t2 @t2))
1.92/2.10	(define @t1712 () (forall @t64 @t1711))
1.92/2.10	(define @t1713 () (tptp.subset @t1 @t1))
1.92/2.10	(define @t1714 () (forall @t41 @t1713))
1.92/2.10	(define @t1715 () (forall @t245 (or @t1241 @t1621 @t1642)))
1.92/2.10	(define @t1716 () (forall @t245 (or @t1642 @t1621 @t1241)))
1.92/2.10	(define @t1717 () (forall @t245 (or @t1642 @t1241 @t1621)))
1.92/2.10	(define @t1718 () (tptp.subset tptp.emptyset @t2))
1.92/2.10	(define @t1719 () (forall @t64 @t1718))
1.92/2.10	(define @t1720 () (forall @t9 (or @t1241 @t1621)))
1.92/2.10	(define @t1721 () (not @t1720))
1.92/2.10	(define @t1722 () (forall @t12 (or @t1721 @t1630)))
1.92/2.10	(define @t1723 () (@var "BOUND_VARIABLE_10507" (-> $$unsorted Bool)))
1.92/2.10	(define @t1724 () (tptp.dsetconstr @t1 @t1723))
1.92/2.10	(define @t1725 () (@var "BOUND_VARIABLE_10509" (-> $$unsorted Bool)))
1.92/2.10	(define @t1726 () (tptp.dsetconstr @t1 @t1725))
1.92/2.10	(define @t1727 () (= @t1726 @t1724))
1.92/2.10	(define @t1728 () (= (_ @t1723 @t4) (_ @t1725 @t4)))
1.92/2.10	(define @t1729 () (or @t1623 @t1728))
1.92/2.10	(define @t1730 () (not (forall @t9 @t1729)))
1.92/2.10	(define @t1731 () (or @t1730 @t1727))
1.92/2.10	(define @t1732 () (@list @t1 @t1723 @t1725))
1.92/2.10	(define @t1733 () (forall @t1732 @t1731))
1.92/2.10	(define @t1734 () (@var "BOUND_VARIABLE_10446" $$unsorted))
1.92/2.10	(define @t1735 () (_ @t366 @t19))
1.92/2.10	(define @t1736 () (not @t1735))
1.92/2.10	(define @t1737 () (not (_ @t366 @t1734)))
1.92/2.10	(define @t1738 () (@var "BOUND_VARIABLE_10437" $$unsorted))
1.92/2.10	(define @t1739 () (not (_ @t143 @t1738)))
1.92/2.10	(define @t1740 () (tptp.descr @t143))
1.92/2.10	(define @t1741 () (= @t1740 (tptp.descr @t366)))
1.92/2.10	(define @t1742 () (= @t1520 @t1735))
1.92/2.10	(define @t1743 () (forall @t70 @t1742))
1.92/2.10	(define @t1744 () (not @t1743))
1.92/2.10	(define @t1745 () (@list @t143 @t366 @t1738 @t1734))
1.92/2.10	(define @t1746 () (forall @t1745 (or @t1744 @t1741 @t1739 (not (forall @t70 (or @t1521 (= @t19 @t1738)))) @t1737 (not (forall @t70 (or @t1736 (= @t19 @t1734)))))))
1.92/2.10	(define @t1747 () (@var "BOUND_VARIABLE_10279" $$unsorted))
1.92/2.10	(define @t1748 () (@var "BOUND_VARIABLE_10277" $$unsorted))
1.92/2.10	(define @t1749 () (= @t1748 @t1747))
1.92/2.10	(define @t1750 () (not (_ @t143 @t1747)))
1.92/2.10	(define @t1751 () (not (_ @t143 @t1748)))
1.92/2.10	(define @t1752 () (@var "BOUND_VARIABLE_10268" $$unsorted))
1.92/2.10	(define @t1753 () (not (_ @t143 @t1752)))
1.92/2.10	(define @t1754 () (@list @t143 @t1752 @t1748 @t1747))
1.92/2.10	(define @t1755 () (forall @t1754 (or @t1753 (not (forall @t70 (or @t1521 (= @t19 @t1752)))) @t1751 @t1750 @t1749)))
1.92/2.10	(define @t1756 () (not (forall @t70 (or @t1736 @t129))))
1.92/2.10	(define @t1757 () (_ @t366 @t4))
1.92/2.10	(define @t1758 () (forall @t9 (or (not @t1757) @t1756)))
1.92/2.10	(define @t1759 () (not @t1758))
1.92/2.10	(define @t1760 () (forall @t70 (or @t1521 @t129)))
1.92/2.10	(define @t1761 () (not @t1760))
1.92/2.10	(define @t1762 () (forall @t9 (or @t1508 @t1761)))
1.92/2.10	(define @t1763 () (not @t1762))
1.92/2.10	(define @t1764 () (= @t1763 @t1759))
1.92/2.10	(define @t1765 () (forall @t376 (or @t1744 @t1764)))
1.92/2.10	(define @t1766 () (@var "BOUND_VARIABLE_10175" $$unsorted))
1.92/2.10	(define @t1767 () (@list @t143 @t1766))
1.92/2.10	(define @t1768 () (forall @t1767 (or (not (forall @t70 (= @t1520 (= @t19 @t1766)))) @t1763)))
1.92/2.10	(define @t1769 () (forall @t135 (or @t1508 @t1521 @t129)))
1.92/2.10	(define @t1770 () (not @t1769))
1.92/2.10	(define @t1771 () (@var "BOUND_VARIABLE_10159" $$unsorted))
1.92/2.10	(define @t1772 () (not (_ @t143 @t1771)))
1.92/2.10	(define @t1773 () (or @t1772 @t1770 @t1763))
1.92/2.10	(define @t1774 () (forall (@list @t143 @t1771) @t1773))
1.92/2.10	(define @t1775 () (=> @t1774 (=> @t1768 (=> @t1755 (=> @t1765 (=> @t1755 (=> @t1746 (=> @t1733 (=> @t1722 (=> @t1714 (=> @t1714 (=> @t1722 (=> @t1719 (=> @t1717 (=> @t1716 (=> @t1715 (=> @t1714 (=> @t1712 (=> @t1710 (=> @t1707 (=> @t1704 (=> @t1701 (=> @t1699 (=> @t1698 (=> @t1696 (=> @t1695 (=> @t1692 (=> @t1690 (=> @t1687 (=> @t1686 (=> @t1685 (=> @t1617 (=> @t1684 (=> @t1683 (=> @t1683 (=> @t1680 (=> @t1678 (=> @t1676 (=> @t1675 (=> @t1671 (=> @t1670 (=> @t1668 (=> @t1667 (=> @t1666 (=> @t1663 (=> @t1660 (=> @t1658 (=> @t1654 (=> @t1652 (=> @t1646 (=> @t1645 (=> @t1644 (=> @t1643 (=> @t1641 (=> @t1640 (=> @t1639 (=> @t1638 (=> @t1635 (=> @t1633 (=> @t1629 (=> @t1626 (=> @t1625 (=> @t1624 (=> @t1622 (=> @t1617 (=> @t1615 (=> @t1613 (=> @t1610 (=> @t1608 (=> @t1606 (=> @t1604 (=> @t1601 (=> @t1599 (=> @t1596 (=> @t1590 (=> @t1584 (=> @t1578 (=> @t1572 (=> @t1563 (=> @t1557 (=> @t1550 (=> @t1549 (=> @t1541 (=> @t1539 (=> @t1535 (=> @t1515 (=> @t1533 (=> @t1526 (=> @t1515 (=> @t1495 (=> @t1494 (=> @t1492 (=> @t1484 (=> @t1477 (=> @t1474 (=> @t1472 (=> @t1471 (=> @t1470 (=> @t1468 (=> @t1465 (=> @t1461 (=> @t1460 (=> @t1449 (=> @t1446 (=> @t1436 (=> @t1433 (=> @t1430 (=> @t1428 (=> @t1427 @t1424)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
1.92/2.10	(define @t1776 () (tptp.prop2set true))
1.92/2.10	(define @t1777 () (tptp.set2prop @t1776))
1.92/2.10	(define @t1778 () (=> @t1777 @t1775))
1.92/2.10	(define @t1779 () (tptp.in tptp.emptyset @t1776))
1.92/2.10	(define @t1780 () (=> @t1779 @t1778))
1.92/2.10	(define @t1781 () (tptp.in @t4 tptp.emptyset))
1.92/2.10	(define @t1782 () (not @t1781))
1.92/2.10	(define @t1783 () (forall @t312 (or @t1782 @t1507)))
1.92/2.10	(define @t1784 () (=> @t1783 @t1780))
1.92/2.10	(define @t1785 () (@var "BOUND_VARIABLE_10068" $$unsorted))
1.92/2.10	(define @t1786 () (not (_ @t143 @t1785)))
1.92/2.10	(define @t1787 () (not (tptp.in @t1785 @t2)))
1.92/2.10	(define @t1788 () (not (= tptp.emptyset @t1325)))
1.92/2.10	(define @t1789 () (or @t1788 @t1787 @t1786))
1.92/2.10	(define @t1790 () (@list @t2 @t143 @t1785))
1.92/2.10	(define @t1791 () (forall @t1790 @t1789))
1.92/2.10	(define @t1792 () (=> @t1791 @t1784))
1.92/2.10	(define @t1793 () (=> @t1617 @t1792))
1.92/2.10	(define @t1794 () (tptp.in @t4 @t1456))
1.92/2.10	(define @t1795 () (forall @t135 @t1794))
1.92/2.10	(define @t1796 () (=> @t1795 @t1793))
1.92/2.10	(define @t1797 () (=> @t1599 @t1796))
1.92/2.10	(define @t1798 () (tptp.in @t19 @t1444))
1.92/2.10	(define @t1799 () (tptp.in @t4 @t1455))
1.92/2.10	(define @t1800 () (not @t1799))
1.92/2.10	(define @t1801 () (forall @t135 (or @t1800 @t1798)))
1.92/2.10	(define @t1802 () (=> @t1801 @t1797))
1.92/2.10	(define @t1803 () (tptp.in @t19 @t1455))
1.92/2.10	(define @t1804 () (forall @t70 @t1803))
1.92/2.10	(define @t1805 () (=> @t1804 @t1802))
1.92/2.10	(define @t1806 () (forall @t135 (or @t129 (not @t1798))))
1.92/2.10	(define @t1807 () (=> @t1806 @t1805))
1.92/2.10	(define @t1808 () (forall @t135 (or @t1800 @t129)))
1.92/2.10	(define @t1809 () (=> @t1808 @t1807))
1.92/2.10	(define @t1810 () (forall @t9 @t1241))
1.92/2.10	(define @t1811 () (not @t1810))
1.92/2.10	(define @t1812 () (forall @t64 (or @t196 @t1811)))
1.92/2.10	(define @t1813 () (=> @t1812 @t1809))
1.92/2.10	(define @t1814 () (@var "BOUND_VARIABLE_9954" $$unsorted))
1.92/2.10	(define @t1815 () (not (_ @t143 @t1814)))
1.92/2.10	(define @t1816 () (forall @t70 (= @t129 @t1520)))
1.92/2.10	(define @t1817 () (forall @t9 (not @t1816)))
1.92/2.10	(define @t1818 () (not @t1817))
1.92/2.10	(define @t1819 () (@list @t143 @t1814))
1.92/2.10	(define @t1820 () (forall @t1819 (or @t1818 @t1815 (not (forall @t70 (or @t1521 (= @t19 @t1814)))))))
1.92/2.10	(define @t1821 () (=> @t1820 @t1813))
1.92/2.10	(define @t1822 () (tptp.powerset @t1546))
1.92/2.10	(define @t1823 () (tptp.in @t4 @t1822))
1.92/2.10	(define @t1824 () (forall @t46 (or @t1241 @t1823)))
1.92/2.10	(define @t1825 () (=> @t1824 @t1821))
1.92/2.10	(define @t1826 () (tptp.in @t1 @t2))
1.92/2.10	(define @t1827 () (not @t1826))
1.92/2.10	(define @t1828 () (forall @t41 (or @t1623 @t1827)))
1.92/2.10	(define @t1829 () (not @t1828))
1.92/2.10	(define @t1830 () (forall @t46 (or @t1548 @t1829)))
1.92/2.10	(define @t1831 () (=> @t1830 @t1825))
1.92/2.10	(define @t1832 () (forall @t249 (or @t1623 @t1827 @t1547)))
1.92/2.10	(define @t1833 () (=> @t1832 @t1831))
1.92/2.10	(define @t1834 () (forall @t245 (or @t1694 @t1623 @t1240)))
1.92/2.10	(define @t1835 () (=> @t1834 @t1833))
1.92/2.10	(define @t1836 () (tptp.in tptp.emptyset @t1602))
1.92/2.10	(define @t1837 () (forall @t64 @t1836))
1.92/2.10	(define @t1838 () (=> @t1837 @t1835))
1.92/2.10	(define @t1839 () (=> @t1837 @t1838))
1.92/2.10	(define @t1840 () (forall @t9 (or @t1623 @t1240)))
1.92/2.10	(define @t1841 () (not @t1840))
1.92/2.10	(define @t1842 () (forall @t12 (or @t1841 @t1693)))
1.92/2.10	(define @t1843 () (=> @t1842 @t1839))
1.92/2.10	(define @t1844 () (@var "BOUND_VARIABLE_65169" $$unsorted))
1.92/2.10	(define @t1845 () (lambda (@list @t1844) true))
1.92/2.10	(define @t1846 () (tptp.dsetconstr @t2 @t1845))
1.92/2.10	(define @t1847 () (forall @t64 (= @t2 @t1846)))
1.92/2.10	(define @t1848 () (=> @t1847 @t1843))
1.92/2.10	(define @t1849 () (tptp.in @t19 @t1705))
1.92/2.10	(define @t1850 () (forall @t28 (or (not @t1849) @t129 @t1522)))
1.92/2.10	(define @t1851 () (=> @t1850 @t1848))
1.92/2.10	(define @t1852 () (=> @t1850 @t1851))
1.92/2.10	(define @t1853 () (forall @t28 (or @t1523 @t1849)))
1.92/2.10	(define @t1854 () (=> @t1853 @t1852))
1.92/2.10	(define @t1855 () (tptp.setadjoin tptp.emptyset tptp.emptyset))
1.92/2.10	(define @t1856 () (tptp.in tptp.emptyset @t1855))
1.92/2.10	(define @t1857 () (=> @t221 @t1854))
1.92/2.10	(define @t1858 () (tptp.setadjoin @t4 @t19))
1.92/2.10	(define @t1859 () (tptp.in @t4 @t1858))
1.92/2.10	(define @t1860 () (forall @t135 @t1859))
1.92/2.10	(define @t1861 () (=> @t1860 @t1857))
1.92/2.10	(define @t1862 () (@var "BOUND_VARIABLE_9795" $$unsorted))
1.92/2.10	(define @t1863 () (not (tptp.in @t1862 tptp.emptyset)))
1.92/2.10	(define @t1864 () (@list @t1862))
1.92/2.10	(define @t1865 () (forall @t1864 @t1863))
1.92/2.10	(define @t1866 () (=> @t1865 @t1861))
1.92/2.10	(define @t1867 () (forall @t159 (or @t1241 @t1508 @t1788)))
1.92/2.10	(define @t1868 () (=> @t1867 @t1866))
1.92/2.10	(define @t1869 () (=> @t1812 @t1868))
1.92/2.10	(define @t1870 () (forall @t159 (or @t1241 (= @t1507 @t1499))))
1.92/2.10	(define @t1871 () (=> @t1870 @t1869))
1.92/2.10	(define @t1872 () (forall @t64 (or @t1811 @t196)))
1.92/2.10	(define @t1873 () (=> @t1872 @t1871))
1.92/2.10	(define @t1874 () (=> @t1872 @t1873))
1.92/2.10	(define @t1875 () (or @t1721 @t1841 @t3))
1.92/2.10	(define @t1876 () (forall @t12 @t1875))
1.92/2.10	(define @t1877 () (=> @t1876 @t1874))
1.92/2.10	(define @t1878 () (@var "BOUND_VARIABLE_9692" $$unsorted))
1.92/2.10	(define @t1879 () (not (_ @t143 @t1878)))
1.92/2.10	(define @t1880 () (forall @t9 @t1508))
1.92/2.10	(define @t1881 () (not @t1880))
1.92/2.10	(define @t1882 () (@list @t143 @t1878))
1.92/2.10	(define @t1883 () (forall @t1882 (or @t1881 @t1879 (not (forall @t70 (or @t1521 (= @t19 @t1878)))))))
1.92/2.10	(define @t1884 () (=> @t1883 @t1877))
1.92/2.10	(define @t1885 () (forall @t9 @t1782))
1.92/2.10	(define @t1886 () (=> @t1885 @t1884))
1.92/2.10	(define @t1887 () (=> @t1885 @t1886))
1.92/2.10	(define @t1888 () (=> @t1885 @t1887))
1.92/2.10	(define @t1889 () (not (tptp.in @t4 (tptp.prop2set false))))
1.92/2.10	(define @t1890 () (forall @t9 @t1889))
1.92/2.10	(define @t1891 () (=> @t1890 @t1888))
1.92/2.10	(define @t1892 () (forall @t159 (or @t1500 @t1507)))
1.92/2.10	(define @t1893 () (=> @t1892 @t1891))
1.92/2.10	(define @t1894 () (forall @t159 (or @t1500 @t1240)))
1.92/2.10	(define @t1895 () (=> @t1894 @t1893))
1.92/2.10	(define @t1896 () (forall @t159 (or @t1241 @t1508 @t1499)))
1.92/2.10	(define @t1897 () (=> @t1896 @t1895))
1.92/2.10	(define @t1898 () (@var "BOUND_VARIABLE_9594" $$unsorted))
1.92/2.10	(define @t1899 () (not (_ @t143 @t1898)))
1.92/2.10	(define @t1900 () (_ @t143 @t1740))
1.92/2.10	(define @t1901 () (@list @t143 @t1898))
1.92/2.10	(define @t1902 () (forall @t1901 (or @t1900 @t1899 (not (forall @t70 (or @t1521 (= @t19 @t1898)))))))
1.92/2.10	(define @t1903 () (=> @t1902 @t1897))
1.92/2.10	(define @t1904 () (@var "BOUND_VARIABLE_9515" $$unsorted))
1.92/2.10	(define @t1905 () (tptp.in @t1904 @t95))
1.92/2.10	(define @t1906 () (not (tptp.in @t1904 @t93)))
1.92/2.10	(define @t1907 () (tptp.in @t4 @t93))
1.92/2.10	(define @t1908 () (tptp.in @t93 @t1))
1.92/2.10	(define @t1909 () (not @t1908))
1.92/2.10	(define @t1910 () (or @t1909 @t1907 @t1906 @t1905))
1.92/2.10	(define @t1911 () (@list @t93 @t1904))
1.92/2.10	(define @t1912 () (forall @t1911 @t1910))
1.92/2.10	(define @t1913 () (not @t1912))
1.92/2.10	(define @t1914 () (tptp.in @t19 @t104))
1.92/2.10	(define @t1915 () (tptp.in @t19 @t95))
1.92/2.10	(define @t1916 () (forall @t70 (or (not @t1915) (not @t1914))))
1.92/2.10	(define @t1917 () (not @t1916))
1.92/2.10	(define @t1918 () (tptp.in @t4 @t104))
1.92/2.10	(define @t1919 () (not @t1918))
1.92/2.10	(define @t1920 () (tptp.in @t95 @t1))
1.92/2.10	(define @t1921 () (not @t1920))
1.92/2.10	(define @t1922 () (not (forall @t112 (or @t1921 @t1919 @t1917 @t1913))))
1.92/2.10	(define @t1923 () (@var "BOUND_VARIABLE_9544" $$unsorted))
1.92/2.10	(define @t1924 () (not (tptp.in @t1923 @t104)))
1.92/2.10	(define @t1925 () (forall @t9 (or @t1919 @t1240)))
1.92/2.10	(define @t1926 () (not @t1925))
1.92/2.10	(define @t1927 () (or @t1926 @t1924 @t1922))
1.92/2.10	(define @t1928 () (forall (@list @t104 @t1923) @t1927))
1.92/2.10	(define @t1929 () (not @t1928))
1.92/2.10	(define @t1930 () (@var "BOUND_VARIABLE_9467" $$unsorted))
1.92/2.10	(define @t1931 () (tptp.in @t1930 @t104))
1.92/2.10	(define @t1932 () (not (tptp.in @t1930 @t95)))
1.92/2.10	(define @t1933 () (@var "BOUND_VARIABLE_9461" $$unsorted))
1.92/2.10	(define @t1934 () (tptp.in @t1933 @t95))
1.92/2.10	(define @t1935 () (not (tptp.in @t1933 @t104)))
1.92/2.10	(define @t1936 () (tptp.in @t104 @t1))
1.92/2.10	(define @t1937 () (not @t1936))
1.92/2.10	(define @t1938 () (or @t1937 @t1921 @t1935 @t1934 @t1932 @t1931))
1.92/2.10	(define @t1939 () (@list @t104 @t95 @t1933 @t1930))
1.92/2.10	(define @t1940 () (forall @t1939 @t1938))
1.92/2.10	(define @t1941 () (not @t1940))
1.92/2.10	(define @t1942 () (forall @t118 (or @t1937 (= @t1918 @t1914))))
1.92/2.10	(define @t1943 () (not @t1942))
1.92/2.10	(define @t1944 () (forall @t135 (or @t1241 @t1523 @t1943 @t129)))
1.92/2.10	(define @t1945 () (not @t1944))
1.92/2.10	(define @t1946 () (@var "BOUND_VARIABLE_9410" $$unsorted))
1.92/2.10	(define @t1947 () (tptp.in @t1946 @t2))
1.92/2.10	(define @t1948 () (not (tptp.in @t1946 @t104)))
1.92/2.10	(define @t1949 () (or @t1937 @t1948 @t1947))
1.92/2.10	(define @t1950 () (@list @t104 @t1946))
1.92/2.10	(define @t1951 () (forall @t1950 @t1949))
1.92/2.10	(define @t1952 () (not @t1951))
1.92/2.10	(define @t1953 () (or @t1952 @t1945 @t1941 @t1929))
1.92/2.10	(define @t1954 () (forall @t64 (not (forall @t41 @t1953))))
1.92/2.10	(define @t1955 () (=> @t1954 @t1903))
1.92/2.10	(define @t1956 () (forall @t9 (or @t1623 @t1241)))
1.92/2.10	(define @t1957 () (not @t1956))
1.92/2.10	(define @t1958 () (not (forall @t41 (or @t1827 @t1957))))
1.92/2.10	(define @t1959 () (@var "BOUND_VARIABLE_9385" $$unsorted))
1.92/2.10	(define @t1960 () (not (tptp.in @t1959 @t2)))
1.92/2.10	(define @t1961 () (or @t1960 @t1958))
1.92/2.10	(define @t1962 () (forall (@list @t2 @t1959) @t1961))
1.92/2.10	(define @t1963 () (=> @t1962 @t1955))
1.92/2.10	(define @t1964 () (_ @t67 @t19 @t4))
1.92/2.10	(define @t1965 () (not (forall @t70 (or @t1523 (not @t1964)))))
1.92/2.10	(define @t1966 () (forall @t9 (= @t1621 @t1965)))
1.92/2.10	(define @t1967 () (not (forall @t41 (not @t1966))))
1.92/2.10	(define @t1968 () (@var "BOUND_VARIABLE_9275" $$unsorted))
1.92/2.10	(define @t1969 () (= @t19 @t1968))
1.92/2.10	(define @t1970 () (not @t1390))
1.92/2.10	(define @t1971 () (not (forall @t70 (or @t1970 @t1969))))
1.92/2.10	(define @t1972 () (_ @t67 @t4 @t1968))
1.92/2.10	(define @t1973 () (@list @t1968))
1.92/2.10	(define @t1974 () (not (forall @t1973 (or (not @t1972) @t1971))))
1.92/2.10	(define @t1975 () (forall @t9 (or @t1241 @t1974)))
1.92/2.10	(define @t1976 () (forall @t81 (or (not @t1975) @t1967)))
1.92/2.10	(define @t1977 () (=> @t1976 @t1963))
1.92/2.10	(define @t1978 () (@var "BOUND_VARIABLE_9256" $$unsorted))
1.92/2.10	(define @t1979 () (tptp.in @t1978 @t2))
1.92/2.10	(define @t1980 () (not (tptp.in @t1978 tptp.omega)))
1.92/2.10	(define @t1981 () (tptp.setadjoin @t4 @t4))
1.92/2.10	(define @t1982 () (tptp.in @t1981 @t2))
1.92/2.10	(define @t1983 () (tptp.in @t4 tptp.omega))
1.92/2.10	(define @t1984 () (not @t1983))
1.92/2.10	(define @t1985 () (forall @t9 (or @t1984 @t1241 @t1982)))
1.92/2.10	(define @t1986 () (not @t1985))
1.92/2.10	(define @t1987 () (tptp.in tptp.emptyset @t2))
1.92/2.10	(define @t1988 () (not @t1987))
1.92/2.10	(define @t1989 () (or @t1988 @t1986 @t1980 @t1979))
1.92/2.10	(define @t1990 () (@list @t2 @t1978))
1.92/2.10	(define @t1991 () (forall @t1990 @t1989))
1.92/2.10	(define @t1992 () (=> @t1991 @t1977))
1.92/2.10	(define @t1993 () (tptp.in @t1981 tptp.omega))
1.92/2.10	(define @t1994 () (forall @t9 (or @t1984 @t1993)))
1.92/2.10	(define @t1995 () (=> @t1994 @t1992))
1.92/2.10	(define @t1996 () (tptp.in tptp.emptyset tptp.omega))
1.92/2.10	(define @t1997 () (=> @t50 @t1995))
1.92/2.10	(define @t1998 () (forall @t46 (= @t1829 @t1547)))
1.92/2.10	(define @t1999 () (=> @t1998 @t1997))
1.92/2.10	(define @t2000 () (forall @t12 (= @t1840 @t1693)))
1.92/2.10	(define @t2001 () (=> @t2000 @t1999))
1.92/2.10	(define @t2002 () (or @t129 @t1522))
1.92/2.10	(define @t2003 () (forall @t28 (= @t1849 @t2002)))
1.92/2.10	(define @t2004 () (=> @t2003 @t2001))
1.92/2.10	(define @t2005 () (=> @t1885 @t2004))
1.92/2.10	(define @t2006 () (forall @t9 (= @t1240 @t1621)))
1.92/2.10	(define @t2007 () (forall @t12 (or (not @t2006) @t3)))
1.92/2.10	(define @t2008 () (=> @t2007 @t2005))
1.92/2.10	(define @t2009 () (=> @t1427 (=> true @t1424)))
1.92/2.10	(define @t2010 () (=> @t1428 @t2009))
1.92/2.10	(define @t2011 () (=> @t1430 @t2010))
1.92/2.10	(define @t2012 () (=> @t1433 @t2011))
1.92/2.10	(define @t2013 () (=> @t1436 @t2012))
1.92/2.10	(define @t2014 () (=> @t1446 @t2013))
1.92/2.10	(define @t2015 () (=> @t1449 @t2014))
1.92/2.10	(define @t2016 () (=> @t1460 @t2015))
1.92/2.10	(define @t2017 () (=> @t1461 @t2016))
1.92/2.10	(define @t2018 () (=> @t1465 @t2017))
1.92/2.10	(define @t2019 () (=> @t1468 @t2018))
1.92/2.10	(define @t2020 () (=> @t1470 @t2019))
1.92/2.10	(define @t2021 () (=> @t1471 @t2020))
1.92/2.10	(define @t2022 () (=> @t1472 @t2021))
1.92/2.10	(define @t2023 () (=> @t1474 @t2022))
1.92/2.10	(define @t2024 () (=> @t1477 @t2023))
1.92/2.10	(define @t2025 () (=> @t1484 @t2024))
1.92/2.10	(define @t2026 () (=> @t1492 @t2025))
1.92/2.10	(define @t2027 () (=> @t1494 @t2026))
1.92/2.10	(define @t2028 () (=> @t1495 @t2027))
1.92/2.10	(define @t2029 () (=> @t1515 @t2028))
1.92/2.10	(define @t2030 () (=> @t1526 @t2029))
1.92/2.10	(define @t2031 () (=> @t1533 @t2030))
1.92/2.10	(define @t2032 () (=> @t1515 @t2031))
1.92/2.10	(define @t2033 () (=> @t1535 @t2032))
1.92/2.10	(define @t2034 () (=> @t1539 @t2033))
1.92/2.10	(define @t2035 () (=> @t1541 @t2034))
1.92/2.10	(define @t2036 () (=> @t1549 @t2035))
1.92/2.10	(define @t2037 () (=> @t1550 @t2036))
1.92/2.10	(define @t2038 () (=> @t1557 @t2037))
1.92/2.10	(define @t2039 () (=> @t1563 @t2038))
1.92/2.10	(define @t2040 () (=> @t1572 @t2039))
1.92/2.10	(define @t2041 () (=> @t1578 @t2040))
1.92/2.10	(define @t2042 () (=> @t1584 @t2041))
1.92/2.10	(define @t2043 () (=> @t1590 @t2042))
1.92/2.10	(define @t2044 () (=> @t1596 @t2043))
1.92/2.10	(define @t2045 () (=> @t1599 @t2044))
1.92/2.10	(define @t2046 () (=> @t1601 @t2045))
1.92/2.10	(define @t2047 () (=> @t1604 @t2046))
1.92/2.10	(define @t2048 () (=> @t1606 @t2047))
1.92/2.10	(define @t2049 () (=> @t1608 @t2048))
1.92/2.10	(define @t2050 () (=> @t1610 @t2049))
1.92/2.10	(define @t2051 () (=> @t1613 @t2050))
1.92/2.10	(define @t2052 () (=> @t1615 @t2051))
1.92/2.10	(define @t2053 () (=> @t1617 @t2052))
1.92/2.10	(define @t2054 () (=> @t1622 @t2053))
1.92/2.10	(define @t2055 () (=> @t1624 @t2054))
1.92/2.10	(define @t2056 () (=> @t1625 @t2055))
1.92/2.10	(define @t2057 () (=> @t1626 @t2056))
1.92/2.10	(define @t2058 () (=> @t1629 @t2057))
1.92/2.10	(define @t2059 () (=> @t1633 @t2058))
1.92/2.10	(define @t2060 () (=> @t1635 @t2059))
1.92/2.10	(define @t2061 () (=> @t1638 @t2060))
1.92/2.10	(define @t2062 () (=> @t1639 @t2061))
1.92/2.10	(define @t2063 () (=> @t1640 @t2062))
1.92/2.10	(define @t2064 () (=> @t1641 @t2063))
1.92/2.10	(define @t2065 () (=> @t1643 @t2064))
1.92/2.10	(define @t2066 () (=> @t1644 @t2065))
1.92/2.10	(define @t2067 () (=> @t1645 @t2066))
1.92/2.10	(define @t2068 () (=> @t1646 @t2067))
1.92/2.10	(define @t2069 () (=> @t1652 @t2068))
1.92/2.10	(define @t2070 () (=> @t1654 @t2069))
1.92/2.10	(define @t2071 () (=> @t1658 @t2070))
1.92/2.10	(define @t2072 () (=> @t1660 @t2071))
1.92/2.10	(define @t2073 () (=> @t1663 @t2072))
1.92/2.10	(define @t2074 () (=> @t1666 @t2073))
1.92/2.10	(define @t2075 () (=> @t1667 @t2074))
1.92/2.10	(define @t2076 () (=> @t1668 @t2075))
1.92/2.10	(define @t2077 () (=> @t1670 @t2076))
1.92/2.10	(define @t2078 () (=> @t1671 @t2077))
1.92/2.10	(define @t2079 () (=> @t1675 @t2078))
1.92/2.10	(define @t2080 () (=> @t1676 @t2079))
1.92/2.10	(define @t2081 () (=> @t1678 @t2080))
1.92/2.10	(define @t2082 () (=> @t1680 @t2081))
1.92/2.10	(define @t2083 () (=> @t1683 @t2082))
1.92/2.10	(define @t2084 () (=> @t1683 @t2083))
1.92/2.10	(define @t2085 () (=> @t1684 @t2084))
1.92/2.10	(define @t2086 () (=> @t1617 @t2085))
1.92/2.10	(define @t2087 () (=> @t1685 @t2086))
1.92/2.10	(define @t2088 () (=> @t1686 @t2087))
1.92/2.10	(define @t2089 () (=> @t1687 @t2088))
1.92/2.10	(define @t2090 () (=> @t1690 @t2089))
1.92/2.10	(define @t2091 () (=> @t1692 @t2090))
1.92/2.10	(define @t2092 () (=> @t1695 @t2091))
1.92/2.10	(define @t2093 () (=> @t1696 @t2092))
1.92/2.10	(define @t2094 () (=> @t1698 @t2093))
1.92/2.10	(define @t2095 () (=> @t1699 @t2094))
1.92/2.10	(define @t2096 () (=> @t1701 @t2095))
1.92/2.10	(define @t2097 () (=> @t1704 @t2096))
1.92/2.10	(define @t2098 () (=> @t1707 @t2097))
1.92/2.10	(define @t2099 () (=> @t1710 @t2098))
1.92/2.10	(define @t2100 () (=> @t1712 @t2099))
1.92/2.10	(define @t2101 () (=> @t1714 (=> true @t2100)))
1.92/2.10	(define @t2102 () (=> @t1715 @t2101))
1.92/2.10	(define @t2103 () (=> @t1716 @t2102))
1.92/2.10	(define @t2104 () (=> @t1717 @t2103))
1.92/2.10	(define @t2105 () (=> @t1719 @t2104))
1.92/2.10	(define @t2106 () (=> @t1722 @t2105))
1.92/2.10	(define @t2107 () (=> @t1714 @t2106))
1.92/2.10	(define @t2108 () (=> @t1714 @t2107))
1.92/2.10	(define @t2109 () (=> @t1722 @t2108))
1.92/2.10	(define @t2110 () (=> @t1733 @t2109))
1.92/2.10	(define @t2111 () (=> @t1746 @t2110))
1.92/2.10	(define @t2112 () (=> @t1755 @t2111))
1.92/2.10	(define @t2113 () (=> true (=> true @t2112)))
1.92/2.10	(define @t2114 () (=> true @t2113))
1.92/2.10	(define @t2115 () (=> true @t2114))
1.92/2.10	(define @t2116 () (=> true @t2115))
1.92/2.10	(define @t2117 () (=> @t1765 @t2116))
1.92/2.10	(define @t2118 () (=> @t1755 @t2117))
1.92/2.10	(define @t2119 () (=> true (=> true @t2118)))
1.92/2.10	(define @t2120 () (=> @t1768 @t2119))
1.92/2.10	(define @t2121 () (=> @t1774 @t2120))
1.92/2.10	(define @t2122 () (=> true (=> true @t2121)))
1.92/2.10	(define @t2123 () (=> true @t2122))
1.92/2.10	(define @t2124 () (=> @t1777 @t2123))
1.92/2.10	(define @t2125 () (=> @t1779 @t2124))
1.92/2.10	(define @t2126 () (=> true (=> true @t2125)))
1.92/2.10	(define @t2127 () (=> true @t2126))
1.92/2.10	(define @t2128 () (=> true @t2127))
1.92/2.10	(define @t2129 () (=> @t1783 @t2128))
1.92/2.10	(define @t2130 () (=> @t1791 @t2129))
1.92/2.10	(define @t2131 () (=> @t1617 @t2130))
1.92/2.10	(define @t2132 () (=> @t1795 @t2131))
1.92/2.10	(define @t2133 () (=> @t1599 @t2132))
1.92/2.10	(define @t2134 () (=> @t1801 @t2133))
1.92/2.10	(define @t2135 () (=> @t1804 @t2134))
1.92/2.10	(define @t2136 () (=> @t1806 @t2135))
1.92/2.10	(define @t2137 () (=> @t1808 @t2136))
1.92/2.10	(define @t2138 () (=> @t1812 @t2137))
1.92/2.10	(define @t2139 () (=> @t1820 @t2138))
1.92/2.10	(define @t2140 () (=> @t1824 @t2139))
1.92/2.10	(define @t2141 () (=> @t1830 @t2140))
1.92/2.10	(define @t2142 () (=> @t1832 @t2141))
1.92/2.10	(define @t2143 () (=> @t1834 @t2142))
1.92/2.10	(define @t2144 () (=> @t1837 @t2143))
1.92/2.10	(define @t2145 () (=> @t1837 @t2144))
1.92/2.10	(define @t2146 () (=> @t1842 @t2145))
1.92/2.10	(define @t2147 () (=> @t1847 @t2146))
1.92/2.10	(define @t2148 () (=> @t1850 @t2147))
1.92/2.10	(define @t2149 () (=> @t1850 @t2148))
1.92/2.10	(define @t2150 () (=> @t1853 @t2149))
1.92/2.10	(define @t2151 () (=> @t221 @t2150))
1.92/2.10	(define @t2152 () (=> @t1860 @t2151))
1.92/2.10	(define @t2153 () (=> @t1865 @t2152))
1.92/2.10	(define @t2154 () (=> @t1867 @t2153))
1.92/2.10	(define @t2155 () (=> @t1812 @t2154))
1.92/2.10	(define @t2156 () (=> @t1870 @t2155))
1.92/2.10	(define @t2157 () (=> @t1872 @t2156))
1.92/2.10	(define @t2158 () (=> @t1872 @t2157))
1.92/2.10	(define @t2159 () (=> @t1876 @t2158))
1.92/2.10	(define @t2160 () (=> @t1883 @t2159))
1.92/2.10	(define @t2161 () (=> @t1885 @t2160))
1.92/2.10	(define @t2162 () (=> @t1885 @t2161))
1.92/2.10	(define @t2163 () (=> @t1885 @t2162))
1.92/2.10	(define @t2164 () (=> @t1890 @t2163))
1.92/2.10	(define @t2165 () (=> @t1892 (=> true @t2164)))
1.92/2.10	(define @t2166 () (=> @t1894 @t2165))
1.92/2.10	(define @t2167 () (=> @t1896 @t2166))
1.92/2.10	(define @t2168 () (=> @t1902 @t2167))
1.92/2.10	(define @t2169 () (=> @t1954 @t2168))
1.92/2.10	(define @t2170 () (=> @t1962 @t2169))
1.92/2.10	(define @t2171 () (=> @t1976 @t2170))
1.92/2.10	(define @t2172 () (=> @t1991 @t2171))
1.92/2.10	(define @t2173 () (=> @t1994 @t2172))
1.92/2.10	(define @t2174 () (=> @t50 @t2173))
1.92/2.10	(define @t2175 () (=> @t1998 @t2174))
1.92/2.10	(define @t2176 () (=> @t2000 @t2175))
1.92/2.10	(define @t2177 () (=> @t2003 @t2176))
1.92/2.10	(define @t2178 () (=> @t1885 @t2177))
1.92/2.10	(define @t2179 () (=> @t2007 @t2178))
1.92/2.10	(define @t2180 () (or @t1260 @t1259 @t1258))
1.92/2.10	(define @t2181 () (or @t1253 @t2180))
1.92/2.10	(define @t2182 () (forall @t1262 @t2181))
1.92/2.10	(define @t2183 () (@list @t1257))
1.92/2.10	(define @t2184 () (forall @t2183 @t2181))
1.92/2.10	(define @t2185 () (forall @t2183 @t2180))
1.92/2.10	(define @t2186 () (@list @t985))
1.92/2.10	(define @t2187 () (or @t1253 @t2185))
1.92/2.10	(define @t2188 () (tptp.subset @t929 @t985))
1.92/2.10	(define @t2189 () (tptp.in @t1245 @t985))
1.92/2.10	(define @t2190 () (or @t1241 @t1247 @t1246 @t2189))
1.92/2.10	(define @t2191 () (forall @t1248 @t2190))
1.92/2.10	(define @t2192 () (not @t2191))
1.92/2.10	(define @t2193 () (tptp.subset @t985 @t1250))
1.92/2.10	(define @t2194 () (not @t2193))
1.92/2.10	(define @t2195 () (forall @t996 (or @t2194 @t2192 @t2188)))
1.92/2.10	(define @t2196 () (_ @t986 @t672))
1.92/2.10	(define @t2197 () (not @t2196))
1.92/2.10	(define @t2198 () (or @t2197 @t2195))
1.92/2.10	(define @t2199 () (_ tptp.subset @t985))
1.92/2.10	(define @t2200 () (_ @t2199 @t672))
1.92/2.10	(define @t2201 () (not @t2200))
1.92/2.10	(define @t2202 () (or @t2201 @t2192 @t987))
1.92/2.10	(define @t2203 () (=> @t2191 @t987))
1.92/2.10	(define @t2204 () (or @t1247 @t1246 @t2189))
1.92/2.10	(define @t2205 () (or @t1241 @t2204))
1.92/2.10	(define @t2206 () (forall @t1248 @t2205))
1.92/2.10	(define @t2207 () (@list @t1244))
1.92/2.10	(define @t2208 () (forall @t2207 @t2205))
1.92/2.10	(define @t2209 () (forall @t2207 @t2204))
1.92/2.10	(define @t2210 () (@list @t19))
1.92/2.10	(define @t2211 () (or @t1241 @t2209))
1.92/2.10	(define @t2212 () (tptp.in @t1283 @t985))
1.92/2.10	(define @t2213 () (tptp.in @t1283 @t929))
1.92/2.10	(define @t2214 () (not @t2213))
1.92/2.10	(define @t2215 () (not @t1394))
1.92/2.10	(define @t2216 () (forall @t70 (or @t2215 @t2214 @t2212)))
1.92/2.10	(define @t2217 () (or @t197 @t2216))
1.92/2.10	(define @t2218 () (_ tptp.in @t1283))
1.92/2.10	(define @t2219 () (not @t933))
1.92/2.10	(define @t2220 () (not @t352))
1.92/2.10	(define @t2221 () (or @t2220 @t2219 @t988))
1.92/2.10	(define @t2222 () (lambda @t118 @t1226))
1.92/2.10	(define @t2223 () (lambda (@list @t1 @t104) @t1226))
1.92/2.10	(define @t2224 () (_ @t1227 @t2))
1.92/2.10	(define @t2225 () (_ @t2224 @t1))
1.92/2.10	(define @t2226 () (_ @t2225 @t985))
1.92/2.10	(define @t2227 () (=> @t2226 @t993))
1.92/2.10	(define @t2228 () (forall @t996 @t2227))
1.92/2.10	(define @t2229 () (_ @t2225 @t929))
1.92/2.10	(define @t2230 () (=> @t2229 @t2228))
1.92/2.10	(define @t2231 () (forall @t942 @t2230))
1.92/2.10	(define @t2232 () (=> tptp.subbreln @t1256))
1.92/2.10	(define @t2233 () (= @t1264 @t1265))
1.92/2.10	(define @t2234 () (or @t1271 @t1268 @t1267 @t1266 @t2233))
1.92/2.10	(define @t2235 () (or @t1268 @t1267 @t1266 @t2233))
1.92/2.10	(define @t2236 () (or @t1271 @t2235))
1.92/2.10	(define @t2237 () (forall @t1272 @t2236))
1.92/2.10	(define @t2238 () (@list @t1263 @t1265))
1.92/2.10	(define @t2239 () (forall @t2238 @t2236))
1.92/2.10	(define @t2240 () (forall @t2238 @t2235))
1.92/2.10	(define @t2241 () (@var "BOUND_VARIABLE_12661" $$unsorted))
1.92/2.10	(define @t2242 () (@list @t4 @t2241))
1.92/2.10	(define @t2243 () (or @t1271 @t2240))
1.92/2.10	(define @t2244 () (not (tptp.in (tptp.kpair @t4 @t2241) @t874)))
1.92/2.10	(define @t2245 () (not (tptp.in @t2241 @t1)))
1.92/2.10	(define @t2246 () (@list @t4 @t2241))
1.92/2.10	(define @t2247 () (forall @t2246 (or @t1241 @t2245 @t2244 (= @t1281 @t2241))))
1.92/2.10	(define @t2248 () (not @t901))
1.92/2.10	(define @t2249 () (or @t2248 @t2247))
1.92/2.10	(define @t2250 () (= @t2241 @t1281))
1.92/2.10	(define @t2251 () (or @t1241 @t2245 @t2244 @t2250))
1.92/2.10	(define @t2252 () (or @t2245 @t2244 @t2250))
1.92/2.10	(define @t2253 () (or @t1241 @t2252))
1.92/2.10	(define @t2254 () (forall @t2246 @t2253))
1.92/2.10	(define @t2255 () (@list @t2241))
1.92/2.10	(define @t2256 () (forall @t2255 @t2253))
1.92/2.10	(define @t2257 () (forall @t2255 @t2252))
1.92/2.10	(define @t2258 () (or @t1241 @t2257))
1.92/2.10	(define @t2259 () (forall @t70 (or @t2215 (not @t1290) (= @t19 @t1281))))
1.92/2.10	(define @t2260 () (or @t197 @t2259))
1.92/2.10	(define @t2261 () (= @t19 @t893))
1.92/2.10	(define @t2262 () (not @t875))
1.92/2.10	(define @t2263 () (or @t2220 @t2262 @t2261))
1.92/2.10	(define @t2264 () (=> @t875 @t2261))
1.92/2.10	(define @t2265 () (=> tptp.funcGraphProp4 @t2232))
1.92/2.10	(define @t2266 () (or @t1289 @t1288 @t1282 @t1280 @t1279 @t1278 @t1276))
1.92/2.10	(define @t2267 () (or @t1296 @t1294 @t2266))
1.92/2.10	(define @t2268 () (forall @t1298 @t2267))
1.92/2.10	(define @t2269 () (@list @t1277 @t1274 @t1273))
1.92/2.10	(define @t2270 () (forall @t2269 @t2267))
1.92/2.10	(define @t2271 () (forall @t2269 @t2266))
1.92/2.10	(define @t2272 () (@var "BOUND_VARIABLE_12780" $$unsorted))
1.92/2.10	(define @t2273 () (@var "BOUND_VARIABLE_12778" $$unsorted))
1.92/2.10	(define @t2274 () (or @t1296 @t1294 @t2271))
1.92/2.10	(define @t2275 () (tptp.kpair @t2273 @t2272))
1.92/2.10	(define @t2276 () (tptp.in @t2275 @t874))
1.92/2.10	(define @t2277 () (not (tptp.in @t2275 @t966)))
1.92/2.10	(define @t2278 () (not (tptp.in @t2272 @t1)))
1.92/2.10	(define @t2279 () (not (tptp.in @t2273 @t2)))
1.92/2.10	(define @t2280 () (tptp.ap @t2 @t1 @t966 @t4))
1.92/2.10	(define @t2281 () (forall @t9 (or @t1241 (= @t1281 @t2280))))
1.92/2.10	(define @t2282 () (not @t2281))
1.92/2.10	(define @t2283 () (tptp.in @t1283 @t966))
1.92/2.10	(define @t2284 () (tptp.dsetconstr @t1 (lambda @t70 @t2283)))
1.92/2.10	(define @t2285 () (forall @t9 (or @t1241 (not (forall @t1287 (or (not (tptp.in @t1285 @t2284)) (not (= @t1286 @t2284))))))))
1.92/2.10	(define @t2286 () (not @t2285))
1.92/2.10	(define @t2287 () (tptp.subset @t966 @t1250))
1.92/2.10	(define @t2288 () (not @t2287))
1.92/2.10	(define @t2289 () (or @t2288 @t2286 @t2282 @t2279 @t2278 @t2277 @t2276))
1.92/2.10	(define @t2290 () (@list @t966 @t2273 @t2272))
1.92/2.10	(define @t2291 () (forall @t2290 @t2289))
1.92/2.10	(define @t2292 () (_ tptp.subset @t874))
1.92/2.10	(define @t2293 () (_ @t2292 @t672))
1.92/2.10	(define @t2294 () (not @t2293))
1.92/2.10	(define @t2295 () (or @t2294 @t1294 @t2291))
1.92/2.10	(define @t2296 () (or @t2294 @t1294))
1.92/2.10	(define @t2297 () (and @t2293 @t1293))
1.92/2.10	(define @t2298 () (not @t2297))
1.92/2.10	(define @t2299 () (or @t2279 @t2278 @t2277 @t2276))
1.92/2.10	(define @t2300 () (or @t2288 @t2286 @t2282 @t2299))
1.92/2.10	(define @t2301 () (forall @t2290 @t2300))
1.92/2.10	(define @t2302 () (@list @t2273 @t2272))
1.92/2.10	(define @t2303 () (forall @t2302 @t2300))
1.92/2.10	(define @t2304 () (forall @t2302 @t2299))
1.92/2.10	(define @t2305 () (@var "BOUND_VARIABLE_12748" $$unsorted))
1.92/2.10	(define @t2306 () (or @t2288 @t2286 @t2282 @t2304))
1.92/2.10	(define @t2307 () (tptp.kpair @t4 @t2305))
1.92/2.10	(define @t2308 () (tptp.in @t2307 @t874))
1.92/2.10	(define @t2309 () (not (tptp.in @t2307 @t966)))
1.92/2.10	(define @t2310 () (not (tptp.in @t2305 @t1)))
1.92/2.10	(define @t2311 () (or @t1241 @t2310 @t2309 @t2308))
1.92/2.10	(define @t2312 () (@list @t4 @t2305))
1.92/2.10	(define @t2313 () (forall @t2312 @t2311))
1.92/2.10	(define @t2314 () (_ tptp.subset @t966))
1.92/2.10	(define @t2315 () (_ @t2314 @t672))
1.92/2.10	(define @t2316 () (not @t2315))
1.92/2.10	(define @t2317 () (or @t2316 @t2286 @t2282 @t2313))
1.92/2.10	(define @t2318 () (=> @t2281 @t2313))
1.92/2.10	(define @t2319 () (and @t2315 @t2285))
1.92/2.10	(define @t2320 () (or @t2310 @t2309 @t2308))
1.92/2.10	(define @t2321 () (or @t1241 @t2320))
1.92/2.10	(define @t2322 () (forall @t2312 @t2321))
1.92/2.10	(define @t2323 () (@list @t2305))
1.92/2.10	(define @t2324 () (forall @t2323 @t2321))
1.92/2.10	(define @t2325 () (forall @t2323 @t2320))
1.92/2.10	(define @t2326 () (or @t1241 @t2325))
1.92/2.10	(define @t2327 () (forall @t70 (or @t2215 (not @t2283) @t1290)))
1.92/2.10	(define @t2328 () (or @t197 @t2327))
1.92/2.10	(define @t2329 () (not @t967))
1.92/2.10	(define @t2330 () (or @t2220 @t2329 @t875))
1.92/2.10	(define @t2331 () (or @t197 @t973))
1.92/2.10	(define @t2332 () (tptp.dsetconstr @t1 (lambda @t70 @t2213)))
1.92/2.10	(define @t2333 () (not (forall @t1287 (or (not (tptp.in @t1285 @t2332)) (not (= @t1286 @t2332))))))
1.92/2.10	(define @t2334 () (and @t2196 (forall @t9 (or @t1241 @t2333))))
1.92/2.10	(define @t2335 () (lambda (@list @t929) @t2334))
1.92/2.10	(define @t2336 () (lambda (@list @t1 @t929) @t2334))
1.92/2.10	(define @t2337 () (_ (lambda @t942 @t2334) @t2))
1.92/2.10	(define @t2338 () (_ @t2337 @t1))
1.92/2.10	(define @t2339 () (=> (_ @t2338 @t966) @t975))
1.92/2.10	(define @t2340 () (forall @t977 @t2339))
1.92/2.10	(define @t2341 () (_ @t2338 @t874))
1.92/2.10	(define @t2342 () (=> @t2341 @t2340))
1.92/2.10	(define @t2343 () (forall @t883 @t2342))
1.92/2.10	(define @t2344 () (or @t197 @t2333))
1.92/2.10	(define @t2345 () (tptp.dsetconstr @t1 @t1228))
1.92/2.10	(define @t2346 () (= @t1286 @t2345))
1.92/2.10	(define @t2347 () (not @t2346))
1.92/2.10	(define @t2348 () (tptp.in @t1285 @t2345))
1.92/2.10	(define @t2349 () (not @t2348))
1.92/2.10	(define @t2350 () (or @t2349 @t2347))
1.92/2.10	(define @t2351 () (not (= @t2345 @t1286)))
1.92/2.10	(define @t2352 () (or @t2349 @t2351))
1.92/2.10	(define @t2353 () (forall @t1287 @t2352))
1.92/2.10	(define @t2354 () (not @t2353))
1.92/2.10	(define @t2355 () (tptp.dsetconstr @t1 @t143))
1.92/2.10	(define @t2356 () (not (tptp.in @t1285 @t2355)))
1.92/2.10	(define @t2357 () (not (= @t1286 @t2355)))
1.92/2.10	(define @t2358 () (or @t2356 @t2357))
1.92/2.10	(define @t2359 () (forall @t1287 @t2358))
1.92/2.10	(define @t2360 () (not @t2359))
1.92/2.10	(define @t2361 () (forall @t9 (or (not (tptp.in @t4 @t2355)) (not (= @t1444 @t2355)))))
1.92/2.10	(define @t2362 () (@list @t4))
1.92/2.10	(define @t2363 () (not @t2361))
1.92/2.10	(define @t2364 () (lambda @t150 @t2363))
1.92/2.10	(define @t2365 () (lambda @t309 @t1502))
1.92/2.10	(define @t2366 () (_ @t2365 @t1))
1.92/2.10	(define @t2367 () (=> @t7 (_ @t2366 @t1228)))
1.92/2.10	(define @t2368 () (forall @t9 @t2367))
1.92/2.10	(define @t2369 () (@var "BOUND_VARIABLE_8372" $$unsorted))
1.92/2.10	(define @t2370 () (_ @t143 @t2369))
1.92/2.10	(define @t2371 () (@list @t2369))
1.92/2.10	(define @t2372 () (lambda @t2371 @t2370))
1.92/2.10	(define @t2373 () (tptp.dsetconstr @t2 @t2372))
1.92/2.10	(define @t2374 () (= @t2373 @t1444))
1.92/2.10	(define @t2375 () (not @t2374))
1.92/2.10	(define @t2376 () (tptp.in @t4 @t2373))
1.92/2.10	(define @t2377 () (not @t2376))
1.92/2.10	(define @t2378 () (or @t2377 @t2375))
1.92/2.10	(define @t2379 () (lambda @t2371 (_ @t143 @t2369)))
1.92/2.10	(define @t2380 () (lambda @t9 @t1507))
1.92/2.10	(define @t2381 () (= @t304 @t1444))
1.92/2.10	(define @t2382 () (not @t2381))
1.92/2.10	(define @t2383 () (tptp.in @t4 @t304))
1.92/2.10	(define @t2384 () (not @t2383))
1.92/2.10	(define @t2385 () (or @t2384 @t2382))
1.92/2.10	(define @t2386 () (forall @t9 @t2385))
1.92/2.10	(define @t2387 () (not @t2386))
1.92/2.10	(define @t2388 () (forall @t9 (or @t1241 (not (= @t2 @t1444)))))
1.92/2.10	(define @t2389 () (not @t2388))
1.92/2.10	(define @t2390 () (lambda @t64 @t2389))
1.92/2.10	(define @t2391 () (_ @t2390 @t304))
1.92/2.10	(define @t2392 () (not @t1221))
1.92/2.10	(define @t2393 () (or @t197 @t2392))
1.92/2.10	(define @t2394 () (forall @t9 (not @t1222)))
1.92/2.10	(define @t2395 () (not @t2394))
1.92/2.10	(define @t2396 () (=> tptp.funcextLem @t2265))
1.92/2.10	(define @t2397 () (= @t1300 @t1301))
1.92/2.10	(define @t2398 () (or @t1296 @t1294 @t1304 @t1303 @t1302 @t2397))
1.92/2.10	(define @t2399 () (or @t1304 @t1303 @t1302 @t2397))
1.92/2.10	(define @t2400 () (or @t1296 @t1294 @t2399))
1.92/2.10	(define @t2401 () (forall @t1305 @t2400))
1.92/2.10	(define @t2402 () (@list @t1299 @t1301))
1.92/2.10	(define @t2403 () (forall @t2402 @t2400))
1.92/2.10	(define @t2404 () (forall @t2402 @t2399))
1.92/2.10	(define @t2405 () (or @t1296 @t1294 @t2404))
1.92/2.10	(define @t2406 () (or @t2294 @t1294 @t2247))
1.92/2.10	(define @t2407 () (=> @t2341 @t962))
1.92/2.10	(define @t2408 () (forall @t883 @t2407))
1.92/2.10	(define @t2409 () (=> tptp.funcGraphProp2 @t2396))
1.92/2.10	(define @t2410 () (or @t1308 @t1307))
1.92/2.10	(define @t2411 () (or @t1271 @t2410))
1.92/2.10	(define @t2412 () (forall @t1310 @t2411))
1.92/2.10	(define @t2413 () (@list @t1306))
1.92/2.10	(define @t2414 () (forall @t2413 @t2411))
1.92/2.10	(define @t2415 () (forall @t2413 @t2410))
1.92/2.10	(define @t2416 () (or @t1271 @t2415))
1.92/2.10	(define @t2417 () (tptp.kpair @t4 @t1281))
1.92/2.10	(define @t2418 () (tptp.in @t2417 @t874))
1.92/2.10	(define @t2419 () (forall @t9 (or @t1241 @t2418)))
1.92/2.10	(define @t2420 () (or @t2248 @t2419))
1.92/2.10	(define @t2421 () (or @t197 @t950))
1.92/2.10	(define @t2422 () (=> tptp.funcGraphProp3 @t2409))
1.92/2.10	(define @t2423 () (or @t1313 @t1312))
1.92/2.10	(define @t2424 () (or @t1296 @t1294 @t2423))
1.92/2.10	(define @t2425 () (forall @t1315 @t2424))
1.92/2.10	(define @t2426 () (@list @t1311))
1.92/2.10	(define @t2427 () (forall @t2426 @t2424))
1.92/2.10	(define @t2428 () (forall @t2426 @t2423))
1.92/2.10	(define @t2429 () (or @t1296 @t1294 @t2428))
1.92/2.10	(define @t2430 () (or @t2294 @t1294 @t2419))
1.92/2.10	(define @t2431 () (=> @t2341 @t951))
1.92/2.10	(define @t2432 () (forall @t883 @t2431))
1.92/2.10	(define @t2433 () (=> tptp.funcGraphProp1 @t2422))
1.92/2.10	(define @t2434 () (not (= @t1324 @t1325)))
1.92/2.10	(define @t2435 () (or @t1326 @t2434 @t1322 @t1321 @t1320 @t1319 @t1318))
1.92/2.10	(define @t2436 () (or @t1322 @t1321 @t1320 @t1319 @t1318))
1.92/2.10	(define @t2437 () (or @t1326 @t2434))
1.92/2.10	(define @t2438 () (or @t2437 @t2436))
1.92/2.10	(define @t2439 () (forall @t1327 @t2438))
1.92/2.10	(define @t2440 () (forall (@list @t1323 @t1317 @t1316) @t2438))
1.92/2.10	(define @t2441 () (forall (@list @t1317 @t1316) @t2436))
1.92/2.10	(define @t2442 () (forall (@list @t1323) @t2437))
1.92/2.10	(define @t2443 () (or @t2442 @t2441))
1.92/2.10	(define @t2444 () (not @t1502))
1.92/2.10	(define @t2445 () (or @t1506 @t1505 @t1504))
1.92/2.10	(define @t2446 () (or @t1241 @t1508 @t2445))
1.92/2.10	(define @t2447 () (forall @t1510 @t2446))
1.92/2.10	(define @t2448 () (@list @t1503))
1.92/2.10	(define @t2449 () (forall @t2448 @t2446))
1.92/2.10	(define @t2450 () (forall @t2448 @t2445))
1.92/2.10	(define @t2451 () (or @t1241 @t1508 @t2450))
1.92/2.10	(define @t2452 () (or @t197 @t315 @t1524))
1.92/2.10	(define @t2453 () (or @t315 @t1524))
1.92/2.10	(define @t2454 () (not @t153))
1.92/2.10	(define @t2455 () (not @t21))
1.92/2.10	(define @t2456 () (or @t2455 @t2454 @t129))
1.92/2.10	(define @t2457 () (forall @t70 @t2456))
1.92/2.10	(define @t2458 () (or @t315 @t2457))
1.92/2.10	(define @t2459 () (or @t315 @t2456))
1.92/2.10	(define @t2460 () (or @t2455 @t315 @t2454 @t129))
1.92/2.10	(define @t2461 () (or @t315 @t2454 @t129))
1.92/2.10	(define @t2462 () (or @t2454 @t129))
1.92/2.10	(define @t2463 () (@var "BOUND_VARIABLE_11436" $$unsorted))
1.92/2.10	(define @t2464 () (lambda (@list @t2463) (_ @t143 @t2463)))
1.92/2.10	(define @t2465 () (tptp.dsetconstr @t2 @t2464))
1.92/2.10	(define @t2466 () (= @t1444 @t2465))
1.92/2.10	(define @t2467 () (not @t2466))
1.92/2.10	(define @t2468 () (tptp.in @t4 @t2465))
1.92/2.10	(define @t2469 () (not @t2468))
1.92/2.10	(define @t2470 () (or @t2469 @t2467))
1.92/2.10	(define @t2471 () (tptp.dsetconstr @t2 @t145))
1.92/2.10	(define @t2472 () (= @t1444 @t2471))
1.92/2.10	(define @t2473 () (not @t2472))
1.92/2.10	(define @t2474 () (tptp.in @t4 @t2471))
1.92/2.10	(define @t2475 () (not @t2474))
1.92/2.10	(define @t2476 () (or @t2475 @t2473))
1.92/2.10	(define @t2477 () (forall @t9 @t2476))
1.92/2.10	(define @t2478 () (not @t2477))
1.92/2.10	(define @t2479 () (lambda @t150 @t1502))
1.92/2.10	(define @t2480 () (_ @t2365 @t2))
1.92/2.10	(define @t2481 () (_ @t2480 @t145))
1.92/2.10	(define @t2482 () (=> @t2481 @t716))
1.92/2.10	(define @t2483 () (forall @t309 @t2482))
1.92/2.10	(define @t2484 () (=> tptp.ex1E2 @t2433))
1.92/2.10	(define @t2485 () (or @t1337 @t1331 @t1330))
1.92/2.10	(define @t2486 () (or @t1253 @t2485))
1.92/2.10	(define @t2487 () (forall @t1339 @t2486))
1.92/2.10	(define @t2488 () (@list @t1329 @t1328))
1.92/2.10	(define @t2489 () (forall @t2488 @t2486))
1.92/2.10	(define @t2490 () (forall @t2488 @t2485))
1.92/2.10	(define @t2491 () (@var "BOUND_VARIABLE_12504" $$unsorted))
1.92/2.10	(define @t2492 () (or @t1253 @t2490))
1.92/2.10	(define @t2493 () (_ @t143 @t2491))
1.92/2.10	(define @t2494 () (not (tptp.in @t2491 @t929)))
1.92/2.10	(define @t2495 () (_ @t143 @t1333))
1.92/2.10	(define @t2496 () (or @t1241 @t1335 @t1334 @t2495))
1.92/2.10	(define @t2497 () (forall @t1336 @t2496))
1.92/2.10	(define @t2498 () (not @t2497))
1.92/2.10	(define @t2499 () (or @t2498 @t2494 @t2493))
1.92/2.10	(define @t2500 () (@list @t143 @t2491))
1.92/2.10	(define @t2501 () (forall @t2500 @t2499))
1.92/2.10	(define @t2502 () (or @t2197 @t2501))
1.92/2.10	(define @t2503 () (or @t2494 @t2493))
1.92/2.10	(define @t2504 () (or @t2498 @t2503))
1.92/2.10	(define @t2505 () (forall @t2500 @t2504))
1.92/2.10	(define @t2506 () (@list @t2491))
1.92/2.10	(define @t2507 () (forall @t2506 @t2504))
1.92/2.10	(define @t2508 () (forall @t2506 @t2503))
1.92/2.10	(define @t2509 () (or @t2498 @t2508))
1.92/2.10	(define @t2510 () (tptp.in @t4 @t929))
1.92/2.10	(define @t2511 () (forall @t9 (or (not @t2510) @t1507)))
1.92/2.10	(define @t2512 () (not @t930))
1.92/2.10	(define @t2513 () (or @t2512 @t144))
1.92/2.10	(define @t2514 () (or @t1335 @t1334 @t2495))
1.92/2.10	(define @t2515 () (or @t1241 @t2514))
1.92/2.10	(define @t2516 () (forall @t1336 @t2515))
1.92/2.10	(define @t2517 () (@list @t1332))
1.92/2.10	(define @t2518 () (forall @t2517 @t2515))
1.92/2.10	(define @t2519 () (forall @t2517 @t2514))
1.92/2.10	(define @t2520 () (or @t1241 @t2519))
1.92/2.10	(define @t2521 () (_ @t143 @t1283))
1.92/2.10	(define @t2522 () (forall @t70 (or @t2215 @t2214 @t2521)))
1.92/2.10	(define @t2523 () (or @t197 @t2522))
1.92/2.10	(define @t2524 () (or @t2220 @t2219 @t932))
1.92/2.10	(define @t2525 () (=> @t2229 @t939))
1.92/2.10	(define @t2526 () (forall @t942 @t2525))
1.92/2.10	(define @t2527 () (=> tptp.brelnall2 @t2484))
1.92/2.10	(define @t2528 () (=> tptp.brelnall1 @t2527))
1.92/2.10	(define @t2529 () (= @t19 @t912))
1.92/2.10	(define @t2530 () (lambda @t135 @t2529))
1.92/2.10	(define @t2531 () (_ @t844 @t2530))
1.92/2.10	(define @t2532 () (_ (_ tptp.in @t2531) @t899))
1.92/2.10	(define @t2533 () (or @t1348 @t2532))
1.92/2.10	(define @t2534 () (_ @t921 @t4))
1.92/2.10	(define @t2535 () (= @t19 @t2534))
1.92/2.10	(define @t2536 () (lambda @t135 @t2535))
1.92/2.10	(define @t2537 () (lambda (@list @t911) @t2531))
1.92/2.10	(define @t2538 () (lambda (@list @t1 @t911) @t2531))
1.92/2.10	(define @t2539 () (_ (lambda @t918 @t2531) @t2))
1.92/2.10	(define @t2540 () (or @t197 @t915))
1.92/2.10	(define @t2541 () (_ (_ @t2539 @t1) @t921))
1.92/2.10	(define @t2542 () (=> @t916 (_ (_ tptp.in @t2541) @t899)))
1.92/2.10	(define @t2543 () (forall @t918 @t2542))
1.92/2.10	(define @t2544 () (=> tptp.lam2p @t2528))
1.92/2.10	(define @t2545 () (@list @t1354))
1.92/2.10	(define @t2546 () (forall @t2545 @t1359))
1.92/2.10	(define @t2547 () (forall @t2545 @t1356))
1.92/2.10	(define @t2548 () (forall @t2545 @t1357))
1.92/2.10	(define @t2549 () (and @t2548 @t2547))
1.92/2.10	(define @t2550 () (forall @t2545 @t1358))
1.92/2.10	(define @t2551 () (or @t1348 @t2550))
1.92/2.10	(define @t2552 () (tptp.dsetconstr @t1 (lambda @t70 (tptp.in @t1283 @t1353))))
1.92/2.10	(define @t2553 () (forall @t9 (or @t1241 (not (forall @t1287 (or (not (tptp.in @t1285 @t2552)) (not (= @t1286 @t2552))))))))
1.92/2.10	(define @t2554 () (_ (_ tptp.subset @t2531) @t672))
1.92/2.10	(define @t2555 () (and @t2554 @t2553))
1.92/2.10	(define @t2556 () (or @t1348 @t2555))
1.92/2.10	(define @t2557 () (lambda @t1352 (= @t1350 @t1351)))
1.92/2.10	(define @t2558 () (tptp.dpsetconstr @t2 @t1 @t2557))
1.92/2.10	(define @t2559 () (tptp.in @t1283 @t2558))
1.92/2.10	(define @t2560 () (lambda @t70 @t2559))
1.92/2.10	(define @t2561 () (tptp.dsetconstr @t1 @t2560))
1.92/2.10	(define @t2562 () (= @t1286 @t2561))
1.92/2.10	(define @t2563 () (not @t2562))
1.92/2.10	(define @t2564 () (tptp.in @t1285 @t2561))
1.92/2.10	(define @t2565 () (not @t2564))
1.92/2.10	(define @t2566 () (or @t2565 @t2563))
1.92/2.10	(define @t2567 () (forall @t1287 @t2566))
1.92/2.10	(define @t2568 () (not @t2567))
1.92/2.10	(define @t2569 () (or @t1241 @t2568))
1.92/2.10	(define @t2570 () (= @t1341 @t1351))
1.92/2.10	(define @t2571 () (@list @t4 @t1351))
1.92/2.10	(define @t2572 () (lambda @t2571 @t2570))
1.92/2.10	(define @t2573 () (tptp.dpsetconstr @t2 @t1 @t2572))
1.92/2.10	(define @t2574 () (tptp.in @t1283 @t2573))
1.92/2.10	(define @t2575 () (lambda @t70 @t2574))
1.92/2.10	(define @t2576 () (tptp.dsetconstr @t1 @t2575))
1.92/2.10	(define @t2577 () (= @t1286 @t2576))
1.92/2.10	(define @t2578 () (not @t2577))
1.92/2.10	(define @t2579 () (tptp.in @t1285 @t2576))
1.92/2.10	(define @t2580 () (not @t2579))
1.92/2.10	(define @t2581 () (or @t2580 @t2578))
1.92/2.10	(define @t2582 () (forall @t1287 @t2581))
1.92/2.10	(define @t2583 () (not @t2582))
1.92/2.10	(define @t2584 () (or @t1241 @t2583))
1.92/2.10	(define @t2585 () (= @t912 @t1351))
1.92/2.10	(define @t2586 () (lambda @t2571 @t2585))
1.92/2.10	(define @t2587 () (_ @t844 @t2586))
1.92/2.10	(define @t2588 () (tptp.in @t1283 @t2587))
1.92/2.10	(define @t2589 () (lambda @t70 @t2588))
1.92/2.10	(define @t2590 () (tptp.dsetconstr @t1 @t2589))
1.92/2.10	(define @t2591 () (= @t1286 @t2590))
1.92/2.10	(define @t2592 () (not @t2591))
1.92/2.10	(define @t2593 () (tptp.in @t1285 @t2590))
1.92/2.10	(define @t2594 () (not @t2593))
1.92/2.10	(define @t2595 () (or @t2594 @t2592))
1.92/2.10	(define @t2596 () (lambda @t2571 (= @t1351 @t912)))
1.92/2.10	(define @t2597 () (tptp.in @t1283 (_ @t844 @t2596)))
1.92/2.10	(define @t2598 () (lambda @t70 @t2597))
1.92/2.10	(define @t2599 () (lambda @t70 (tptp.in @t1283 @t2531)))
1.92/2.10	(define @t2600 () (tptp.dsetconstr @t1 @t2599))
1.92/2.10	(define @t2601 () (= @t1286 @t2600))
1.92/2.10	(define @t2602 () (not @t2601))
1.92/2.10	(define @t2603 () (tptp.in @t1285 @t2600))
1.92/2.10	(define @t2604 () (not @t2603))
1.92/2.10	(define @t2605 () (or @t2604 @t2602))
1.92/2.10	(define @t2606 () (forall @t1287 @t2605))
1.92/2.10	(define @t2607 () (not @t2606))
1.92/2.10	(define @t2608 () (or @t1241 @t2607))
1.92/2.10	(define @t2609 () (forall @t9 @t2608))
1.92/2.10	(define @t2610 () (and @t2554 @t2609))
1.92/2.10	(define @t2611 () (=> @t916 (_ @t2338 @t2541)))
1.92/2.10	(define @t2612 () (forall @t918 @t2611))
1.92/2.10	(define @t2613 () (=> tptp.lamp @t2544))
1.92/2.10	(define @t2614 () (=> @t916 (_ @t2338 @t914)))
1.92/2.10	(define @t2615 () (forall @t918 @t2614))
1.92/2.10	(define @t2616 () (=> tptp.lamProp @t2613))
1.92/2.10	(define @t2617 () (or @t2294 @t1294 @t901))
1.92/2.10	(define @t2618 () (=> @t2341 @t901))
1.92/2.10	(define @t2619 () (forall @t883 @t2618))
1.92/2.10	(define @t2620 () (=> tptp.funcinfuncset @t2616))
1.92/2.10	(define @t2621 () (or @t1363 @t1362))
1.92/2.10	(define @t2622 () (or @t1271 @t2621))
1.92/2.10	(define @t2623 () (forall @t1365 @t2622))
1.92/2.10	(define @t2624 () (@list @t1361))
1.92/2.10	(define @t2625 () (forall @t2624 @t2622))
1.92/2.10	(define @t2626 () (forall @t2624 @t2621))
1.92/2.10	(define @t2627 () (or @t1271 @t2626))
1.92/2.10	(define @t2628 () (tptp.in @t1281 @t1))
1.92/2.10	(define @t2629 () (forall @t9 (or @t1241 @t2628)))
1.92/2.10	(define @t2630 () (or @t2248 @t2629))
1.92/2.10	(define @t2631 () (or @t197 @t894))
1.92/2.10	(define @t2632 () (=> tptp.ap2p @t2620))
1.92/2.10	(define @t2633 () (@list @t1366))
1.92/2.10	(define @t2634 () (forall @t2633 @t1370))
1.92/2.10	(define @t2635 () (forall @t2633 @t1368))
1.92/2.10	(define @t2636 () (forall @t2633 @t1295))
1.92/2.10	(define @t2637 () (and @t2636 @t2635))
1.92/2.10	(define @t2638 () (forall @t2633 @t1369))
1.92/2.10	(define @t2639 () (or @t1271 @t2638))
1.92/2.10	(define @t2640 () (or @t2248 @t2297))
1.92/2.10	(define @t2641 () (=> @t901 @t2341))
1.92/2.10	(define @t2642 () (forall @t883 @t2641))
1.92/2.10	(define @t2643 () (=> tptp.infuncsetfunc @t2632))
1.92/2.10	(define @t2644 () (or @t1374 @t1373))
1.92/2.10	(define @t2645 () (or @t1296 @t1294 @t2644))
1.92/2.10	(define @t2646 () (forall @t1376 @t2645))
1.92/2.10	(define @t2647 () (@list @t1372))
1.92/2.10	(define @t2648 () (forall @t2647 @t2645))
1.92/2.10	(define @t2649 () (forall @t2647 @t2644))
1.92/2.10	(define @t2650 () (or @t1296 @t1294 @t2649))
1.92/2.10	(define @t2651 () (or @t2294 @t1294 @t2629))
1.92/2.10	(define @t2652 () (=> @t2341 @t895))
1.92/2.10	(define @t2653 () (forall @t883 @t2652))
1.92/2.10	(define @t2654 () (=> tptp.app @t2643))
1.92/2.10	(define @t2655 () (or @t1379 @t1378))
1.92/2.10	(define @t2656 () (or @t1296 @t1294 @t2655))
1.92/2.10	(define @t2657 () (forall @t1381 @t2656))
1.92/2.10	(define @t2658 () (@list @t1377))
1.92/2.10	(define @t2659 () (forall @t2658 @t2656))
1.92/2.10	(define @t2660 () (forall @t2658 @t2655))
1.92/2.10	(define @t2661 () (or @t1296 @t1294 @t2660))
1.92/2.10	(define @t2662 () (tptp.setunion @t1292))
1.92/2.10	(define @t2663 () (tptp.in @t2662 @t1))
1.92/2.10	(define @t2664 () (forall @t9 (or @t1241 @t2663)))
1.92/2.10	(define @t2665 () (or @t2294 @t1294 @t2664))
1.92/2.10	(define @t2666 () (or @t197 @t887))
1.92/2.10	(define @t2667 () (=> @t2341 @t888))
1.92/2.10	(define @t2668 () (forall @t883 @t2667))
1.92/2.10	(define @t2669 () (=> tptp.apProp @t2654))
1.92/2.10	(define @t2670 () (not (= @t1383 @t1385)))
1.92/2.10	(define @t2671 () (or @t1386 @t2670))
1.92/2.10	(define @t2672 () (forall @t1387 @t2671))
1.92/2.10	(define @t2673 () (not @t2672))
1.92/2.10	(define @t2674 () (or @t1296 @t1294 @t1388 @t2673))
1.92/2.10	(define @t2675 () (or @t1388 @t2673))
1.92/2.10	(define @t2676 () (or @t1296 @t1294 @t2675))
1.92/2.10	(define @t2677 () (forall @t1389 @t2676))
1.92/2.10	(define @t2678 () (@list @t1382))
1.92/2.10	(define @t2679 () (forall @t2678 @t2676))
1.92/2.10	(define @t2680 () (forall @t2678 @t2675))
1.92/2.10	(define @t2681 () (or @t1296 @t1294 @t2680))
1.92/2.10	(define @t2682 () (not (forall @t1387 (or (not (tptp.in @t1384 @t1292)) (not (= @t1292 @t1385))))))
1.92/2.10	(define @t2683 () (forall @t9 (or @t1241 @t2682)))
1.92/2.10	(define @t2684 () (or @t2294 @t1294 @t2683))
1.92/2.10	(define @t2685 () (or @t197 @t2682))
1.92/2.10	(define @t2686 () (= @t877 @t1385))
1.92/2.10	(define @t2687 () (not @t2686))
1.92/2.10	(define @t2688 () (tptp.in @t1384 @t877))
1.92/2.10	(define @t2689 () (not @t2688))
1.92/2.10	(define @t2690 () (or @t2689 @t2687))
1.92/2.10	(define @t2691 () (forall @t1387 @t2690))
1.92/2.10	(define @t2692 () (not @t2691))
1.92/2.10	(define @t2693 () (=> @t7 (_ @t2390 @t877)))
1.92/2.10	(define @t2694 () (forall @t9 @t2693))
1.92/2.10	(define @t2695 () (=> @t2341 @t2694))
1.92/2.10	(define @t2696 () (forall @t883 @t2695))
1.92/2.10	(define @t2697 () (=> tptp.funcImageSingleton @t2669))
1.92/2.10	(define @t2698 () (_ @t67 @t289 @t381))
1.92/2.10	(define @t2699 () (lambda @t386 @t2698))
1.92/2.10	(define @t2700 () (tptp.dpsetconstr @t2 @t1 @t2699))
1.92/2.10	(define @t2701 () (tptp.in @t1283 @t2700))
1.92/2.10	(define @t2702 () (not @t2701))
1.92/2.10	(define @t2703 () (or @t2702 @t1390))
1.92/2.10	(define @t2704 () (not @t846))
1.92/2.10	(define @t2705 () (or @t2704 @t76))
1.92/2.10	(define @t2706 () (=> tptp.dpsetconstrER @t2697))
1.92/2.10	(define @t2707 () (or @t2702 @t1394))
1.92/2.10	(define @t2708 () (or @t2704 @t352))
1.92/2.10	(define @t2709 () (=> tptp.dpsetconstrEL2 @t2706))
1.92/2.10	(define @t2710 () (or @t2702 @t1240))
1.92/2.10	(define @t2711 () (or @t2704 @t7))
1.92/2.10	(define @t2712 () (=> tptp.dpsetconstrEL1 @t2709))
1.92/2.10	(define @t2713 () (or @t1398 @t1397 @t1396))
1.92/2.10	(define @t2714 () (or @t1241 @t2713))
1.92/2.10	(define @t2715 () (forall @t1400 @t2714))
1.92/2.10	(define @t2716 () (@list @t1395))
1.92/2.10	(define @t2717 () (forall @t2716 @t2714))
1.92/2.10	(define @t2718 () (forall @t2716 @t2713))
1.92/2.10	(define @t2719 () (or @t1241 @t2718))
1.92/2.10	(define @t2720 () (forall @t70 (or @t2215 @t1393 @t1390)))
1.92/2.10	(define @t2721 () (or @t197 @t2720))
1.92/2.10	(define @t2722 () (or @t2215 @t2702 @t1390))
1.92/2.10	(define @t2723 () (or @t2220 @t2704 @t76))
1.92/2.10	(define @t2724 () (=> tptp.dpsetconstrERa @t2712))
1.92/2.10	(define @t2725 () (lambda @t135 @t1390))
1.92/2.10	(define @t2726 () (tptp.dpsetconstr @t2 @t1 @t2725))
1.92/2.10	(define @t2727 () (tptp.subset @t2726 @t1250))
1.92/2.10	(define @t2728 () (forall @t856 (_ @t2225 @t854)))
1.92/2.10	(define @t2729 () (=> tptp.setOfPairsIsBReln @t2724))
1.92/2.10	(define @t2730 () (=> tptp.dpsetconstrSub @t2729))
1.92/2.10	(define @t2731 () (or @t1405 @t1404 @t1403))
1.92/2.10	(define @t2732 () (or @t1241 @t2731))
1.92/2.10	(define @t2733 () (forall @t1407 @t2732))
1.92/2.10	(define @t2734 () (@list @t1402))
1.92/2.10	(define @t2735 () (forall @t2734 @t2732))
1.92/2.10	(define @t2736 () (forall @t2734 @t2731))
1.92/2.10	(define @t2737 () (or @t1241 @t2736))
1.92/2.10	(define @t2738 () (forall @t70 (or @t2215 @t1970 @t1392)))
1.92/2.10	(define @t2739 () (or @t197 @t2738))
1.92/2.10	(define @t2740 () (or @t2215 @t1970 @t2701))
1.92/2.10	(define @t2741 () (not @t76))
1.92/2.10	(define @t2742 () (or @t2220 @t2741 @t846))
1.92/2.10	(define @t2743 () (=> tptp.dpsetconstrI @t2730))
1.92/2.10	(define @t2744 () (_ tptp.kpair @t1409))
1.92/2.10	(define @t2745 () (= @t381 @t811))
1.92/2.10	(define @t2746 () (not @t684))
1.92/2.10	(define @t2747 () (or @t2746 @t2745))
1.92/2.10	(define @t2748 () (=> tptp.cartprodpairsurjEq @t2743))
1.92/2.10	(define @t2749 () (or @t1416 @t1415))
1.92/2.10	(define @t2750 () (or @t1241 @t2749))
1.92/2.10	(define @t2751 () (forall @t1418 @t2750))
1.92/2.10	(define @t2752 () (@list @t1414))
1.92/2.10	(define @t2753 () (forall @t2752 @t2750))
1.92/2.10	(define @t2754 () (forall @t2752 @t2749))
1.92/2.10	(define @t2755 () (or @t1241 @t2754))
1.92/2.10	(define @t2756 () (forall @t70 (or @t2215 @t1435)))
1.92/2.10	(define @t2757 () (or @t197 @t2756))
1.92/2.10	(define @t2758 () (= @t19 @t806))
1.92/2.10	(define @t2759 () (or @t2220 @t2758))
1.92/2.10	(define @t2760 () (=> tptp.cartprodsndpairEq @t2748))
1.92/2.10	(define @t2761 () (or @t1421 @t1420))
1.92/2.10	(define @t2762 () (or @t1241 @t2761))
1.92/2.10	(define @t2763 () (forall @t1423 @t2762))
1.92/2.10	(define @t2764 () (@list @t1419))
1.92/2.10	(define @t2765 () (forall @t2764 @t2762))
1.92/2.10	(define @t2766 () (forall @t2764 @t2761))
1.92/2.10	(define @t2767 () (or @t1241 @t2766))
1.92/2.10	(define @t2768 () (forall @t70 (or @t2215 @t1476)))
1.92/2.10	(define @t2769 () (or @t197 @t2768))
1.92/2.10	(define @t2770 () (= @t4 @t760))
1.92/2.10	(define @t2771 () (or @t2220 @t2770))
1.92/2.10	(define @t2772 () (=> tptp.cartprodfstpairEq @t2760))
1.92/2.10	(define @t2773 () (=> tptp.cartprodmempaircEq @t2772))
1.92/2.10	(define @t2774 () (not @t673))
1.92/2.10	(define @t2775 () (or @t2774 @t352))
1.92/2.10	(define @t2776 () (=> tptp.cartprodpairmemER @t2773))
1.92/2.10	(define @t2777 () (or @t2774 @t7))
1.92/2.10	(define @t2778 () (=> tptp.cartprodpairmemEL @t2776))
1.92/2.10	(define @t2779 () (or @t2746 @t816))
1.92/2.10	(define @t2780 () (=> tptp.cartprodsndin @t2778))
1.92/2.10	(define @t2781 () (not @t689))
1.92/2.10	(define @t2782 () (or @t2781 @t2745))
1.92/2.10	(define @t2783 () (=> tptp.kpairsurjEq @t2780))
1.92/2.10	(define @t2784 () (=> tptp.ksndpairEq @t2783))
1.92/2.10	(define @t2785 () (or @t2781 @t1445))
1.92/2.10	(define @t2786 () (lambda @t1440 (= @t381 (_ @t798 @t1437))))
1.92/2.10	(define @t2787 () (_ tptp.dsetconstr @t1442))
1.92/2.10	(define @t2788 () (tptp.kpair @t1409 @t4))
1.92/2.10	(define @t2789 () (= @t1444 @t802))
1.92/2.10	(define @t2790 () (not @t2789))
1.92/2.10	(define @t2791 () (tptp.in @t4 @t802))
1.92/2.10	(define @t2792 () (not @t2791))
1.92/2.10	(define @t2793 () (or @t2792 @t2790))
1.92/2.10	(define @t2794 () (not (= @t802 @t1444)))
1.92/2.10	(define @t2795 () (or @t2792 @t2794))
1.92/2.10	(define @t2796 () (forall @t9 @t2795))
1.92/2.10	(define @t2797 () (not @t2796))
1.92/2.10	(define @t2798 () (_ @t2390 @t802))
1.92/2.10	(define @t2799 () (=> @t689 @t2798))
1.92/2.10	(define @t2800 () (forall @t752 @t2799))
1.92/2.10	(define @t2801 () (=> tptp.ksndsingleton @t2784))
1.92/2.10	(define @t2802 () (not @t777))
1.92/2.10	(define @t2803 () (or @t2802 @t787))
1.92/2.10	(define @t2804 () (=> tptp.setukpairinjR @t2801))
1.92/2.10	(define @t2805 () (_ tptp.setadjoin @t1444))
1.92/2.10	(define @t2806 () (not @t772))
1.92/2.10	(define @t2807 () (or @t2806 @t787))
1.92/2.10	(define @t2808 () (=> tptp.setukpairinjR2 @t2804))
1.92/2.10	(define @t2809 () (not @t791))
1.92/2.10	(define @t2810 () (or @t2809 @t129))
1.92/2.10	(define @t2811 () (=> tptp.upairequniteq @t2808))
1.92/2.10	(define @t2812 () (not true))
1.92/2.10	(define @t2813 () (not (= @t381 @t381)))
1.92/2.10	(define @t2814 () (or @t1462 @t2813 @t787))
1.92/2.10	(define @t2815 () (not @t385))
1.92/2.10	(define @t2816 () (or @t2815 @t1459 @t2815 @t787))
1.92/2.10	(define @t2817 () (@list @t289))
1.92/2.10	(define @t2818 () (or @t1459 @t2815 @t787))
1.92/2.10	(define @t2819 () (forall @t2817 @t2818))
1.92/2.10	(define @t2820 () (forall @t1464 @t2819))
1.92/2.10	(define @t2821 () (forall (@list @t4 @t19 @t381 @t289) @t2818))
1.92/2.10	(define @t2822 () (or @t2806 @t2815 @t787))
1.92/2.10	(define @t2823 () (=> tptp.setukpairinjR1 @t2811))
1.92/2.10	(define @t2824 () (not (= @t19 @t19)))
1.92/2.10	(define @t2825 () (or @t2824 @t1467))
1.92/2.10	(define @t2826 () (tptp.setadjoin @t1444 tptp.emptyset))
1.92/2.10	(define @t2827 () (= @t1458 @t2826))
1.92/2.10	(define @t2828 () (or @t282 @t282 @t2827))
1.92/2.10	(define @t2829 () (or @t282 @t2827))
1.92/2.10	(define @t2830 () (forall @t9 @t2829))
1.92/2.10	(define @t2831 () (forall @t70 @t2830))
1.92/2.10	(define @t2832 () (@list @t19 @t4))
1.92/2.10	(define @t2833 () (forall @t2832 @t2829))
1.92/2.10	(define @t2834 () (or @t282 @t784))
1.92/2.10	(define @t2835 () (=> tptp.setukpairinjR12 @t2823))
1.92/2.10	(define @t2836 () (or @t2824 @t1469))
1.92/2.10	(define @t2837 () (= @t1444 @t1456))
1.92/2.10	(define @t2838 () (or @t282 @t282 @t2837))
1.92/2.10	(define @t2839 () (or @t282 @t2837))
1.92/2.10	(define @t2840 () (forall @t9 @t2839))
1.92/2.10	(define @t2841 () (forall @t70 @t2840))
1.92/2.10	(define @t2842 () (forall @t2832 @t2839))
1.92/2.10	(define @t2843 () (= @t279 @t291))
1.92/2.10	(define @t2844 () (or @t282 @t2843))
1.92/2.10	(define @t2845 () (=> tptp.setukpairinjR11 @t2835))
1.92/2.10	(define @t2846 () (or @t2802 @t740))
1.92/2.10	(define @t2847 () (=> tptp.setukpairinjL @t2845))
1.92/2.10	(define @t2848 () (or @t2806 @t740))
1.92/2.10	(define @t2849 () (=> tptp.setukpairinjL2 @t2847))
1.92/2.10	(define @t2850 () (or @t2746 @t765))
1.92/2.10	(define @t2851 () (=> tptp.cartprodfstin @t2849))
1.92/2.10	(define @t2852 () (=> tptp.kfstpairEq @t2851))
1.92/2.10	(define @t2853 () (not (= @t1479 @t1479)))
1.92/2.10	(define @t2854 () (or @t1481 @t1480 @t2853))
1.92/2.10	(define @t2855 () (not (= @t692 @t1479)))
1.92/2.10	(define @t2856 () (not (tptp.in @t1478 @t692)))
1.92/2.10	(define @t2857 () (tptp.setunion @t692))
1.92/2.10	(define @t2858 () (tptp.in @t2857 @t692))
1.92/2.10	(define @t2859 () (or @t2855 @t2858 @t2856 @t2855))
1.92/2.10	(define @t2860 () (or @t2858 @t2856 @t2855))
1.92/2.10	(define @t2861 () (forall @t696 @t2860))
1.92/2.10	(define @t2862 () (forall @t1483 @t2861))
1.92/2.10	(define @t2863 () (forall (@list @t1478 @t692) @t2860))
1.92/2.10	(define @t2864 () (@list @t692 @t1478))
1.92/2.10	(define @t2865 () (or @t2856 @t2855))
1.92/2.10	(define @t2866 () (or @t2865 @t2858))
1.92/2.10	(define @t2867 () (forall @t2864 @t2866))
1.92/2.10	(define @t2868 () (forall @t1483 @t2866))
1.92/2.10	(define @t2869 () (forall @t1483 @t2865))
1.92/2.10	(define @t2870 () (or @t2869 @t2858))
1.92/2.10	(define @t2871 () (forall @t9 (or @t1543 (not (= @t692 @t1444)))))
1.92/2.10	(define @t2872 () (or @t2871 @t756))
1.92/2.10	(define @t2873 () (not @t2871))
1.92/2.10	(define @t2874 () (_ @t2390 @t692))
1.92/2.10	(define @t2875 () (=> @t2874 @t756))
1.92/2.10	(define @t2876 () (forall @t696 @t2875))
1.92/2.10	(define @t2877 () (=> tptp.theprop @t2852))
1.92/2.10	(define @t2878 () (or @t2781 @t1491))
1.92/2.10	(define @t2879 () (_ (_ tptp.setadjoin @t1485) tptp.emptyset))
1.92/2.10	(define @t2880 () (lambda @t1488 (_ (_ tptp.in @t2879) @t381)))
1.92/2.10	(define @t2881 () (tptp.in @t1444 @t381))
1.92/2.10	(define @t2882 () (_ tptp.in @t1444))
1.92/2.10	(define @t2883 () (= @t1444 @t750))
1.92/2.10	(define @t2884 () (not @t2883))
1.92/2.10	(define @t2885 () (tptp.in @t4 @t750))
1.92/2.10	(define @t2886 () (not @t2885))
1.92/2.10	(define @t2887 () (or @t2886 @t2884))
1.92/2.10	(define @t2888 () (not (= @t750 @t1444)))
1.92/2.10	(define @t2889 () (or @t2886 @t2888))
1.92/2.10	(define @t2890 () (forall @t9 @t2889))
1.92/2.10	(define @t2891 () (not @t2890))
1.92/2.10	(define @t2892 () (_ @t2390 @t750))
1.92/2.10	(define @t2893 () (=> @t689 @t2892))
1.92/2.10	(define @t2894 () (forall @t752 @t2893))
1.92/2.10	(define @t2895 () (=> tptp.kfstsingleton @t2877))
1.92/2.10	(define @t2896 () (not @t743))
1.92/2.10	(define @t2897 () (or @t2896 @t740))
1.92/2.10	(define @t2898 () (=> tptp.setukpairinjL1 @t2895))
1.92/2.10	(define @t2899 () (not (= @t1455 @t1444)))
1.92/2.10	(define @t2900 () (or @t2899 @t129))
1.92/2.10	(define @t2901 () (= @t275 @t279))
1.92/2.10	(define @t2902 () (not @t2901))
1.92/2.10	(define @t2903 () (or @t2902 @t129))
1.92/2.10	(define @t2904 () (=> tptp.singletonsuniq @t2898))
1.92/2.10	(define @t2905 () (or @t1498 @t1497))
1.92/2.10	(define @t2906 () (or @t1512 @t2905 @t1502))
1.92/2.10	(define @t2907 () (forall @t1514 @t2906))
1.92/2.10	(define @t2908 () (@list @t1496))
1.92/2.10	(define @t2909 () (forall @t2908 @t2906))
1.92/2.10	(define @t2910 () (forall @t2908 @t2905))
1.92/2.10	(define @t2911 () (or @t1512 @t2910 @t1502))
1.92/2.10	(define @t2912 () (or @t1512 @t1530 @t1502))
1.92/2.10	(define @t2913 () (not @t1531))
1.92/2.10	(define @t2914 () (=> @t1531 @t1502))
1.92/2.10	(define @t2915 () (or @t197 @t315))
1.92/2.10	(define @t2916 () (forall @t9 (not @t306)))
1.92/2.10	(define @t2917 () (not @t2916))
1.92/2.10	(define @t2918 () (=> @t307 @t2481))
1.92/2.10	(define @t2919 () (=> @t716 @t2918))
1.92/2.10	(define @t2920 () (forall @t309 @t2919))
1.92/2.10	(define @t2921 () (=> tptp.ex1I2 @t2904))
1.92/2.10	(define @t2922 () (not (= @t1517 @t1325)))
1.92/2.10	(define @t2923 () (or @t1518 @t2922))
1.92/2.10	(define @t2924 () (forall @t1519 @t2923))
1.92/2.10	(define @t2925 () (not @t2924))
1.92/2.10	(define @t2926 () (or @t1241 @t1508 @t1525 @t2925))
1.92/2.10	(define @t2927 () (or @t197 @t315 @t1525 @t1502))
1.92/2.10	(define @t2928 () (or @t315 @t1525 @t1502))
1.92/2.10	(define @t2929 () (=> @t1524 @t1502))
1.92/2.10	(define @t2930 () (=> @t144 @t2929))
1.92/2.10	(define @t2931 () (lambda @t70 @t1520))
1.92/2.10	(define @t2932 () (tptp.dsetconstr @t2 @t2931))
1.92/2.10	(define @t2933 () (= @t1444 @t2932))
1.92/2.10	(define @t2934 () (not @t2933))
1.92/2.10	(define @t2935 () (tptp.in @t4 @t2932))
1.92/2.10	(define @t2936 () (not @t2935))
1.92/2.10	(define @t2937 () (or @t2936 @t2934))
1.92/2.10	(define @t2938 () (tptp.dsetconstr @t2 @t154))
1.92/2.10	(define @t2939 () (= @t1444 @t2938))
1.92/2.10	(define @t2940 () (not @t2939))
1.92/2.10	(define @t2941 () (tptp.in @t4 @t2938))
1.92/2.10	(define @t2942 () (not @t2941))
1.92/2.10	(define @t2943 () (or @t2942 @t2940))
1.92/2.10	(define @t2944 () (forall @t9 @t2943))
1.92/2.10	(define @t2945 () (not @t2944))
1.92/2.10	(define @t2946 () (=> @t727 (_ @t2480 @t154)))
1.92/2.10	(define @t2947 () (=> @t144 @t2946))
1.92/2.10	(define @t2948 () (=> @t7 @t2947))
1.92/2.10	(define @t2949 () (forall @t159 @t2948))
1.92/2.10	(define @t2950 () (=> tptp.ex1I @t2921))
1.92/2.10	(define @t2951 () (not (= @t1528 @t1325)))
1.92/2.10	(define @t2952 () (or @t1531 @t1529 @t2951))
1.92/2.10	(define @t2953 () (or @t1529 @t2951))
1.92/2.10	(define @t2954 () (or @t2953 @t1531))
1.92/2.10	(define @t2955 () (forall @t1532 @t2954))
1.92/2.10	(define @t2956 () (@list @t1527))
1.92/2.10	(define @t2957 () (forall @t2956 @t2954))
1.92/2.10	(define @t2958 () (forall @t2956 @t2953))
1.92/2.10	(define @t2959 () (or @t2958 @t1531))
1.92/2.10	(define @t2960 () (=> @t2481 @t307))
1.92/2.10	(define @t2961 () (forall @t309 @t2960))
1.92/2.10	(define @t2962 () (=> tptp.ex1E1 @t2950))
1.92/2.10	(define @t2963 () (=> @t307 @t2391))
1.92/2.10	(define @t2964 () (=> @t716 @t2963))
1.92/2.10	(define @t2965 () (forall @t309 @t2964))
1.92/2.10	(define @t2966 () (=> tptp.singletonprop @t2962))
1.92/2.10	(define @t2967 () (= @t4 @t709))
1.92/2.10	(define @t2968 () (=> tptp.setunionsingleton @t2966))
1.92/2.10	(define @t2969 () (=> tptp.setunionsingleton2 @t2968))
1.92/2.10	(define @t2970 () (=> tptp.setunionsingleton1 @t2969))
1.92/2.10	(define @t2971 () (not @t44))
1.92/2.10	(define @t2972 () (or @t2971 @t1545))
1.92/2.10	(define @t2973 () (not @t693))
1.92/2.10	(define @t2974 () (not @t694))
1.92/2.10	(define @t2975 () (or @t2974 @t2973))
1.92/2.10	(define @t2976 () (forall @t696 (not @t695)))
1.92/2.10	(define @t2977 () (not @t2976))
1.92/2.10	(define @t2978 () (=> tptp.setunionE2 @t2970))
1.92/2.10	(define @t2979 () (or @t2746 @t689))
1.92/2.10	(define @t2980 () (=> tptp.cartprodmempair @t2978))
1.92/2.10	(define @t2981 () (or @t2746 @t1556))
1.92/2.10	(define @t2982 () (or @t1553 @t1552))
1.92/2.10	(define @t2983 () (or @t1241 @t2982))
1.92/2.10	(define @t2984 () (forall @t1555 @t2983))
1.92/2.10	(define @t2985 () (@list @t1551))
1.92/2.10	(define @t2986 () (forall @t2985 @t2983))
1.92/2.10	(define @t2987 () (forall @t2985 @t2982))
1.92/2.10	(define @t2988 () (or @t1241 @t2987))
1.92/2.10	(define @t2989 () (forall @t70 (or @t2215 (not (= @t381 @t1283)))))
1.92/2.10	(define @t2990 () (or @t197 @t2989))
1.92/2.10	(define @t2991 () (not @t2989))
1.92/2.10	(define @t2992 () (and @t7 @t2991))
1.92/2.10	(define @t2993 () (forall @t9 (not @t2992)))
1.92/2.10	(define @t2994 () (not @t2993))
1.92/2.10	(define @t2995 () (not @t678))
1.92/2.10	(define @t2996 () (or @t2220 @t2995))
1.92/2.10	(define @t2997 () (forall @t70 (not @t679)))
1.92/2.10	(define @t2998 () (not @t2997))
1.92/2.10	(define @t2999 () (=> tptp.cartprodmempair1 @t2980))
1.92/2.10	(define @t3000 () (or @t1560 @t1559))
1.92/2.10	(define @t3001 () (or @t1241 @t3000))
1.92/2.10	(define @t3002 () (forall @t1562 @t3001))
1.92/2.10	(define @t3003 () (@list @t1558))
1.92/2.10	(define @t3004 () (forall @t3003 @t3001))
1.92/2.10	(define @t3005 () (forall @t3003 @t3000))
1.92/2.10	(define @t3006 () (or @t1241 @t3005))
1.92/2.10	(define @t3007 () (forall @t70 (or @t2215 @t1425)))
1.92/2.10	(define @t3008 () (or @t197 @t3007))
1.92/2.10	(define @t3009 () (or @t2220 @t673))
1.92/2.10	(define @t3010 () (=> tptp.cartprodpairin @t2999))
1.92/2.10	(define @t3011 () (or @t1569 @t1568))
1.92/2.10	(define @t3012 () (or @t1241 @t3011))
1.92/2.10	(define @t3013 () (forall @t1571 @t3012))
1.92/2.10	(define @t3014 () (@list @t1567))
1.92/2.10	(define @t3015 () (forall @t3014 @t3012))
1.92/2.10	(define @t3016 () (forall @t3014 @t3011))
1.92/2.10	(define @t3017 () (or @t1241 @t3016))
1.92/2.10	(define @t3018 () (tptp.in @t1283 @t1566))
1.92/2.10	(define @t3019 () (forall @t70 (or @t2215 @t3018)))
1.92/2.10	(define @t3020 () (or @t197 @t3019))
1.92/2.10	(define @t3021 () (or @t2220 @t667))
1.92/2.10	(define @t3022 () (=> tptp.ubforcartprodlem3 @t3010))
1.92/2.10	(define @t3023 () (or @t1575 @t1574))
1.92/2.10	(define @t3024 () (or @t1241 @t3023))
1.92/2.10	(define @t3025 () (forall @t1577 @t3024))
1.92/2.10	(define @t3026 () (@list @t1573))
1.92/2.10	(define @t3027 () (forall @t3026 @t3024))
1.92/2.10	(define @t3028 () (forall @t3026 @t3023))
1.92/2.10	(define @t3029 () (or @t1241 @t3028))
1.92/2.10	(define @t3030 () (tptp.in @t1458 @t1566))
1.92/2.10	(define @t3031 () (forall @t70 (or @t2215 @t3030)))
1.92/2.10	(define @t3032 () (or @t197 @t3031))
1.92/2.10	(define @t3033 () (or @t2220 @t661))
1.92/2.10	(define @t3034 () (=> tptp.ubforcartprodlem2 @t3022))
1.92/2.10	(define @t3035 () (or @t1581 @t1580))
1.92/2.10	(define @t3036 () (or @t1241 @t3035))
1.92/2.10	(define @t3037 () (forall @t1583 @t3036))
1.92/2.10	(define @t3038 () (@list @t1579))
1.92/2.10	(define @t3039 () (forall @t3038 @t3036))
1.92/2.10	(define @t3040 () (forall @t3038 @t3035))
1.92/2.10	(define @t3041 () (or @t1241 @t3040))
1.92/2.10	(define @t3042 () (tptp.subset @t1458 @t1565))
1.92/2.10	(define @t3043 () (forall @t70 (or @t2215 @t3042)))
1.92/2.10	(define @t3044 () (or @t197 @t3043))
1.92/2.10	(define @t3045 () (or @t2220 @t655))
1.92/2.10	(define @t3046 () (=> tptp.ubforcartprodlem1 @t3034))
1.92/2.10	(define @t3047 () (or @t1587 @t1586))
1.92/2.10	(define @t3048 () (or @t1241 @t3047))
1.92/2.10	(define @t3049 () (forall @t1589 @t3048))
1.92/2.10	(define @t3050 () (@list @t1585))
1.92/2.10	(define @t3051 () (forall @t3050 @t3048))
1.92/2.10	(define @t3052 () (forall @t3050 @t3047))
1.92/2.10	(define @t3053 () (or @t1241 @t3052))
1.92/2.10	(define @t3054 () (tptp.in @t1456 @t1565))
1.92/2.10	(define @t3055 () (forall @t70 (or @t2215 @t3054)))
1.92/2.10	(define @t3056 () (or @t197 @t3055))
1.92/2.10	(define @t3057 () (or @t2220 @t650))
1.92/2.10	(define @t3058 () (=> tptp.upairinpowunion @t3046))
1.92/2.10	(define @t3059 () (or @t1593 @t1592))
1.92/2.10	(define @t3060 () (or @t1241 @t3059))
1.92/2.10	(define @t3061 () (forall @t1595 @t3060))
1.92/2.10	(define @t3062 () (@list @t1591))
1.92/2.10	(define @t3063 () (forall @t3062 @t3060))
1.92/2.10	(define @t3064 () (forall @t3062 @t3059))
1.92/2.10	(define @t3065 () (or @t1241 @t3064))
1.92/2.10	(define @t3066 () (tptp.subset @t1456 @t1564))
1.92/2.10	(define @t3067 () (forall @t70 (or @t2215 @t3066)))
1.92/2.10	(define @t3068 () (or @t197 @t3067))
1.92/2.10	(define @t3069 () (or @t2220 @t645))
1.92/2.10	(define @t3070 () (=> tptp.upairsubunion @t3058))
1.92/2.10	(define @t3071 () (not @t293))
1.92/2.10	(define @t3072 () (or @t3071 @t740 @t1597))
1.92/2.10	(define @t3073 () (or @t740 @t1597))
1.92/2.10	(define @t3074 () (=> tptp.upairset2E @t3070))
1.92/2.10	(define @t3075 () (or @t197 @t642))
1.92/2.10	(define @t3076 () (=> tptp.singletoninpowunion @t3074))
1.92/2.10	(define @t3077 () (or @t197 @t638))
1.92/2.10	(define @t3078 () (=> tptp.singletoninpowerset @t3076))
1.92/2.10	(define @t3079 () (or @t197 @t634))
1.92/2.10	(define @t3080 () (=> tptp.singletonsubset @t3078))
1.92/2.10	(define @t3081 () (=> tptp.kpairp @t3080))
1.92/2.10	(define @t3082 () (=> tptp.kpairiskpair @t3081))
1.92/2.10	(define @t3083 () (=> tptp.setukpairIR @t3082))
1.92/2.10	(define @t3084 () (=> tptp.setukpairIL @t3083))
1.92/2.10	(define @t3085 () (=> tptp.secondinupair @t3084))
1.92/2.10	(define @t3086 () (or @t7 @t6 @t609))
1.92/2.10	(define @t3087 () (not @t435))
1.92/2.10	(define @t3088 () (not @t197))
1.92/2.10	(define @t3089 () (=> tptp.symdiffIneg2 @t3085))
1.92/2.10	(define @t3090 () (or @t197 @t435 @t609))
1.92/2.10	(define @t3091 () (=> tptp.symdiffIneg1 @t3089))
1.92/2.10	(define @t3092 () (or @t7 @t435 @t599))
1.92/2.10	(define @t3093 () (=> tptp.symdiffI2 @t3091))
1.92/2.10	(define @t3094 () (or @t197 @t6 @t599))
1.92/2.10	(define @t3095 () (=> tptp.symdiffI1 @t3093))
1.92/2.10	(define @t3096 () (or @t609 @t1628 @t1627))
1.92/2.10	(define @t3097 () (or @t1628 @t1627))
1.92/2.10	(define @t3098 () (not false))
1.92/2.10	(define @t3099 () (and @t1241 @t1621 @t3098))
1.92/2.10	(define @t3100 () (and @t1240 @t1623 @t3098))
1.92/2.10	(define @t3101 () (or @t3100 @t3099))
1.92/2.10	(define @t3102 () (or @t3100 @t3099 false))
1.92/2.10	(define @t3103 () (not @t173))
1.92/2.10	(define @t3104 () (and @t1241 @t1621 @t3103))
1.92/2.10	(define @t3105 () (and @t1240 @t1623 @t3103))
1.92/2.10	(define @t3106 () (not (= @t173 false)))
1.92/2.10	(define @t3107 () (or @t173 @t3105 @t3104 @t173))
1.92/2.10	(define @t3108 () (or @t3105 @t3104 @t173))
1.92/2.10	(define @t3109 () (and @t197 @t6 @t3103))
1.92/2.10	(define @t3110 () (and @t7 @t435 @t3103))
1.92/2.10	(define @t3111 () (or @t3110 @t3109 @t173))
1.92/2.10	(define @t3112 () (and @t6 @t3103))
1.92/2.10	(define @t3113 () (not @t498))
1.92/2.10	(define @t3114 () (=> tptp.symdiffE @t3095))
1.92/2.10	(define @t3115 () (= tptp.emptyset @t565))
1.92/2.10	(define @t3116 () (not @t3115))
1.92/2.10	(define @t3117 () (or @t3116 @t420))
1.92/2.10	(define @t3118 () (=> tptp.setminusSubset1 @t3114))
1.92/2.10	(define @t3119 () (=> tptp.setminusLsub @t3118))
1.92/2.10	(define @t3120 () (or @t435 @t578))
1.92/2.10	(define @t3121 () (=> tptp.setminusIRneg @t3119))
1.92/2.10	(define @t3122 () (or @t7 @t578))
1.92/2.10	(define @t3123 () (=> tptp.setminusILneg @t3121))
1.92/2.10	(define @t3124 () (or @t566 @t6 @t197))
1.92/2.10	(define @t3125 () (or @t6 @t197))
1.92/2.10	(define @t3126 () (not @t578))
1.92/2.10	(define @t3127 () (=> tptp.setminusELneg @t3123))
1.92/2.10	(define @t3128 () (or @t566 @t197 @t6))
1.92/2.10	(define @t3129 () (or @t197 @t6))
1.92/2.10	(define @t3130 () (=> tptp.setminusERneg @t3127))
1.92/2.10	(define @t3131 () (or @t439 @t3115))
1.92/2.10	(define @t3132 () (=> tptp.setminusSubset2 @t3130))
1.92/2.10	(define @t3133 () (or @t578 @t435))
1.92/2.10	(define @t3134 () (=> tptp.setminusER @t3132))
1.92/2.10	(define @t3135 () (or @t578 @t7))
1.92/2.10	(define @t3136 () (=> tptp.setminusEL @t3134))
1.92/2.10	(define @t3137 () (or @t197 @t6 @t566))
1.92/2.10	(define @t3138 () (=> tptp.setminusI @t3136))
1.92/2.10	(define @t3139 () (=> tptp.bs114d @t3138))
1.92/2.10	(define @t3140 () (= @t2 @t515))
1.92/2.10	(define @t3141 () (not @t3140))
1.92/2.10	(define @t3142 () (or @t3141 @t420))
1.92/2.10	(define @t3143 () (=> tptp.binintersectSubset1 @t3139))
1.92/2.10	(define @t3144 () (= @t1 @t515))
1.92/2.10	(define @t3145 () (not @t425))
1.92/2.10	(define @t3146 () (or @t3145 @t3144))
1.92/2.10	(define @t3147 () (=> tptp.binintersectSubset4 @t3143))
1.92/2.10	(define @t3148 () (_ tptp.subset @t1648))
1.92/2.10	(define @t3149 () (=> tptp.binintersectRsub @t3147))
1.92/2.10	(define @t3150 () (= tptp.emptyset @t515))
1.92/2.10	(define @t3151 () (or @t1662 @t3150))
1.92/2.10	(define @t3152 () (or @t197 @t435))
1.92/2.10	(define @t3153 () (forall @t9 (not @t543)))
1.92/2.10	(define @t3154 () (not @t3153))
1.92/2.10	(define @t3155 () (=> tptp.disjointsetsI1 @t3149))
1.92/2.10	(define @t3156 () (not @t516))
1.92/2.10	(define @t3157 () (or @t3156 @t6))
1.92/2.10	(define @t3158 () (=> tptp.binintersectER @t3155))
1.92/2.10	(define @t3159 () (not @t3144))
1.92/2.10	(define @t3160 () (or @t3159 @t425))
1.92/2.10	(define @t3161 () (=> tptp.binintersectSubset3 @t3158))
1.92/2.10	(define @t3162 () (or @t439 @t3140))
1.92/2.10	(define @t3163 () (=> tptp.binintersectSubset2 @t3161))
1.92/2.10	(define @t3164 () (=> tptp.binintersectLsub @t3163))
1.92/2.10	(define @t3165 () (or @t3156 @t7))
1.92/2.10	(define @t3166 () (=> tptp.binintersectEL @t3164))
1.92/2.10	(define @t3167 () (not @t522))
1.92/2.10	(define @t3168 () (not @t524))
1.92/2.10	(define @t3169 () (or @t3168 @t3167 @t521))
1.92/2.10	(define @t3170 () (=> tptp.binintersectSubset5 @t3166))
1.92/2.10	(define @t3171 () (or @t197 @t435 @t516))
1.92/2.10	(define @t3172 () (=> tptp.binintersectI @t3170))
1.92/2.10	(define @t3173 () (=> tptp.binunionRsub @t3172))
1.92/2.10	(define @t3174 () (=> tptp.binunionLsub @t3173))
1.92/2.10	(define @t3175 () (not @t493))
1.92/2.10	(define @t3176 () (or @t3175 @t7 @t6))
1.92/2.10	(define @t3177 () (=> tptp.binunionE @t3174))
1.92/2.10	(define @t3178 () (and @t1621 @t3098))
1.92/2.10	(define @t3179 () (and @t1240 @t3098))
1.92/2.10	(define @t3180 () (or @t1682 @t3179 @t3178))
1.92/2.10	(define @t3181 () (or @t1682 @t3179 @t3178 false))
1.92/2.10	(define @t3182 () (and @t1621 @t3103))
1.92/2.10	(define @t3183 () (and @t1240 @t3103))
1.92/2.10	(define @t3184 () (or @t173 @t1682 @t3183 @t3182 @t173))
1.92/2.10	(define @t3185 () (or @t1682 @t3183 @t3182 @t173))
1.92/2.10	(define @t3186 () (forall @t179 @t3185))
1.92/2.10	(define @t3187 () (forall @t245 @t3186))
1.92/2.10	(define @t3188 () (and @t7 @t3103))
1.92/2.10	(define @t3189 () (or @t3175 @t3188 @t3112 @t173))
1.92/2.10	(define @t3190 () (or @t3188 @t3112 @t173))
1.92/2.10	(define @t3191 () (=> tptp.binunionEcases @t3177))
1.92/2.10	(define @t3192 () (or @t435 @t493))
1.92/2.10	(define @t3193 () (=> tptp.binunionIR @t3191))
1.92/2.10	(define @t3194 () (=> tptp.upairset2IR @t3193))
1.92/2.10	(define @t3195 () (or @t197 @t493))
1.92/2.10	(define @t3196 () (=> tptp.binunionIL @t3194))
1.92/2.10	(define @t3197 () (tptp.dsetconstr @t2 @t2380))
1.92/2.10	(define @t3198 () (tptp.subset @t3197 @t2))
1.92/2.10	(define @t3199 () (=> tptp.sepSubset @t3196))
1.92/2.10	(define @t3200 () (tptp.in @t3197 @t1602))
1.92/2.10	(define @t3201 () (=> tptp.sepInPowerset @t3199))
1.92/2.10	(define @t3202 () (or @t439 @t483))
1.92/2.10	(define @t3203 () (=> tptp.powersetsubset @t3201))
1.92/2.10	(define @t3204 () (=> tptp.inPowerset @t3203))
1.92/2.10	(define @t3205 () (not @t35))
1.92/2.10	(define @t3206 () (or @t3205 @t425))
1.92/2.10	(define @t3207 () (=> tptp.powersetE1 @t3204))
1.92/2.10	(define @t3208 () (or @t3145 @t35))
1.92/2.10	(define @t3209 () (=> tptp.powersetI1 @t3207))
1.92/2.10	(define @t3210 () (not @t473))
1.92/2.10	(define @t3211 () (or @t3210 @t196))
1.92/2.10	(define @t3212 () (=> tptp.subsetemptysetimpeq @t3209))
1.92/2.10	(define @t3213 () (or @t439 @t3145 @t3))
1.92/2.10	(define @t3214 () (=> tptp.setextsub @t3212))
1.92/2.10	(define @t3215 () (or @t439 @t467))
1.92/2.10	(define @t3216 () (=> tptp.subset2powerset @t3214))
1.92/2.10	(define @t3217 () (or @t439 @t463))
1.92/2.10	(define @t3218 () (=> tptp.setadjoinSub2 @t3216))
1.92/2.10	(define @t3219 () (=> tptp.setadjoinSub @t3218))
1.92/2.10	(define @t3220 () (not @t453))
1.92/2.10	(define @t3221 () (or @t439 @t3220 @t452))
1.92/2.10	(define @t3222 () (=> tptp.subsetTrans @t3219))
1.92/2.10	(define @t3223 () (=> tptp.subsetRefl @t3222))
1.92/2.10	(define @t3224 () (@list @t1 @t4))
1.92/2.10	(define @t3225 () (or @t1623 @t1621))
1.92/2.10	(define @t3226 () (not (= @t1 @t1)))
1.92/2.10	(define @t3227 () (or @t1623 @t1621 @t3226))
1.92/2.10	(define @t3228 () (or @t443 @t1241 @t1621 @t443))
1.92/2.10	(define @t3229 () (or @t1241 @t1621 @t443))
1.92/2.10	(define @t3230 () (forall @t64 @t3229))
1.92/2.10	(define @t3231 () (forall @t3224 @t3230))
1.92/2.10	(define @t3232 () (forall (@list @t1 @t4 @t2) @t3229))
1.92/2.10	(define @t3233 () (or @t197 @t6 @t443))
1.92/2.10	(define @t3234 () (=> tptp.notequalI2 @t3223))
1.92/2.10	(define @t3235 () (or @t1713 @t3226))
1.92/2.10	(define @t3236 () (or @t443 @t1630 @t443))
1.92/2.10	(define @t3237 () (or @t1630 @t443))
1.92/2.10	(define @t3238 () (forall @t64 @t3237))
1.92/2.10	(define @t3239 () (forall @t41 @t3238))
1.92/2.10	(define @t3240 () (@list @t1 @t2))
1.92/2.10	(define @t3241 () (forall @t3240 @t3237))
1.92/2.10	(define @t3242 () (or @t420 @t443))
1.92/2.10	(define @t3243 () (=> tptp.notequalI1 @t3234))
1.92/2.10	(define @t3244 () (or @t197 @t6 @t439))
1.92/2.10	(define @t3245 () (=> tptp.notsubsetI @t3243))
1.92/2.10	(define @t3246 () (or @t439 @t6 @t197))
1.92/2.10	(define @t3247 () (=> tptp.subsetE2 @t3245))
1.92/2.10	(define @t3248 () (or @t439 @t197 @t6))
1.92/2.10	(define @t3249 () (=> tptp.subsetE @t3247))
1.92/2.10	(define @t3250 () (=> tptp.emptysetsubset @t3249))
1.92/2.10	(define @t3251 () (or @t1721 @t420))
1.92/2.10	(define @t3252 () (=> tptp.subsetI2 @t3250))
1.92/2.10	(define @t3253 () (or @t3226 @t1713))
1.92/2.10	(define @t3254 () (or @t443 @t443 @t1630))
1.92/2.10	(define @t3255 () (or @t443 @t1630))
1.92/2.10	(define @t3256 () (forall @t64 @t3255))
1.92/2.10	(define @t3257 () (forall @t41 @t3256))
1.92/2.10	(define @t3258 () (forall @t3240 @t3255))
1.92/2.10	(define @t3259 () (or @t443 @t420))
1.92/2.10	(define @t3260 () (=> tptp.eqimpsubset1 @t3252))
1.92/2.10	(define @t3261 () (or @t443 @t443 @t1656))
1.92/2.10	(define @t3262 () (or @t443 @t1656))
1.92/2.10	(define @t3263 () (forall @t64 @t3262))
1.92/2.10	(define @t3264 () (forall @t41 @t3263))
1.92/2.10	(define @t3265 () (forall @t3240 @t3262))
1.92/2.10	(define @t3266 () (or @t443 @t425))
1.92/2.10	(define @t3267 () (=> tptp.eqimpsubset2 @t3260))
1.92/2.10	(define @t3268 () (=> tptp.subsetI1 @t3267))
1.92/2.10	(define @t3269 () (or @t1623 @t1623 @t1728))
1.92/2.10	(define @t3270 () (forall @t9 @t3269))
1.92/2.10	(define @t3271 () (not @t3270))
1.92/2.10	(define @t3272 () (or @t3226 @t3271 (= @t1724 @t1726)))
1.92/2.10	(define @t3273 () (= (tptp.dsetconstr @t2 @t1723) @t1726))
1.92/2.10	(define @t3274 () (not (forall @t9 (or @t1241 @t1623 @t1728))))
1.92/2.10	(define @t3275 () (or @t443 @t443 @t3274 @t3273))
1.92/2.10	(define @t3276 () (or @t443 @t3274 @t3273))
1.92/2.10	(define @t3277 () (forall @t64 @t3276))
1.92/2.10	(define @t3278 () (forall @t1732 @t3277))
1.92/2.10	(define @t3279 () (forall (@list @t1 @t1723 @t1725 @t2) @t3276))
1.92/2.10	(define @t3280 () (@list @t2 @t1 @t1723 @t1725))
1.92/2.10	(define @t3281 () (or @t3274 @t3273))
1.92/2.10	(define @t3282 () (or @t443 @t3281))
1.92/2.10	(define @t3283 () (forall @t3280 @t3282))
1.92/2.10	(define @t3284 () (@list @t1723 @t1725))
1.92/2.10	(define @t3285 () (forall @t3284 @t3282))
1.92/2.10	(define @t3286 () (forall @t3284 @t3281))
1.92/2.10	(define @t3287 () (or @t443 @t3286))
1.92/2.10	(define @t3288 () (= @t1507 @t1757))
1.92/2.10	(define @t3289 () (forall @t9 (or @t1241 @t1623 @t3288)))
1.92/2.10	(define @t3290 () (not @t3289))
1.92/2.10	(define @t3291 () (forall @t376 (or @t3290 (= @t1325 (tptp.dsetconstr @t1 @t366)))))
1.92/2.10	(define @t3292 () (lambda @t9 @t1757))
1.92/2.10	(define @t3293 () (tptp.dsetconstr @t1 @t3292))
1.92/2.10	(define @t3294 () (= @t3197 @t3293))
1.92/2.10	(define @t3295 () (or @t3290 @t3294))
1.92/2.10	(define @t3296 () (or @t3290 @t410))
1.92/2.10	(define @t3297 () (or @t197 @t1623 @t3288))
1.92/2.10	(define @t3298 () (or @t1623 @t3288))
1.92/2.10	(define @t3299 () (not (= @t4 @t4)))
1.92/2.10	(define @t3300 () (or @t1623 @t3299 @t3288))
1.92/2.10	(define @t3301 () (= @t1507 @t1735))
1.92/2.10	(define @t3302 () (or @t282 @t2215 @t282 @t3301))
1.92/2.10	(define @t3303 () (or @t2215 @t282 @t3301))
1.92/2.10	(define @t3304 () (or @t2220 @t282 @t372))
1.92/2.10	(define @t3305 () (or @t282 @t372))
1.92/2.10	(define @t3306 () (=> tptp.dsetconstr__Cong @t3268))
1.92/2.10	(define @t3307 () (or @t1736 (= @t1734 @t19)))
1.92/2.10	(define @t3308 () (forall @t70 @t3307))
1.92/2.10	(define @t3309 () (not @t3308))
1.92/2.10	(define @t3310 () (or @t1521 (= @t1738 @t19)))
1.92/2.10	(define @t3311 () (forall @t70 @t3310))
1.92/2.10	(define @t3312 () (not @t3311))
1.92/2.10	(define @t3313 () (or @t1744 @t1741 @t1739 @t3312 @t1737 @t3309))
1.92/2.10	(define @t3314 () (or @t1737 @t3309))
1.92/2.10	(define @t3315 () (or @t1739 @t3312))
1.92/2.10	(define @t3316 () (or @t1744 @t3315 @t3314 @t1741))
1.92/2.10	(define @t3317 () (forall @t1745 @t3316))
1.92/2.10	(define @t3318 () (forall (@list @t1738 @t1734) @t3316))
1.92/2.10	(define @t3319 () (forall (@list @t1734) @t3314))
1.92/2.10	(define @t3320 () (forall (@list @t1738) @t3315))
1.92/2.10	(define @t3321 () (or @t1744 @t3320 @t3319 @t1741))
1.92/2.10	(define @t3322 () (tptp.descr @t3292))
1.92/2.10	(define @t3323 () (tptp.descr @t2380))
1.92/2.10	(define @t3324 () (= @t3323 @t3322))
1.92/2.10	(define @t3325 () (or @t1744 @t1762 @t1758 @t3324))
1.92/2.10	(define @t3326 () (or @t1744 @t1762 @t1758 @t402))
1.92/2.10	(define @t3327 () (or @t1762 @t1758 @t402))
1.92/2.10	(define @t3328 () (=> @t1759 @t402))
1.92/2.10	(define @t3329 () (not @t1763))
1.92/2.10	(define @t3330 () (=> @t1763 @t3328))
1.92/2.10	(define @t3331 () (not @t367))
1.92/2.10	(define @t3332 () (or @t3331 @t1756))
1.92/2.10	(define @t3333 () (not @t371))
1.92/2.10	(define @t3334 () (or @t3333 @t129))
1.92/2.10	(define @t3335 () (_ @t368 @t19))
1.92/2.10	(define @t3336 () (not @t3335))
1.92/2.10	(define @t3337 () (or @t3336 @t129))
1.92/2.10	(define @t3338 () (forall @t70 @t3337))
1.92/2.10	(define @t3339 () (not @t3338))
1.92/2.10	(define @t3340 () (_ @t368 @t4))
1.92/2.10	(define @t3341 () (not @t3340))
1.92/2.10	(define @t3342 () (or @t3341 @t3339))
1.92/2.10	(define @t3343 () (forall @t9 @t3342))
1.92/2.10	(define @t3344 () (not @t3343))
1.92/2.10	(define @t3345 () (lambda @t150 @t1763))
1.92/2.10	(define @t3346 () (_ @t3345 @t368))
1.92/2.10	(define @t3347 () (=> @t3346 @t402))
1.92/2.10	(define @t3348 () (or @t315 @t1761))
1.92/2.10	(define @t3349 () (_ @t145 @t19))
1.92/2.10	(define @t3350 () (not @t3349))
1.92/2.10	(define @t3351 () (or @t3350 @t129))
1.92/2.10	(define @t3352 () (forall @t70 @t3351))
1.92/2.10	(define @t3353 () (not @t3352))
1.92/2.10	(define @t3354 () (_ @t145 @t4))
1.92/2.10	(define @t3355 () (not @t3354))
1.92/2.10	(define @t3356 () (or @t3355 @t3353))
1.92/2.10	(define @t3357 () (forall @t9 @t3356))
1.92/2.10	(define @t3358 () (not @t3357))
1.92/2.10	(define @t3359 () (_ @t3345 @t145))
1.92/2.10	(define @t3360 () (=> @t3359 @t3347))
1.92/2.10	(define @t3361 () (or @t2824 @t1742))
1.92/2.10	(define @t3362 () (or @t282 @t282 @t3301))
1.92/2.10	(define @t3363 () (or @t282 @t3301))
1.92/2.10	(define @t3364 () (forall @t9 @t3363))
1.92/2.10	(define @t3365 () (forall @t70 @t3364))
1.92/2.10	(define @t3366 () (forall @t2832 @t3363))
1.92/2.10	(define @t3367 () (=> @t374 @t3360))
1.92/2.10	(define @t3368 () (forall @t376 @t3367))
1.92/2.10	(define @t3369 () (and @t144 @t1760))
1.92/2.10	(define @t3370 () (forall @t9 (not @t3369)))
1.92/2.10	(define @t3371 () (not @t3370))
1.92/2.10	(define @t3372 () (=> tptp.descr__Cong @t3306))
1.92/2.10	(define @t3373 () (or @t1521 (= @t1752 @t19)))
1.92/2.10	(define @t3374 () (forall @t70 @t3373))
1.92/2.10	(define @t3375 () (not @t3374))
1.92/2.10	(define @t3376 () (or @t1753 @t3375 @t1751 @t1750 @t1749))
1.92/2.10	(define @t3377 () (or @t1751 @t1750 @t1749))
1.92/2.10	(define @t3378 () (or @t1753 @t3375))
1.92/2.10	(define @t3379 () (or @t3378 @t3377))
1.92/2.10	(define @t3380 () (forall @t1754 @t3379))
1.92/2.10	(define @t3381 () (forall (@list @t1752 @t1748 @t1747) @t3379))
1.92/2.10	(define @t3382 () (forall (@list @t1748 @t1747) @t3377))
1.92/2.10	(define @t3383 () (forall (@list @t1752) @t3378))
1.92/2.10	(define @t3384 () (or @t3383 @t3382))
1.92/2.10	(define @t3385 () (=> @t3359 @t344))
1.92/2.10	(define @t3386 () (forall @t150 @t3385))
1.92/2.10	(define @t3387 () (=> tptp.exuEu @t3372))
1.92/2.10	(define @t3388 () (=> tptp.omega__Cong @t3387))
1.92/2.10	(define @t3389 () (tptp.setunion @t1))
1.92/2.10	(define @t3390 () (or @t3226 (= @t3389 @t3389)))
1.92/2.10	(define @t3391 () (= @t1546 @t3389))
1.92/2.10	(define @t3392 () (or @t443 @t443 @t3391))
1.92/2.10	(define @t3393 () (or @t443 @t3391))
1.92/2.10	(define @t3394 () (forall @t64 @t3393))
1.92/2.10	(define @t3395 () (forall @t41 @t3394))
1.92/2.10	(define @t3396 () (forall @t3240 @t3393))
1.92/2.10	(define @t3397 () (or @t443 @t396))
1.92/2.10	(define @t3398 () (=> tptp.setunion__Cong @t3388))
1.92/2.10	(define @t3399 () (or @t3226 (= @t1688 @t1688)))
1.92/2.10	(define @t3400 () (= @t1602 @t1688))
1.92/2.10	(define @t3401 () (or @t443 @t443 @t3400))
1.92/2.10	(define @t3402 () (or @t443 @t3400))
1.92/2.10	(define @t3403 () (forall @t64 @t3402))
1.92/2.10	(define @t3404 () (forall @t41 @t3403))
1.92/2.10	(define @t3405 () (forall @t3240 @t3402))
1.92/2.10	(define @t3406 () (or @t443 @t392))
1.92/2.10	(define @t3407 () (=> tptp.powerset__Cong @t3398))
1.92/2.10	(define @t3408 () (@var "BOUND_VARIABLE_10371" $$unsorted))
1.92/2.10	(define @t3409 () (@list @t19 @t3408))
1.92/2.10	(define @t3410 () (tptp.setadjoin @t19 @t3408))
1.92/2.10	(define @t3411 () (or @t2824 (= @t3410 @t3410)))
1.92/2.10	(define @t3412 () (= @t3410 (tptp.setadjoin @t4 @t3408)))
1.92/2.10	(define @t3413 () (or @t282 @t282 @t3412))
1.92/2.10	(define @t3414 () (or @t282 @t3412))
1.92/2.10	(define @t3415 () (forall @t9 @t3414))
1.92/2.10	(define @t3416 () (forall @t3409 @t3415))
1.92/2.10	(define @t3417 () (forall (@list @t19 @t3408 @t4) @t3414))
1.92/2.10	(define @t3418 () (forall (@list @t4 @t19 @t3408) @t3414))
1.92/2.10	(define @t3419 () (@list @t3408))
1.92/2.10	(define @t3420 () (forall @t3419 @t3414))
1.92/2.10	(define @t3421 () (forall @t3419 @t3412))
1.92/2.10	(define @t3422 () (or @t282 @t3421))
1.92/2.10	(define @t3423 () (tptp.setadjoin @t4 @t381))
1.92/2.10	(define @t3424 () (tptp.setadjoin @t19 @t381))
1.92/2.10	(define @t3425 () (= @t3424 @t3423))
1.92/2.10	(define @t3426 () (forall @t752 @t3425))
1.92/2.10	(define @t3427 () (or @t2813 (= @t3423 @t3424)))
1.92/2.10	(define @t3428 () (tptp.setadjoin @t4 @t289))
1.92/2.10	(define @t3429 () (= @t3428 @t3424))
1.92/2.10	(define @t3430 () (or @t2815 @t2815 @t3429))
1.92/2.10	(define @t3431 () (or @t2815 @t3429))
1.92/2.10	(define @t3432 () (forall @t2817 @t3431))
1.92/2.10	(define @t3433 () (forall @t752 @t3432))
1.92/2.10	(define @t3434 () (forall (@list @t381 @t289) @t3431))
1.92/2.10	(define @t3435 () (or @t2815 @t384))
1.92/2.10	(define @t3436 () (=> tptp.setadjoin__Cong @t3407))
1.92/2.10	(define @t3437 () (=> tptp.emptyset__Cong @t3436))
1.92/2.10	(define @t3438 () (= @t3359 @t3346))
1.92/2.10	(define @t3439 () (=> @t374 @t3438))
1.92/2.10	(define @t3440 () (forall @t376 @t3439))
1.92/2.10	(define @t3441 () (=> tptp.exu__Cong @t3437))
1.92/2.10	(define @t3442 () (=> tptp.exuE3u @t3441))
1.92/2.10	(define @t3443 () (@var "BOUND_VARIABLE_10245" $$unsorted))
1.92/2.10	(define @t3444 () (@list @t1 @t3443))
1.92/2.10	(define @t3445 () (tptp.in @t3443 @t1))
1.92/2.10	(define @t3446 () (or @t3226 (= @t3445 @t3445)))
1.92/2.10	(define @t3447 () (= (tptp.in @t3443 @t2) @t3445))
1.92/2.10	(define @t3448 () (or @t443 @t443 @t3447))
1.92/2.10	(define @t3449 () (or @t443 @t3447))
1.92/2.10	(define @t3450 () (forall @t64 @t3449))
1.92/2.10	(define @t3451 () (forall @t3444 @t3450))
1.92/2.10	(define @t3452 () (forall (@list @t1 @t3443 @t2) @t3449))
1.92/2.10	(define @t3453 () (forall (@list @t2 @t1 @t3443) @t3449))
1.92/2.10	(define @t3454 () (@list @t3443))
1.92/2.10	(define @t3455 () (forall @t3454 @t3449))
1.92/2.10	(define @t3456 () (forall @t3454 @t3447))
1.92/2.10	(define @t3457 () (or @t443 @t3456))
1.92/2.10	(define @t3458 () (= @t1522 @t1394))
1.92/2.10	(define @t3459 () (forall @t70 @t3458))
1.92/2.10	(define @t3460 () (or @t2824 @t3458))
1.92/2.10	(define @t3461 () (= @t1240 @t1394))
1.92/2.10	(define @t3462 () (or @t282 @t282 @t3461))
1.92/2.10	(define @t3463 () (or @t282 @t3461))
1.92/2.10	(define @t3464 () (forall @t9 @t3463))
1.92/2.10	(define @t3465 () (forall @t70 @t3464))
1.92/2.10	(define @t3466 () (forall @t2832 @t3463))
1.92/2.10	(define @t3467 () (or @t282 @t358))
1.92/2.10	(define @t3468 () (=> tptp.in__Cong @t3442))
1.92/2.10	(define @t3469 () (@var "BOUND_VARIABLE_10208" $$unsorted))
1.92/2.10	(define @t3470 () (@list @t1 @t3469))
1.92/2.10	(define @t3471 () (tptp.in @t3469 @t1))
1.92/2.10	(define @t3472 () (not @t3471))
1.92/2.10	(define @t3473 () (or @t3472 @t3471))
1.92/2.10	(define @t3474 () (or @t3226 @t3472 @t3471))
1.92/2.10	(define @t3475 () (not (tptp.in @t3469 @t2)))
1.92/2.10	(define @t3476 () (or @t443 @t443 @t3475 @t3471))
1.92/2.10	(define @t3477 () (or @t443 @t3475 @t3471))
1.92/2.10	(define @t3478 () (forall @t64 @t3477))
1.92/2.10	(define @t3479 () (forall @t3470 @t3478))
1.92/2.10	(define @t3480 () (forall (@list @t1 @t3469 @t2) @t3477))
1.92/2.10	(define @t3481 () (@list @t2 @t1 @t3469))
1.92/2.10	(define @t3482 () (or @t3475 @t3471))
1.92/2.10	(define @t3483 () (or @t443 @t3482))
1.92/2.10	(define @t3484 () (forall @t3481 @t3483))
1.92/2.10	(define @t3485 () (@list @t3469))
1.92/2.10	(define @t3486 () (forall @t3485 @t3483))
1.92/2.10	(define @t3487 () (forall @t3485 @t3482))
1.92/2.10	(define @t3488 () (or @t443 @t3487))
1.92/2.10	(define @t3489 () (or @t1523 @t1394))
1.92/2.10	(define @t3490 () (forall @t70 @t3489))
1.92/2.10	(define @t3491 () (or @t2824 @t1523 @t1394))
1.92/2.10	(define @t3492 () (or @t282 @t282 @t1241 @t1394))
1.92/2.10	(define @t3493 () (or @t282 @t1241 @t1394))
1.92/2.10	(define @t3494 () (forall @t9 @t3493))
1.92/2.10	(define @t3495 () (forall @t70 @t3494))
1.92/2.10	(define @t3496 () (forall @t2832 @t3493))
1.92/2.10	(define @t3497 () (or @t282 @t197 @t352))
1.92/2.10	(define @t3498 () (=> tptp.inCongP @t3468))
1.92/2.10	(define @t3499 () (= @t1766 @t19))
1.92/2.10	(define @t3500 () (forall @t70 (= @t3499 @t1520)))
1.92/2.10	(define @t3501 () (not @t3500))
1.92/2.10	(define @t3502 () (or @t3501 @t1763))
1.92/2.10	(define @t3503 () (forall @t1767 @t3502))
1.92/2.10	(define @t3504 () (@list @t1766))
1.92/2.10	(define @t3505 () (forall @t3504 @t3502))
1.92/2.10	(define @t3506 () (forall @t3504 @t3501))
1.92/2.10	(define @t3507 () (or @t3506 @t1763))
1.92/2.10	(define @t3508 () (= @t153 @t129))
1.92/2.10	(define @t3509 () (=> @t265 @t3359))
1.92/2.10	(define @t3510 () (forall @t150 @t3509))
1.92/2.10	(define @t3511 () (=> tptp.exuI2 @t3498))
1.92/2.10	(define @t3512 () (@list @t1771))
1.92/2.10	(define @t3513 () (forall @t3512 @t1773))
1.92/2.10	(define @t3514 () (forall @t3512 @t1772))
1.92/2.10	(define @t3515 () (or @t3514 @t1770 @t1763))
1.92/2.10	(define @t3516 () (or @t1880 @t1770 @t1763))
1.92/2.10	(define @t3517 () (=> @t1769 @t1763))
1.92/2.10	(define @t3518 () (=> @t344 @t3359))
1.92/2.10	(define @t3519 () (forall @t9 @t315))
1.92/2.10	(define @t3520 () (not @t3519))
1.92/2.10	(define @t3521 () (=> @t186 @t3518))
1.92/2.10	(define @t3522 () (forall @t150 @t3521))
1.92/2.10	(define @t3523 () (=> tptp.exuI3 @t3511))
1.92/2.10	(define @t3524 () (=> @t169 @t3359))
1.92/2.10	(define @t3525 () (forall @t150 @t3524))
1.92/2.10	(define @t3526 () (=> tptp.exuI1 @t3523))
1.92/2.10	(define @t3527 () (forall @t9 (or @t1241 @t1507)))
1.92/2.10	(define @t3528 () (not @t3527))
1.92/2.10	(define @t3529 () (or @t197 @t144))
1.92/2.10	(define @t3530 () (forall @t9 (not @t316)))
1.92/2.10	(define @t3531 () (not @t3530))
1.92/2.10	(define @t3532 () (=> tptp.notdallE @t3526))
1.92/2.10	(define @t3533 () (=> tptp.notdexE @t3532))
1.92/2.10	(define @t3534 () (or @t2812 @t1777))
1.92/2.10	(define @t3535 () (tptp.prop2set @t173))
1.92/2.10	(define @t3536 () (tptp.set2prop @t3535))
1.92/2.10	(define @t3537 () (not (= @t173 true)))
1.92/2.10	(define @t3538 () (or @t3103 @t3103 @t3536))
1.92/2.10	(define @t3539 () (or @t3103 @t3536))
1.92/2.10	(define @t3540 () (or @t3103 @t337))
1.92/2.10	(define @t3541 () (=> tptp.prop2set2propI @t3533))
1.92/2.10	(define @t3542 () (or @t2812 @t1779))
1.92/2.10	(define @t3543 () (tptp.in tptp.emptyset @t3535))
1.92/2.10	(define @t3544 () (or @t3103 @t3103 @t3543))
1.92/2.10	(define @t3545 () (or @t3103 @t3543))
1.92/2.10	(define @t3546 () (or @t3103 @t334))
1.92/2.10	(define @t3547 () (=> tptp.prop2setI @t3541))
1.92/2.10	(define @t3548 () (=> tptp.quantDeMorgan4 @t3547))
1.92/2.10	(define @t3549 () (=> tptp.quantDeMorgan3 @t3548))
1.92/2.10	(define @t3550 () (=> tptp.quantDeMorgan2 @t3549))
1.92/2.10	(define @t3551 () (=> tptp.quantDeMorgan1 @t3550))
1.92/2.10	(define @t3552 () (or @t16 @t144))
1.92/2.10	(define @t3553 () (=> tptp.vacuousDall @t3551))
1.92/2.10	(define @t3554 () (or @t1787 @t1786))
1.92/2.10	(define @t3555 () (or @t3554 @t1788))
1.92/2.10	(define @t3556 () (forall @t1790 @t3555))
1.92/2.10	(define @t3557 () (@list @t1785))
1.92/2.10	(define @t3558 () (forall @t3557 @t3555))
1.92/2.10	(define @t3559 () (forall @t3557 @t3554))
1.92/2.10	(define @t3560 () (or @t3559 @t1788))
1.92/2.10	(define @t3561 () (= tptp.emptyset @t3197))
1.92/2.10	(define @t3562 () (not @t3561))
1.92/2.10	(define @t3563 () (or @t1530 @t3562))
1.92/2.10	(define @t3564 () (= tptp.emptyset @t304))
1.92/2.10	(define @t3565 () (not @t3564))
1.92/2.10	(define @t3566 () (or @t1530 @t3565))
1.92/2.10	(define @t3567 () (=> tptp.emptyE1 @t3553))
1.92/2.10	(define @t3568 () (=> tptp.upairsetIR @t3567))
1.92/2.10	(define @t3569 () (=> tptp.upairsetIL @t3568))
1.92/2.10	(define @t3570 () (=> tptp.upairsetE @t3569))
1.92/2.10	(define @t3571 () (not @t276))
1.92/2.10	(define @t3572 () (or @t3571 @t280))
1.92/2.10	(define @t3573 () (=> tptp.singletonsswitch @t3570))
1.92/2.10	(define @t3574 () (or @t2824 @t1803))
1.92/2.10	(define @t3575 () (or @t282 @t282 @t1799))
1.92/2.10	(define @t3576 () (or @t282 @t1799))
1.92/2.10	(define @t3577 () (forall @t9 @t3576))
1.92/2.10	(define @t3578 () (forall @t70 @t3577))
1.92/2.10	(define @t3579 () (forall @t2832 @t3576))
1.92/2.10	(define @t3580 () (or @t282 @t276))
1.92/2.10	(define @t3581 () (=> tptp.eqinunit @t3573))
1.92/2.10	(define @t3582 () (or @t129 @t281))
1.92/2.10	(define @t3583 () (=> tptp.notinsingleton @t3581))
1.92/2.10	(define @t3584 () (or @t3571 @t129))
1.92/2.10	(define @t3585 () (=> tptp.uniqinunit @t3583))
1.92/2.10	(define @t3586 () (not @t196))
1.92/2.10	(define @t3587 () (not @t198))
1.92/2.10	(define @t3588 () (_ @t1220 @t2))
1.92/2.10	(define @t3589 () (=> @t3588 @t270))
1.92/2.10	(define @t3590 () (forall @t64 @t3589))
1.92/2.10	(define @t3591 () (=> tptp.nonemptyImpWitness @t3585))
1.92/2.10	(define @t3592 () (or @t1521 (= @t1814 @t19)))
1.92/2.10	(define @t3593 () (forall @t70 @t3592))
1.92/2.10	(define @t3594 () (not @t3593))
1.92/2.10	(define @t3595 () (or @t1818 @t1815 @t3594))
1.92/2.10	(define @t3596 () (or @t1815 @t3594))
1.92/2.10	(define @t3597 () (or @t3596 @t1818))
1.92/2.10	(define @t3598 () (forall @t1819 @t3597))
1.92/2.10	(define @t3599 () (@list @t1814))
1.92/2.10	(define @t3600 () (forall @t3599 @t3597))
1.92/2.10	(define @t3601 () (forall @t3599 @t3596))
1.92/2.10	(define @t3602 () (or @t3601 @t1818))
1.92/2.10	(define @t3603 () (=> @t3359 @t265))
1.92/2.10	(define @t3604 () (forall @t150 @t3603))
1.92/2.10	(define @t3605 () (=> tptp.exuE2 @t3591))
1.92/2.10	(define @t3606 () (or @t197 @t260))
1.92/2.10	(define @t3607 () (=> tptp.subPowSU @t3605))
1.92/2.10	(define @t3608 () (or @t2971 @t1829))
1.92/2.10	(define @t3609 () (and @t3098 @t1829))
1.92/2.10	(define @t3610 () (or @t3609 false))
1.92/2.10	(define @t3611 () (and @t3103 @t1829))
1.92/2.10	(define @t3612 () (or @t173 @t3611 @t173))
1.92/2.10	(define @t3613 () (or @t3611 @t173))
1.92/2.10	(define @t3614 () (or @t173 @t1828))
1.92/2.10	(define @t3615 () (not @t39))
1.92/2.10	(define @t3616 () (or @t435 @t3615))
1.92/2.10	(define @t3617 () (forall @t41 @t3616))
1.92/2.10	(define @t3618 () (or @t173 @t3617))
1.92/2.10	(define @t3619 () (or @t173 @t3616))
1.92/2.10	(define @t3620 () (or @t435 @t3615 @t173))
1.92/2.10	(define @t3621 () (=> tptp.setunionE @t3607))
1.92/2.10	(define @t3622 () (or @t435 @t3615 @t44))
1.92/2.10	(define @t3623 () (=> tptp.setunionI @t3621))
1.92/2.10	(define @t3624 () (or @t3205 @t435 @t7))
1.92/2.10	(define @t3625 () (or @t435 @t7))
1.92/2.10	(define @t3626 () (=> tptp.powersetE @t3623))
1.92/2.10	(define @t3627 () (=> tptp.emptyInPowerset @t3626))
1.92/2.10	(define @t3628 () (=> tptp.emptyinPowerset @t3627))
1.92/2.10	(define @t3629 () (or @t1841 @t35))
1.92/2.10	(define @t3630 () (=> tptp.powersetI @t3628))
1.92/2.10	(define @t3631 () (_ @t155 @t1845))
1.92/2.10	(define @t3632 () (= @t2 @t3631))
1.92/2.10	(define @t3633 () (=> tptp.setoftrueEq @t3630))
1.92/2.10	(define @t3634 () (not @t26))
1.92/2.10	(define @t3635 () (or @t3634 @t129 @t21))
1.92/2.10	(define @t3636 () (or @t129 @t21))
1.92/2.10	(define @t3637 () (=> tptp.setadjoinOr @t3633))
1.92/2.10	(define @t3638 () (or @t3634 @t129 @t1522))
1.92/2.10	(define @t3639 () (and @t1522 @t3098))
1.92/2.10	(define @t3640 () (and @t129 @t3098))
1.92/2.10	(define @t3641 () (or @t3640 @t3639))
1.92/2.10	(define @t3642 () (or @t3640 @t3639 false))
1.92/2.10	(define @t3643 () (and @t1522 @t3103))
1.92/2.10	(define @t3644 () (and @t129 @t3103))
1.92/2.10	(define @t3645 () (or @t173 @t3644 @t3643 @t173))
1.92/2.10	(define @t3646 () (or @t3644 @t3643 @t173))
1.92/2.10	(define @t3647 () (and @t21 @t3103))
1.92/2.10	(define @t3648 () (or @t3644 @t3647 @t173))
1.92/2.10	(define @t3649 () (=> @t129 @t173))
1.92/2.10	(define @t3650 () (=> tptp.setadjoinE @t3637))
1.92/2.10	(define @t3651 () (or @t2455 @t26))
1.92/2.10	(define @t3652 () (=> tptp.setadjoinIR @t3650))
1.92/2.10	(define @t3653 () (=> tptp.emptyinunitempty @t3652))
1.92/2.10	(define @t3654 () (=> tptp.setadjoinIL @t3653))
1.92/2.10	(define @t3655 () (not @t379))
1.92/2.10	(define @t3656 () (or @t1863 @t3655))
1.92/2.10	(define @t3657 () (not (tptp.in @t1862 @t2)))
1.92/2.10	(define @t3658 () (or @t3586 @t3657 @t3586))
1.92/2.10	(define @t3659 () (or @t3657 @t3586))
1.92/2.10	(define @t3660 () (forall @t64 @t3659))
1.92/2.10	(define @t3661 () (forall @t1864 @t3660))
1.92/2.10	(define @t3662 () (forall (@list @t1862 @t2) @t3659))
1.92/2.10	(define @t3663 () (forall (@list @t2 @t1862) @t3659))
1.92/2.10	(define @t3664 () (forall @t1864 @t3659))
1.92/2.10	(define @t3665 () (forall @t1864 @t3657))
1.92/2.10	(define @t3666 () (or @t3665 @t3586))
1.92/2.10	(define @t3667 () (not @t1811))
1.92/2.10	(define @t3668 () (=> @t89 @t3588))
1.92/2.10	(define @t3669 () (forall @t64 @t3668))
1.92/2.10	(define @t3670 () (=> tptp.nonemptyI1 @t3654))
1.92/2.10	(define @t3671 () (= tptp.emptyset @t2932))
1.92/2.10	(define @t3672 () (not @t3671))
1.92/2.11	(define @t3673 () (or @t1241 @t1508 @t3672))
1.92/2.11	(define @t3674 () (= tptp.emptyset @t156))
1.92/2.11	(define @t3675 () (not @t3674))
1.92/2.11	(define @t3676 () (or @t197 @t315 @t3675))
1.92/2.11	(define @t3677 () (=> @t144 @t3675))
1.92/2.11	(define @t3678 () (not (= @t156 tptp.emptyset)))
1.92/2.11	(define @t3679 () (_ @t1220 @t156))
1.92/2.11	(define @t3680 () (=> @t144 @t3679))
1.92/2.11	(define @t3681 () (=> @t7 @t3680))
1.92/2.11	(define @t3682 () (forall @t159 @t3681))
1.92/2.11	(define @t3683 () (=> tptp.nonemptyI @t3670))
1.92/2.11	(define @t3684 () (=> @t3588 @t89))
1.92/2.11	(define @t3685 () (forall @t64 @t3684))
1.92/2.11	(define @t3686 () (=> tptp.nonemptyE1 @t3683))
1.92/2.11	(define @t3687 () (= @t1507 @t2935))
1.92/2.11	(define @t3688 () (or @t1241 @t3687))
1.92/2.11	(define @t3689 () (= @t144 @t157))
1.92/2.11	(define @t3690 () (or @t197 @t3689))
1.92/2.11	(define @t3691 () (=> tptp.setbeta @t3686))
1.92/2.11	(define @t3692 () (=> tptp.noeltsimpempty @t3691))
1.92/2.11	(define @t3693 () (=> tptp.emptyI @t3692))
1.92/2.11	(define @t3694 () (=> @t1840 @t3))
1.92/2.11	(define @t3695 () (=> tptp.setext @t3693))
1.92/2.11	(define @t3696 () (or @t1521 (= @t1878 @t19)))
1.92/2.11	(define @t3697 () (forall @t70 @t3696))
1.92/2.11	(define @t3698 () (not @t3697))
1.92/2.11	(define @t3699 () (or @t1881 @t1879 @t3698))
1.92/2.11	(define @t3700 () (or @t1879 @t3698))
1.92/2.11	(define @t3701 () (or @t3700 @t1881))
1.92/2.11	(define @t3702 () (forall @t1882 @t3701))
1.92/2.11	(define @t3703 () (@list @t1878))
1.92/2.11	(define @t3704 () (forall @t3703 @t3701))
1.92/2.11	(define @t3705 () (forall @t3703 @t3700))
1.92/2.11	(define @t3706 () (or @t3705 @t1881))
1.92/2.11	(define @t3707 () (=> @t3359 @t186))
1.92/2.11	(define @t3708 () (forall @t150 @t3707))
1.92/2.11	(define @t3709 () (=> tptp.exuE3e @t3695))
1.92/2.11	(define @t3710 () (=> tptp.notinemptyset @t3709))
1.92/2.11	(define @t3711 () (=> tptp.emptysetimpfalse @t3710))
1.92/2.11	(define @t3712 () (or @t173 @t173))
1.92/2.11	(define @t3713 () (=> tptp.emptysetE @t3711))
1.92/2.11	(define @t3714 () (or @t1889 false))
1.92/2.11	(define @t3715 () (tptp.in @t4 @t3535))
1.92/2.11	(define @t3716 () (not @t3715))
1.92/2.11	(define @t3717 () (or @t173 @t3716 @t173))
1.92/2.11	(define @t3718 () (or @t3716 @t173))
1.92/2.11	(define @t3719 () (forall @t179 @t3718))
1.92/2.11	(define @t3720 () (forall @t9 @t3719))
1.92/2.11	(define @t3721 () (forall (@list @t4 @t173) @t3718))
1.92/2.11	(define @t3722 () (not @t175))
1.92/2.11	(define @t3723 () (or @t3722 @t173))
1.92/2.11	(define @t3724 () (=> tptp.prop2setE @t3713))
1.92/2.11	(define @t3725 () (=> @t3359 @t169))
1.92/2.11	(define @t3726 () (forall @t150 @t3725))
1.92/2.11	(define @t3727 () (=> tptp.exuE1 @t3724))
1.92/2.11	(define @t3728 () (or @t2936 @t1507))
1.92/2.11	(define @t3729 () (not @t157))
1.92/2.11	(define @t3730 () (or @t3729 @t144))
1.92/2.11	(define @t3731 () (=> tptp.dsetconstrER @t3727))
1.92/2.11	(define @t3732 () (or @t2936 @t1240))
1.92/2.11	(define @t3733 () (or @t3729 @t7))
1.92/2.11	(define @t3734 () (=> tptp.dsetconstrEL @t3731))
1.92/2.11	(define @t3735 () (or @t1241 @t1508 @t2935))
1.92/2.11	(define @t3736 () (or @t197 @t315 @t157))
1.92/2.11	(define @t3737 () (=> tptp.dsetconstrI @t3734))
1.92/2.11	(define @t3738 () (or @t1521 (= @t1898 @t19)))
1.92/2.11	(define @t3739 () (forall @t70 @t3738))
1.92/2.11	(define @t3740 () (not @t3739))
1.92/2.11	(define @t3741 () (or @t1900 @t1899 @t3740))
1.92/2.11	(define @t3742 () (or @t1899 @t3740))
1.92/2.11	(define @t3743 () (or @t3742 @t1900))
1.92/2.11	(define @t3744 () (forall @t1901 @t3743))
1.92/2.11	(define @t3745 () (@list @t1898))
1.92/2.11	(define @t3746 () (forall @t3745 @t3743))
1.92/2.11	(define @t3747 () (forall @t3745 @t3742))
1.92/2.11	(define @t3748 () (or @t3747 @t1900))
1.92/2.11	(define @t3749 () (_ @t143 @t3323))
1.92/2.11	(define @t3750 () (or @t1762 @t3749))
1.92/2.11	(define @t3751 () (or @t1762 @t147))
1.92/2.11	(define @t3752 () (=> @t3359 @t147))
1.92/2.11	(define @t3753 () (forall @t150 @t3752))
1.92/2.11	(define @t3754 () (=> tptp.descrp @t3737))
1.92/2.11	(define @t3755 () (and @t1951 @t1944 @t1940 @t1928))
1.92/2.11	(define @t3756 () (forall @t41 (not @t3755)))
1.92/2.11	(define @t3757 () (not @t3756))
1.92/2.11	(define @t3758 () (@list @t1923))
1.92/2.11	(define @t3759 () (forall @t3758 @t1927))
1.92/2.11	(define @t3760 () (forall @t3758 @t1924))
1.92/2.11	(define @t3761 () (or @t1926 @t3760 @t1922))
1.92/2.11	(define @t3762 () (forall @t9 @t1919))
1.92/2.11	(define @t3763 () (or @t1926 @t3762 @t1922))
1.92/2.11	(define @t3764 () (not @t3762))
1.92/2.11	(define @t3765 () (and @t1925 @t3764))
1.92/2.11	(define @t3766 () (not @t109))
1.92/2.11	(define @t3767 () (not @t110))
1.92/2.11	(define @t3768 () (or @t3767 @t3766 @t1917 @t1913))
1.92/2.11	(define @t3769 () (and @t110 @t109 @t1916 @t1912))
1.92/2.11	(define @t3770 () (forall @t112 (not @t3769)))
1.92/2.11	(define @t3771 () (not @t3770))
1.92/2.11	(define @t3772 () (or @t1906 @t1905))
1.92/2.11	(define @t3773 () (or @t1909 @t3772 @t1907))
1.92/2.11	(define @t3774 () (forall @t1911 @t3773))
1.92/2.11	(define @t3775 () (@list @t1904))
1.92/2.11	(define @t3776 () (forall @t3775 @t3773))
1.92/2.11	(define @t3777 () (forall @t3775 @t3772))
1.92/2.11	(define @t3778 () (or @t1909 @t3777 @t1907))
1.92/2.11	(define @t3779 () (tptp.in @t19 @t93))
1.92/2.11	(define @t3780 () (forall @t70 (or (not @t3779) @t1915)))
1.92/2.11	(define @t3781 () (not @t100))
1.92/2.11	(define @t3782 () (or @t3781 @t3780 @t94))
1.92/2.11	(define @t3783 () (or @t3780 @t94))
1.92/2.11	(define @t3784 () (not @t97))
1.92/2.11	(define @t3785 () (or @t3784 @t96))
1.92/2.11	(define @t3786 () (not @t105))
1.92/2.11	(define @t3787 () (not @t96))
1.92/2.11	(define @t3788 () (or @t3787 @t3786))
1.92/2.11	(define @t3789 () (forall @t70 (not @t106)))
1.92/2.11	(define @t3790 () (not @t3789))
1.92/2.11	(define @t3791 () (forall @t9 @t3766))
1.92/2.11	(define @t3792 () (not @t3791))
1.92/2.11	(define @t3793 () (or @t3766 @t7))
1.92/2.11	(define @t3794 () (or @t1932 @t1931))
1.92/2.11	(define @t3795 () (or @t1935 @t1934))
1.92/2.11	(define @t3796 () (or @t1937 @t1921 @t3795 @t3794))
1.92/2.11	(define @t3797 () (forall @t1939 @t3796))
1.92/2.11	(define @t3798 () (forall (@list @t1933 @t1930) @t3796))
1.92/2.11	(define @t3799 () (forall (@list @t1930) @t3794))
1.92/2.11	(define @t3800 () (forall (@list @t1933) @t3795))
1.92/2.11	(define @t3801 () (or @t1937 @t1921 @t3800 @t3799))
1.92/2.11	(define @t3802 () (tptp.in @t4 @t95))
1.92/2.11	(define @t3803 () (forall @t9 (or (not @t3802) @t1918)))
1.92/2.11	(define @t3804 () (forall @t9 (or @t1919 @t3802)))
1.92/2.11	(define @t3805 () (not @t124))
1.92/2.11	(define @t3806 () (or @t3805 @t3767 @t3804 @t3803))
1.92/2.11	(define @t3807 () (or @t3804 @t3803))
1.92/2.11	(define @t3808 () (not @t120))
1.92/2.11	(define @t3809 () (or @t3808 @t109))
1.92/2.11	(define @t3810 () (or @t3766 @t120))
1.92/2.11	(define @t3811 () (or @t197 @t2455 @t1943 @t129))
1.92/2.11	(define @t3812 () (=> @t1942 @t129))
1.92/2.11	(define @t3813 () (or @t3805 @t130))
1.92/2.11	(define @t3814 () (or @t1948 @t1947))
1.92/2.11	(define @t3815 () (or @t1937 @t3814))
1.92/2.11	(define @t3816 () (forall @t1950 @t3815))
1.92/2.11	(define @t3817 () (@list @t1946))
1.92/2.11	(define @t3818 () (forall @t3817 @t3815))
1.92/2.11	(define @t3819 () (forall @t3817 @t3814))
1.92/2.11	(define @t3820 () (or @t1937 @t3819))
1.92/2.11	(define @t3821 () (or @t3805 @t1925))
1.92/2.11	(define @t3822 () (=> tptp.wellorderingAx @t3754))
1.92/2.11	(define @t3823 () (@list @t1959))
1.92/2.11	(define @t3824 () (forall @t3823 @t1961))
1.92/2.11	(define @t3825 () (forall @t3823 @t1960))
1.92/2.11	(define @t3826 () (or @t3825 @t1958))
1.92/2.11	(define @t3827 () (or @t3615 @t1957))
1.92/2.11	(define @t3828 () (and @t39 @t1956))
1.92/2.11	(define @t3829 () (forall @t41 (not @t3828)))
1.92/2.11	(define @t3830 () (not @t3829))
1.92/2.11	(define @t3831 () (or @t435 @t197))
1.92/2.11	(define @t3832 () (forall @t9 (not @t84)))
1.92/2.11	(define @t3833 () (not @t3832))
1.92/2.11	(define @t3834 () (=> tptp.foundationAx @t3822))
1.92/2.11	(define @t3835 () (= @t6 @t1965))
1.92/2.11	(define @t3836 () (not @t68))
1.92/2.11	(define @t3837 () (or @t2455 @t3836))
1.92/2.11	(define @t3838 () (forall @t70 (not @t69)))
1.92/2.11	(define @t3839 () (not @t3838))
1.92/2.11	(define @t3840 () (or @t197 @t1974))
1.92/2.11	(define @t3841 () (_ @t75 @t1968))
1.92/2.11	(define @t3842 () (not @t3841))
1.92/2.11	(define @t3843 () (or @t3842 @t1971))
1.92/2.11	(define @t3844 () (or @t2741 @t1969))
1.92/2.11	(define @t3845 () (_ @t77 @t19))
1.92/2.11	(define @t3846 () (not @t3845))
1.92/2.11	(define @t3847 () (or @t3846 @t1969))
1.92/2.11	(define @t3848 () (forall @t70 @t3847))
1.92/2.11	(define @t3849 () (not @t3848))
1.92/2.11	(define @t3850 () (_ @t77 @t1968))
1.92/2.11	(define @t3851 () (not @t3850))
1.92/2.11	(define @t3852 () (or @t3851 @t3849))
1.92/2.11	(define @t3853 () (forall @t1973 @t3852))
1.92/2.11	(define @t3854 () (not @t3853))
1.92/2.11	(define @t3855 () (not (_ @t143 @t1968)))
1.92/2.11	(define @t3856 () (or @t1521 (= @t1968 @t19)))
1.92/2.11	(define @t3857 () (forall @t70 @t3856))
1.92/2.11	(define @t3858 () (not @t3857))
1.92/2.11	(define @t3859 () (or @t3855 @t3858))
1.92/2.11	(define @t3860 () (forall @t1973 @t3859))
1.92/2.11	(define @t3861 () (not @t3860))
1.92/2.11	(define @t3862 () (=> @t7 (_ @t3345 @t77)))
1.92/2.11	(define @t3863 () (forall @t9 @t3862))
1.92/2.11	(define @t3864 () (=> @t3863 @t74))
1.92/2.11	(define @t3865 () (forall @t81 @t3864))
1.92/2.11	(define @t3866 () (=> tptp.replAx @t3834))
1.92/2.11	(define @t3867 () (or @t1980 @t1979))
1.92/2.11	(define @t3868 () (or @t1988 @t1986 @t3867))
1.92/2.11	(define @t3869 () (forall @t1990 @t3868))
1.92/2.11	(define @t3870 () (@list @t1978))
1.92/2.11	(define @t3871 () (forall @t3870 @t3868))
1.92/2.11	(define @t3872 () (forall @t3870 @t3867))
1.92/2.11	(define @t3873 () (or @t1988 @t1986 @t3872))
1.92/2.11	(define @t3874 () (forall @t9 (or @t1984 @t1240)))
1.92/2.11	(define @t3875 () (not @t61))
1.92/2.11	(define @t3876 () (or @t3875 @t1986 @t3874))
1.92/2.11	(define @t3877 () (and @t61 @t1985))
1.92/2.11	(define @t3878 () (not @t54))
1.92/2.11	(define @t3879 () (or @t3878 @t7))
1.92/2.11	(define @t3880 () (_ tptp.in @t1981))
1.92/2.11	(define @t3881 () (or @t3878 @t197 @t58))
1.92/2.11	(define @t3882 () (=> tptp.omegaIndAx @t3866))
1.92/2.11	(define @t3883 () (or @t3878 @t53))
1.92/2.11	(define @t3884 () (=> tptp.omegaSAx @t3882))
1.92/2.11	(define @t3885 () (=> tptp.omega0Ax @t3884))
1.92/2.11	(define @t3886 () (= @t44 @t1829))
1.92/2.11	(define @t3887 () (forall @t41 (not @t40)))
1.92/2.11	(define @t3888 () (not @t3887))
1.92/2.11	(define @t3889 () (=> tptp.setunionAx @t3885))
1.92/2.11	(define @t3890 () (= @t35 @t1840))
1.92/2.11	(define @t3891 () (=> tptp.powersetAx @t3889))
1.92/2.11	(define @t3892 () (= @t26 @t3636))
1.92/2.11	(define @t3893 () (=> tptp.setadjoinAx @t3891))
1.92/2.11	(define @t3894 () (=> tptp.emptysetAx @t3893))
1.92/2.11	(define @t3895 () (=> tptp.setextAx @t3894))
1.92/2.11	(define @t3896 () (or @t1251 @t1249 @t1243 @t1235))
1.92/2.11	(define @t3897 () (or @t1253 @t3896))
1.92/2.11	(define @t3898 () (forall @t1255 @t3897))
1.92/2.11	(define @t3899 () (@list @t1234))
1.92/2.11	(define @t3900 () (forall @t3899 @t3897))
1.92/2.11	(define @t3901 () (forall @t3899 @t3896))
1.92/2.11	(define @t3902 () (or @t1253 @t3901))
1.92/2.11	(define @t3903 () (not (tptp.in @t1237 @t985)))
1.92/2.11	(define @t3904 () (or @t1241 @t1239 @t3903 @t1238))
1.92/2.11	(define @t3905 () (forall @t1242 @t3904))
1.92/2.11	(define @t3906 () (not @t3905))
1.92/2.11	(define @t3907 () (forall @t996 (or @t2194 @t2192 @t3906 @t1001)))
1.92/2.11	(define @t3908 () (or @t2197 @t3907))
1.92/2.11	(define @t3909 () (or @t2201 @t2192 @t3906 @t1001))
1.92/2.11	(define @t3910 () (or @t2192 @t3906 @t1001))
1.92/2.11	(define @t3911 () (=> @t3905 @t1001))
1.92/2.11	(define @t3912 () (=> @t2191 @t3911))
1.92/2.11	(define @t3913 () (or @t1239 @t3903 @t1238))
1.92/2.11	(define @t3914 () (or @t1241 @t3913))
1.92/2.11	(define @t3915 () (forall @t1242 @t3914))
1.92/2.11	(define @t3916 () (@list @t1236))
1.92/2.11	(define @t3917 () (forall @t3916 @t3914))
1.92/2.11	(define @t3918 () (forall @t3916 @t3913))
1.92/2.11	(define @t3919 () (or @t1241 @t3918))
1.92/2.11	(define @t3920 () (forall @t70 (or @t2215 (not @t2212) @t2213)))
1.92/2.11	(define @t3921 () (or @t197 @t3920))
1.92/2.11	(define @t3922 () (not @t988))
1.92/2.11	(define @t3923 () (or @t2220 @t3922 @t933))
1.92/2.11	(define @t3924 () (=> @t2226 @t1007))
1.92/2.11	(define @t3925 () (forall @t996 @t3924))
1.92/2.11	(define @t3926 () (=> @t2229 @t3925))
1.92/2.11	(define @t3927 () (forall @t942 @t3926))
1.92/2.11	(define @t3928 () (=> tptp.subbreln @t3927))
1.92/2.11	(define @t3929 () (=> tptp.funcGraphProp4 @t3928))
1.92/2.11	(define @t3930 () (=> tptp.funcextLem @t3929))
1.92/2.11	(define @t3931 () (=> tptp.funcGraphProp2 @t3930))
1.92/2.11	(define @t3932 () (=> tptp.funcGraphProp3 @t3931))
1.92/2.11	(define @t3933 () (=> tptp.funcGraphProp1 @t3932))
1.92/2.11	(define @t3934 () (=> tptp.ex1E2 @t3933))
1.92/2.11	(define @t3935 () (=> tptp.brelnall2 @t3934))
1.92/2.11	(define @t3936 () (=> tptp.brelnall1 @t3935))
1.92/2.11	(define @t3937 () (=> tptp.lam2p @t3936))
1.92/2.11	(define @t3938 () (=> tptp.lamp @t3937))
1.92/2.11	(define @t3939 () (=> tptp.lamProp @t3938))
1.92/2.11	(define @t3940 () (=> tptp.funcinfuncset @t3939))
1.92/2.11	(define @t3941 () (=> tptp.ap2p @t3940))
1.92/2.11	(define @t3942 () (=> tptp.infuncsetfunc @t3941))
1.92/2.11	(define @t3943 () (=> tptp.app @t3942))
1.92/2.11	(define @t3944 () (=> tptp.apProp @t3943))
1.92/2.11	(define @t3945 () (=> tptp.funcImageSingleton @t3944))
1.92/2.11	(define @t3946 () (=> tptp.dpsetconstrER @t3945))
1.92/2.11	(define @t3947 () (=> tptp.dpsetconstrEL2 @t3946))
1.92/2.11	(define @t3948 () (=> tptp.dpsetconstrEL1 @t3947))
1.92/2.11	(define @t3949 () (=> tptp.dpsetconstrERa @t3948))
1.92/2.11	(define @t3950 () (=> tptp.setOfPairsIsBReln @t3949))
1.92/2.11	(define @t3951 () (=> tptp.dpsetconstrSub @t3950))
1.92/2.11	(define @t3952 () (=> tptp.dpsetconstrI @t3951))
1.92/2.11	(define @t3953 () (=> tptp.cartprodpairsurjEq @t3952))
1.92/2.11	(define @t3954 () (=> tptp.cartprodsndpairEq @t3953))
1.92/2.11	(define @t3955 () (=> tptp.cartprodfstpairEq @t3954))
1.92/2.11	(define @t3956 () (=> tptp.cartprodmempaircEq @t3955))
1.92/2.11	(define @t3957 () (=> tptp.cartprodpairmemER @t3956))
1.92/2.11	(define @t3958 () (=> tptp.cartprodpairmemEL @t3957))
1.92/2.11	(define @t3959 () (=> tptp.cartprodsndin @t3958))
1.92/2.11	(define @t3960 () (=> tptp.kpairsurjEq @t3959))
1.92/2.11	(define @t3961 () (=> tptp.ksndpairEq @t3960))
1.92/2.11	(define @t3962 () (=> tptp.ksndsingleton @t3961))
1.92/2.11	(define @t3963 () (=> tptp.setukpairinjR @t3962))
1.92/2.11	(define @t3964 () (=> tptp.setukpairinjR2 @t3963))
1.92/2.11	(define @t3965 () (=> tptp.upairequniteq @t3964))
1.92/2.11	(define @t3966 () (=> tptp.setukpairinjR1 @t3965))
1.92/2.11	(define @t3967 () (=> tptp.setukpairinjR12 @t3966))
1.92/2.11	(define @t3968 () (=> tptp.setukpairinjR11 @t3967))
1.92/2.11	(define @t3969 () (=> tptp.setukpairinjL @t3968))
1.92/2.11	(define @t3970 () (=> tptp.setukpairinjL2 @t3969))
1.92/2.11	(define @t3971 () (=> tptp.cartprodfstin @t3970))
1.92/2.11	(define @t3972 () (=> tptp.kfstpairEq @t3971))
1.92/2.11	(define @t3973 () (=> tptp.theprop @t3972))
1.92/2.11	(define @t3974 () (=> tptp.kfstsingleton @t3973))
1.92/2.11	(define @t3975 () (=> tptp.setukpairinjL1 @t3974))
1.92/2.11	(define @t3976 () (=> tptp.singletonsuniq @t3975))
1.92/2.11	(define @t3977 () (=> tptp.ex1I2 @t3976))
1.92/2.11	(define @t3978 () (=> tptp.ex1I @t3977))
1.92/2.11	(define @t3979 () (=> tptp.ex1E1 @t3978))
1.92/2.11	(define @t3980 () (=> tptp.singletonprop @t3979))
1.92/2.11	(define @t3981 () (=> tptp.setunionsingleton @t3980))
1.92/2.11	(define @t3982 () (=> tptp.setunionsingleton2 @t3981))
1.92/2.11	(define @t3983 () (=> tptp.setunionsingleton1 @t3982))
1.92/2.11	(define @t3984 () (=> tptp.setunionE2 @t3983))
1.92/2.11	(define @t3985 () (=> tptp.cartprodmempair @t3984))
1.92/2.11	(define @t3986 () (=> tptp.cartprodmempair1 @t3985))
1.92/2.11	(define @t3987 () (=> tptp.cartprodpairin @t3986))
1.92/2.11	(define @t3988 () (=> tptp.ubforcartprodlem3 @t3987))
1.92/2.11	(define @t3989 () (=> tptp.ubforcartprodlem2 @t3988))
1.92/2.11	(define @t3990 () (=> tptp.ubforcartprodlem1 @t3989))
1.92/2.11	(define @t3991 () (=> tptp.upairinpowunion @t3990))
1.92/2.11	(define @t3992 () (=> tptp.upairsubunion @t3991))
1.92/2.11	(define @t3993 () (=> tptp.upairset2E @t3992))
1.92/2.11	(define @t3994 () (=> tptp.singletoninpowunion @t3993))
1.92/2.11	(define @t3995 () (=> tptp.singletoninpowerset @t3994))
1.92/2.11	(define @t3996 () (=> tptp.singletonsubset @t3995))
1.92/2.11	(define @t3997 () (=> tptp.kpairp @t3996))
1.92/2.11	(define @t3998 () (=> tptp.kpairiskpair @t3997))
1.92/2.11	(define @t3999 () (=> tptp.setukpairIR @t3998))
1.92/2.11	(define @t4000 () (=> tptp.setukpairIL @t3999))
1.92/2.11	(define @t4001 () (=> tptp.secondinupair @t4000))
1.92/2.11	(define @t4002 () (=> tptp.symdiffIneg2 @t4001))
1.92/2.11	(define @t4003 () (=> tptp.symdiffIneg1 @t4002))
1.92/2.11	(define @t4004 () (=> tptp.symdiffI2 @t4003))
1.92/2.11	(define @t4005 () (=> tptp.symdiffI1 @t4004))
1.92/2.11	(define @t4006 () (=> tptp.symdiffE @t4005))
1.92/2.11	(define @t4007 () (=> tptp.setminusSubset1 @t4006))
1.92/2.11	(define @t4008 () (=> tptp.setminusLsub @t4007))
1.92/2.11	(define @t4009 () (=> tptp.setminusIRneg @t4008))
1.92/2.11	(define @t4010 () (=> tptp.setminusILneg @t4009))
1.92/2.11	(define @t4011 () (=> tptp.setminusELneg @t4010))
1.92/2.11	(define @t4012 () (=> tptp.setminusERneg @t4011))
1.92/2.11	(define @t4013 () (=> tptp.setminusSubset2 @t4012))
1.92/2.11	(define @t4014 () (=> tptp.setminusER @t4013))
1.92/2.11	(define @t4015 () (=> tptp.setminusEL @t4014))
1.92/2.11	(define @t4016 () (=> tptp.setminusI @t4015))
1.92/2.11	(define @t4017 () (=> tptp.bs114d @t4016))
1.92/2.11	(define @t4018 () (=> tptp.binintersectSubset1 @t4017))
1.92/2.11	(define @t4019 () (=> tptp.binintersectSubset4 @t4018))
1.92/2.11	(define @t4020 () (=> tptp.binintersectRsub @t4019))
1.92/2.11	(define @t4021 () (=> tptp.disjointsetsI1 @t4020))
1.92/2.11	(define @t4022 () (=> tptp.binintersectER @t4021))
1.92/2.11	(define @t4023 () (=> tptp.binintersectSubset3 @t4022))
1.92/2.11	(define @t4024 () (=> tptp.binintersectSubset2 @t4023))
1.92/2.11	(define @t4025 () (=> tptp.binintersectLsub @t4024))
1.92/2.11	(define @t4026 () (=> tptp.binintersectEL @t4025))
1.92/2.11	(define @t4027 () (=> tptp.binintersectSubset5 @t4026))
1.92/2.11	(define @t4028 () (=> tptp.binintersectI @t4027))
1.92/2.11	(define @t4029 () (=> tptp.binunionRsub @t4028))
1.92/2.11	(define @t4030 () (=> tptp.binunionLsub @t4029))
1.92/2.11	(define @t4031 () (=> tptp.binunionE @t4030))
1.92/2.11	(define @t4032 () (=> tptp.binunionEcases @t4031))
1.92/2.11	(define @t4033 () (=> tptp.binunionIR @t4032))
1.92/2.11	(define @t4034 () (=> tptp.upairset2IR @t4033))
1.92/2.11	(define @t4035 () (=> tptp.binunionIL @t4034))
1.92/2.11	(define @t4036 () (=> tptp.sepSubset @t4035))
1.92/2.11	(define @t4037 () (=> tptp.sepInPowerset @t4036))
1.92/2.11	(define @t4038 () (=> tptp.powersetsubset @t4037))
1.92/2.11	(define @t4039 () (=> tptp.inPowerset @t4038))
1.92/2.11	(define @t4040 () (=> tptp.powersetE1 @t4039))
1.92/2.11	(define @t4041 () (=> tptp.powersetI1 @t4040))
1.92/2.11	(define @t4042 () (=> tptp.subsetemptysetimpeq @t4041))
1.92/2.11	(define @t4043 () (=> tptp.setextsub @t4042))
1.92/2.11	(define @t4044 () (=> tptp.subset2powerset @t4043))
1.92/2.11	(define @t4045 () (=> tptp.setadjoinSub2 @t4044))
1.92/2.11	(define @t4046 () (=> tptp.setadjoinSub @t4045))
1.92/2.11	(define @t4047 () (=> tptp.subsetTrans @t4046))
1.92/2.11	(define @t4048 () (=> tptp.subsetRefl @t4047))
1.92/2.11	(define @t4049 () (=> tptp.notequalI2 @t4048))
1.92/2.11	(define @t4050 () (=> tptp.notequalI1 @t4049))
1.92/2.11	(define @t4051 () (=> tptp.notsubsetI @t4050))
1.92/2.11	(define @t4052 () (=> tptp.subsetE2 @t4051))
1.92/2.11	(define @t4053 () (=> tptp.subsetE @t4052))
1.92/2.11	(define @t4054 () (=> tptp.emptysetsubset @t4053))
1.92/2.11	(define @t4055 () (=> tptp.subsetI2 @t4054))
1.92/2.11	(define @t4056 () (=> tptp.eqimpsubset1 @t4055))
1.92/2.11	(define @t4057 () (=> tptp.eqimpsubset2 @t4056))
1.92/2.11	(define @t4058 () (=> tptp.subsetI1 @t4057))
1.92/2.11	(define @t4059 () (=> tptp.dsetconstr__Cong @t4058))
1.92/2.11	(define @t4060 () (=> tptp.descr__Cong @t4059))
1.92/2.11	(define @t4061 () (=> tptp.exuEu @t4060))
1.92/2.11	(define @t4062 () (=> tptp.omega__Cong @t4061))
1.92/2.11	(define @t4063 () (=> tptp.setunion__Cong @t4062))
1.92/2.11	(define @t4064 () (=> tptp.powerset__Cong @t4063))
1.92/2.11	(define @t4065 () (=> tptp.setadjoin__Cong @t4064))
1.92/2.11	(define @t4066 () (=> tptp.emptyset__Cong @t4065))
1.92/2.11	(define @t4067 () (=> tptp.exu__Cong @t4066))
1.92/2.11	(define @t4068 () (=> tptp.exuE3u @t4067))
1.92/2.11	(define @t4069 () (=> tptp.in__Cong @t4068))
1.92/2.11	(define @t4070 () (=> tptp.inCongP @t4069))
1.92/2.11	(define @t4071 () (=> tptp.exuI2 @t4070))
1.92/2.11	(define @t4072 () (=> tptp.exuI3 @t4071))
1.92/2.11	(define @t4073 () (=> tptp.exuI1 @t4072))
1.92/2.11	(define @t4074 () (=> tptp.notdallE @t4073))
1.92/2.11	(define @t4075 () (=> tptp.notdexE @t4074))
1.92/2.11	(define @t4076 () (=> tptp.prop2set2propI @t4075))
1.92/2.11	(define @t4077 () (=> tptp.prop2setI @t4076))
1.92/2.11	(define @t4078 () (=> tptp.quantDeMorgan4 @t4077))
1.92/2.11	(define @t4079 () (=> tptp.quantDeMorgan3 @t4078))
1.92/2.11	(define @t4080 () (=> tptp.quantDeMorgan2 @t4079))
1.92/2.11	(define @t4081 () (=> tptp.quantDeMorgan1 @t4080))
1.92/2.11	(define @t4082 () (=> tptp.vacuousDall @t4081))
1.92/2.11	(define @t4083 () (=> tptp.emptyE1 @t4082))
1.92/2.11	(define @t4084 () (=> tptp.upairsetIR @t4083))
1.92/2.11	(define @t4085 () (=> tptp.upairsetIL @t4084))
1.92/2.11	(define @t4086 () (=> tptp.upairsetE @t4085))
1.92/2.11	(define @t4087 () (=> tptp.singletonsswitch @t4086))
1.92/2.11	(define @t4088 () (=> tptp.eqinunit @t4087))
1.92/2.11	(define @t4089 () (=> tptp.notinsingleton @t4088))
1.92/2.11	(define @t4090 () (=> tptp.uniqinunit @t4089))
1.92/2.11	(define @t4091 () (=> tptp.nonemptyImpWitness @t4090))
1.92/2.11	(define @t4092 () (=> tptp.exuE2 @t4091))
1.92/2.11	(define @t4093 () (=> tptp.subPowSU @t4092))
1.92/2.11	(define @t4094 () (=> tptp.setunionE @t4093))
1.92/2.11	(define @t4095 () (=> tptp.setunionI @t4094))
1.92/2.11	(define @t4096 () (=> tptp.powersetE @t4095))
1.92/2.11	(define @t4097 () (=> tptp.emptyInPowerset @t4096))
1.92/2.11	(define @t4098 () (=> tptp.emptyinPowerset @t4097))
1.92/2.11	(define @t4099 () (=> tptp.powersetI @t4098))
1.92/2.11	(define @t4100 () (=> tptp.setoftrueEq @t4099))
1.92/2.11	(define @t4101 () (=> tptp.setadjoinOr @t4100))
1.92/2.11	(define @t4102 () (=> tptp.setadjoinE @t4101))
1.92/2.11	(define @t4103 () (=> tptp.setadjoinIR @t4102))
1.92/2.11	(define @t4104 () (=> tptp.emptyinunitempty @t4103))
1.92/2.11	(define @t4105 () (=> tptp.setadjoinIL @t4104))
1.92/2.11	(define @t4106 () (=> tptp.nonemptyI1 @t4105))
1.92/2.11	(define @t4107 () (=> tptp.nonemptyI @t4106))
1.92/2.11	(define @t4108 () (=> tptp.nonemptyE1 @t4107))
1.92/2.11	(define @t4109 () (=> tptp.setbeta @t4108))
1.92/2.11	(define @t4110 () (=> tptp.noeltsimpempty @t4109))
1.92/2.11	(define @t4111 () (=> tptp.emptyI @t4110))
1.92/2.11	(define @t4112 () (=> tptp.setext @t4111))
1.92/2.11	(define @t4113 () (=> tptp.exuE3e @t4112))
1.92/2.11	(define @t4114 () (=> tptp.notinemptyset @t4113))
1.92/2.11	(define @t4115 () (=> tptp.emptysetimpfalse @t4114))
1.92/2.11	(define @t4116 () (=> tptp.emptysetE @t4115))
1.92/2.11	(define @t4117 () (=> tptp.prop2setE @t4116))
1.92/2.11	(define @t4118 () (=> tptp.exuE1 @t4117))
1.92/2.11	(define @t4119 () (=> tptp.dsetconstrER @t4118))
1.92/2.11	(define @t4120 () (=> tptp.dsetconstrEL @t4119))
1.92/2.11	(define @t4121 () (=> tptp.dsetconstrI @t4120))
1.92/2.11	(define @t4122 () (=> tptp.descrp @t4121))
1.92/2.11	(define @t4123 () (=> tptp.wellorderingAx @t4122))
1.92/2.11	(define @t4124 () (=> tptp.foundationAx @t4123))
1.92/2.11	(define @t4125 () (=> tptp.replAx @t4124))
1.92/2.11	(define @t4126 () (=> tptp.omegaIndAx @t4125))
1.92/2.11	(define @t4127 () (=> tptp.omegaSAx @t4126))
1.92/2.11	(define @t4128 () (=> tptp.omega0Ax @t4127))
1.92/2.11	(define @t4129 () (=> tptp.setunionAx @t4128))
1.92/2.11	(define @t4130 () (=> tptp.powersetAx @t4129))
1.92/2.11	(define @t4131 () (=> tptp.setadjoinAx @t4130))
1.92/2.11	(define @t4132 () (=> tptp.emptysetAx @t4131))
1.92/2.11	(define @t4133 () (=> tptp.setextAx @t4132))
1.92/2.11	(define @t4134 () (@quantifiers_skolemize @t1256 2))
1.92/2.11	(define @t4135 () (@quantifiers_skolemize @t1256 3))
1.92/2.11	(define @t4136 () (@quantifiers_skolemize @t1256 1))
1.92/2.11	(define @t4137 () (@quantifiers_skolemize @t1256 0))
1.92/2.11	(define @t4138 () (not (tptp.in @t4 @t4137)))
1.92/2.11	(define @t4139 () (forall @t1242 (or @t4138 (not (tptp.in @t1236 @t4136)) (not (tptp.in @t1237 @t4135)) (tptp.in @t1237 @t4134))))
1.92/2.11	(define @t4140 () (= @t4134 @t4135))
1.92/2.11	(define @t4141 () (not @t4139))
1.92/2.11	(define @t4142 () (tptp.in @t1245 @t4135))
1.92/2.11	(define @t4143 () (tptp.in @t1245 @t4134))
1.92/2.11	(define @t4144 () (not (tptp.in @t1244 @t4136)))
1.92/2.11	(define @t4145 () (forall @t1248 (or @t4138 @t4144 (not @t4143) @t4142)))
1.92/2.11	(define @t4146 () (not @t4145))
1.92/2.11	(define @t4147 () (tptp.cartprod @t4137 @t4136))
1.92/2.11	(define @t4148 () (tptp.subset @t4135 @t4147))
1.92/2.11	(define @t4149 () (not @t4148))
1.92/2.11	(define @t4150 () (tptp.subset @t4134 @t4147))
1.92/2.11	(define @t4151 () (not @t4150))
1.92/2.11	(define @t4152 () (or @t4151 @t4149 @t4146 @t4141 @t4140))
1.92/2.11	(define @t4153 () (@list true))
1.92/2.11	(define @t4154 () (@list @t4152))
1.92/2.11	(define @t4155 () (@var "BOUND_VARIABLE_38313" $$unsorted))
1.92/2.11	(define @t4156 () (@var "BOUND_VARIABLE_38312" $$unsorted))
1.92/2.11	(define @t4157 () (tptp.kpair @t4156 @t4155))
1.92/2.11	(define @t4158 () (@list @t4156 @t4155))
1.92/2.11	(define @t4159 () (tptp.subset @t4135 @t4134))
1.92/2.11	(define @t4160 () (forall @t1248 (or @t4138 @t4144 (not @t4142) @t4143)))
1.92/2.11	(define @t4161 () (not @t4160))
1.92/2.11	(define @t4162 () (or @t4149 @t4151 @t4161 @t4159))
1.92/2.11	(define @t4163 () (@list false false false false))
1.92/2.11	(define @t4164 () (tptp.subset @t4134 @t4135))
1.92/2.11	(define @t4165 () (or @t4151 @t4149 @t4146 @t4164))
1.92/2.11	(define @t4166 () (not @t4159))
1.92/2.11	(define @t4167 () (not @t4164))
1.92/2.11	(define @t4168 () (or @t4167 @t4166 @t4140))
1.92/2.11	(assume @p1 @t14)
1.92/2.11	(assume @p2 @t18)
1.92/2.11	(assume @p3 @t30)
1.92/2.11	(assume @p4 @t38)
1.92/2.11	(assume @p5 @t48)
1.92/2.11	(assume @p6 (= tptp.omega0Ax @t50))
1.92/2.11	(assume @p7 @t56)
1.92/2.11	(assume @p8 @t66)
1.92/2.11	(assume @p9 @t83)
1.92/2.11	(assume @p10 @t92)
1.92/2.11	(assume @p11 @t142)
1.92/2.11	(assume @p12 @t152)
1.92/2.11	(assume @p13 @t161)
1.92/2.11	(assume @p14 @t163)
1.92/2.11	(assume @p15 @t165)
1.92/2.11	(assume @p16 @t172)
1.92/2.11	(assume @p17 @t178)
1.92/2.11	(assume @p18 @t183)
1.92/2.11	(assume @p19 @t185)
1.92/2.11	(assume @p20 (= tptp.notinemptyset @t17))
1.92/2.11	(assume @p21 @t189)
1.92/2.11	(assume @p22 @t195)
1.92/2.11	(assume @p23 @t201)
1.92/2.11	(assume @p24 (= tptp.noeltsimpempty @t200))
1.92/2.11	(assume @p25 @t204)
1.92/2.11	(assume @p26 @t208)
1.92/2.11	(assume @p27 @t212)
1.92/2.11	(assume @p28 @t215)
1.92/2.11	(assume @p29 @t219)
1.92/2.11	(assume @p30 (= tptp.emptyinunitempty @t221))
1.92/2.11	(assume @p31 @t223)
1.92/2.11	(assume @p32 @t231)
1.92/2.11	(assume @p33 @t234)
1.92/2.11	(assume @p34 @t238)
1.92/2.11	(assume @p35 @t241)
1.92/2.11	(assume @p36 @t244)
1.92/2.11	(assume @p37 (= tptp.emptyInPowerset @t243))
1.92/2.11	(assume @p38 @t247)
1.92/2.11	(assume @p39 @t251)
1.92/2.11	(assume @p40 @t258)
1.92/2.11	(assume @p41 @t262)
1.92/2.11	(assume @p42 @t268)
1.92/2.11	(assume @p43 @t273)
1.92/2.11	(assume @p44 @t278)
1.92/2.11	(assume @p45 @t284)
1.92/2.11	(assume @p46 @t286)
1.92/2.11	(assume @p47 @t288)
1.92/2.11	(assume @p48 @t297)
1.92/2.11	(assume @p49 @t300)
1.92/2.11	(assume @p50 @t303)
1.92/2.11	(assume @p51 @t311)
1.92/2.11	(assume @p52 @t314)
1.92/2.11	(assume @p53 @t322)
1.92/2.11	(assume @p54 @t327)
1.92/2.11	(assume @p55 @t330)
1.92/2.11	(assume @p56 @t333)
1.92/2.11	(assume @p57 @t336)
1.92/2.11	(assume @p58 @t339)
1.92/2.11	(assume @p59 (= tptp.notdexE @t329))
1.92/2.11	(assume @p60 (= tptp.notdallE @t321))
1.92/2.11	(assume @p61 @t342)
1.92/2.11	(assume @p62 @t348)
1.92/2.11	(assume @p63 @t351)
1.92/2.11	(assume @p64 @t357)
1.92/2.11	(assume @p65 @t362)
1.92/2.11	(assume @p66 @t365)
1.92/2.11	(assume @p67 @t378)
1.92/2.11	(assume @p68 @t380)
1.92/2.11	(assume @p69 @t390)
1.92/2.11	(assume @p70 @t394)
1.92/2.11	(assume @p71 @t398)
1.92/2.11	(assume @p72 @t399)
1.92/2.11	(assume @p73 @t400)
1.92/2.11	(assume @p74 @t407)
1.92/2.11	(assume @p75 @t418)
1.92/2.11	(assume @p76 @t423)
1.92/2.11	(assume @p77 @t427)
1.92/2.11	(assume @p78 @t429)
1.92/2.11	(assume @p79 (= tptp.subsetI2 @t422))
1.92/2.11	(assume @p80 @t432)
1.92/2.11	(assume @p81 @t434)
1.92/2.11	(assume @p82 @t438)
1.92/2.11	(assume @p83 @t442)
1.92/2.11	(assume @p84 @t445)
1.92/2.11	(assume @p85 @t448)
1.92/2.11	(assume @p86 @t451)
1.92/2.11	(assume @p87 @t457)
1.92/2.11	(assume @p88 @t461)
1.92/2.11	(assume @p89 @t465)
1.92/2.11	(assume @p90 @t469)
1.92/2.11	(assume @p91 @t472)
1.92/2.11	(assume @p92 @t475)
1.92/2.11	(assume @p93 @t477)
1.92/2.11	(assume @p94 @t479)
1.92/2.11	(assume @p95 @t482)
1.92/2.11	(assume @p96 @t485)
1.92/2.11	(assume @p97 @t488)
1.92/2.11	(assume @p98 @t491)
1.92/2.11	(assume @p99 @t495)
1.92/2.11	(assume @p100 (= tptp.upairset2IR @t302))
1.92/2.11	(assume @p101 @t497)
1.92/2.11	(assume @p102 @t504)
1.92/2.11	(assume @p103 @t507)
1.92/2.11	(assume @p104 @t510)
1.92/2.11	(assume @p105 @t513)
1.92/2.11	(assume @p106 @t519)
1.92/2.11	(assume @p107 @t526)
1.92/2.11	(assume @p108 @t528)
1.92/2.11	(assume @p109 @t532)
1.92/2.11	(assume @p110 @t536)
1.92/2.11	(assume @p111 @t540)
1.92/2.11	(assume @p112 @t542)
1.92/2.11	(assume @p113 @t548)
1.92/2.11	(assume @p114 @t551)
1.92/2.11	(assume @p115 @t554)
1.92/2.11	(assume @p116 @t557)
1.92/2.11	(assume @p117 @t564)
1.92/2.11	(assume @p118 @t569)
1.92/2.11	(assume @p119 @t571)
1.92/2.11	(assume @p120 @t573)
1.92/2.11	(assume @p121 @t577)
1.92/2.11	(assume @p122 @t580)
1.92/2.11	(assume @p123 @t582)
1.92/2.11	(assume @p124 @t584)
1.92/2.11	(assume @p125 @t586)
1.92/2.11	(assume @p126 @t589)
1.92/2.11	(assume @p127 @t592)
1.92/2.11	(assume @p128 @t602)
1.92/2.11	(assume @p129 @t605)
1.92/2.11	(assume @p130 @t608)
1.92/2.11	(assume @p131 @t612)
1.92/2.11	(assume @p132 @t615)
1.92/2.11	(assume @p133 (= tptp.secondinupair @t302))
1.92/2.11	(assume @p134 @t622)
1.92/2.11	(assume @p135 @t625)
1.92/2.11	(assume @p136 @t628)
1.92/2.11	(assume @p137 @t633)
1.92/2.11	(assume @p138 @t636)
1.92/2.11	(assume @p139 @t640)
1.92/2.11	(assume @p140 @t644)
1.92/2.11	(assume @p141 (= tptp.upairset2E @t296))
1.92/2.11	(assume @p142 @t649)
1.92/2.11	(assume @p143 @t654)
1.92/2.11	(assume @p144 @t659)
1.92/2.11	(assume @p145 @t665)
1.92/2.11	(assume @p146 @t671)
1.92/2.11	(assume @p147 @t677)
1.92/2.11	(assume @p148 @t688)
1.92/2.11	(assume @p149 @t691)
1.92/2.11	(assume @p150 @t700)
1.92/2.11	(assume @p151 @t705)
1.92/2.11	(assume @p152 @t708)
1.92/2.11	(assume @p153 @t711)
1.92/2.11	(assume @p154 @t719)
1.92/2.11	(assume @p155 @t724)
1.92/2.11	(assume @p156 @t732)
1.92/2.11	(assume @p157 @t736)
1.92/2.11	(assume @p158 @t739)
1.92/2.11	(assume @p159 @t745)
1.92/2.11	(assume @p160 @t754)
1.92/2.11	(assume @p161 @t759)
1.92/2.11	(assume @p162 @t763)
1.92/2.11	(assume @p163 @t767)
1.92/2.11	(assume @p164 @t775)
1.92/2.11	(assume @p165 @t779)
1.92/2.11	(assume @p166 @t782)
1.92/2.11	(assume @p167 @t786)
1.92/2.11	(assume @p168 @t790)
1.92/2.11	(assume @p169 @t793)
1.92/2.11	(assume @p170 @t795)
1.92/2.11	(assume @p171 @t797)
1.92/2.11	(assume @p172 @t805)
1.92/2.11	(assume @p173 @t809)
1.92/2.11	(assume @p174 @t815)
1.92/2.11	(assume @p175 @t818)
1.92/2.11	(assume @p176 @t821)
1.92/2.11	(assume @p177 @t823)
1.92/2.11	(assume @p178 @t828)
1.92/2.11	(assume @p179 @t833)
1.92/2.11	(assume @p180 @t838)
1.92/2.11	(assume @p181 @t841)
1.92/2.11	(assume @p182 @t852)
1.92/2.11	(assume @p183 @t858)
1.92/2.11	(assume @p184 @t861)
1.92/2.11	(assume @p185 @t866)
1.92/2.11	(assume @p186 @t869)
1.92/2.11	(assume @p187 @t871)
1.92/2.11	(assume @p188 @t873)
1.92/2.11	(assume @p189 @t885)
1.92/2.11	(assume @p190 @t891)
1.92/2.11	(assume @p191 @t898)
1.92/2.11	(assume @p192 @t904)
1.92/2.11	(assume @p193 @t907)
1.92/2.11	(assume @p194 @t910)
1.92/2.11	(assume @p195 @t920)
1.92/2.11	(assume @p196 @t925)
1.92/2.11	(assume @p197 @t928)
1.92/2.11	(assume @p198 @t944)
1.92/2.11	(assume @p199 @t945)
1.92/2.11	(assume @p200 @t948)
1.92/2.11	(assume @p201 @t954)
1.92/2.11	(assume @p202 @t957)
1.92/2.11	(assume @p203 @t965)
1.92/2.11	(assume @p204 @t981)
1.92/2.11	(assume @p205 @t984)
1.92/2.11	(assume @p206 @t1000)
1.92/2.11	(assume @p207 @t1218)
1.92/2.11	(assume @p208 true)
1.92/2.11	(step @p209 (= tptp.exu @t1219) :rule refl :args (@t1219))
1.92/2.11	(step @p210 (= tptp.nonempty @t1220) :rule refl :args (@t1220))
1.92/2.11	(step @p211 (= tptp.singleton @t1224) :rule refl :args (@t1224))
1.92/2.11	(step @p212 (= tptp.ex1 @t1225) :rule refl :args (@t1225))
1.92/2.11	(step @p213 (= tptp.breln @t1227) :rule refl :args (@t1227))
1.92/2.11	(step @p214 (= tptp.func @t1232) :rule refl :args (@t1232))
1.92/2.11	(step @p215 (= tptp.lam @t1233) :rule refl :args (@t1233))
1.92/2.11	(step @p216 :rule refl :args (@t1775))
1.92/2.11	(step @p217 :rule skolem_intro :args ((@purify true)))
1.92/2.11	(step @p218 :rule symm :premises (@p217))
1.92/2.11	(step @p219 :rule cong :premises (@p218) :args (@t1776))
1.92/2.11	(step @p220 :rule cong :premises (@p219) :args (@t1777))
1.92/2.11	(step @p221 :rule cong :premises (@p220 @p216) :args (@t1778))
1.92/2.11	(step @p222 :rule refl :args (tptp.emptyset))
1.92/2.11	(step @p223 :rule cong :premises (@p222 @p219) :args (@t1779))
1.92/2.11	(step @p224 :rule cong :premises (@p223 @p221) :args (@t1780))
1.92/2.11	(step @p225 :rule refl :args (@t1783))
1.92/2.11	(step @p226 :rule cong :premises (@p225 @p224) :args (@t1784))
1.92/2.11	(step @p227 :rule refl :args (@t1791))
1.92/2.11	(step @p228 :rule cong :premises (@p227 @p226) :args (@t1792))
1.92/2.11	(step @p229 :rule refl :args (@t1617))
1.92/2.11	(step @p230 :rule cong :premises (@p229 @p228) :args (@t1793))
1.92/2.11	(step @p231 :rule refl :args (@t1795))
1.92/2.11	(step @p232 :rule cong :premises (@p231 @p230) :args (@t1796))
1.92/2.11	(step @p233 :rule refl :args (@t1599))
1.92/2.11	(step @p234 :rule cong :premises (@p233 @p232) :args (@t1797))
1.92/2.11	(step @p235 :rule refl :args (@t1801))
1.92/2.11	(step @p236 :rule cong :premises (@p235 @p234) :args (@t1802))
1.92/2.11	(step @p237 :rule refl :args (@t1804))
1.92/2.11	(step @p238 :rule cong :premises (@p237 @p236) :args (@t1805))
1.92/2.11	(step @p239 :rule refl :args (@t1806))
1.92/2.11	(step @p240 :rule cong :premises (@p239 @p238) :args (@t1807))
1.92/2.11	(step @p241 :rule refl :args (@t1808))
1.92/2.11	(step @p242 :rule cong :premises (@p241 @p240) :args (@t1809))
1.92/2.11	(step @p243 :rule refl :args (@t1812))
1.92/2.11	(step @p244 :rule cong :premises (@p243 @p242) :args (@t1813))
1.92/2.11	(step @p245 :rule refl :args (@t1820))
1.92/2.11	(step @p246 :rule cong :premises (@p245 @p244) :args (@t1821))
1.92/2.11	(step @p247 :rule refl :args (@t1824))
1.92/2.11	(step @p248 :rule cong :premises (@p247 @p246) :args (@t1825))
1.92/2.11	(step @p249 :rule refl :args (@t1830))
1.92/2.11	(step @p250 :rule cong :premises (@p249 @p248) :args (@t1831))
1.92/2.11	(step @p251 :rule refl :args (@t1832))
1.92/2.11	(step @p252 :rule cong :premises (@p251 @p250) :args (@t1833))
1.92/2.11	(step @p253 :rule refl :args (@t1834))
1.92/2.11	(step @p254 :rule cong :premises (@p253 @p252) :args (@t1835))
1.92/2.11	(step @p255 :rule refl :args (@t1837))
1.92/2.11	(step @p256 :rule cong :premises (@p255 @p254) :args (@t1838))
1.92/2.11	(step @p257 :rule cong :premises (@p255 @p256) :args (@t1839))
1.92/2.11	(step @p258 :rule refl :args (@t1842))
1.92/2.11	(step @p259 :rule cong :premises (@p258 @p257) :args (@t1843))
1.92/2.11	(step @p260 :rule refl :args (@t1847))
1.92/2.11	(step @p261 :rule cong :premises (@p260 @p259) :args (@t1848))
1.92/2.11	(step @p262 :rule refl :args (@t1850))
1.92/2.11	(step @p263 :rule cong :premises (@p262 @p261) :args (@t1851))
1.92/2.11	(step @p264 :rule cong :premises (@p262 @p263) :args (@t1852))
1.92/2.11	(step @p265 :rule refl :args (@t1853))
1.92/2.11	(step @p266 :rule cong :premises (@p265 @p264) :args (@t1854))
1.92/2.11	(step @p267 :rule refl :args ((tptp.in tptp.emptyset @t220)))
1.92/2.11	(step @p268 :rule refl :args (@t1855))
1.92/2.11	(step @p269 :rule refl :args (tptp.emptyset))
1.92/2.11	(step @p270 :rule cong :premises (@p269 @p268) :args (@t1856))
1.92/2.11	(step @p271 :rule trans :premises (@p270 @p267))
1.92/2.11	(step @p272 :rule refl :args (@t49))
1.92/2.11	(step @p273 :rule ho_cong :premises (@p272 @p268))
1.92/2.11	(step @p274 :rule cong :premises (@p273 @p271) :args ((= (_ @t49 @t1855) @t1856)))
1.92/2.11	(step @p275 :rule symm :premises (@p274))
1.92/2.11	(step @p276 :rule refl :args (@t221))
1.92/2.11	(step @p277 :rule eq_resolve :premises (@p276 @p275))
1.92/2.11	(step @p278 :rule refl :args (@t220))
1.92/2.11	(step @p279 :rule cong :premises (@p278 @p268) :args ((= @t220 @t1855)))
1.92/2.11	(step @p280 :rule symm :premises (@p279))
1.92/2.11	(step @p281 :rule eq_resolve :premises (@p278 @p280))
1.92/2.11	(step @p282 :rule refl :args (@t49))
1.92/2.11	(step @p283 :rule ho_cong :premises (@p282 @p281))
1.92/2.11	(step @p284 :rule trans :premises (@p283 @p277))
1.92/2.11	(step @p285 :rule cong :premises (@p284 @p266) :args (@t1857))
1.92/2.11	(step @p286 :rule refl :args (@t1860))
1.92/2.11	(step @p287 :rule cong :premises (@p286 @p285) :args (@t1861))
1.92/2.11	(step @p288 :rule refl :args (@t1865))
1.92/2.11	(step @p289 :rule cong :premises (@p288 @p287) :args (@t1866))
1.92/2.11	(step @p290 :rule refl :args (@t1867))
1.92/2.11	(step @p291 :rule cong :premises (@p290 @p289) :args (@t1868))
1.92/2.11	(step @p292 :rule cong :premises (@p243 @p291) :args (@t1869))
1.92/2.11	(step @p293 :rule refl :args (@t1870))
1.92/2.11	(step @p294 :rule cong :premises (@p293 @p292) :args (@t1871))
1.92/2.11	(step @p295 :rule refl :args (@t1872))
1.92/2.11	(step @p296 :rule cong :premises (@p295 @p294) :args (@t1873))
1.92/2.11	(step @p297 :rule cong :premises (@p295 @p296) :args (@t1874))
1.92/2.11	(step @p298 :rule refl :args (@t1876))
1.92/2.11	(step @p299 :rule cong :premises (@p298 @p297) :args (@t1877))
1.92/2.11	(step @p300 :rule refl :args (@t1883))
1.92/2.11	(step @p301 :rule cong :premises (@p300 @p299) :args (@t1884))
1.92/2.11	(step @p302 :rule refl :args (@t1885))
1.92/2.11	(step @p303 :rule cong :premises (@p302 @p301) :args (@t1886))
1.92/2.11	(step @p304 :rule cong :premises (@p302 @p303) :args (@t1887))
1.92/2.11	(step @p305 :rule cong :premises (@p302 @p304) :args (@t1888))
1.92/2.11	(step @p306 :rule refl :args (@t1890))
1.92/2.11	(step @p307 :rule cong :premises (@p306 @p305) :args (@t1891))
1.92/2.11	(step @p308 :rule refl :args (@t1892))
1.92/2.11	(step @p309 :rule cong :premises (@p308 @p307) :args (@t1893))
1.92/2.11	(step @p310 :rule refl :args (@t1894))
1.92/2.11	(step @p311 :rule cong :premises (@p310 @p309) :args (@t1895))
1.92/2.11	(step @p312 :rule refl :args (@t1896))
1.92/2.11	(step @p313 :rule cong :premises (@p312 @p311) :args (@t1897))
1.92/2.11	(step @p314 :rule refl :args (@t1902))
1.92/2.11	(step @p315 :rule cong :premises (@p314 @p313) :args (@t1903))
1.92/2.11	(step @p316 :rule refl :args (@t1954))
1.92/2.11	(step @p317 :rule cong :premises (@p316 @p315) :args (@t1955))
1.92/2.11	(step @p318 :rule refl :args (@t1962))
1.92/2.11	(step @p319 :rule cong :premises (@p318 @p317) :args (@t1963))
1.92/2.11	(step @p320 :rule refl :args (@t1976))
1.92/2.11	(step @p321 :rule cong :premises (@p320 @p319) :args (@t1977))
1.92/2.11	(step @p322 :rule refl :args (@t1991))
1.92/2.11	(step @p323 :rule cong :premises (@p322 @p321) :args (@t1992))
1.92/2.11	(step @p324 :rule refl :args (@t1994))
1.92/2.11	(step @p325 :rule cong :premises (@p324 @p323) :args (@t1995))
1.92/2.11	(step @p326 :rule refl :args (@t1996))
1.92/2.11	(step @p327 :rule refl :args (@t50))
1.92/2.11	(step @p328 :rule cong :premises (@p327 @p326) :args ((= @t50 @t1996)))
1.92/2.11	(step @p329 :rule symm :premises (@p328))
1.92/2.11	(step @p330 :rule eq_resolve :premises (@p327 @p329))
1.92/2.11	(step @p331 :rule cong :premises (@p330 @p325) :args (@t1997))
1.92/2.11	(step @p332 :rule refl :args (@t1998))
1.92/2.11	(step @p333 :rule cong :premises (@p332 @p331) :args (@t1999))
1.92/2.11	(step @p334 :rule refl :args (@t2000))
1.92/2.11	(step @p335 :rule cong :premises (@p334 @p333) :args (@t2001))
1.92/2.11	(step @p336 :rule refl :args (@t2003))
1.92/2.11	(step @p337 :rule cong :premises (@p336 @p335) :args (@t2004))
1.92/2.11	(step @p338 :rule cong :premises (@p302 @p337) :args (@t2005))
1.92/2.11	(step @p339 :rule refl :args (@t2007))
1.92/2.11	(step @p340 :rule cong :premises (@p339 @p338) :args (@t2008))
1.92/2.11	(step @p341 :rule cong :premises (@p340) :args ((not @t2008)))
1.92/2.11	(step @p342 :rule bool-impl-true2 :args (@t1424))
1.92/2.11	(step @p343 :rule refl :args (@t1427))
1.92/2.11	(step @p344 :rule cong :premises (@p343 @p342) :args (@t2009))
1.92/2.11	(step @p345 :rule refl :args (@t1428))
1.92/2.11	(step @p346 :rule cong :premises (@p345 @p344) :args (@t2010))
1.92/2.11	(step @p347 :rule refl :args (@t1430))
1.92/2.11	(step @p348 :rule cong :premises (@p347 @p346) :args (@t2011))
1.92/2.11	(step @p349 :rule refl :args (@t1433))
1.92/2.11	(step @p350 :rule cong :premises (@p349 @p348) :args (@t2012))
1.92/2.11	(step @p351 :rule refl :args (@t1436))
1.92/2.11	(step @p352 :rule cong :premises (@p351 @p350) :args (@t2013))
1.92/2.11	(step @p353 :rule refl :args (@t1446))
1.92/2.11	(step @p354 :rule cong :premises (@p353 @p352) :args (@t2014))
1.92/2.11	(step @p355 :rule refl :args (@t1449))
1.92/2.11	(step @p356 :rule cong :premises (@p355 @p354) :args (@t2015))
1.92/2.11	(step @p357 :rule refl :args (@t1460))
1.92/2.11	(step @p358 :rule cong :premises (@p357 @p356) :args (@t2016))
1.92/2.11	(step @p359 :rule refl :args (@t1461))
1.92/2.11	(step @p360 :rule cong :premises (@p359 @p358) :args (@t2017))
1.92/2.11	(step @p361 :rule refl :args (@t1465))
1.92/2.11	(step @p362 :rule cong :premises (@p361 @p360) :args (@t2018))
1.92/2.11	(step @p363 :rule refl :args (@t1468))
1.92/2.11	(step @p364 :rule cong :premises (@p363 @p362) :args (@t2019))
1.92/2.11	(step @p365 :rule refl :args (@t1470))
1.92/2.11	(step @p366 :rule cong :premises (@p365 @p364) :args (@t2020))
1.92/2.11	(step @p367 :rule refl :args (@t1471))
1.92/2.11	(step @p368 :rule cong :premises (@p367 @p366) :args (@t2021))
1.92/2.11	(step @p369 :rule refl :args (@t1472))
1.92/2.11	(step @p370 :rule cong :premises (@p369 @p368) :args (@t2022))
1.92/2.11	(step @p371 :rule refl :args (@t1474))
1.92/2.11	(step @p372 :rule cong :premises (@p371 @p370) :args (@t2023))
1.92/2.11	(step @p373 :rule refl :args (@t1477))
1.92/2.11	(step @p374 :rule cong :premises (@p373 @p372) :args (@t2024))
1.92/2.11	(step @p375 :rule refl :args (@t1484))
1.92/2.11	(step @p376 :rule cong :premises (@p375 @p374) :args (@t2025))
1.92/2.11	(step @p377 :rule refl :args (@t1492))
1.92/2.11	(step @p378 :rule cong :premises (@p377 @p376) :args (@t2026))
1.92/2.11	(step @p379 :rule refl :args (@t1494))
1.92/2.11	(step @p380 :rule cong :premises (@p379 @p378) :args (@t2027))
1.92/2.11	(step @p381 :rule refl :args (@t1495))
1.92/2.11	(step @p382 :rule cong :premises (@p381 @p380) :args (@t2028))
1.92/2.11	(step @p383 :rule refl :args (@t1515))
1.92/2.11	(step @p384 :rule cong :premises (@p383 @p382) :args (@t2029))
1.92/2.11	(step @p385 :rule refl :args (@t1526))
1.92/2.11	(step @p386 :rule cong :premises (@p385 @p384) :args (@t2030))
1.92/2.11	(step @p387 :rule refl :args (@t1533))
1.92/2.11	(step @p388 :rule cong :premises (@p387 @p386) :args (@t2031))
1.92/2.11	(step @p389 :rule cong :premises (@p383 @p388) :args (@t2032))
1.92/2.11	(step @p390 :rule refl :args (@t1535))
1.92/2.11	(step @p391 :rule cong :premises (@p390 @p389) :args (@t2033))
1.92/2.11	(step @p392 :rule refl :args (@t1539))
1.92/2.11	(step @p393 :rule cong :premises (@p392 @p391) :args (@t2034))
1.92/2.11	(step @p394 :rule refl :args (@t1541))
1.92/2.11	(step @p395 :rule cong :premises (@p394 @p393) :args (@t2035))
1.92/2.11	(step @p396 :rule refl :args (@t1549))
1.92/2.11	(step @p397 :rule cong :premises (@p396 @p395) :args (@t2036))
1.92/2.11	(step @p398 :rule refl :args (@t1550))
1.92/2.11	(step @p399 :rule cong :premises (@p398 @p397) :args (@t2037))
1.92/2.11	(step @p400 :rule refl :args (@t1557))
1.92/2.11	(step @p401 :rule cong :premises (@p400 @p399) :args (@t2038))
1.92/2.11	(step @p402 :rule refl :args (@t1563))
1.92/2.11	(step @p403 :rule cong :premises (@p402 @p401) :args (@t2039))
1.92/2.11	(step @p404 :rule refl :args (@t1572))
1.92/2.11	(step @p405 :rule cong :premises (@p404 @p403) :args (@t2040))
1.92/2.11	(step @p406 :rule refl :args (@t1578))
1.92/2.11	(step @p407 :rule cong :premises (@p406 @p405) :args (@t2041))
1.92/2.11	(step @p408 :rule refl :args (@t1584))
1.92/2.11	(step @p409 :rule cong :premises (@p408 @p407) :args (@t2042))
1.92/2.11	(step @p410 :rule refl :args (@t1590))
1.92/2.11	(step @p411 :rule cong :premises (@p410 @p409) :args (@t2043))
1.92/2.11	(step @p412 :rule refl :args (@t1596))
1.92/2.11	(step @p413 :rule cong :premises (@p412 @p411) :args (@t2044))
1.92/2.11	(step @p414 :rule cong :premises (@p233 @p413) :args (@t2045))
1.92/2.11	(step @p415 :rule refl :args (@t1601))
1.92/2.11	(step @p416 :rule cong :premises (@p415 @p414) :args (@t2046))
1.92/2.11	(step @p417 :rule refl :args (@t1604))
1.92/2.11	(step @p418 :rule cong :premises (@p417 @p416) :args (@t2047))
1.92/2.11	(step @p419 :rule refl :args (@t1606))
1.92/2.11	(step @p420 :rule cong :premises (@p419 @p418) :args (@t2048))
1.92/2.11	(step @p421 :rule refl :args (@t1608))
1.92/2.11	(step @p422 :rule cong :premises (@p421 @p420) :args (@t2049))
1.92/2.11	(step @p423 :rule refl :args (@t1610))
1.92/2.11	(step @p424 :rule cong :premises (@p423 @p422) :args (@t2050))
1.92/2.11	(step @p425 :rule refl :args (@t1613))
1.92/2.11	(step @p426 :rule cong :premises (@p425 @p424) :args (@t2051))
1.92/2.11	(step @p427 :rule refl :args (@t1615))
1.92/2.11	(step @p428 :rule cong :premises (@p427 @p426) :args (@t2052))
1.92/2.11	(step @p429 :rule cong :premises (@p229 @p428) :args (@t2053))
1.92/2.11	(step @p430 :rule refl :args (@t1622))
1.92/2.11	(step @p431 :rule cong :premises (@p430 @p429) :args (@t2054))
1.92/2.11	(step @p432 :rule refl :args (@t1624))
1.92/2.11	(step @p433 :rule cong :premises (@p432 @p431) :args (@t2055))
1.92/2.11	(step @p434 :rule refl :args (@t1625))
1.92/2.11	(step @p435 :rule cong :premises (@p434 @p433) :args (@t2056))
1.92/2.11	(step @p436 :rule refl :args (@t1626))
1.92/2.11	(step @p437 :rule cong :premises (@p436 @p435) :args (@t2057))
1.92/2.11	(step @p438 :rule refl :args (@t1629))
1.92/2.11	(step @p439 :rule cong :premises (@p438 @p437) :args (@t2058))
1.92/2.11	(step @p440 :rule refl :args (@t1633))
1.92/2.11	(step @p441 :rule cong :premises (@p440 @p439) :args (@t2059))
1.92/2.11	(step @p442 :rule refl :args (@t1635))
1.92/2.11	(step @p443 :rule cong :premises (@p442 @p441) :args (@t2060))
1.92/2.11	(step @p444 :rule refl :args (@t1638))
1.92/2.11	(step @p445 :rule cong :premises (@p444 @p443) :args (@t2061))
1.92/2.11	(step @p446 :rule refl :args (@t1639))
1.92/2.11	(step @p447 :rule cong :premises (@p446 @p445) :args (@t2062))
1.92/2.11	(step @p448 :rule refl :args (@t1640))
1.92/2.11	(step @p449 :rule cong :premises (@p448 @p447) :args (@t2063))
1.92/2.11	(step @p450 :rule refl :args (@t1641))
1.92/2.11	(step @p451 :rule cong :premises (@p450 @p449) :args (@t2064))
1.92/2.11	(step @p452 :rule refl :args (@t1643))
1.92/2.11	(step @p453 :rule cong :premises (@p452 @p451) :args (@t2065))
1.92/2.11	(step @p454 :rule refl :args (@t1644))
1.92/2.11	(step @p455 :rule cong :premises (@p454 @p453) :args (@t2066))
1.92/2.11	(step @p456 :rule refl :args (@t1645))
1.92/2.11	(step @p457 :rule cong :premises (@p456 @p455) :args (@t2067))
1.92/2.11	(step @p458 :rule refl :args (@t1646))
1.92/2.11	(step @p459 :rule cong :premises (@p458 @p457) :args (@t2068))
1.92/2.11	(step @p460 :rule refl :args (@t1652))
1.92/2.11	(step @p461 :rule cong :premises (@p460 @p459) :args (@t2069))
1.92/2.11	(step @p462 :rule refl :args (@t1654))
1.92/2.11	(step @p463 :rule cong :premises (@p462 @p461) :args (@t2070))
1.92/2.11	(step @p464 :rule refl :args (@t1658))
1.92/2.11	(step @p465 :rule cong :premises (@p464 @p463) :args (@t2071))
1.92/2.11	(step @p466 :rule refl :args (@t1660))
1.92/2.11	(step @p467 :rule cong :premises (@p466 @p465) :args (@t2072))
1.92/2.11	(step @p468 :rule refl :args (@t1663))
1.92/2.11	(step @p469 :rule cong :premises (@p468 @p467) :args (@t2073))
1.92/2.11	(step @p470 :rule refl :args (@t1666))
1.92/2.11	(step @p471 :rule cong :premises (@p470 @p469) :args (@t2074))
1.92/2.11	(step @p472 :rule refl :args (@t1667))
1.92/2.11	(step @p473 :rule cong :premises (@p472 @p471) :args (@t2075))
1.92/2.11	(step @p474 :rule refl :args (@t1668))
1.92/2.11	(step @p475 :rule cong :premises (@p474 @p473) :args (@t2076))
1.92/2.11	(step @p476 :rule refl :args (@t1670))
1.92/2.11	(step @p477 :rule cong :premises (@p476 @p475) :args (@t2077))
1.92/2.11	(step @p478 :rule refl :args (@t1671))
1.92/2.11	(step @p479 :rule cong :premises (@p478 @p477) :args (@t2078))
1.92/2.11	(step @p480 :rule refl :args (@t1675))
1.92/2.11	(step @p481 :rule cong :premises (@p480 @p479) :args (@t2079))
1.92/2.11	(step @p482 :rule refl :args (@t1676))
1.92/2.11	(step @p483 :rule cong :premises (@p482 @p481) :args (@t2080))
1.92/2.11	(step @p484 :rule refl :args (@t1678))
1.92/2.11	(step @p485 :rule cong :premises (@p484 @p483) :args (@t2081))
1.92/2.11	(step @p486 :rule refl :args (@t1680))
1.92/2.11	(step @p487 :rule cong :premises (@p486 @p485) :args (@t2082))
1.92/2.11	(step @p488 :rule refl :args (@t1683))
1.92/2.11	(step @p489 :rule cong :premises (@p488 @p487) :args (@t2083))
1.92/2.11	(step @p490 :rule cong :premises (@p488 @p489) :args (@t2084))
1.92/2.11	(step @p491 :rule refl :args (@t1684))
1.92/2.11	(step @p492 :rule cong :premises (@p491 @p490) :args (@t2085))
1.92/2.11	(step @p493 :rule cong :premises (@p229 @p492) :args (@t2086))
1.92/2.11	(step @p494 :rule refl :args (@t1685))
1.92/2.11	(step @p495 :rule cong :premises (@p494 @p493) :args (@t2087))
1.92/2.11	(step @p496 :rule refl :args (@t1686))
1.92/2.11	(step @p497 :rule cong :premises (@p496 @p495) :args (@t2088))
1.92/2.11	(step @p498 :rule refl :args (@t1687))
1.92/2.11	(step @p499 :rule cong :premises (@p498 @p497) :args (@t2089))
1.92/2.11	(step @p500 :rule refl :args (@t1690))
1.92/2.11	(step @p501 :rule cong :premises (@p500 @p499) :args (@t2090))
1.92/2.11	(step @p502 :rule refl :args (@t1692))
1.92/2.11	(step @p503 :rule cong :premises (@p502 @p501) :args (@t2091))
1.92/2.11	(step @p504 :rule refl :args (@t1695))
1.92/2.11	(step @p505 :rule cong :premises (@p504 @p503) :args (@t2092))
1.92/2.11	(step @p506 :rule refl :args (@t1696))
1.92/2.11	(step @p507 :rule cong :premises (@p506 @p505) :args (@t2093))
1.92/2.11	(step @p508 :rule refl :args (@t1698))
1.92/2.11	(step @p509 :rule cong :premises (@p508 @p507) :args (@t2094))
1.92/2.11	(step @p510 :rule refl :args (@t1699))
1.92/2.11	(step @p511 :rule cong :premises (@p510 @p509) :args (@t2095))
1.92/2.11	(step @p512 :rule refl :args (@t1701))
1.92/2.11	(step @p513 :rule cong :premises (@p512 @p511) :args (@t2096))
1.92/2.11	(step @p514 :rule refl :args (@t1704))
1.92/2.11	(step @p515 :rule cong :premises (@p514 @p513) :args (@t2097))
1.92/2.11	(step @p516 :rule refl :args (@t1707))
1.92/2.11	(step @p517 :rule cong :premises (@p516 @p515) :args (@t2098))
1.92/2.11	(step @p518 :rule refl :args (@t1710))
1.92/2.11	(step @p519 :rule cong :premises (@p518 @p517) :args (@t2099))
1.92/2.11	(step @p520 :rule refl :args (@t1712))
1.92/2.11	(step @p521 :rule cong :premises (@p520 @p519) :args (@t2100))
1.92/2.11	(step @p522 :rule bool-impl-true2 :args (@t2100))
1.92/2.11	(step @p523 :rule trans :premises (@p522 @p521))
1.92/2.11	(step @p524 :rule refl :args (@t1714))
1.92/2.11	(step @p525 :rule cong :premises (@p524 @p523) :args (@t2101))
1.92/2.11	(step @p526 :rule refl :args (@t1715))
1.92/2.11	(step @p527 :rule cong :premises (@p526 @p525) :args (@t2102))
1.92/2.11	(step @p528 :rule refl :args (@t1716))
1.92/2.11	(step @p529 :rule cong :premises (@p528 @p527) :args (@t2103))
1.92/2.11	(step @p530 :rule refl :args (@t1717))
1.92/2.11	(step @p531 :rule cong :premises (@p530 @p529) :args (@t2104))
1.92/2.11	(step @p532 :rule refl :args (@t1719))
1.92/2.11	(step @p533 :rule cong :premises (@p532 @p531) :args (@t2105))
1.92/2.11	(step @p534 :rule refl :args (@t1722))
1.92/2.11	(step @p535 :rule cong :premises (@p534 @p533) :args (@t2106))
1.92/2.11	(step @p536 :rule cong :premises (@p524 @p535) :args (@t2107))
1.92/2.11	(step @p537 :rule cong :premises (@p524 @p536) :args (@t2108))
1.92/2.11	(step @p538 :rule cong :premises (@p534 @p537) :args (@t2109))
1.92/2.11	(step @p539 :rule refl :args (@t1733))
1.92/2.11	(step @p540 :rule cong :premises (@p539 @p538) :args (@t2110))
1.92/2.11	(step @p541 :rule refl :args (@t1746))
1.92/2.11	(step @p542 :rule cong :premises (@p541 @p540) :args (@t2111))
1.92/2.11	(step @p543 :rule refl :args (@t1755))
1.92/2.11	(step @p544 :rule cong :premises (@p543 @p542) :args (@t2112))
1.92/2.11	(step @p545 :rule bool-impl-true2 :args (@t2112))
1.92/2.11	(step @p546 :rule trans :premises (@p545 @p544))
1.92/2.11	(step @p547 :rule bool-impl-true2 :args (@t2112))
1.92/2.11	(step @p548 :rule refl :args (true))
1.92/2.11	(step @p549 :rule cong :premises (@p548 @p547) :args (@t2113))
1.92/2.11	(step @p550 :rule trans :premises (@p549 @p546))
1.92/2.11	(step @p551 :rule cong :premises (@p548 @p547) :args (@t2113))
1.92/2.11	(step @p552 :rule cong :premises (@p548 @p551) :args (@t2114))
1.92/2.11	(step @p553 :rule trans :premises (@p552 @p550))
1.92/2.11	(step @p554 :rule cong :premises (@p548 @p551) :args (@t2114))
1.92/2.11	(step @p555 :rule cong :premises (@p548 @p554) :args (@t2115))
1.92/2.11	(step @p556 :rule trans :premises (@p555 @p553))
1.92/2.11	(step @p557 :rule cong :premises (@p548 @p554) :args (@t2115))
1.92/2.11	(step @p558 :rule cong :premises (@p548 @p557) :args (@t2116))
1.92/2.11	(step @p559 :rule trans :premises (@p558 @p556))
1.92/2.11	(step @p560 :rule refl :args (@t1765))
1.92/2.11	(step @p561 :rule cong :premises (@p560 @p559) :args (@t2117))
1.92/2.11	(step @p562 :rule cong :premises (@p543 @p561) :args (@t2118))
1.92/2.11	(step @p563 :rule bool-impl-true2 :args (@t2118))
1.92/2.11	(step @p564 :rule trans :premises (@p563 @p562))
1.92/2.11	(step @p565 :rule bool-impl-true2 :args (@t2118))
1.92/2.11	(step @p566 :rule cong :premises (@p548 @p565) :args (@t2119))
1.92/2.11	(step @p567 :rule trans :premises (@p566 @p564))
1.92/2.11	(step @p568 :rule refl :args (@t1768))
1.92/2.11	(step @p569 :rule cong :premises (@p568 @p567) :args (@t2120))
1.92/2.11	(step @p570 :rule refl :args (@t1774))
1.92/2.11	(step @p571 :rule cong :premises (@p570 @p569) :args (@t2121))
1.92/2.11	(step @p572 :rule bool-impl-true2 :args (@t2121))
1.92/2.11	(step @p573 :rule trans :premises (@p572 @p571))
1.92/2.11	(step @p574 :rule bool-impl-true2 :args (@t2121))
1.92/2.11	(step @p575 :rule cong :premises (@p548 @p574) :args (@t2122))
1.92/2.11	(step @p576 :rule trans :premises (@p575 @p573))
1.92/2.11	(step @p577 :rule cong :premises (@p548 @p574) :args (@t2122))
1.92/2.11	(step @p578 :rule cong :premises (@p548 @p577) :args (@t2123))
1.92/2.11	(step @p579 :rule trans :premises (@p578 @p576))
1.92/2.11	(step @p580 :rule refl :args (@t1777))
1.92/2.11	(step @p581 :rule cong :premises (@p580 @p579) :args (@t2124))
1.92/2.11	(step @p582 :rule refl :args (@t1779))
1.92/2.11	(step @p583 :rule cong :premises (@p582 @p581) :args (@t2125))
1.92/2.11	(step @p584 :rule bool-impl-true2 :args (@t2125))
1.92/2.11	(step @p585 :rule trans :premises (@p584 @p583))
1.92/2.11	(step @p586 :rule bool-impl-true2 :args (@t2125))
1.92/2.11	(step @p587 :rule cong :premises (@p548 @p586) :args (@t2126))
1.92/2.11	(step @p588 :rule trans :premises (@p587 @p585))
1.92/2.11	(step @p589 :rule cong :premises (@p548 @p586) :args (@t2126))
1.92/2.11	(step @p590 :rule cong :premises (@p548 @p589) :args (@t2127))
1.92/2.11	(step @p591 :rule trans :premises (@p590 @p588))
1.92/2.11	(step @p592 :rule cong :premises (@p548 @p589) :args (@t2127))
1.92/2.11	(step @p593 :rule cong :premises (@p548 @p592) :args (@t2128))
1.92/2.11	(step @p594 :rule trans :premises (@p593 @p591))
1.92/2.11	(step @p595 :rule cong :premises (@p225 @p594) :args (@t2129))
1.92/2.11	(step @p596 :rule cong :premises (@p227 @p595) :args (@t2130))
1.92/2.11	(step @p597 :rule cong :premises (@p229 @p596) :args (@t2131))
1.92/2.11	(step @p598 :rule cong :premises (@p231 @p597) :args (@t2132))
1.92/2.11	(step @p599 :rule cong :premises (@p233 @p598) :args (@t2133))
1.92/2.11	(step @p600 :rule cong :premises (@p235 @p599) :args (@t2134))
1.92/2.11	(step @p601 :rule cong :premises (@p237 @p600) :args (@t2135))
1.92/2.11	(step @p602 :rule cong :premises (@p239 @p601) :args (@t2136))
1.92/2.11	(step @p603 :rule cong :premises (@p241 @p602) :args (@t2137))
1.92/2.11	(step @p604 :rule cong :premises (@p243 @p603) :args (@t2138))
1.92/2.11	(step @p605 :rule cong :premises (@p245 @p604) :args (@t2139))
1.92/2.11	(step @p606 :rule cong :premises (@p247 @p605) :args (@t2140))
1.92/2.11	(step @p607 :rule cong :premises (@p249 @p606) :args (@t2141))
1.92/2.11	(step @p608 :rule cong :premises (@p251 @p607) :args (@t2142))
1.92/2.11	(step @p609 :rule cong :premises (@p253 @p608) :args (@t2143))
1.92/2.11	(step @p610 :rule cong :premises (@p255 @p609) :args (@t2144))
1.92/2.11	(step @p611 :rule cong :premises (@p255 @p610) :args (@t2145))
1.92/2.11	(step @p612 :rule cong :premises (@p258 @p611) :args (@t2146))
1.92/2.11	(step @p613 :rule cong :premises (@p260 @p612) :args (@t2147))
1.92/2.11	(step @p614 :rule cong :premises (@p262 @p613) :args (@t2148))
1.92/2.11	(step @p615 :rule cong :premises (@p262 @p614) :args (@t2149))
1.92/2.11	(step @p616 :rule cong :premises (@p265 @p615) :args (@t2150))
1.92/2.11	(step @p617 :rule refl :args (@t221))
1.92/2.11	(step @p618 :rule cong :premises (@p617 @p616) :args (@t2151))
1.92/2.11	(step @p619 :rule cong :premises (@p286 @p618) :args (@t2152))
1.92/2.11	(step @p620 :rule cong :premises (@p288 @p619) :args (@t2153))
1.92/2.11	(step @p621 :rule cong :premises (@p290 @p620) :args (@t2154))
1.92/2.11	(step @p622 :rule cong :premises (@p243 @p621) :args (@t2155))
1.92/2.11	(step @p623 :rule cong :premises (@p293 @p622) :args (@t2156))
1.92/2.11	(step @p624 :rule cong :premises (@p295 @p623) :args (@t2157))
1.92/2.11	(step @p625 :rule cong :premises (@p295 @p624) :args (@t2158))
1.92/2.11	(step @p626 :rule cong :premises (@p298 @p625) :args (@t2159))
1.92/2.11	(step @p627 :rule cong :premises (@p300 @p626) :args (@t2160))
1.92/2.11	(step @p628 :rule cong :premises (@p302 @p627) :args (@t2161))
1.92/2.11	(step @p629 :rule cong :premises (@p302 @p628) :args (@t2162))
1.92/2.11	(step @p630 :rule cong :premises (@p302 @p629) :args (@t2163))
1.92/2.11	(step @p631 :rule cong :premises (@p306 @p630) :args (@t2164))
1.92/2.11	(step @p632 :rule bool-impl-true2 :args (@t2164))
1.92/2.11	(step @p633 :rule trans :premises (@p632 @p631))
1.92/2.11	(step @p634 :rule cong :premises (@p308 @p633) :args (@t2165))
1.92/2.11	(step @p635 :rule cong :premises (@p310 @p634) :args (@t2166))
1.92/2.11	(step @p636 :rule cong :premises (@p312 @p635) :args (@t2167))
1.92/2.11	(step @p637 :rule cong :premises (@p314 @p636) :args (@t2168))
1.92/2.11	(step @p638 :rule cong :premises (@p316 @p637) :args (@t2169))
1.92/2.11	(step @p639 :rule cong :premises (@p318 @p638) :args (@t2170))
1.92/2.11	(step @p640 :rule cong :premises (@p320 @p639) :args (@t2171))
1.92/2.11	(step @p641 :rule cong :premises (@p322 @p640) :args (@t2172))
1.92/2.11	(step @p642 :rule cong :premises (@p324 @p641) :args (@t2173))
1.92/2.11	(step @p643 :rule refl :args (@t50))
1.92/2.11	(step @p644 :rule cong :premises (@p643 @p642) :args (@t2174))
1.92/2.11	(step @p645 :rule cong :premises (@p332 @p644) :args (@t2175))
1.92/2.11	(step @p646 :rule cong :premises (@p334 @p645) :args (@t2176))
1.92/2.11	(step @p647 :rule cong :premises (@p336 @p646) :args (@t2177))
1.92/2.11	(step @p648 :rule cong :premises (@p302 @p647) :args (@t2178))
1.92/2.11	(step @p649 :rule cong :premises (@p339 @p648) :args (@t2179))
1.92/2.11	(step @p650 :rule cong :premises (@p649) :args ((not @t2179)))
1.92/2.11	(step @p651 :rule refl :args (@t1256))
1.92/2.11	(step @p652 :rule aci_norm :args ((= @t2181 @t1261)))
1.92/2.11	(step @p653 :rule cong :premises (@p652) :args (@t2182))
1.92/2.11	(step @p654 :rule quant-merge-prenex :args ((= (forall @t942 @t2184) @t2182)))
1.92/2.11	(step @p655 :rule alpha_equiv :args (@t2185 (@list @t1257) @t2186))
1.92/2.11	(step @p656 :rule refl :args (@t1253))
1.92/2.11	(step @p657 :rule nary_cong :premises (@p656 @p655) :args (@t2187))
1.92/2.11	(step @p658 :rule quant-miniscope-or :args ((= @t2184 @t2187)))
1.92/2.11	(step @p659 :rule trans :premises (@p658 @p657))
1.92/2.11	(step @p660 :rule symm :premises (@p659))
1.92/2.11	(step @p661 :rule cong :premises (@p660) :args ((forall @t942 (or @t1253 @t2195))))
1.92/2.11	(step @p662 :rule trans :premises (@p661 @p654))
1.92/2.11	(step @p663 :rule trans :premises (@p662 @p653))
1.92/2.11	(step @p664 :rule refl :args (@t2195))
1.92/2.11	(step @p665 :rule refl :args ((tptp.subset @t929 @t672)))
1.92/2.11	(step @p666 :rule refl :args (@t1250))
1.92/2.11	(step @p667 :rule refl :args (@t929))
1.92/2.11	(step @p668 :rule cong :premises (@p667 @p666) :args (@t1252))
1.92/2.11	(step @p669 :rule trans :premises (@p668 @p665))
1.92/2.11	(step @p670 :rule refl :args (@t986))
1.92/2.11	(step @p671 :rule ho_cong :premises (@p670 @p666))
1.92/2.11	(step @p672 :rule cong :premises (@p671 @p669) :args ((= (_ @t986 @t1250) @t1252)))
1.92/2.11	(step @p673 :rule symm :premises (@p672))
1.92/2.11	(step @p674 :rule refl :args (@t2196))
1.92/2.11	(step @p675 :rule eq_resolve :premises (@p674 @p673))
1.92/2.11	(step @p676 :rule refl :args (@t672))
1.92/2.11	(step @p677 :rule cong :premises (@p676 @p666) :args ((= @t672 @t1250)))
1.92/2.11	(step @p678 :rule symm :premises (@p677))
1.92/2.11	(step @p679 :rule eq_resolve :premises (@p676 @p678))
1.92/2.11	(step @p680 :rule ho_cong :premises (@p670 @p679))
1.92/2.11	(step @p681 :rule trans :premises (@p680 @p675))
1.92/2.11	(step @p682 :rule cong :premises (@p681) :args (@t2197))
1.92/2.11	(step @p683 :rule nary_cong :premises (@p682 @p664) :args (@t2198))
1.92/2.11	(step @p684 :rule cong :premises (@p683) :args ((forall @t942 @t2198)))
1.92/2.11	(step @p685 :rule trans :premises (@p684 @p663))
1.92/2.11	(step @p686 :rule bool-impl-elim :args (@t2196 @t2195))
1.92/2.11	(step @p687 :rule cong :premises (@p686) :args ((forall @t942 (=> @t2196 @t2195))))
1.92/2.11	(step @p688 :rule trans :premises (@p687 @p685))
1.92/2.11	(step @p689 :rule refl :args (@t2188))
1.92/2.11	(step @p690 :rule refl :args (@t987))
1.92/2.11	(step @p691 :rule cong :premises (@p690 @p689) :args ((= @t987 @t2188)))
1.92/2.11	(step @p692 :rule symm :premises (@p691))
1.92/2.11	(step @p693 :rule eq_resolve :premises (@p690 @p692))
1.92/2.11	(step @p694 :rule refl :args (@t2192))
1.92/2.11	(step @p695 :rule refl :args ((tptp.subset @t985 @t672)))
1.92/2.11	(step @p696 :rule refl :args (@t985))
1.92/2.11	(step @p697 :rule cong :premises (@p696 @p666) :args (@t2193))
1.92/2.11	(step @p698 :rule trans :premises (@p697 @p695))
1.92/2.11	(step @p699 :rule refl :args (@t2199))
1.92/2.11	(step @p700 :rule ho_cong :premises (@p699 @p666))
1.92/2.11	(step @p701 :rule cong :premises (@p700 @p698) :args ((= (_ @t2199 @t1250) @t2193)))
1.92/2.11	(step @p702 :rule symm :premises (@p701))
1.92/2.11	(step @p703 :rule refl :args (@t2200))
1.92/2.11	(step @p704 :rule eq_resolve :premises (@p703 @p702))
1.92/2.11	(step @p705 :rule ho_cong :premises (@p699 @p679))
1.92/2.11	(step @p706 :rule trans :premises (@p705 @p704))
1.92/2.11	(step @p707 :rule cong :premises (@p706) :args (@t2201))
1.92/2.11	(step @p708 :rule nary_cong :premises (@p707 @p694 @p693) :args (@t2202))
1.92/2.11	(step @p709 :rule cong :premises (@p708) :args ((forall @t996 @t2202)))
1.92/2.11	(step @p710 :rule aci_norm :args ((= (or @t2201 (or @t2192 @t987)) @t2202)))
1.92/2.11	(step @p711 :rule bool-impl-elim :args (@t2191 @t987))
1.92/2.11	(step @p712 :rule refl :args (@t2201))
1.92/2.11	(step @p713 :rule nary_cong :premises (@p712 @p711) :args ((or @t2201 @t2203)))
1.92/2.11	(step @p714 :rule trans :premises (@p713 @p710))
1.92/2.11	(step @p715 :rule bool-impl-elim :args (@t2200 @t2203))
1.92/2.11	(step @p716 :rule trans :premises (@p715 @p714))
1.92/2.11	(step @p717 :rule cong :premises (@p716) :args ((forall @t996 (=> @t2200 @t2203))))
1.92/2.11	(step @p718 :rule trans :premises (@p717 @p709))
1.92/2.11	(step @p719 :rule refl :args (@t987))
1.92/2.11	(step @p720 :rule aci_norm :args ((= @t2205 @t2190)))
1.92/2.11	(step @p721 :rule cong :premises (@p720) :args (@t2206))
1.92/2.11	(step @p722 :rule quant-merge-prenex :args ((= (forall @t9 @t2208) @t2206)))
1.92/2.11	(step @p723 :rule alpha_equiv :args (@t2209 (@list @t1244) @t2210))
1.92/2.11	(step @p724 :rule refl :args (@t1241))
1.92/2.11	(step @p725 :rule nary_cong :premises (@p724 @p723) :args (@t2211))
1.92/2.11	(step @p726 :rule quant-miniscope-or :args ((= @t2208 @t2211)))
1.92/2.11	(step @p727 :rule trans :premises (@p726 @p725))
1.92/2.11	(step @p728 :rule symm :premises (@p727))
1.92/2.11	(step @p729 :rule cong :premises (@p728) :args ((forall @t9 (or @t1241 @t2216))))
1.92/2.11	(step @p730 :rule trans :premises (@p729 @p722))
1.92/2.11	(step @p731 :rule trans :premises (@p730 @p721))
1.92/2.11	(step @p732 :rule refl :args (@t2216))
1.92/2.11	(step @p733 :rule refl :args (@t1240))
1.92/2.11	(step @p734 :rule refl :args (@t7))
1.92/2.11	(step @p735 :rule cong :premises (@p734 @p733) :args ((= @t7 @t1240)))
1.92/2.11	(step @p736 :rule symm :premises (@p735))
1.92/2.11	(step @p737 :rule eq_resolve :premises (@p734 @p736))
1.92/2.11	(step @p738 :rule cong :premises (@p737) :args (@t197))
1.92/2.11	(step @p739 :rule nary_cong :premises (@p738 @p732) :args (@t2217))
1.92/2.11	(step @p740 :rule cong :premises (@p739) :args ((forall @t9 @t2217)))
1.92/2.11	(step @p741 :rule trans :premises (@p740 @p731))
1.92/2.11	(step @p742 :rule bool-impl-elim :args (@t7 @t2216))
1.92/2.11	(step @p743 :rule cong :premises (@p742) :args ((forall @t9 (=> @t7 @t2216))))
1.92/2.11	(step @p744 :rule trans :premises (@p743 @p741))
1.92/2.11	(step @p745 :rule refl :args ((tptp.in @t630 @t985)))
1.92/2.11	(step @p746 :rule refl :args (@t1283))
1.92/2.11	(step @p747 :rule cong :premises (@p746 @p696) :args (@t2212))
1.92/2.11	(step @p748 :rule trans :premises (@p747 @p745))
1.92/2.11	(step @p749 :rule refl :args (tptp.in))
1.92/2.11	(step @p750 :rule ho_cong :premises (@p749 @p746))
1.92/2.11	(step @p751 :rule ho_cong :premises (@p750 @p696))
1.92/2.11	(step @p752 :rule cong :premises (@p751 @p748) :args ((= (_ @t2218 @t985) @t2212)))
1.92/2.11	(step @p753 :rule symm :premises (@p752))
1.92/2.11	(step @p754 :rule refl :args (@t988))
1.92/2.11	(step @p755 :rule eq_resolve :premises (@p754 @p753))
1.92/2.11	(step @p756 :rule refl :args (@t630))
1.92/2.11	(step @p757 :rule cong :premises (@p756 @p746) :args ((= @t630 @t1283)))
1.92/2.11	(step @p758 :rule symm :premises (@p757))
1.92/2.11	(step @p759 :rule eq_resolve :premises (@p756 @p758))
1.92/2.11	(step @p760 :rule ho_cong :premises (@p749 @p759))
1.92/2.11	(step @p761 :rule ho_cong :premises (@p760 @p696))
1.92/2.11	(step @p762 :rule trans :premises (@p761 @p755))
1.92/2.11	(step @p763 :rule refl :args ((tptp.in @t630 @t929)))
1.92/2.11	(step @p764 :rule cong :premises (@p746 @p667) :args (@t2213))
1.92/2.11	(step @p765 :rule trans :premises (@p764 @p763))
1.92/2.11	(step @p766 :rule ho_cong :premises (@p750 @p667))
1.92/2.11	(step @p767 :rule cong :premises (@p766 @p765) :args ((= (_ @t2218 @t929) @t2213)))
1.92/2.11	(step @p768 :rule symm :premises (@p767))
1.92/2.11	(step @p769 :rule refl :args (@t933))
1.92/2.11	(step @p770 :rule eq_resolve :premises (@p769 @p768))
1.92/2.11	(step @p771 :rule ho_cong :premises (@p760 @p667))
1.92/2.11	(step @p772 :rule trans :premises (@p771 @p770))
1.92/2.11	(step @p773 :rule cong :premises (@p772) :args (@t2219))
1.92/2.11	(step @p774 :rule refl :args (@t1394))
1.92/2.11	(step @p775 :rule refl :args (@t352))
1.92/2.11	(step @p776 :rule cong :premises (@p775 @p774) :args ((= @t352 @t1394)))
1.92/2.11	(step @p777 :rule symm :premises (@p776))
1.92/2.11	(step @p778 :rule eq_resolve :premises (@p775 @p777))
1.92/2.11	(step @p779 :rule cong :premises (@p778) :args (@t2220))
1.92/2.11	(step @p780 :rule nary_cong :premises (@p779 @p773 @p762) :args (@t2221))
1.92/2.11	(step @p781 :rule cong :premises (@p780) :args ((forall @t70 @t2221)))
1.92/2.11	(step @p782 :rule aci_norm :args ((= (or @t2220 (or @t2219 @t988)) @t2221)))
1.92/2.11	(step @p783 :rule bool-impl-elim :args (@t933 @t988))
1.92/2.11	(step @p784 :rule refl :args (@t2220))
1.92/2.11	(step @p785 :rule nary_cong :premises (@p784 @p783) :args ((or @t2220 @t989)))
1.92/2.11	(step @p786 :rule trans :premises (@p785 @p782))
1.92/2.11	(step @p787 :rule bool-impl-elim :args (@t352 @t989))
1.92/2.11	(step @p788 :rule trans :premises (@p787 @p786))
1.92/2.11	(step @p789 :rule cong :premises (@p788) :args (@t990))
1.92/2.11	(step @p790 :rule trans :premises (@p789 @p781))
1.92/2.11	(step @p791 :rule refl :args (@t7))
1.92/2.11	(step @p792 :rule cong :premises (@p791 @p790) :args (@t991))
1.92/2.11	(step @p793 :rule cong :premises (@p792) :args (@t992))
1.92/2.11	(step @p794 :rule trans :premises (@p793 @p744))
1.92/2.11	(step @p795 :rule cong :premises (@p794 @p719) :args (@t993))
1.92/2.11	(step @p796 :rule beta-reduce :args ((= (_ @t2222 @t985) @t2200)))
1.92/2.11	(step @p797 :rule refl :args (@t985))
1.92/2.11	(step @p798 :rule beta-reduce :args ((= (_ @t2223 @t1) @t2222)))
1.92/2.11	(step @p799 :rule refl :args (@t1))
1.92/2.11	(step @p800 :rule beta-reduce :args ((= @t2224 @t2223)))
1.92/2.11	(step @p801 :rule ho_cong :premises (@p800 @p799))
1.92/2.11	(step @p802 :rule trans :premises (@p801 @p798))
1.92/2.11	(step @p803 :rule ho_cong :premises (@p802 @p797))
1.92/2.11	(step @p804 :rule trans :premises (@p803 @p796))
1.92/2.11	(step @p805 :rule cong :premises (@p804 @p795) :args (@t2227))
1.92/2.11	(step @p806 :rule cong :premises (@p805) :args (@t2228))
1.92/2.11	(step @p807 :rule trans :premises (@p806 @p718))
1.92/2.11	(step @p808 :rule beta-reduce :args ((= (_ @t2222 @t929) @t2196)))
1.92/2.11	(step @p809 :rule refl :args (@t929))
1.92/2.11	(step @p810 :rule ho_cong :premises (@p802 @p809))
1.92/2.11	(step @p811 :rule trans :premises (@p810 @p808))
1.92/2.11	(step @p812 :rule cong :premises (@p811 @p807) :args (@t2230))
1.92/2.11	(step @p813 :rule cong :premises (@p812) :args (@t2231))
1.92/2.11	(step @p814 :rule trans :premises (@p813 @p688))
1.92/2.11	(step @p815 :rule refl :args (tptp.subbreln))
1.92/2.11	(step @p816 :rule cong :premises (@p815 @p814) :args ((= tptp.subbreln @t2231)))
1.92/2.11	(step @p817 :rule refl :args (@t993))
1.92/2.11	(step @p818 :rule refl :args (@t2))
1.92/2.11	(step @p819 :rule ho_cong :premises (@p213 @p818))
1.92/2.11	(step @p820 :rule ho_cong :premises (@p819 @p799))
1.92/2.11	(step @p821 :rule ho_cong :premises (@p820 @p797))
1.92/2.11	(step @p822 :rule cong :premises (@p821 @p817) :args (@t995))
1.92/2.11	(step @p823 :rule cong :premises (@p822) :args (@t997))
1.92/2.11	(step @p824 :rule ho_cong :premises (@p820 @p809))
1.92/2.11	(step @p825 :rule cong :premises (@p824 @p823) :args (@t998))
1.92/2.11	(step @p826 :rule cong :premises (@p825) :args (@t999))
1.92/2.11	(step @p827 :rule cong :premises (@p815 @p826) :args (@t1000))
1.92/2.11	(step @p828 :rule trans :premises (@p827 @p816))
1.92/2.11	(step @p829 :rule eq_resolve :premises (@p206 @p828))
1.92/2.11	(step @p830 :rule cong :premises (@p829 @p651) :args (@t2232))
1.92/2.11	(step @p831 :rule eq-symm :args (@t1264 @t1265))
1.92/2.11	(step @p832 :rule refl :args (@t1266))
1.92/2.11	(step @p833 :rule refl :args (@t1267))
1.92/2.11	(step @p834 :rule refl :args (@t1268))
1.92/2.11	(step @p835 :rule refl :args (@t1271))
1.92/2.11	(step @p836 :rule nary_cong :premises (@p835 @p834 @p833 @p832 @p831) :args (@t2234))
1.92/2.11	(step @p837 :rule aci_norm :args ((= @t2236 @t2234)))
1.92/2.11	(step @p838 :rule trans :premises (@p837 @p836))
1.92/2.11	(step @p839 :rule cong :premises (@p838) :args (@t2237))
1.92/2.11	(step @p840 :rule quant-merge-prenex :args ((= (forall @t883 @t2239) @t2237)))
1.92/2.11	(step @p841 :rule alpha_equiv :args (@t2240 (@list @t1263 @t1265) @t2242))
1.92/2.11	(step @p842 :rule refl :args (@t1271))
1.92/2.11	(step @p843 :rule nary_cong :premises (@p842 @p841) :args (@t2243))
1.92/2.11	(step @p844 :rule quant-miniscope-or :args ((= @t2239 @t2243)))
1.92/2.11	(step @p845 :rule trans :premises (@p844 @p843))
1.92/2.11	(step @p846 :rule symm :premises (@p845))
1.92/2.11	(step @p847 :rule cong :premises (@p846) :args ((forall @t883 (or @t1271 @t2247))))
1.92/2.11	(step @p848 :rule trans :premises (@p847 @p840))
1.92/2.11	(step @p849 :rule trans :premises (@p848 @p839))
1.92/2.11	(step @p850 :rule refl :args (@t2247))
1.92/2.11	(step @p851 :rule refl :args ((tptp.in @t874 @t899)))
1.92/2.11	(step @p852 :rule refl :args (@t1269))
1.92/2.11	(step @p853 :rule refl :args (@t874))
1.92/2.11	(step @p854 :rule cong :premises (@p853 @p852) :args (@t1270))
1.92/2.11	(step @p855 :rule trans :premises (@p854 @p851))
1.92/2.11	(step @p856 :rule refl :args (@t900))
1.92/2.11	(step @p857 :rule ho_cong :premises (@p856 @p852))
1.92/2.11	(step @p858 :rule cong :premises (@p857 @p855) :args ((= (_ @t900 @t1269) @t1270)))
1.92/2.11	(step @p859 :rule symm :premises (@p858))
1.92/2.11	(step @p860 :rule refl :args (@t901))
1.92/2.11	(step @p861 :rule eq_resolve :premises (@p860 @p859))
1.92/2.11	(step @p862 :rule refl :args (@t899))
1.92/2.11	(step @p863 :rule cong :premises (@p862 @p852) :args ((= @t899 @t1269)))
1.92/2.11	(step @p864 :rule symm :premises (@p863))
1.92/2.11	(step @p865 :rule eq_resolve :premises (@p862 @p864))
1.92/2.11	(step @p866 :rule ho_cong :premises (@p856 @p865))
1.92/2.11	(step @p867 :rule trans :premises (@p866 @p861))
1.92/2.11	(step @p868 :rule cong :premises (@p867) :args (@t2248))
1.92/2.11	(step @p869 :rule nary_cong :premises (@p868 @p850) :args (@t2249))
1.92/2.11	(step @p870 :rule cong :premises (@p869) :args ((forall @t883 @t2249)))
1.92/2.11	(step @p871 :rule trans :premises (@p870 @p849))
1.92/2.11	(step @p872 :rule bool-impl-elim :args (@t901 @t2247))
1.92/2.11	(step @p873 :rule cong :premises (@p872) :args ((forall @t883 (=> @t901 @t2247))))
1.92/2.11	(step @p874 :rule trans :premises (@p873 @p871))
1.92/2.11	(step @p875 :rule eq-symm :args (@t2241 @t1281))
1.92/2.11	(step @p876 :rule refl :args (@t2244))
1.92/2.11	(step @p877 :rule refl :args (@t2245))
1.92/2.11	(step @p878 :rule refl :args (@t1241))
1.92/2.11	(step @p879 :rule nary_cong :premises (@p878 @p877 @p876 @p875) :args (@t2251))
1.92/2.11	(step @p880 :rule aci_norm :args ((= @t2253 @t2251)))
1.92/2.11	(step @p881 :rule trans :premises (@p880 @p879))
1.92/2.11	(step @p882 :rule cong :premises (@p881) :args (@t2254))
1.92/2.11	(step @p883 :rule quant-merge-prenex :args ((= (forall @t9 @t2256) @t2254)))
1.92/2.11	(step @p884 :rule alpha_equiv :args (@t2257 (@list @t2241) @t2210))
1.92/2.11	(step @p885 :rule nary_cong :premises (@p724 @p884) :args (@t2258))
1.92/2.11	(step @p886 :rule quant-miniscope-or :args ((= @t2256 @t2258)))
1.92/2.11	(step @p887 :rule trans :premises (@p886 @p885))
1.92/2.11	(step @p888 :rule symm :premises (@p887))
1.92/2.11	(step @p889 :rule cong :premises (@p888) :args ((forall @t9 (or @t1241 @t2259))))
1.92/2.11	(step @p890 :rule trans :premises (@p889 @p883))
1.92/2.11	(step @p891 :rule trans :premises (@p890 @p882))
1.92/2.11	(step @p892 :rule refl :args (@t2259))
1.92/2.11	(step @p893 :rule nary_cong :premises (@p738 @p892) :args (@t2260))
1.92/2.11	(step @p894 :rule cong :premises (@p893) :args ((forall @t9 @t2260)))
1.92/2.11	(step @p895 :rule trans :premises (@p894 @p891))
1.92/2.11	(step @p896 :rule bool-impl-elim :args (@t7 @t2259))
1.92/2.11	(step @p897 :rule cong :premises (@p896) :args ((forall @t9 (=> @t7 @t2259))))
1.92/2.11	(step @p898 :rule trans :premises (@p897 @p895))
1.92/2.11	(step @p899 :rule refl :args (@t1281))
1.92/2.11	(step @p900 :rule refl :args (@t893))
1.92/2.11	(step @p901 :rule cong :premises (@p900 @p899) :args ((= @t893 @t1281)))
1.92/2.11	(step @p902 :rule symm :premises (@p901))
1.92/2.11	(step @p903 :rule eq_resolve :premises (@p900 @p902))
1.92/2.11	(step @p904 :rule refl :args (@t19))
1.92/2.11	(step @p905 :rule cong :premises (@p904 @p903) :args (@t2261))
1.92/2.11	(step @p906 :rule refl :args ((tptp.in @t630 @t874)))
1.92/2.11	(step @p907 :rule cong :premises (@p746 @p853) :args (@t1290))
1.92/2.11	(step @p908 :rule trans :premises (@p907 @p906))
1.92/2.11	(step @p909 :rule ho_cong :premises (@p750 @p853))
1.92/2.11	(step @p910 :rule cong :premises (@p909 @p908) :args ((= (_ @t2218 @t874) @t1290)))
1.92/2.11	(step @p911 :rule symm :premises (@p910))
1.92/2.11	(step @p912 :rule refl :args (@t875))
1.92/2.11	(step @p913 :rule eq_resolve :premises (@p912 @p911))
1.92/2.11	(step @p914 :rule ho_cong :premises (@p760 @p853))
1.92/2.11	(step @p915 :rule trans :premises (@p914 @p913))
1.92/2.11	(step @p916 :rule cong :premises (@p915) :args (@t2262))
1.92/2.11	(step @p917 :rule nary_cong :premises (@p779 @p916 @p905) :args (@t2263))
1.92/2.11	(step @p918 :rule cong :premises (@p917) :args ((forall @t70 @t2263)))
1.92/2.11	(step @p919 :rule aci_norm :args ((= (or @t2220 (or @t2262 @t2261)) @t2263)))
1.92/2.11	(step @p920 :rule bool-impl-elim :args (@t875 @t2261))
1.92/2.11	(step @p921 :rule nary_cong :premises (@p784 @p920) :args ((or @t2220 @t2264)))
1.92/2.11	(step @p922 :rule trans :premises (@p921 @p919))
1.92/2.11	(step @p923 :rule bool-impl-elim :args (@t352 @t2264))
1.92/2.11	(step @p924 :rule trans :premises (@p923 @p922))
1.92/2.11	(step @p925 :rule cong :premises (@p924) :args ((forall @t70 (=> @t352 @t2264))))
1.92/2.11	(step @p926 :rule trans :premises (@p925 @p918))
1.92/2.11	(step @p927 :rule eq-symm :args (@t893 @t19))
1.92/2.11	(step @p928 :rule refl :args (@t875))
1.92/2.11	(step @p929 :rule cong :premises (@p928 @p927) :args (@t958))
1.92/2.11	(step @p930 :rule refl :args (@t352))
1.92/2.11	(step @p931 :rule cong :premises (@p930 @p929) :args (@t959))
1.92/2.11	(step @p932 :rule cong :premises (@p931) :args (@t960))
1.92/2.11	(step @p933 :rule trans :premises (@p932 @p926))
1.92/2.11	(step @p934 :rule cong :premises (@p791 @p933) :args (@t961))
1.92/2.11	(step @p935 :rule cong :premises (@p934) :args (@t962))
1.92/2.11	(step @p936 :rule trans :premises (@p935 @p898))
1.92/2.11	(step @p937 :rule refl :args (@t901))
1.92/2.11	(step @p938 :rule cong :premises (@p937 @p936) :args (@t982))
1.92/2.11	(step @p939 :rule cong :premises (@p938) :args (@t983))
1.92/2.11	(step @p940 :rule trans :premises (@p939 @p874))
1.92/2.11	(step @p941 :rule refl :args (tptp.funcGraphProp4))
1.92/2.11	(step @p942 :rule cong :premises (@p941 @p940) :args (@t984))
1.92/2.11	(step @p943 :rule eq_resolve :premises (@p205 @p942))
1.92/2.11	(step @p944 :rule cong :premises (@p943 @p830) :args (@t2265))
1.92/2.11	(step @p945 :rule aci_norm :args ((= @t2267 @t1297)))
1.92/2.11	(step @p946 :rule cong :premises (@p945) :args (@t2268))
1.92/2.11	(step @p947 :rule quant-merge-prenex :args ((= (forall @t883 @t2270) @t2268)))
1.92/2.11	(step @p948 :rule alpha_equiv :args (@t2271 (@list @t1277 @t1274 @t1273) (@list @t966 @t2273 @t2272)))
1.92/2.11	(step @p949 :rule refl :args (@t1294))
1.92/2.11	(step @p950 :rule refl :args (@t1296))
1.92/2.11	(step @p951 :rule nary_cong :premises (@p950 @p949 @p948) :args (@t2274))
1.92/2.11	(step @p952 :rule quant-miniscope-or :args ((= @t2270 @t2274)))
1.92/2.11	(step @p953 :rule trans :premises (@p952 @p951))
1.92/2.11	(step @p954 :rule symm :premises (@p953))
1.92/2.11	(step @p955 :rule cong :premises (@p954) :args ((forall @t883 (or @t1296 @t1294 @t2291))))
1.92/2.11	(step @p956 :rule trans :premises (@p955 @p947))
1.92/2.11	(step @p957 :rule trans :premises (@p956 @p946))
1.92/2.11	(step @p958 :rule refl :args (@t2291))
1.92/2.11	(step @p959 :rule refl :args ((tptp.subset @t874 @t672)))
1.92/2.11	(step @p960 :rule cong :premises (@p853 @p666) :args (@t1295))
1.92/2.11	(step @p961 :rule trans :premises (@p960 @p959))
1.92/2.11	(step @p962 :rule refl :args (@t2292))
1.92/2.11	(step @p963 :rule ho_cong :premises (@p962 @p666))
1.92/2.11	(step @p964 :rule cong :premises (@p963 @p961) :args ((= (_ @t2292 @t1250) @t1295)))
1.92/2.11	(step @p965 :rule symm :premises (@p964))
1.92/2.11	(step @p966 :rule refl :args (@t2293))
1.92/2.11	(step @p967 :rule eq_resolve :premises (@p966 @p965))
1.92/2.11	(step @p968 :rule ho_cong :premises (@p962 @p679))
1.92/2.11	(step @p969 :rule trans :premises (@p968 @p967))
1.92/2.11	(step @p970 :rule cong :premises (@p969) :args (@t2294))
1.92/2.11	(step @p971 :rule nary_cong :premises (@p970 @p949 @p958) :args (@t2295))
1.92/2.11	(step @p972 :rule cong :premises (@p971) :args ((forall @t883 @t2295)))
1.92/2.11	(step @p973 :rule trans :premises (@p972 @p957))
1.92/2.11	(step @p974 :rule aci_norm :args ((= (or @t2296 @t2291) @t2295)))
1.92/2.11	(step @p975 :rule bool-and-de-morgan :args (@t2293 @t1293 true))
1.92/2.11	(step @p976 :rule nary_cong :premises (@p975 @p958) :args ((or @t2298 @t2291)))
1.92/2.11	(step @p977 :rule trans :premises (@p976 @p974))
1.92/2.11	(step @p978 :rule bool-impl-elim :args (@t2297 @t2291))
1.92/2.11	(step @p979 :rule trans :premises (@p978 @p977))
1.92/2.11	(step @p980 :rule cong :premises (@p979) :args ((forall @t883 (=> @t2297 @t2291))))
1.92/2.11	(step @p981 :rule trans :premises (@p980 @p973))
1.92/2.11	(step @p982 :rule aci_norm :args ((= @t2300 @t2289)))
1.92/2.11	(step @p983 :rule cong :premises (@p982) :args (@t2301))
1.92/2.11	(step @p984 :rule quant-merge-prenex :args ((= (forall @t977 @t2303) @t2301)))
1.92/2.11	(step @p985 :rule alpha_equiv :args (@t2304 (@list @t2273 @t2272) (@list @t4 @t2305)))
1.92/2.11	(step @p986 :rule refl :args (@t2282))
1.92/2.11	(step @p987 :rule refl :args (@t2286))
1.92/2.11	(step @p988 :rule refl :args (@t2288))
1.92/2.11	(step @p989 :rule nary_cong :premises (@p988 @p987 @p986 @p985) :args (@t2306))
1.92/2.11	(step @p990 :rule quant-miniscope-or :args ((= @t2303 @t2306)))
1.92/2.11	(step @p991 :rule trans :premises (@p990 @p989))
1.92/2.11	(step @p992 :rule symm :premises (@p991))
1.92/2.11	(step @p993 :rule cong :premises (@p992) :args ((forall @t977 (or @t2288 @t2286 @t2282 @t2313))))
1.92/2.11	(step @p994 :rule trans :premises (@p993 @p984))
1.92/2.11	(step @p995 :rule trans :premises (@p994 @p983))
1.92/2.11	(step @p996 :rule refl :args (@t2313))
1.92/2.11	(step @p997 :rule refl :args ((tptp.subset @t966 @t672)))
1.92/2.11	(step @p998 :rule refl :args (@t966))
1.92/2.11	(step @p999 :rule cong :premises (@p998 @p666) :args (@t2287))
1.92/2.11	(step @p1000 :rule trans :premises (@p999 @p997))
1.92/2.11	(step @p1001 :rule refl :args (@t2314))
1.92/2.11	(step @p1002 :rule ho_cong :premises (@p1001 @p666))
1.92/2.11	(step @p1003 :rule cong :premises (@p1002 @p1000) :args ((= (_ @t2314 @t1250) @t2287)))
1.92/2.11	(step @p1004 :rule symm :premises (@p1003))
1.92/2.11	(step @p1005 :rule refl :args (@t2315))
1.92/2.11	(step @p1006 :rule eq_resolve :premises (@p1005 @p1004))
1.92/2.11	(step @p1007 :rule ho_cong :premises (@p1001 @p679))
1.92/2.11	(step @p1008 :rule trans :premises (@p1007 @p1006))
1.92/2.11	(step @p1009 :rule cong :premises (@p1008) :args (@t2316))
1.92/2.11	(step @p1010 :rule nary_cong :premises (@p1009 @p987 @p986 @p996) :args (@t2317))
1.92/2.11	(step @p1011 :rule cong :premises (@p1010) :args ((forall @t977 @t2317)))
1.92/2.11	(step @p1012 :rule trans :premises (@p1011 @p995))
1.92/2.11	(step @p1013 :rule aci_norm :args ((= (or (or @t2316 @t2286) (or @t2282 @t2313)) @t2317)))
1.92/2.11	(step @p1014 :rule bool-impl-elim :args (@t2281 @t2313))
1.92/2.11	(step @p1015 :rule bool-and-de-morgan :args (@t2315 @t2285 true))
1.92/2.11	(step @p1016 :rule nary_cong :premises (@p1015 @p1014) :args ((or (not @t2319) @t2318)))
1.92/2.11	(step @p1017 :rule trans :premises (@p1016 @p1013))
1.92/2.11	(step @p1018 :rule bool-impl-elim :args (@t2319 @t2318))
1.92/2.11	(step @p1019 :rule trans :premises (@p1018 @p1017))
1.92/2.11	(step @p1020 :rule cong :premises (@p1019) :args ((forall @t977 (=> @t2319 @t2318))))
1.92/2.11	(step @p1021 :rule trans :premises (@p1020 @p1012))
1.92/2.11	(step @p1022 :rule aci_norm :args ((= @t2321 @t2311)))
1.92/2.11	(step @p1023 :rule cong :premises (@p1022) :args (@t2322))
1.92/2.11	(step @p1024 :rule quant-merge-prenex :args ((= (forall @t9 @t2324) @t2322)))
1.92/2.11	(step @p1025 :rule alpha_equiv :args (@t2325 (@list @t2305) @t2210))
1.92/2.11	(step @p1026 :rule nary_cong :premises (@p724 @p1025) :args (@t2326))
1.92/2.11	(step @p1027 :rule quant-miniscope-or :args ((= @t2324 @t2326)))
1.92/2.11	(step @p1028 :rule trans :premises (@p1027 @p1026))
1.92/2.11	(step @p1029 :rule symm :premises (@p1028))
1.92/2.11	(step @p1030 :rule cong :premises (@p1029) :args ((forall @t9 (or @t1241 @t2327))))
1.92/2.11	(step @p1031 :rule trans :premises (@p1030 @p1024))
1.92/2.11	(step @p1032 :rule trans :premises (@p1031 @p1023))
1.92/2.11	(step @p1033 :rule refl :args (@t2327))
1.92/2.11	(step @p1034 :rule nary_cong :premises (@p738 @p1033) :args (@t2328))
1.92/2.11	(step @p1035 :rule cong :premises (@p1034) :args ((forall @t9 @t2328)))
1.92/2.11	(step @p1036 :rule trans :premises (@p1035 @p1032))
1.92/2.11	(step @p1037 :rule bool-impl-elim :args (@t7 @t2327))
1.92/2.11	(step @p1038 :rule cong :premises (@p1037) :args ((forall @t9 (=> @t7 @t2327))))
1.92/2.11	(step @p1039 :rule trans :premises (@p1038 @p1036))
1.92/2.11	(step @p1040 :rule refl :args ((tptp.in @t630 @t966)))
1.92/2.11	(step @p1041 :rule cong :premises (@p746 @p998) :args (@t2283))
1.92/2.11	(step @p1042 :rule trans :premises (@p1041 @p1040))
1.92/2.11	(step @p1043 :rule ho_cong :premises (@p750 @p998))
1.92/2.11	(step @p1044 :rule cong :premises (@p1043 @p1042) :args ((= (_ @t2218 @t966) @t2283)))
1.92/2.11	(step @p1045 :rule symm :premises (@p1044))
1.92/2.11	(step @p1046 :rule refl :args (@t967))
1.92/2.11	(step @p1047 :rule eq_resolve :premises (@p1046 @p1045))
1.92/2.11	(step @p1048 :rule ho_cong :premises (@p760 @p998))
1.92/2.11	(step @p1049 :rule trans :premises (@p1048 @p1047))
1.92/2.11	(step @p1050 :rule cong :premises (@p1049) :args (@t2329))
1.92/2.11	(step @p1051 :rule nary_cong :premises (@p779 @p1050 @p915) :args (@t2330))
1.92/2.11	(step @p1052 :rule cong :premises (@p1051) :args ((forall @t70 @t2330)))
1.92/2.11	(step @p1053 :rule aci_norm :args ((= (or @t2220 (or @t2329 @t875)) @t2330)))
1.92/2.11	(step @p1054 :rule bool-impl-elim :args (@t967 @t875))
1.92/2.11	(step @p1055 :rule nary_cong :premises (@p784 @p1054) :args ((or @t2220 @t968)))
1.92/2.11	(step @p1056 :rule trans :premises (@p1055 @p1053))
1.92/2.11	(step @p1057 :rule bool-impl-elim :args (@t352 @t968))
1.92/2.11	(step @p1058 :rule trans :premises (@p1057 @p1056))
1.92/2.11	(step @p1059 :rule cong :premises (@p1058) :args (@t969))
1.92/2.11	(step @p1060 :rule trans :premises (@p1059 @p1052))
1.92/2.11	(step @p1061 :rule cong :premises (@p791 @p1060) :args (@t970))
1.92/2.11	(step @p1062 :rule cong :premises (@p1061) :args (@t971))
1.92/2.11	(step @p1063 :rule trans :premises (@p1062 @p1039))
1.92/2.11	(step @p1064 :rule refl :args (@t2280))
1.92/2.11	(step @p1065 :rule refl :args (@t972))
1.92/2.11	(step @p1066 :rule cong :premises (@p1065 @p1064) :args ((= @t972 @t2280)))
1.92/2.11	(step @p1067 :rule symm :premises (@p1066))
1.92/2.11	(step @p1068 :rule eq_resolve :premises (@p1065 @p1067))
1.92/2.11	(step @p1069 :rule cong :premises (@p903 @p1068) :args (@t973))
1.92/2.11	(step @p1070 :rule nary_cong :premises (@p738 @p1069) :args (@t2331))
1.92/2.11	(step @p1071 :rule cong :premises (@p1070) :args ((forall @t9 @t2331)))
1.92/2.11	(step @p1072 :rule bool-impl-elim :args (@t7 @t973))
1.92/2.11	(step @p1073 :rule cong :premises (@p1072) :args (@t974))
1.92/2.11	(step @p1074 :rule trans :premises (@p1073 @p1071))
1.92/2.11	(step @p1075 :rule cong :premises (@p1074 @p1063) :args (@t975))
1.92/2.11	(step @p1076 :rule beta-reduce :args ((= (_ @t2335 @t966) @t2319)))
1.92/2.11	(step @p1077 :rule refl :args (@t966))
1.92/2.11	(step @p1078 :rule beta-reduce :args ((= (_ @t2336 @t1) @t2335)))
1.92/2.11	(step @p1079 :rule beta-reduce :args ((= @t2337 @t2336)))
1.92/2.11	(step @p1080 :rule ho_cong :premises (@p1079 @p799))
1.92/2.11	(step @p1081 :rule trans :premises (@p1080 @p1078))
1.92/2.11	(step @p1082 :rule ho_cong :premises (@p1081 @p1077))
1.92/2.11	(step @p1083 :rule trans :premises (@p1082 @p1076))
1.92/2.11	(step @p1084 :rule cong :premises (@p1083 @p1075) :args (@t2339))
1.92/2.11	(step @p1085 :rule cong :premises (@p1084) :args (@t2340))
1.92/2.11	(step @p1086 :rule trans :premises (@p1085 @p1021))
1.92/2.11	(step @p1087 :rule beta-reduce :args ((= (_ @t2335 @t874) @t2297)))
1.92/2.11	(step @p1088 :rule refl :args (@t874))
1.92/2.11	(step @p1089 :rule ho_cong :premises (@p1081 @p1088))
1.92/2.11	(step @p1090 :rule trans :premises (@p1089 @p1087))
1.92/2.11	(step @p1091 :rule cong :premises (@p1090 @p1086) :args (@t2342))
1.92/2.11	(step @p1092 :rule cong :premises (@p1091) :args (@t2343))
1.92/2.11	(step @p1093 :rule trans :premises (@p1092 @p981))
1.92/2.11	(step @p1094 :rule refl :args (tptp.funcextLem))
1.92/2.11	(step @p1095 :rule cong :premises (@p1094 @p1093) :args ((= tptp.funcextLem @t2343)))
1.92/2.11	(step @p1096 :rule refl :args (@t975))
1.92/2.11	(step @p1097 :rule refl :args (@t2333))
1.92/2.11	(step @p1098 :rule nary_cong :premises (@p738 @p1097) :args (@t2344))
1.92/2.11	(step @p1099 :rule cong :premises (@p1098) :args ((forall @t9 @t2344)))
1.92/2.11	(step @p1100 :rule bool-impl-elim :args (@t7 @t2333))
1.92/2.11	(step @p1101 :rule cong :premises (@p1100) :args ((forall @t9 (=> @t7 @t2333))))
1.92/2.11	(step @p1102 :rule trans :premises (@p1101 @p1099))
1.92/2.11	(step @p1103 :rule cong :premises (@p772) :args (@t1228))
1.92/2.11	(step @p1104 :rule refl :args (@t1))
1.92/2.11	(step @p1105 :rule cong :premises (@p1104 @p1103) :args (@t2345))
1.92/2.11	(step @p1106 :rule refl :args (@t1286))
1.92/2.11	(step @p1107 :rule cong :premises (@p1106 @p1105) :args (@t2346))
1.92/2.11	(step @p1108 :rule cong :premises (@p1107) :args (@t2347))
1.92/2.11	(step @p1109 :rule refl :args (@t1285))
1.92/2.11	(step @p1110 :rule cong :premises (@p1109 @p1105) :args (@t2348))
1.92/2.11	(step @p1111 :rule cong :premises (@p1110) :args (@t2349))
1.92/2.11	(step @p1112 :rule nary_cong :premises (@p1111 @p1108) :args (@t2350))
1.92/2.11	(step @p1113 :rule cong :premises (@p1112) :args ((forall @t1287 @t2350)))
1.92/2.11	(step @p1114 :rule eq-symm :args (@t2345 @t1286))
1.92/2.11	(step @p1115 :rule cong :premises (@p1114) :args (@t2351))
1.92/2.11	(step @p1116 :rule refl :args (@t2349))
1.92/2.11	(step @p1117 :rule nary_cong :premises (@p1116 @p1115) :args (@t2352))
1.92/2.11	(step @p1118 :rule cong :premises (@p1117) :args (@t2353))
1.92/2.11	(step @p1119 :rule trans :premises (@p1118 @p1113))
1.92/2.11	(step @p1120 :rule cong :premises (@p1119) :args (@t2354))
1.92/2.11	(step @p1121 :rule beta-reduce :args ((= (_ (lambda @t150 (not (forall @t1287 (or @t2356 (not (= @t2355 @t1286)))))) @t1228) @t2354)))
1.92/2.11	(step @p1122 :rule trans :premises (@p1121 @p1120))
1.92/2.11	(step @p1123 :rule refl :args (@t1228))
1.92/2.11	(step @p1124 :rule eq-symm :args (@t1286 @t2355))
1.92/2.11	(step @p1125 :rule cong :premises (@p1124) :args (@t2357))
1.92/2.11	(step @p1126 :rule refl :args (@t2356))
1.92/2.11	(step @p1127 :rule nary_cong :premises (@p1126 @p1125) :args (@t2358))
1.92/2.11	(step @p1128 :rule cong :premises (@p1127) :args (@t2359))
1.92/2.11	(step @p1129 :rule cong :premises (@p1128) :args (@t2360))
1.92/2.11	(step @p1130 :rule cong :premises (@p1129) :args ((lambda @t150 @t2360)))
1.92/2.11	(step @p1131 :rule ho_cong :premises (@p1130 @p1123))
1.92/2.11	(step @p1132 :rule trans :premises (@p1131 @p1122))
1.92/2.11	(step @p1133 :rule refl :args (@t1228))
1.92/2.11	(step @p1134 :rule alpha_equiv :args (@t2361 @t2362 (@list @t1285)))
1.92/2.11	(step @p1135 :rule cong :premises (@p1134) :args (@t2363))
1.92/2.11	(step @p1136 :rule cong :premises (@p1135) :args (@t2364))
1.92/2.11	(step @p1137 :rule ho_cong :premises (@p1136 @p1133))
1.92/2.11	(step @p1138 :rule trans :premises (@p1137 @p1132))
1.92/2.11	(step @p1139 :rule beta-reduce :args ((= @t2366 @t2364)))
1.92/2.11	(step @p1140 :rule ho_cong :premises (@p1139 @p1123))
1.92/2.11	(step @p1141 :rule trans :premises (@p1140 @p1138))
1.92/2.11	(step @p1142 :rule cong :premises (@p791 @p1141) :args (@t2367))
1.92/2.11	(step @p1143 :rule cong :premises (@p1142) :args (@t2368))
1.92/2.11	(step @p1144 :rule trans :premises (@p1143 @p1102))
1.92/2.11	(step @p1145 :rule nary_cong :premises (@p811 @p1144) :args ((and @t2229 @t2368)))
1.92/2.11	(step @p1146 :rule eq-symm :args (@t1325 @t1444))
1.92/2.11	(step @p1147 :rule refl :args (@t1444))
1.92/2.11	(step @p1148 :rule lambda-elim :args ((= @t2372 @t143)))
1.92/2.11	(step @p1149 :rule cong :premises (@p818 @p1148) :args (@t2373))
1.92/2.11	(step @p1150 :rule cong :premises (@p1149 @p1147) :args (@t2374))
1.92/2.11	(step @p1151 :rule trans :premises (@p1150 @p1146))
1.92/2.11	(step @p1152 :rule cong :premises (@p1151) :args (@t2375))
1.92/2.11	(step @p1153 :rule refl :args (@t4))
1.92/2.11	(step @p1154 :rule cong :premises (@p1153 @p1149) :args (@t2376))
1.92/2.11	(step @p1155 :rule cong :premises (@p1154) :args (@t2377))
1.92/2.11	(step @p1156 :rule nary_cong :premises (@p1155 @p1152) :args (@t2378))
1.92/2.11	(step @p1157 :rule cong :premises (@p1156) :args ((forall @t9 @t2378)))
1.92/2.11	(step @p1158 :rule refl :args (@t1444))
1.92/2.11	(step @p1159 :rule refl :args ((tptp.dsetconstr @t2 @t2379)))
1.92/2.11	(step @p1160 :rule refl :args (@t2370))
1.92/2.11	(step @p1161 :rule cong :premises (@p1160) :args (@t2372))
1.92/2.11	(step @p1162 :rule refl :args (@t2))
1.92/2.11	(step @p1163 :rule cong :premises (@p1162 @p1161) :args (@t2373))
1.92/2.11	(step @p1164 :rule trans :premises (@p1163 @p1159))
1.92/2.11	(step @p1165 :rule refl :args (@t155))
1.92/2.11	(step @p1166 :rule ho_cong :premises (@p1165 @p1161))
1.92/2.11	(step @p1167 :rule cong :premises (@p1166 @p1164) :args ((= (_ @t155 @t2372) @t2373)))
1.92/2.11	(step @p1168 :rule symm :premises (@p1167))
1.92/2.11	(step @p1169 :rule refl :args ((_ @t155 @t2379)))
1.92/2.11	(step @p1170 :rule eq_resolve :premises (@p1169 @p1168))
1.92/2.11	(step @p1171 :rule alpha_equiv :args (@t2380 @t2362 (@list @t2369)))
1.92/2.11	(step @p1172 :rule refl :args (@t1507))
1.92/2.11	(step @p1173 :rule refl :args (@t144))
1.92/2.11	(step @p1174 :rule cong :premises (@p1173 @p1172) :args ((= @t144 @t1507)))
1.92/2.11	(step @p1175 :rule symm :premises (@p1174))
1.92/2.11	(step @p1176 :rule eq_resolve :premises (@p1173 @p1175))
1.92/2.11	(step @p1177 :rule cong :premises (@p1176) :args (@t145))
1.92/2.11	(step @p1178 :rule trans :premises (@p1177 @p1171))
1.92/2.11	(step @p1179 :rule ho_cong :premises (@p1165 @p1178))
1.92/2.11	(step @p1180 :rule trans :premises (@p1179 @p1170))
1.92/2.11	(step @p1181 :rule cong :premises (@p1180 @p1158) :args (@t2381))
1.92/2.11	(step @p1182 :rule cong :premises (@p1181) :args (@t2382))
1.92/2.11	(step @p1183 :rule refl :args (@t4))
1.92/2.11	(step @p1184 :rule cong :premises (@p1183 @p1180) :args (@t2383))
1.92/2.11	(step @p1185 :rule cong :premises (@p1184) :args (@t2384))
1.92/2.11	(step @p1186 :rule nary_cong :premises (@p1185 @p1182) :args (@t2385))
1.92/2.11	(step @p1187 :rule cong :premises (@p1186) :args (@t2386))
1.92/2.11	(step @p1188 :rule trans :premises (@p1187 @p1157))
1.92/2.11	(step @p1189 :rule cong :premises (@p1188) :args (@t2387))
1.92/2.11	(step @p1190 :rule beta-reduce :args ((= @t2391 @t2387)))
1.92/2.11	(step @p1191 :rule trans :premises (@p1190 @p1189))
1.92/2.11	(step @p1192 :rule refl :args (@t304))
1.92/2.11	(step @p1193 :rule refl :args (@t1444))
1.92/2.11	(step @p1194 :rule refl :args (@t279))
1.92/2.11	(step @p1195 :rule cong :premises (@p1194 @p1193) :args ((= @t279 @t1444)))
1.92/2.11	(step @p1196 :rule symm :premises (@p1195))
1.92/2.11	(step @p1197 :rule eq_resolve :premises (@p1194 @p1196))
1.92/2.11	(step @p1198 :rule cong :premises (@p1162 @p1197) :args (@t1221))
1.92/2.11	(step @p1199 :rule cong :premises (@p1198) :args (@t2392))
1.92/2.11	(step @p1200 :rule nary_cong :premises (@p738 @p1199) :args (@t2393))
1.92/2.11	(step @p1201 :rule cong :premises (@p1200) :args ((forall @t9 @t2393)))
1.92/2.11	(step @p1202 :rule bool-and-de-morgan :args (@t7 @t1221 true))
1.92/2.11	(step @p1203 :rule cong :premises (@p1202) :args (@t2394))
1.92/2.11	(step @p1204 :rule trans :premises (@p1203 @p1201))
1.92/2.11	(step @p1205 :rule cong :premises (@p1204) :args (@t2395))
1.92/2.11	(step @p1206 :rule exists-elim :args ((= @t1223 @t2395)))
1.92/2.11	(step @p1207 :rule trans :premises (@p1206 @p1205))
1.92/2.11	(step @p1208 :rule cong :premises (@p1207) :args (@t1224))
1.92/2.11	(step @p1209 :rule trans :premises (@p211 @p1208))
1.92/2.11	(step @p1210 :rule ho_cong :premises (@p1209 @p1192))
1.92/2.11	(step @p1211 :rule trans :premises (@p1210 @p1191))
1.92/2.11	(step @p1212 :rule cong :premises (@p1211) :args (@t1225))
1.92/2.11	(step @p1213 :rule trans :premises (@p212 @p1212))
1.92/2.11	(step @p1214 :rule ho_cong :premises (@p1213 @p799))
1.92/2.11	(step @p1215 :rule ho_cong :premises (@p1214 @p1123))
1.92/2.11	(step @p1216 :rule cong :premises (@p791 @p1215) :args (@t1229))
1.92/2.11	(step @p1217 :rule cong :premises (@p1216) :args (@t1230))
1.92/2.11	(step @p1218 :rule nary_cong :premises (@p824 @p1217) :args (@t1231))
1.92/2.11	(step @p1219 :rule trans :premises (@p1218 @p1145))
1.92/2.11	(step @p1220 :rule cong :premises (@p1219) :args (@t1232))
1.92/2.11	(step @p1221 :rule trans :premises (@p214 @p1220))
1.92/2.11	(step @p1222 :rule ho_cong :premises (@p1221 @p818))
1.92/2.11	(step @p1223 :rule ho_cong :premises (@p1222 @p799))
1.92/2.11	(step @p1224 :rule ho_cong :premises (@p1223 @p1077))
1.92/2.11	(step @p1225 :rule cong :premises (@p1224 @p1096) :args (@t976))
1.92/2.11	(step @p1226 :rule cong :premises (@p1225) :args (@t978))
1.92/2.11	(step @p1227 :rule ho_cong :premises (@p1223 @p1088))
1.92/2.11	(step @p1228 :rule cong :premises (@p1227 @p1226) :args (@t979))
1.92/2.11	(step @p1229 :rule cong :premises (@p1228) :args (@t980))
1.92/2.11	(step @p1230 :rule cong :premises (@p1094 @p1229) :args (@t981))
1.92/2.11	(step @p1231 :rule trans :premises (@p1230 @p1095))
1.92/2.11	(step @p1232 :rule eq_resolve :premises (@p204 @p1231))
1.92/2.11	(step @p1233 :rule cong :premises (@p1232 @p944) :args (@t2396))
1.92/2.11	(step @p1234 :rule eq-symm :args (@t1300 @t1301))
1.92/2.11	(step @p1235 :rule refl :args (@t1302))
1.92/2.11	(step @p1236 :rule refl :args (@t1303))
1.92/2.11	(step @p1237 :rule refl :args (@t1304))
1.92/2.11	(step @p1238 :rule refl :args (@t1294))
1.92/2.11	(step @p1239 :rule refl :args (@t1296))
1.92/2.11	(step @p1240 :rule nary_cong :premises (@p1239 @p1238 @p1237 @p1236 @p1235 @p1234) :args (@t2398))
1.92/2.11	(step @p1241 :rule aci_norm :args ((= @t2400 @t2398)))
1.92/2.11	(step @p1242 :rule trans :premises (@p1241 @p1240))
1.92/2.11	(step @p1243 :rule cong :premises (@p1242) :args (@t2401))
1.92/2.11	(step @p1244 :rule quant-merge-prenex :args ((= (forall @t883 @t2403) @t2401)))
1.92/2.11	(step @p1245 :rule alpha_equiv :args (@t2404 (@list @t1299 @t1301) @t2242))
1.92/2.11	(step @p1246 :rule nary_cong :premises (@p950 @p949 @p1245) :args (@t2405))
1.92/2.11	(step @p1247 :rule quant-miniscope-or :args ((= @t2403 @t2405)))
1.92/2.11	(step @p1248 :rule trans :premises (@p1247 @p1246))
1.92/2.11	(step @p1249 :rule symm :premises (@p1248))
1.92/2.11	(step @p1250 :rule cong :premises (@p1249) :args ((forall @t883 (or @t1296 @t1294 @t2247))))
1.92/2.11	(step @p1251 :rule trans :premises (@p1250 @p1244))
1.92/2.11	(step @p1252 :rule trans :premises (@p1251 @p1243))
1.92/2.11	(step @p1253 :rule nary_cong :premises (@p970 @p949 @p850) :args (@t2406))
1.92/2.11	(step @p1254 :rule cong :premises (@p1253) :args ((forall @t883 @t2406)))
1.92/2.11	(step @p1255 :rule trans :premises (@p1254 @p1252))
1.92/2.11	(step @p1256 :rule aci_norm :args ((= (or @t2296 @t2247) @t2406)))
1.92/2.11	(step @p1257 :rule nary_cong :premises (@p975 @p850) :args ((or @t2298 @t2247)))
1.92/2.11	(step @p1258 :rule trans :premises (@p1257 @p1256))
1.92/2.11	(step @p1259 :rule bool-impl-elim :args (@t2297 @t2247))
1.92/2.11	(step @p1260 :rule trans :premises (@p1259 @p1258))
1.92/2.11	(step @p1261 :rule cong :premises (@p1260) :args ((forall @t883 (=> @t2297 @t2247))))
1.92/2.11	(step @p1262 :rule trans :premises (@p1261 @p1255))
1.92/2.11	(step @p1263 :rule cong :premises (@p1090 @p936) :args (@t2407))
1.92/2.11	(step @p1264 :rule cong :premises (@p1263) :args (@t2408))
1.92/2.11	(step @p1265 :rule trans :premises (@p1264 @p1262))
1.92/2.11	(step @p1266 :rule refl :args (tptp.funcGraphProp2))
1.92/2.11	(step @p1267 :rule cong :premises (@p1266 @p1265) :args ((= tptp.funcGraphProp2 @t2408)))
1.92/2.11	(step @p1268 :rule refl :args (@t962))
1.92/2.11	(step @p1269 :rule cong :premises (@p1227 @p1268) :args (@t963))
1.92/2.11	(step @p1270 :rule cong :premises (@p1269) :args (@t964))
1.92/2.11	(step @p1271 :rule cong :premises (@p1266 @p1270) :args (@t965))
1.92/2.11	(step @p1272 :rule trans :premises (@p1271 @p1267))
1.92/2.11	(step @p1273 :rule eq_resolve :premises (@p203 @p1272))
1.92/2.11	(step @p1274 :rule cong :premises (@p1273 @p1233) :args (@t2409))
1.92/2.11	(step @p1275 :rule aci_norm :args ((= @t2411 @t1309)))
1.92/2.11	(step @p1276 :rule cong :premises (@p1275) :args (@t2412))
1.92/2.11	(step @p1277 :rule quant-merge-prenex :args ((= (forall @t883 @t2414) @t2412)))
1.92/2.11	(step @p1278 :rule alpha_equiv :args (@t2415 (@list @t1306) @t2362))
1.92/2.11	(step @p1279 :rule nary_cong :premises (@p842 @p1278) :args (@t2416))
1.92/2.11	(step @p1280 :rule quant-miniscope-or :args ((= @t2414 @t2416)))
1.92/2.11	(step @p1281 :rule trans :premises (@p1280 @p1279))
1.92/2.11	(step @p1282 :rule symm :premises (@p1281))
1.92/2.11	(step @p1283 :rule cong :premises (@p1282) :args ((forall @t883 (or @t1271 @t2419))))
1.92/2.11	(step @p1284 :rule trans :premises (@p1283 @p1277))
1.92/2.11	(step @p1285 :rule trans :premises (@p1284 @p1276))
1.92/2.11	(step @p1286 :rule refl :args (@t2419))
1.92/2.11	(step @p1287 :rule nary_cong :premises (@p868 @p1286) :args (@t2420))
1.92/2.11	(step @p1288 :rule cong :premises (@p1287) :args ((forall @t883 @t2420)))
1.92/2.11	(step @p1289 :rule trans :premises (@p1288 @p1285))
1.92/2.11	(step @p1290 :rule bool-impl-elim :args (@t901 @t2419))
1.92/2.11	(step @p1291 :rule cong :premises (@p1290) :args ((forall @t883 (=> @t901 @t2419))))
1.92/2.11	(step @p1292 :rule trans :premises (@p1291 @p1289))
1.92/2.11	(step @p1293 :rule refl :args ((tptp.in @t949 @t874)))
1.92/2.11	(step @p1294 :rule refl :args ((tptp.kpair @t4 @t893)))
1.92/2.11	(step @p1295 :rule cong :premises (@p1183 @p899) :args (@t2417))
1.92/2.11	(step @p1296 :rule trans :premises (@p1295 @p1294))
1.92/2.11	(step @p1297 :rule cong :premises (@p1296 @p853) :args (@t2418))
1.92/2.11	(step @p1298 :rule trans :premises (@p1297 @p1293))
1.92/2.11	(step @p1299 :rule ho_cong :premises (@p749 @p1296))
1.92/2.11	(step @p1300 :rule ho_cong :premises (@p1299 @p853))
1.92/2.11	(step @p1301 :rule cong :premises (@p1300 @p1298) :args ((= (_ (_ tptp.in @t2417) @t874) @t2418)))
1.92/2.11	(step @p1302 :rule symm :premises (@p1301))
1.92/2.11	(step @p1303 :rule refl :args (@t950))
1.92/2.11	(step @p1304 :rule eq_resolve :premises (@p1303 @p1302))
1.92/2.11	(step @p1305 :rule refl :args (@t629))
1.92/2.11	(step @p1306 :rule ho_cong :premises (@p1305 @p899))
1.92/2.11	(step @p1307 :rule cong :premises (@p1306 @p1296) :args ((= (_ @t629 @t1281) @t2417)))
1.92/2.11	(step @p1308 :rule symm :premises (@p1307))
1.92/2.11	(step @p1309 :rule refl :args (@t949))
1.92/2.11	(step @p1310 :rule eq_resolve :premises (@p1309 @p1308))
1.92/2.11	(step @p1311 :rule ho_cong :premises (@p1305 @p903))
1.92/2.11	(step @p1312 :rule trans :premises (@p1311 @p1310))
1.92/2.11	(step @p1313 :rule ho_cong :premises (@p749 @p1312))
1.92/2.11	(step @p1314 :rule ho_cong :premises (@p1313 @p853))
1.92/2.11	(step @p1315 :rule trans :premises (@p1314 @p1304))
1.92/2.11	(step @p1316 :rule nary_cong :premises (@p738 @p1315) :args (@t2421))
1.92/2.11	(step @p1317 :rule cong :premises (@p1316) :args ((forall @t9 @t2421)))
1.92/2.11	(step @p1318 :rule bool-impl-elim :args (@t7 @t950))
1.92/2.11	(step @p1319 :rule cong :premises (@p1318) :args (@t951))
1.92/2.11	(step @p1320 :rule trans :premises (@p1319 @p1317))
1.92/2.11	(step @p1321 :rule cong :premises (@p937 @p1320) :args (@t955))
1.92/2.11	(step @p1322 :rule cong :premises (@p1321) :args (@t956))
1.92/2.11	(step @p1323 :rule trans :premises (@p1322 @p1292))
1.92/2.11	(step @p1324 :rule refl :args (tptp.funcGraphProp3))
1.92/2.11	(step @p1325 :rule cong :premises (@p1324 @p1323) :args (@t957))
1.92/2.11	(step @p1326 :rule eq_resolve :premises (@p202 @p1325))
1.92/2.11	(step @p1327 :rule cong :premises (@p1326 @p1274) :args (@t2422))
1.92/2.11	(step @p1328 :rule aci_norm :args ((= @t2424 @t1314)))
1.92/2.11	(step @p1329 :rule cong :premises (@p1328) :args (@t2425))
1.92/2.11	(step @p1330 :rule quant-merge-prenex :args ((= (forall @t883 @t2427) @t2425)))
1.92/2.11	(step @p1331 :rule alpha_equiv :args (@t2428 (@list @t1311) @t2362))
1.92/2.11	(step @p1332 :rule nary_cong :premises (@p950 @p949 @p1331) :args (@t2429))
1.92/2.11	(step @p1333 :rule quant-miniscope-or :args ((= @t2427 @t2429)))
1.92/2.11	(step @p1334 :rule trans :premises (@p1333 @p1332))
1.92/2.11	(step @p1335 :rule symm :premises (@p1334))
1.92/2.11	(step @p1336 :rule cong :premises (@p1335) :args ((forall @t883 (or @t1296 @t1294 @t2419))))
1.92/2.11	(step @p1337 :rule trans :premises (@p1336 @p1330))
1.92/2.11	(step @p1338 :rule trans :premises (@p1337 @p1329))
1.92/2.11	(step @p1339 :rule nary_cong :premises (@p970 @p949 @p1286) :args (@t2430))
1.92/2.11	(step @p1340 :rule cong :premises (@p1339) :args ((forall @t883 @t2430)))
1.92/2.11	(step @p1341 :rule trans :premises (@p1340 @p1338))
1.92/2.11	(step @p1342 :rule aci_norm :args ((= (or @t2296 @t2419) @t2430)))
1.92/2.11	(step @p1343 :rule nary_cong :premises (@p975 @p1286) :args ((or @t2298 @t2419)))
1.92/2.11	(step @p1344 :rule trans :premises (@p1343 @p1342))
1.92/2.11	(step @p1345 :rule bool-impl-elim :args (@t2297 @t2419))
1.92/2.11	(step @p1346 :rule trans :premises (@p1345 @p1344))
1.92/2.11	(step @p1347 :rule cong :premises (@p1346) :args ((forall @t883 (=> @t2297 @t2419))))
1.92/2.11	(step @p1348 :rule trans :premises (@p1347 @p1341))
1.92/2.11	(step @p1349 :rule cong :premises (@p1090 @p1320) :args (@t2431))
1.92/2.11	(step @p1350 :rule cong :premises (@p1349) :args (@t2432))
1.92/2.11	(step @p1351 :rule trans :premises (@p1350 @p1348))
1.92/2.11	(step @p1352 :rule refl :args (tptp.funcGraphProp1))
1.92/2.11	(step @p1353 :rule cong :premises (@p1352 @p1351) :args ((= tptp.funcGraphProp1 @t2432)))
1.92/2.11	(step @p1354 :rule refl :args (@t951))
1.92/2.11	(step @p1355 :rule cong :premises (@p1227 @p1354) :args (@t952))
1.92/2.11	(step @p1356 :rule cong :premises (@p1355) :args (@t953))
1.92/2.11	(step @p1357 :rule cong :premises (@p1352 @p1356) :args (@t954))
1.92/2.11	(step @p1358 :rule trans :premises (@p1357 @p1353))
1.92/2.11	(step @p1359 :rule eq_resolve :premises (@p201 @p1358))
1.92/2.11	(step @p1360 :rule cong :premises (@p1359 @p1327) :args (@t2433))
1.92/2.11	(step @p1361 :rule refl :args (@t1318))
1.92/2.11	(step @p1362 :rule refl :args (@t1319))
1.92/2.11	(step @p1363 :rule refl :args (@t1320))
1.92/2.11	(step @p1364 :rule refl :args (@t1321))
1.92/2.11	(step @p1365 :rule refl :args (@t1322))
1.92/2.11	(step @p1366 :rule eq-symm :args (@t1324 @t1325))
1.92/2.11	(step @p1367 :rule cong :premises (@p1366) :args (@t2434))
1.92/2.11	(step @p1368 :rule refl :args (@t1326))
1.92/2.11	(step @p1369 :rule nary_cong :premises (@p1368 @p1367 @p1365 @p1364 @p1363 @p1362 @p1361) :args (@t2435))
1.92/2.11	(step @p1370 :rule aci_norm :args ((= @t2438 @t2435)))
1.92/2.11	(step @p1371 :rule trans :premises (@p1370 @p1369))
1.92/2.11	(step @p1372 :rule cong :premises (@p1371) :args (@t2439))
1.92/2.11	(step @p1373 :rule quant-merge-prenex :args ((= (forall @t309 @t2440) @t2439)))
1.92/2.11	(step @p1374 :rule alpha_equiv :args (@t2441 (@list @t1317 @t1316) (@list @t4 @t1503)))
1.92/2.11	(step @p1375 :rule alpha_equiv :args (@t2442 (@list @t1323) @t2362))
1.92/2.11	(step @p1376 :rule nary_cong :premises (@p1375 @p1374) :args (@t2443))
1.92/2.11	(step @p1377 :rule quant-miniscope-or :args ((= @t2440 @t2443)))
1.92/2.11	(step @p1378 :rule trans :premises (@p1377 @p1376))
1.92/2.11	(step @p1379 :rule symm :premises (@p1378))
1.92/2.11	(step @p1380 :rule cong :premises (@p1379) :args ((forall @t309 (or @t1501 @t1511))))
1.92/2.11	(step @p1381 :rule trans :premises (@p1380 @p1373))
1.92/2.11	(step @p1382 :rule trans :premises (@p1381 @p1372))
1.92/2.11	(step @p1383 :rule refl :args (@t1511))
1.92/2.11	(step @p1384 :rule bool-double-not-elim :args (@t1501))
1.92/2.11	(step @p1385 :rule nary_cong :premises (@p1384 @p1383) :args ((or @t2444 @t1511)))
1.92/2.11	(step @p1386 :rule bool-impl-elim :args (@t1502 @t1511))
1.92/2.11	(step @p1387 :rule trans :premises (@p1386 @p1385))
1.92/2.11	(step @p1388 :rule cong :premises (@p1387) :args ((forall @t309 (=> @t1502 @t1511))))
1.92/2.11	(step @p1389 :rule trans :premises (@p1388 @p1382))
1.92/2.11	(step @p1390 :rule aci_norm :args ((= @t2446 @t1509)))
1.92/2.11	(step @p1391 :rule cong :premises (@p1390) :args (@t2447))
1.92/2.11	(step @p1392 :rule quant-merge-prenex :args ((= (forall @t9 @t2449) @t2447)))
1.92/2.11	(step @p1393 :rule alpha_equiv :args (@t2450 (@list @t1503) @t2210))
1.92/2.11	(step @p1394 :rule refl :args (@t1508))
1.92/2.11	(step @p1395 :rule nary_cong :premises (@p724 @p1394 @p1393) :args (@t2451))
1.92/2.11	(step @p1396 :rule quant-miniscope-or :args ((= @t2449 @t2451)))
1.92/2.11	(step @p1397 :rule trans :premises (@p1396 @p1395))
1.92/2.11	(step @p1398 :rule symm :premises (@p1397))
1.92/2.11	(step @p1399 :rule cong :premises (@p1398) :args ((forall @t9 (or @t1241 @t1508 @t1524))))
1.92/2.11	(step @p1400 :rule trans :premises (@p1399 @p1392))
1.92/2.11	(step @p1401 :rule trans :premises (@p1400 @p1391))
1.92/2.11	(step @p1402 :rule refl :args (@t1524))
1.92/2.11	(step @p1403 :rule cong :premises (@p1176) :args (@t315))
1.92/2.11	(step @p1404 :rule nary_cong :premises (@p738 @p1403 @p1402) :args (@t2452))
1.92/2.11	(step @p1405 :rule cong :premises (@p1404) :args ((forall @t9 @t2452)))
1.92/2.11	(step @p1406 :rule trans :premises (@p1405 @p1401))
1.92/2.11	(step @p1407 :rule aci_norm :args ((= (or @t197 @t2453) @t2452)))
1.92/2.11	(step @p1408 :rule bool-impl-elim :args (@t7 @t2453))
1.92/2.11	(step @p1409 :rule trans :premises (@p1408 @p1407))
1.92/2.11	(step @p1410 :rule cong :premises (@p1409) :args ((forall @t9 (=> @t7 @t2453))))
1.92/2.11	(step @p1411 :rule trans :premises (@p1410 @p1406))
1.92/2.11	(step @p1412 :rule refl :args (@t129))
1.92/2.11	(step @p1413 :rule refl :args (@t1520))
1.92/2.11	(step @p1414 :rule refl :args (@t153))
1.92/2.11	(step @p1415 :rule cong :premises (@p1414 @p1413) :args ((= @t153 @t1520)))
1.92/2.11	(step @p1416 :rule symm :premises (@p1415))
1.92/2.11	(step @p1417 :rule eq_resolve :premises (@p1414 @p1416))
1.92/2.11	(step @p1418 :rule cong :premises (@p1417) :args (@t2454))
1.92/2.11	(step @p1419 :rule refl :args (@t1522))
1.92/2.11	(step @p1420 :rule refl :args (@t21))
1.92/2.11	(step @p1421 :rule cong :premises (@p1420 @p1419) :args ((= @t21 @t1522)))
1.92/2.11	(step @p1422 :rule symm :premises (@p1421))
1.92/2.11	(step @p1423 :rule eq_resolve :premises (@p1420 @p1422))
1.92/2.11	(step @p1424 :rule cong :premises (@p1423) :args (@t2455))
1.92/2.11	(step @p1425 :rule nary_cong :premises (@p1424 @p1418 @p1412) :args (@t2456))
1.92/2.11	(step @p1426 :rule cong :premises (@p1425) :args (@t2457))
1.92/2.11	(step @p1427 :rule refl :args (@t315))
1.92/2.11	(step @p1428 :rule nary_cong :premises (@p1427 @p1426) :args (@t2458))
1.92/2.11	(step @p1429 :rule quant-miniscope-or :args ((= (forall @t70 @t2459) @t2458)))
1.92/2.11	(step @p1430 :rule aci_norm :args ((= @t2460 @t2459)))
1.92/2.11	(step @p1431 :rule cong :premises (@p1430) :args ((forall @t70 @t2460)))
1.92/2.11	(step @p1432 :rule trans :premises (@p1431 @p1429))
1.92/2.11	(step @p1433 :rule trans :premises (@p1432 @p1428))
1.92/2.11	(step @p1434 :rule aci_norm :args ((= (or @t2455 @t2461) @t2460)))
1.92/2.11	(step @p1435 :rule aci_norm :args ((= (or @t315 @t2462) @t2461)))
1.92/2.11	(step @p1436 :rule bool-impl-elim :args (@t153 @t129))
1.92/2.11	(step @p1437 :rule refl :args (@t315))
1.92/2.11	(step @p1438 :rule nary_cong :premises (@p1437 @p1436) :args ((or @t315 @t166)))
1.92/2.11	(step @p1439 :rule trans :premises (@p1438 @p1435))
1.92/2.11	(step @p1440 :rule bool-impl-elim :args (@t144 @t166))
1.92/2.11	(step @p1441 :rule trans :premises (@p1440 @p1439))
1.92/2.11	(step @p1442 :rule refl :args (@t2455))
1.92/2.11	(step @p1443 :rule nary_cong :premises (@p1442 @p1441) :args ((or @t2455 @t343)))
1.92/2.11	(step @p1444 :rule trans :premises (@p1443 @p1434))
1.92/2.11	(step @p1445 :rule bool-impl-elim :args (@t21 @t343))
1.92/2.11	(step @p1446 :rule trans :premises (@p1445 @p1444))
1.92/2.11	(step @p1447 :rule cong :premises (@p1446) :args (@t714))
1.92/2.11	(step @p1448 :rule trans :premises (@p1447 @p1433))
1.92/2.11	(step @p1449 :rule cong :premises (@p791 @p1448) :args (@t715))
1.92/2.11	(step @p1450 :rule cong :premises (@p1449) :args (@t716))
1.92/2.11	(step @p1451 :rule trans :premises (@p1450 @p1411))
1.92/2.11	(step @p1452 :rule lambda-elim :args ((= @t2464 @t143)))
1.92/2.11	(step @p1453 :rule cong :premises (@p818 @p1452) :args (@t2465))
1.92/2.11	(step @p1454 :rule cong :premises (@p1147 @p1453) :args (@t2466))
1.92/2.11	(step @p1455 :rule cong :premises (@p1454) :args (@t2467))
1.92/2.11	(step @p1456 :rule cong :premises (@p1153 @p1453) :args (@t2468))
1.92/2.11	(step @p1457 :rule cong :premises (@p1456) :args (@t2469))
1.92/2.11	(step @p1458 :rule nary_cong :premises (@p1457 @p1455) :args (@t2470))
1.92/2.11	(step @p1459 :rule cong :premises (@p1458) :args ((forall @t9 @t2470)))
1.92/2.11	(step @p1460 :rule alpha_equiv :args (@t2380 @t2362 (@list @t2463)))
1.92/2.11	(step @p1461 :rule trans :premises (@p1177 @p1460))
1.92/2.11	(step @p1462 :rule cong :premises (@p1162 @p1461) :args (@t2471))
1.92/2.11	(step @p1463 :rule cong :premises (@p1158 @p1462) :args (@t2472))
1.92/2.11	(step @p1464 :rule cong :premises (@p1463) :args (@t2473))
1.92/2.11	(step @p1465 :rule cong :premises (@p1183 @p1462) :args (@t2474))
1.92/2.11	(step @p1466 :rule cong :premises (@p1465) :args (@t2475))
1.92/2.11	(step @p1467 :rule nary_cong :premises (@p1466 @p1464) :args (@t2476))
1.92/2.11	(step @p1468 :rule cong :premises (@p1467) :args (@t2477))
1.92/2.11	(step @p1469 :rule trans :premises (@p1468 @p1459))
1.92/2.11	(step @p1470 :rule cong :premises (@p1469) :args (@t2478))
1.92/2.11	(step @p1471 :rule beta-reduce :args ((= (_ @t2479 @t145) @t2478)))
1.92/2.11	(step @p1472 :rule trans :premises (@p1471 @p1470))
1.92/2.11	(step @p1473 :rule refl :args (@t145))
1.92/2.11	(step @p1474 :rule beta-reduce :args ((= @t2480 @t2479)))
1.92/2.11	(step @p1475 :rule ho_cong :premises (@p1474 @p1473))
1.92/2.11	(step @p1476 :rule trans :premises (@p1475 @p1472))
1.92/2.11	(step @p1477 :rule cong :premises (@p1476 @p1451) :args (@t2482))
1.92/2.11	(step @p1478 :rule cong :premises (@p1477) :args (@t2483))
1.92/2.11	(step @p1479 :rule trans :premises (@p1478 @p1389))
1.92/2.11	(step @p1480 :rule refl :args (tptp.ex1E2))
1.92/2.11	(step @p1481 :rule cong :premises (@p1480 @p1479) :args ((= tptp.ex1E2 @t2483)))
1.92/2.11	(step @p1482 :rule refl :args (@t716))
1.92/2.11	(step @p1483 :rule ho_cong :premises (@p1213 @p818))
1.92/2.11	(step @p1484 :rule ho_cong :premises (@p1483 @p1473))
1.92/2.11	(step @p1485 :rule cong :premises (@p1484 @p1482) :args (@t946))
1.92/2.11	(step @p1486 :rule cong :premises (@p1485) :args (@t947))
1.92/2.11	(step @p1487 :rule cong :premises (@p1480 @p1486) :args (@t948))
1.92/2.11	(step @p1488 :rule trans :premises (@p1487 @p1481))
1.92/2.11	(step @p1489 :rule eq_resolve :premises (@p200 @p1488))
1.92/2.11	(step @p1490 :rule cong :premises (@p1489 @p1360) :args (@t2484))
1.92/2.11	(step @p1491 :rule aci_norm :args ((= @t2486 @t1338)))
1.92/2.11	(step @p1492 :rule cong :premises (@p1491) :args (@t2487))
1.92/2.11	(step @p1493 :rule quant-merge-prenex :args ((= (forall @t942 @t2489) @t2487)))
1.92/2.11	(step @p1494 :rule alpha_equiv :args (@t2490 (@list @t1329 @t1328) (@list @t143 @t2491)))
1.92/2.11	(step @p1495 :rule nary_cong :premises (@p656 @p1494) :args (@t2492))
1.92/2.11	(step @p1496 :rule quant-miniscope-or :args ((= @t2489 @t2492)))
1.92/2.11	(step @p1497 :rule trans :premises (@p1496 @p1495))
1.92/2.11	(step @p1498 :rule symm :premises (@p1497))
1.92/2.11	(step @p1499 :rule cong :premises (@p1498) :args ((forall @t942 (or @t1253 @t2501))))
1.92/2.11	(step @p1500 :rule trans :premises (@p1499 @p1493))
1.92/2.11	(step @p1501 :rule trans :premises (@p1500 @p1492))
1.92/2.11	(step @p1502 :rule refl :args (@t2501))
1.92/2.11	(step @p1503 :rule nary_cong :premises (@p682 @p1502) :args (@t2502))
1.92/2.11	(step @p1504 :rule cong :premises (@p1503) :args ((forall @t942 @t2502)))
1.92/2.11	(step @p1505 :rule trans :premises (@p1504 @p1501))
1.92/2.11	(step @p1506 :rule bool-impl-elim :args (@t2196 @t2501))
1.92/2.11	(step @p1507 :rule cong :premises (@p1506) :args ((forall @t942 (=> @t2196 @t2501))))
1.92/2.11	(step @p1508 :rule trans :premises (@p1507 @p1505))
1.92/2.11	(step @p1509 :rule aci_norm :args ((= @t2504 @t2499)))
1.92/2.11	(step @p1510 :rule cong :premises (@p1509) :args (@t2505))
1.92/2.11	(step @p1511 :rule quant-merge-prenex :args ((= (forall @t150 @t2507) @t2505)))
1.92/2.11	(step @p1512 :rule alpha_equiv :args (@t2508 (@list @t2491) @t2362))
1.92/2.11	(step @p1513 :rule refl :args (@t2498))
1.92/2.11	(step @p1514 :rule nary_cong :premises (@p1513 @p1512) :args (@t2509))
1.92/2.11	(step @p1515 :rule quant-miniscope-or :args ((= @t2507 @t2509)))
1.92/2.11	(step @p1516 :rule trans :premises (@p1515 @p1514))
1.92/2.11	(step @p1517 :rule symm :premises (@p1516))
1.92/2.11	(step @p1518 :rule cong :premises (@p1517) :args ((forall @t150 (or @t2498 @t2511))))
1.92/2.11	(step @p1519 :rule trans :premises (@p1518 @p1511))
1.92/2.11	(step @p1520 :rule trans :premises (@p1519 @p1510))
1.92/2.11	(step @p1521 :rule bool-impl-elim :args (@t2497 @t2511))
1.92/2.11	(step @p1522 :rule cong :premises (@p1521) :args ((forall @t150 (=> @t2497 @t2511))))
1.92/2.11	(step @p1523 :rule trans :premises (@p1522 @p1520))
1.92/2.11	(step @p1524 :rule refl :args (@t2510))
1.92/2.11	(step @p1525 :rule refl :args (@t930))
1.92/2.11	(step @p1526 :rule cong :premises (@p1525 @p1524) :args ((= @t930 @t2510)))
1.92/2.11	(step @p1527 :rule symm :premises (@p1526))
1.92/2.11	(step @p1528 :rule eq_resolve :premises (@p1525 @p1527))
1.92/2.11	(step @p1529 :rule cong :premises (@p1528) :args (@t2512))
1.92/2.11	(step @p1530 :rule nary_cong :premises (@p1529 @p1176) :args (@t2513))
1.92/2.11	(step @p1531 :rule cong :premises (@p1530) :args ((forall @t9 @t2513)))
1.92/2.11	(step @p1532 :rule bool-impl-elim :args (@t930 @t144))
1.92/2.11	(step @p1533 :rule cong :premises (@p1532) :args (@t931))
1.92/2.11	(step @p1534 :rule trans :premises (@p1533 @p1531))
1.92/2.11	(step @p1535 :rule aci_norm :args ((= @t2515 @t2496)))
1.92/2.11	(step @p1536 :rule cong :premises (@p1535) :args (@t2516))
1.92/2.11	(step @p1537 :rule quant-merge-prenex :args ((= (forall @t9 @t2518) @t2516)))
1.92/2.11	(step @p1538 :rule alpha_equiv :args (@t2519 (@list @t1332) @t2210))
1.92/2.11	(step @p1539 :rule nary_cong :premises (@p724 @p1538) :args (@t2520))
1.92/2.11	(step @p1540 :rule quant-miniscope-or :args ((= @t2518 @t2520)))
1.92/2.11	(step @p1541 :rule trans :premises (@p1540 @p1539))
1.92/2.11	(step @p1542 :rule symm :premises (@p1541))
1.92/2.11	(step @p1543 :rule cong :premises (@p1542) :args ((forall @t9 (or @t1241 @t2522))))
1.92/2.11	(step @p1544 :rule trans :premises (@p1543 @p1537))
1.92/2.11	(step @p1545 :rule trans :premises (@p1544 @p1536))
1.92/2.11	(step @p1546 :rule refl :args (@t2522))
1.92/2.11	(step @p1547 :rule nary_cong :premises (@p738 @p1546) :args (@t2523))
1.92/2.11	(step @p1548 :rule cong :premises (@p1547) :args ((forall @t9 @t2523)))
1.92/2.11	(step @p1549 :rule trans :premises (@p1548 @p1545))
1.92/2.11	(step @p1550 :rule bool-impl-elim :args (@t7 @t2522))
1.92/2.11	(step @p1551 :rule cong :premises (@p1550) :args ((forall @t9 (=> @t7 @t2522))))
1.92/2.11	(step @p1552 :rule trans :premises (@p1551 @p1549))
1.92/2.11	(step @p1553 :rule refl :args ((_ @t143 @t630)))
1.92/2.11	(step @p1554 :rule cong :premises (@p746) :args (@t2521))
1.92/2.11	(step @p1555 :rule trans :premises (@p1554 @p1553))
1.92/2.11	(step @p1556 :rule refl :args (@t143))
1.92/2.11	(step @p1557 :rule ho_cong :premises (@p1556 @p746))
1.92/2.11	(step @p1558 :rule cong :premises (@p1557 @p1555) :args ((= (_ @t143 @t1283) @t2521)))
1.92/2.11	(step @p1559 :rule symm :premises (@p1558))
1.92/2.11	(step @p1560 :rule refl :args (@t932))
1.92/2.11	(step @p1561 :rule eq_resolve :premises (@p1560 @p1559))
1.92/2.11	(step @p1562 :rule ho_cong :premises (@p1556 @p759))
1.92/2.11	(step @p1563 :rule trans :premises (@p1562 @p1561))
1.92/2.11	(step @p1564 :rule nary_cong :premises (@p779 @p773 @p1563) :args (@t2524))
1.92/2.11	(step @p1565 :rule cong :premises (@p1564) :args ((forall @t70 @t2524)))
1.92/2.11	(step @p1566 :rule aci_norm :args ((= (or @t2220 (or @t2219 @t932)) @t2524)))
1.92/2.11	(step @p1567 :rule bool-impl-elim :args (@t933 @t932))
1.92/2.11	(step @p1568 :rule nary_cong :premises (@p784 @p1567) :args ((or @t2220 @t934)))
1.92/2.11	(step @p1569 :rule trans :premises (@p1568 @p1566))
1.92/2.11	(step @p1570 :rule bool-impl-elim :args (@t352 @t934))
1.92/2.11	(step @p1571 :rule trans :premises (@p1570 @p1569))
1.92/2.11	(step @p1572 :rule cong :premises (@p1571) :args (@t935))
1.92/2.11	(step @p1573 :rule trans :premises (@p1572 @p1565))
1.92/2.11	(step @p1574 :rule cong :premises (@p791 @p1573) :args (@t936))
1.92/2.11	(step @p1575 :rule cong :premises (@p1574) :args (@t937))
1.92/2.11	(step @p1576 :rule trans :premises (@p1575 @p1552))
1.92/2.11	(step @p1577 :rule cong :premises (@p1576 @p1534) :args (@t938))
1.92/2.11	(step @p1578 :rule cong :premises (@p1577) :args (@t939))
1.92/2.11	(step @p1579 :rule trans :premises (@p1578 @p1523))
1.92/2.11	(step @p1580 :rule cong :premises (@p811 @p1579) :args (@t2525))
1.92/2.11	(step @p1581 :rule cong :premises (@p1580) :args (@t2526))
1.92/2.11	(step @p1582 :rule trans :premises (@p1581 @p1508))
1.92/2.11	(step @p1583 :rule refl :args (tptp.brelnall2))
1.92/2.11	(step @p1584 :rule cong :premises (@p1583 @p1582) :args ((= tptp.brelnall2 @t2526)))
1.92/2.11	(step @p1585 :rule refl :args (@t939))
1.92/2.11	(step @p1586 :rule cong :premises (@p824 @p1585) :args (@t941))
1.92/2.11	(step @p1587 :rule cong :premises (@p1586) :args (@t943))
1.92/2.11	(step @p1588 :rule cong :premises (@p1583 @p1587) :args (@t945))
1.92/2.11	(step @p1589 :rule trans :premises (@p1588 @p1584))
1.92/2.11	(step @p1590 :rule eq_resolve :premises (@p199 @p1589))
1.92/2.11	(step @p1591 :rule cong :premises (@p1590 @p1490) :args (@t2527))
1.92/2.11	(step @p1592 :rule refl :args (tptp.brelnall1))
1.92/2.11	(step @p1593 :rule cong :premises (@p1592 @p1582) :args ((= tptp.brelnall1 @t2526)))
1.92/2.11	(step @p1594 :rule cong :premises (@p1592 @p1587) :args (@t944))
1.92/2.11	(step @p1595 :rule trans :premises (@p1594 @p1593))
1.92/2.11	(step @p1596 :rule eq_resolve :premises (@p198 @p1595))
1.92/2.11	(step @p1597 :rule cong :premises (@p1596 @p1591) :args (@t2528))
1.92/2.11	(step @p1598 :rule refl :args ((tptp.in @t2531 @t899)))
1.92/2.11	(step @p1599 :rule refl :args ((tptp.dpsetconstr @t2 @t1 @t2530)))
1.92/2.11	(step @p1600 :rule refl :args (@t1341))
1.92/2.11	(step @p1601 :rule cong :premises (@p904 @p1600) :args (@t1342))
1.92/2.11	(step @p1602 :rule cong :premises (@p1601) :args (@t1343))
1.92/2.11	(step @p1603 :rule cong :premises (@p1162 @p1104 @p1602) :args (@t1344))
1.92/2.11	(step @p1604 :rule trans :premises (@p1603 @p1599))
1.92/2.11	(step @p1605 :rule cong :premises (@p1604 @p852) :args (@t1345))
1.92/2.11	(step @p1606 :rule trans :premises (@p1605 @p1598))
1.92/2.11	(step @p1607 :rule ho_cong :premises (@p749 @p1604))
1.92/2.11	(step @p1608 :rule ho_cong :premises (@p1607 @p852))
1.92/2.11	(step @p1609 :rule cong :premises (@p1608 @p1606) :args ((= (_ (_ tptp.in @t1344) @t1269) @t1345)))
1.92/2.11	(step @p1610 :rule symm :premises (@p1609))
1.92/2.11	(step @p1611 :rule refl :args (@t2532))
1.92/2.11	(step @p1612 :rule eq_resolve :premises (@p1611 @p1610))
1.92/2.11	(step @p1613 :rule refl :args (@t844))
1.92/2.11	(step @p1614 :rule ho_cong :premises (@p1613 @p1602))
1.92/2.11	(step @p1615 :rule cong :premises (@p1614 @p1604) :args ((= (_ @t844 @t1343) @t1344)))
1.92/2.11	(step @p1616 :rule symm :premises (@p1615))
1.92/2.11	(step @p1617 :rule refl :args (@t2531))
1.92/2.11	(step @p1618 :rule eq_resolve :premises (@p1617 @p1616))
1.92/2.11	(step @p1619 :rule refl :args (@t912))
1.92/2.11	(step @p1620 :rule cong :premises (@p1619 @p1600) :args ((= @t912 @t1341)))
1.92/2.11	(step @p1621 :rule symm :premises (@p1620))
1.92/2.11	(step @p1622 :rule eq_resolve :premises (@p1619 @p1621))
1.92/2.11	(step @p1623 :rule cong :premises (@p904 @p1622) :args (@t2529))
1.92/2.11	(step @p1624 :rule cong :premises (@p1623) :args (@t2530))
1.92/2.11	(step @p1625 :rule ho_cong :premises (@p1613 @p1624))
1.92/2.11	(step @p1626 :rule trans :premises (@p1625 @p1618))
1.92/2.11	(step @p1627 :rule ho_cong :premises (@p749 @p1626))
1.92/2.11	(step @p1628 :rule ho_cong :premises (@p1627 @p865))
1.92/2.11	(step @p1629 :rule trans :premises (@p1628 @p1612))
1.92/2.11	(step @p1630 :rule refl :args (@t1348))
1.92/2.11	(step @p1631 :rule nary_cong :premises (@p1630 @p1629) :args (@t2533))
1.92/2.11	(step @p1632 :rule cong :premises (@p1631) :args ((forall @t918 @t2533)))
1.92/2.11	(step @p1633 :rule bool-impl-elim :args (@t1347 @t2532))
1.92/2.11	(step @p1634 :rule cong :premises (@p1633) :args ((forall @t918 (=> @t1347 @t2532))))
1.92/2.11	(step @p1635 :rule trans :premises (@p1634 @p1632))
1.92/2.11	(step @p1636 :rule refl :args (@t899))
1.92/2.11	(step @p1637 :rule beta-reduce :args ((= @t2534 @t912)))
1.92/2.11	(step @p1638 :rule refl :args (@t19))
1.92/2.11	(step @p1639 :rule cong :premises (@p1638 @p1637) :args (@t2535))
1.92/2.11	(step @p1640 :rule cong :premises (@p1639) :args (@t2536))
1.92/2.11	(step @p1641 :rule refl :args (@t844))
1.92/2.11	(step @p1642 :rule ho_cong :premises (@p1641 @p1640))
1.92/2.11	(step @p1643 :rule beta-reduce :args ((= (_ @t2537 @t921) (_ @t844 @t2536))))
1.92/2.11	(step @p1644 :rule trans :premises (@p1643 @p1642))
1.92/2.11	(step @p1645 :rule refl :args (@t921))
1.92/2.11	(step @p1646 :rule beta-reduce :args ((= (_ @t2538 @t1) @t2537)))
1.92/2.11	(step @p1647 :rule beta-reduce :args ((= @t2539 @t2538)))
1.92/2.11	(step @p1648 :rule ho_cong :premises (@p1647 @p799))
1.92/2.11	(step @p1649 :rule trans :premises (@p1648 @p1646))
1.92/2.11	(step @p1650 :rule ho_cong :premises (@p1649 @p1645))
1.92/2.11	(step @p1651 :rule trans :premises (@p1650 @p1644))
1.92/2.11	(step @p1652 :rule refl :args (tptp.in))
1.92/2.11	(step @p1653 :rule ho_cong :premises (@p1652 @p1651))
1.92/2.11	(step @p1654 :rule ho_cong :premises (@p1653 @p1636))
1.92/2.11	(step @p1655 :rule refl :args ((tptp.in @t912 @t1)))
1.92/2.11	(step @p1656 :rule cong :premises (@p1600 @p1104) :args (@t1346))
1.92/2.11	(step @p1657 :rule trans :premises (@p1656 @p1655))
1.92/2.11	(step @p1658 :rule ho_cong :premises (@p749 @p1600))
1.92/2.11	(step @p1659 :rule ho_cong :premises (@p1658 @p1104))
1.92/2.11	(step @p1660 :rule cong :premises (@p1659 @p1657) :args ((= (_ (_ tptp.in @t1341) @t1) @t1346)))
1.92/2.11	(step @p1661 :rule symm :premises (@p1660))
1.92/2.11	(step @p1662 :rule refl :args (@t915))
1.92/2.11	(step @p1663 :rule eq_resolve :premises (@p1662 @p1661))
1.92/2.11	(step @p1664 :rule ho_cong :premises (@p749 @p1622))
1.92/2.11	(step @p1665 :rule ho_cong :premises (@p1664 @p1104))
1.92/2.11	(step @p1666 :rule trans :premises (@p1665 @p1663))
1.92/2.11	(step @p1667 :rule nary_cong :premises (@p738 @p1666) :args (@t2540))
1.92/2.11	(step @p1668 :rule cong :premises (@p1667) :args ((forall @t9 @t2540)))
1.92/2.11	(step @p1669 :rule bool-impl-elim :args (@t7 @t915))
1.92/2.11	(step @p1670 :rule cong :premises (@p1669) :args (@t916))
1.92/2.11	(step @p1671 :rule trans :premises (@p1670 @p1668))
1.92/2.11	(step @p1672 :rule cong :premises (@p1671 @p1654) :args (@t2542))
1.92/2.11	(step @p1673 :rule cong :premises (@p1672) :args (@t2543))
1.92/2.11	(step @p1674 :rule trans :premises (@p1673 @p1635))
1.92/2.11	(step @p1675 :rule refl :args (tptp.lam2p))
1.92/2.11	(step @p1676 :rule cong :premises (@p1675 @p1674) :args ((= tptp.lam2p @t2543)))
1.92/2.11	(step @p1677 :rule eq-symm :args (@t912 @t19))
1.92/2.11	(step @p1678 :rule cong :premises (@p1677) :args (@t913))
1.92/2.11	(step @p1679 :rule ho_cong :premises (@p1641 @p1678))
1.92/2.11	(step @p1680 :rule cong :premises (@p1679) :args (@t1233))
1.92/2.11	(step @p1681 :rule trans :premises (@p215 @p1680))
1.92/2.11	(step @p1682 :rule ho_cong :premises (@p1681 @p818))
1.92/2.11	(step @p1683 :rule ho_cong :premises (@p1682 @p799))
1.92/2.11	(step @p1684 :rule ho_cong :premises (@p1683 @p1645))
1.92/2.11	(step @p1685 :rule ho_cong :premises (@p1652 @p1684))
1.92/2.11	(step @p1686 :rule ho_cong :premises (@p1685 @p1636))
1.92/2.11	(step @p1687 :rule refl :args (@t916))
1.92/2.11	(step @p1688 :rule cong :premises (@p1687 @p1686) :args (@t926))
1.92/2.11	(step @p1689 :rule cong :premises (@p1688) :args (@t927))
1.92/2.11	(step @p1690 :rule cong :premises (@p1675 @p1689) :args (@t928))
1.92/2.11	(step @p1691 :rule trans :premises (@p1690 @p1676))
1.92/2.11	(step @p1692 :rule eq_resolve :premises (@p197 @p1691))
1.92/2.11	(step @p1693 :rule cong :premises (@p1692 @p1597) :args (@t2544))
1.92/2.11	(step @p1694 :rule quant-merge-prenex :args ((= (forall @t918 @t2546) @t1360)))
1.92/2.11	(step @p1695 :rule alpha_equiv :args (@t2547 (@list @t1354) @t2362))
1.92/2.11	(step @p1696 :rule quant-unused-vars :args ((= @t2548 @t1357)))
1.92/2.11	(step @p1697 :rule nary_cong :premises (@p1696 @p1695) :args (@t2549))
1.92/2.11	(step @p1698 :rule quant-miniscope-and :args ((= @t2550 @t2549)))
1.92/2.11	(step @p1699 :rule trans :premises (@p1698 @p1697))
1.92/2.11	(step @p1700 :rule nary_cong :premises (@p1630 @p1699) :args (@t2551))
1.92/2.11	(step @p1701 :rule quant-miniscope-or :args ((= @t2546 @t2551)))
1.92/2.11	(step @p1702 :rule trans :premises (@p1701 @p1700))
1.92/2.11	(step @p1703 :rule symm :premises (@p1702))
1.92/2.11	(step @p1704 :rule cong :premises (@p1703) :args ((forall @t918 (or @t1348 (and @t1357 @t2553)))))
1.92/2.11	(step @p1705 :rule trans :premises (@p1704 @p1694))
1.92/2.11	(step @p1706 :rule refl :args (@t2553))
1.92/2.11	(step @p1707 :rule refl :args ((tptp.subset @t2531 @t672)))
1.92/2.11	(step @p1708 :rule cong :premises (@p1604 @p666) :args (@t1357))
1.92/2.11	(step @p1709 :rule trans :premises (@p1708 @p1707))
1.92/2.11	(step @p1710 :rule refl :args (tptp.subset))
1.92/2.11	(step @p1711 :rule ho_cong :premises (@p1710 @p1604))
1.92/2.11	(step @p1712 :rule ho_cong :premises (@p1711 @p666))
1.92/2.11	(step @p1713 :rule cong :premises (@p1712 @p1709) :args ((= (_ (_ tptp.subset @t1344) @t1250) @t1357)))
1.92/2.11	(step @p1714 :rule symm :premises (@p1713))
1.92/2.11	(step @p1715 :rule refl :args (@t2554))
1.92/2.11	(step @p1716 :rule eq_resolve :premises (@p1715 @p1714))
1.92/2.11	(step @p1717 :rule ho_cong :premises (@p1710 @p1626))
1.92/2.11	(step @p1718 :rule ho_cong :premises (@p1717 @p679))
1.92/2.11	(step @p1719 :rule trans :premises (@p1718 @p1716))
1.92/2.11	(step @p1720 :rule nary_cong :premises (@p1719 @p1706) :args (@t2555))
1.92/2.11	(step @p1721 :rule nary_cong :premises (@p1630 @p1720) :args (@t2556))
1.92/2.11	(step @p1722 :rule cong :premises (@p1721) :args ((forall @t918 @t2556)))
1.92/2.11	(step @p1723 :rule trans :premises (@p1722 @p1705))
1.92/2.11	(step @p1724 :rule bool-impl-elim :args (@t1347 @t2555))
1.92/2.11	(step @p1725 :rule cong :premises (@p1724) :args ((forall @t918 (=> @t1347 @t2555))))
1.92/2.11	(step @p1726 :rule trans :premises (@p1725 @p1723))
1.92/2.11	(step @p1727 :rule eq-symm :args (@t1350 @t1351))
1.92/2.11	(step @p1728 :rule cong :premises (@p1727) :args (@t2557))
1.92/2.11	(step @p1729 :rule cong :premises (@p818 @p799 @p1728) :args (@t2558))
1.92/2.11	(step @p1730 :rule refl :args (@t1283))
1.92/2.11	(step @p1731 :rule cong :premises (@p1730 @p1729) :args (@t2559))
1.92/2.11	(step @p1732 :rule cong :premises (@p1731) :args (@t2560))
1.92/2.11	(step @p1733 :rule cong :premises (@p799 @p1732) :args (@t2561))
1.92/2.11	(step @p1734 :rule refl :args (@t1286))
1.92/2.11	(step @p1735 :rule cong :premises (@p1734 @p1733) :args (@t2562))
1.92/2.11	(step @p1736 :rule cong :premises (@p1735) :args (@t2563))
1.92/2.11	(step @p1737 :rule refl :args (@t1285))
1.92/2.11	(step @p1738 :rule cong :premises (@p1737 @p1733) :args (@t2564))
1.92/2.11	(step @p1739 :rule cong :premises (@p1738) :args (@t2565))
1.92/2.11	(step @p1740 :rule nary_cong :premises (@p1739 @p1736) :args (@t2566))
1.92/2.11	(step @p1741 :rule cong :premises (@p1740) :args (@t2567))
1.92/2.11	(step @p1742 :rule cong :premises (@p1741) :args (@t2568))
1.92/2.11	(step @p1743 :rule nary_cong :premises (@p878 @p1742) :args (@t2569))
1.92/2.11	(step @p1744 :rule cong :premises (@p1743) :args ((forall @t9 @t2569)))
1.92/2.11	(step @p1745 :rule alpha_equiv :args (@t2572 @t2362 (@list @t1349)))
1.92/2.11	(step @p1746 :rule cong :premises (@p1162 @p1104 @p1745) :args (@t2573))
1.92/2.11	(step @p1747 :rule refl :args (@t1283))
1.92/2.11	(step @p1748 :rule cong :premises (@p1747 @p1746) :args (@t2574))
1.92/2.11	(step @p1749 :rule cong :premises (@p1748) :args (@t2575))
1.92/2.11	(step @p1750 :rule cong :premises (@p1104 @p1749) :args (@t2576))
1.92/2.11	(step @p1751 :rule cong :premises (@p1106 @p1750) :args (@t2577))
1.92/2.11	(step @p1752 :rule cong :premises (@p1751) :args (@t2578))
1.92/2.11	(step @p1753 :rule cong :premises (@p1109 @p1750) :args (@t2579))
1.92/2.11	(step @p1754 :rule cong :premises (@p1753) :args (@t2580))
1.92/2.11	(step @p1755 :rule nary_cong :premises (@p1754 @p1752) :args (@t2581))
1.92/2.11	(step @p1756 :rule cong :premises (@p1755) :args (@t2582))
1.92/2.11	(step @p1757 :rule cong :premises (@p1756) :args (@t2583))
1.92/2.11	(step @p1758 :rule nary_cong :premises (@p724 @p1757) :args (@t2584))
1.92/2.11	(step @p1759 :rule cong :premises (@p1758) :args ((forall @t9 @t2584)))
1.92/2.11	(step @p1760 :rule trans :premises (@p1759 @p1744))
1.92/2.11	(step @p1761 :rule refl :args ((tptp.dpsetconstr @t2 @t1 @t2586)))
1.92/2.11	(step @p1762 :rule refl :args (@t1351))
1.92/2.11	(step @p1763 :rule cong :premises (@p1600 @p1762) :args (@t2570))
1.92/2.11	(step @p1764 :rule cong :premises (@p1763) :args (@t2572))
1.92/2.11	(step @p1765 :rule cong :premises (@p1162 @p1104 @p1764) :args (@t2573))
1.92/2.11	(step @p1766 :rule trans :premises (@p1765 @p1761))
1.92/2.11	(step @p1767 :rule ho_cong :premises (@p1613 @p1764))
1.92/2.11	(step @p1768 :rule cong :premises (@p1767 @p1766) :args ((= (_ @t844 @t2572) @t2573)))
1.92/2.11	(step @p1769 :rule symm :premises (@p1768))
1.92/2.11	(step @p1770 :rule refl :args (@t2587))
1.92/2.11	(step @p1771 :rule eq_resolve :premises (@p1770 @p1769))
1.92/2.11	(step @p1772 :rule cong :premises (@p1622 @p1762) :args (@t2585))
1.92/2.11	(step @p1773 :rule cong :premises (@p1772) :args (@t2586))
1.92/2.11	(step @p1774 :rule ho_cong :premises (@p1613 @p1773))
1.92/2.11	(step @p1775 :rule trans :premises (@p1774 @p1771))
1.92/2.11	(step @p1776 :rule cong :premises (@p1747 @p1775) :args (@t2588))
1.92/2.11	(step @p1777 :rule cong :premises (@p1776) :args (@t2589))
1.92/2.11	(step @p1778 :rule cong :premises (@p1104 @p1777) :args (@t2590))
1.92/2.11	(step @p1779 :rule cong :premises (@p1106 @p1778) :args (@t2591))
1.92/2.11	(step @p1780 :rule cong :premises (@p1779) :args (@t2592))
1.92/2.11	(step @p1781 :rule cong :premises (@p1109 @p1778) :args (@t2593))
1.92/2.11	(step @p1782 :rule cong :premises (@p1781) :args (@t2594))
1.92/2.11	(step @p1783 :rule nary_cong :premises (@p1782 @p1780) :args (@t2595))
1.92/2.11	(step @p1784 :rule cong :premises (@p1783) :args ((forall @t1287 @t2595)))
1.92/2.11	(step @p1785 :rule eq-symm :args (@t1351 @t912))
1.92/2.11	(step @p1786 :rule cong :premises (@p1785) :args (@t2596))
1.92/2.11	(step @p1787 :rule ho_cong :premises (@p1641 @p1786))
1.92/2.11	(step @p1788 :rule cong :premises (@p1730 @p1787) :args (@t2597))
1.92/2.11	(step @p1789 :rule cong :premises (@p1788) :args (@t2598))
1.92/2.11	; WARNING: add trust step for TRUST_THEORY_REWRITE
1.92/2.11	; trust TRUST_THEORY_REWRITE
1.92/2.11	(step @p1790 :rule trust :premises () :args ((= @t2599 @t2598)))
1.92/2.11	(step @p1791 :rule trans :premises (@p1790 @p1789))
1.92/2.11	(step @p1792 :rule cong :premises (@p799 @p1791) :args (@t2600))
1.92/2.11	(step @p1793 :rule cong :premises (@p1734 @p1792) :args (@t2601))
1.92/2.11	(step @p1794 :rule cong :premises (@p1793) :args (@t2602))
1.92/2.11	(step @p1795 :rule cong :premises (@p1737 @p1792) :args (@t2603))
1.92/2.11	(step @p1796 :rule cong :premises (@p1795) :args (@t2604))
1.92/2.11	(step @p1797 :rule nary_cong :premises (@p1796 @p1794) :args (@t2605))
1.92/2.11	(step @p1798 :rule cong :premises (@p1797) :args (@t2606))
1.92/2.11	(step @p1799 :rule trans :premises (@p1798 @p1784))
1.92/2.11	(step @p1800 :rule cong :premises (@p1799) :args (@t2607))
1.92/2.11	(step @p1801 :rule nary_cong :premises (@p878 @p1800) :args (@t2608))
1.92/2.11	(step @p1802 :rule cong :premises (@p1801) :args (@t2609))
1.92/2.11	(step @p1803 :rule trans :premises (@p1802 @p1760))
1.92/2.11	(step @p1804 :rule refl :args (@t2554))
1.92/2.11	(step @p1805 :rule nary_cong :premises (@p1804 @p1803) :args (@t2610))
1.92/2.11	(step @p1806 :rule beta-reduce :args ((= (_ @t2335 @t2531) @t2610)))
1.92/2.11	(step @p1807 :rule trans :premises (@p1806 @p1805))
1.92/2.11	(step @p1808 :rule ho_cong :premises (@p1081 @p1651))
1.92/2.11	(step @p1809 :rule trans :premises (@p1808 @p1807))
1.92/2.11	(step @p1810 :rule cong :premises (@p1671 @p1809) :args (@t2611))
1.92/2.11	(step @p1811 :rule cong :premises (@p1810) :args (@t2612))
1.92/2.11	(step @p1812 :rule trans :premises (@p1811 @p1726))
1.92/2.11	(step @p1813 :rule refl :args (tptp.lamp))
1.92/2.11	(step @p1814 :rule cong :premises (@p1813 @p1812) :args ((= tptp.lamp @t2612)))
1.92/2.11	(step @p1815 :rule ho_cong :premises (@p1223 @p1684))
1.92/2.11	(step @p1816 :rule cong :premises (@p1687 @p1815) :args (@t923))
1.92/2.11	(step @p1817 :rule cong :premises (@p1816) :args (@t924))
1.92/2.11	(step @p1818 :rule cong :premises (@p1813 @p1817) :args (@t925))
1.92/2.11	(step @p1819 :rule trans :premises (@p1818 @p1814))
1.92/2.11	(step @p1820 :rule eq_resolve :premises (@p196 @p1819))
1.92/2.11	(step @p1821 :rule cong :premises (@p1820 @p1693) :args (@t2613))
1.92/2.11	(step @p1822 :rule ho_cong :premises (@p1081 @p1679))
1.92/2.11	(step @p1823 :rule trans :premises (@p1822 @p1807))
1.92/2.11	(step @p1824 :rule cong :premises (@p1671 @p1823) :args (@t2614))
1.92/2.11	(step @p1825 :rule cong :premises (@p1824) :args (@t2615))
1.92/2.11	(step @p1826 :rule trans :premises (@p1825 @p1726))
1.92/2.11	(step @p1827 :rule refl :args (tptp.lamProp))
1.92/2.11	(step @p1828 :rule cong :premises (@p1827 @p1826) :args ((= tptp.lamProp @t2615)))
1.92/2.11	(step @p1829 :rule refl :args (@t914))
1.92/2.11	(step @p1830 :rule ho_cong :premises (@p1223 @p1829))
1.92/2.11	(step @p1831 :rule cong :premises (@p1687 @p1830) :args (@t917))
1.92/2.11	(step @p1832 :rule cong :premises (@p1831) :args (@t919))
1.92/2.11	(step @p1833 :rule cong :premises (@p1827 @p1832) :args (@t920))
1.92/2.11	(step @p1834 :rule trans :premises (@p1833 @p1828))
1.92/2.11	(step @p1835 :rule eq_resolve :premises (@p195 @p1834))
1.92/2.11	(step @p1836 :rule cong :premises (@p1835 @p1821) :args (@t2616))
1.92/2.11	(step @p1837 :rule nary_cong :premises (@p970 @p949 @p867) :args (@t2617))
1.92/2.11	(step @p1838 :rule cong :premises (@p1837) :args ((forall @t883 @t2617)))
1.92/2.11	(step @p1839 :rule aci_norm :args ((= (or @t2296 @t901) @t2617)))
1.92/2.11	(step @p1840 :rule nary_cong :premises (@p975 @p860) :args ((or @t2298 @t901)))
1.92/2.11	(step @p1841 :rule trans :premises (@p1840 @p1839))
1.92/2.11	(step @p1842 :rule bool-impl-elim :args (@t2297 @t901))
1.92/2.11	(step @p1843 :rule trans :premises (@p1842 @p1841))
1.92/2.11	(step @p1844 :rule cong :premises (@p1843) :args ((forall @t883 (=> @t2297 @t901))))
1.92/2.11	(step @p1845 :rule trans :premises (@p1844 @p1838))
1.92/2.11	(step @p1846 :rule cong :premises (@p1090 @p937) :args (@t2618))
1.92/2.11	(step @p1847 :rule cong :premises (@p1846) :args (@t2619))
1.92/2.11	(step @p1848 :rule trans :premises (@p1847 @p1845))
1.92/2.11	(step @p1849 :rule refl :args (tptp.funcinfuncset))
1.92/2.11	(step @p1850 :rule cong :premises (@p1849 @p1848) :args ((= tptp.funcinfuncset @t2619)))
1.92/2.11	(step @p1851 :rule cong :premises (@p1227 @p937) :args (@t908))
1.92/2.11	(step @p1852 :rule cong :premises (@p1851) :args (@t909))
1.92/2.11	(step @p1853 :rule cong :premises (@p1849 @p1852) :args (@t910))
1.92/2.11	(step @p1854 :rule trans :premises (@p1853 @p1850))
1.92/2.11	(step @p1855 :rule eq_resolve :premises (@p194 @p1854))
1.92/2.11	(step @p1856 :rule cong :premises (@p1855 @p1836) :args (@t2620))
1.92/2.11	(step @p1857 :rule aci_norm :args ((= @t2622 @t1364)))
1.92/2.11	(step @p1858 :rule cong :premises (@p1857) :args (@t2623))
1.92/2.11	(step @p1859 :rule quant-merge-prenex :args ((= (forall @t883 @t2625) @t2623)))
1.92/2.11	(step @p1860 :rule alpha_equiv :args (@t2626 (@list @t1361) @t2362))
1.92/2.11	(step @p1861 :rule nary_cong :premises (@p842 @p1860) :args (@t2627))
1.92/2.11	(step @p1862 :rule quant-miniscope-or :args ((= @t2625 @t2627)))
1.92/2.11	(step @p1863 :rule trans :premises (@p1862 @p1861))
1.92/2.11	(step @p1864 :rule symm :premises (@p1863))
1.92/2.11	(step @p1865 :rule cong :premises (@p1864) :args ((forall @t883 (or @t1271 @t2629))))
1.92/2.11	(step @p1866 :rule trans :premises (@p1865 @p1859))
1.92/2.11	(step @p1867 :rule trans :premises (@p1866 @p1858))
1.92/2.11	(step @p1868 :rule refl :args (@t2629))
1.92/2.11	(step @p1869 :rule nary_cong :premises (@p868 @p1868) :args (@t2630))
1.92/2.11	(step @p1870 :rule cong :premises (@p1869) :args ((forall @t883 @t2630)))
1.92/2.11	(step @p1871 :rule trans :premises (@p1870 @p1867))
1.92/2.11	(step @p1872 :rule bool-impl-elim :args (@t901 @t2629))
1.92/2.11	(step @p1873 :rule cong :premises (@p1872) :args ((forall @t883 (=> @t901 @t2629))))
1.92/2.11	(step @p1874 :rule trans :premises (@p1873 @p1871))
1.92/2.11	(step @p1875 :rule refl :args ((tptp.in @t893 @t1)))
1.92/2.11	(step @p1876 :rule cong :premises (@p899 @p1104) :args (@t2628))
1.92/2.11	(step @p1877 :rule trans :premises (@p1876 @p1875))
1.92/2.11	(step @p1878 :rule ho_cong :premises (@p749 @p899))
1.92/2.11	(step @p1879 :rule ho_cong :premises (@p1878 @p1104))
1.92/2.11	(step @p1880 :rule cong :premises (@p1879 @p1877) :args ((= (_ (_ tptp.in @t1281) @t1) @t2628)))
1.92/2.11	(step @p1881 :rule symm :premises (@p1880))
1.92/2.11	(step @p1882 :rule refl :args (@t894))
1.92/2.11	(step @p1883 :rule eq_resolve :premises (@p1882 @p1881))
1.92/2.11	(step @p1884 :rule ho_cong :premises (@p749 @p903))
1.92/2.11	(step @p1885 :rule ho_cong :premises (@p1884 @p1104))
1.92/2.11	(step @p1886 :rule trans :premises (@p1885 @p1883))
1.92/2.11	(step @p1887 :rule nary_cong :premises (@p738 @p1886) :args (@t2631))
1.92/2.11	(step @p1888 :rule cong :premises (@p1887) :args ((forall @t9 @t2631)))
1.92/2.11	(step @p1889 :rule bool-impl-elim :args (@t7 @t894))
1.92/2.11	(step @p1890 :rule cong :premises (@p1889) :args (@t895))
1.92/2.11	(step @p1891 :rule trans :premises (@p1890 @p1888))
1.92/2.11	(step @p1892 :rule cong :premises (@p937 @p1891) :args (@t905))
1.92/2.11	(step @p1893 :rule cong :premises (@p1892) :args (@t906))
1.92/2.11	(step @p1894 :rule trans :premises (@p1893 @p1874))
1.92/2.11	(step @p1895 :rule refl :args (tptp.ap2p))
1.92/2.11	(step @p1896 :rule cong :premises (@p1895 @p1894) :args (@t907))
1.92/2.11	(step @p1897 :rule eq_resolve :premises (@p193 @p1896))
1.92/2.11	(step @p1898 :rule cong :premises (@p1897 @p1856) :args (@t2632))
1.92/2.11	(step @p1899 :rule quant-merge-prenex :args ((= (forall @t883 @t2634) @t1371)))
1.92/2.11	(step @p1900 :rule alpha_equiv :args (@t2635 (@list @t1366) @t2362))
1.92/2.11	(step @p1901 :rule quant-unused-vars :args ((= @t2636 @t1295)))
1.92/2.11	(step @p1902 :rule nary_cong :premises (@p1901 @p1900) :args (@t2637))
1.92/2.11	(step @p1903 :rule quant-miniscope-and :args ((= @t2638 @t2637)))
1.92/2.11	(step @p1904 :rule trans :premises (@p1903 @p1902))
1.92/2.11	(step @p1905 :rule nary_cong :premises (@p842 @p1904) :args (@t2639))
1.92/2.11	(step @p1906 :rule quant-miniscope-or :args ((= @t2634 @t2639)))
1.92/2.11	(step @p1907 :rule trans :premises (@p1906 @p1905))
1.92/2.11	(step @p1908 :rule symm :premises (@p1907))
1.92/2.11	(step @p1909 :rule cong :premises (@p1908) :args ((forall @t883 (or @t1271 (and @t1295 @t1293)))))
1.92/2.11	(step @p1910 :rule trans :premises (@p1909 @p1899))
1.92/2.11	(step @p1911 :rule refl :args (@t1293))
1.92/2.11	(step @p1912 :rule nary_cong :premises (@p969 @p1911) :args (@t2297))
1.92/2.11	(step @p1913 :rule nary_cong :premises (@p868 @p1912) :args (@t2640))
1.92/2.11	(step @p1914 :rule cong :premises (@p1913) :args ((forall @t883 @t2640)))
1.92/2.11	(step @p1915 :rule trans :premises (@p1914 @p1910))
1.92/2.11	(step @p1916 :rule bool-impl-elim :args (@t901 @t2297))
1.92/2.11	(step @p1917 :rule cong :premises (@p1916) :args ((forall @t883 (=> @t901 @t2297))))
1.92/2.11	(step @p1918 :rule trans :premises (@p1917 @p1915))
1.92/2.11	(step @p1919 :rule cong :premises (@p937 @p1090) :args (@t2641))
1.92/2.11	(step @p1920 :rule cong :premises (@p1919) :args (@t2642))
1.92/2.11	(step @p1921 :rule trans :premises (@p1920 @p1918))
1.92/2.11	(step @p1922 :rule refl :args (tptp.infuncsetfunc))
1.92/2.11	(step @p1923 :rule cong :premises (@p1922 @p1921) :args ((= tptp.infuncsetfunc @t2642)))
1.92/2.11	(step @p1924 :rule cong :premises (@p937 @p1227) :args (@t902))
1.92/2.11	(step @p1925 :rule cong :premises (@p1924) :args (@t903))
1.92/2.11	(step @p1926 :rule cong :premises (@p1922 @p1925) :args (@t904))
1.92/2.11	(step @p1927 :rule trans :premises (@p1926 @p1923))
1.92/2.11	(step @p1928 :rule eq_resolve :premises (@p192 @p1927))
1.92/2.11	(step @p1929 :rule cong :premises (@p1928 @p1898) :args (@t2643))
1.92/2.11	(step @p1930 :rule aci_norm :args ((= @t2645 @t1375)))
1.92/2.11	(step @p1931 :rule cong :premises (@p1930) :args (@t2646))
1.92/2.11	(step @p1932 :rule quant-merge-prenex :args ((= (forall @t883 @t2648) @t2646)))
1.92/2.11	(step @p1933 :rule alpha_equiv :args (@t2649 (@list @t1372) @t2362))
1.92/2.11	(step @p1934 :rule nary_cong :premises (@p950 @p949 @p1933) :args (@t2650))
1.92/2.11	(step @p1935 :rule quant-miniscope-or :args ((= @t2648 @t2650)))
1.92/2.11	(step @p1936 :rule trans :premises (@p1935 @p1934))
1.92/2.11	(step @p1937 :rule symm :premises (@p1936))
1.92/2.11	(step @p1938 :rule cong :premises (@p1937) :args ((forall @t883 (or @t1296 @t1294 @t2629))))
1.92/2.11	(step @p1939 :rule trans :premises (@p1938 @p1932))
1.92/2.11	(step @p1940 :rule trans :premises (@p1939 @p1931))
1.92/2.11	(step @p1941 :rule nary_cong :premises (@p970 @p949 @p1868) :args (@t2651))
1.92/2.11	(step @p1942 :rule cong :premises (@p1941) :args ((forall @t883 @t2651)))
1.92/2.11	(step @p1943 :rule trans :premises (@p1942 @p1940))
1.92/2.11	(step @p1944 :rule aci_norm :args ((= (or @t2296 @t2629) @t2651)))
1.92/2.11	(step @p1945 :rule nary_cong :premises (@p975 @p1868) :args ((or @t2298 @t2629)))
1.92/2.11	(step @p1946 :rule trans :premises (@p1945 @p1944))
1.92/2.11	(step @p1947 :rule bool-impl-elim :args (@t2297 @t2629))
1.92/2.11	(step @p1948 :rule trans :premises (@p1947 @p1946))
1.92/2.11	(step @p1949 :rule cong :premises (@p1948) :args ((forall @t883 (=> @t2297 @t2629))))
1.92/2.11	(step @p1950 :rule trans :premises (@p1949 @p1943))
1.92/2.11	(step @p1951 :rule cong :premises (@p1090 @p1891) :args (@t2652))
1.92/2.11	(step @p1952 :rule cong :premises (@p1951) :args (@t2653))
1.92/2.11	(step @p1953 :rule trans :premises (@p1952 @p1950))
1.92/2.11	(step @p1954 :rule refl :args (tptp.app))
1.92/2.11	(step @p1955 :rule cong :premises (@p1954 @p1953) :args ((= tptp.app @t2653)))
1.92/2.11	(step @p1956 :rule refl :args (@t895))
1.92/2.11	(step @p1957 :rule cong :premises (@p1227 @p1956) :args (@t896))
1.92/2.11	(step @p1958 :rule cong :premises (@p1957) :args (@t897))
1.92/2.11	(step @p1959 :rule cong :premises (@p1954 @p1958) :args (@t898))
1.92/2.11	(step @p1960 :rule trans :premises (@p1959 @p1955))
1.92/2.11	(step @p1961 :rule eq_resolve :premises (@p191 @p1960))
1.92/2.11	(step @p1962 :rule cong :premises (@p1961 @p1929) :args (@t2654))
1.92/2.11	(step @p1963 :rule aci_norm :args ((= @t2656 @t1380)))
1.92/2.11	(step @p1964 :rule cong :premises (@p1963) :args (@t2657))
1.92/2.11	(step @p1965 :rule quant-merge-prenex :args ((= (forall @t883 @t2659) @t2657)))
1.92/2.11	(step @p1966 :rule alpha_equiv :args (@t2660 (@list @t1377) @t2362))
1.92/2.11	(step @p1967 :rule nary_cong :premises (@p950 @p949 @p1966) :args (@t2661))
1.92/2.11	(step @p1968 :rule quant-miniscope-or :args ((= @t2659 @t2661)))
1.92/2.11	(step @p1969 :rule trans :premises (@p1968 @p1967))
1.92/2.11	(step @p1970 :rule symm :premises (@p1969))
1.92/2.11	(step @p1971 :rule cong :premises (@p1970) :args ((forall @t883 (or @t1296 @t1294 @t2664))))
1.92/2.11	(step @p1972 :rule trans :premises (@p1971 @p1965))
1.92/2.11	(step @p1973 :rule trans :premises (@p1972 @p1964))
1.92/2.11	(step @p1974 :rule refl :args (@t2664))
1.92/2.11	(step @p1975 :rule nary_cong :premises (@p970 @p949 @p1974) :args (@t2665))
1.92/2.11	(step @p1976 :rule cong :premises (@p1975) :args ((forall @t883 @t2665)))
1.92/2.11	(step @p1977 :rule trans :premises (@p1976 @p1973))
1.92/2.11	(step @p1978 :rule aci_norm :args ((= (or @t2296 @t2664) @t2665)))
1.92/2.11	(step @p1979 :rule nary_cong :premises (@p975 @p1974) :args ((or @t2298 @t2664)))
1.92/2.11	(step @p1980 :rule trans :premises (@p1979 @p1978))
1.92/2.11	(step @p1981 :rule bool-impl-elim :args (@t2297 @t2664))
1.92/2.11	(step @p1982 :rule trans :premises (@p1981 @p1980))
1.92/2.11	(step @p1983 :rule cong :premises (@p1982) :args ((forall @t883 (=> @t2297 @t2664))))
1.92/2.11	(step @p1984 :rule trans :premises (@p1983 @p1977))
1.92/2.11	(step @p1985 :rule refl :args ((tptp.in @t886 @t1)))
1.92/2.11	(step @p1986 :rule refl :args ((tptp.setunion @t877)))
1.92/2.11	(step @p1987 :rule refl :args ((tptp.dsetconstr @t1 @t876)))
1.92/2.11	(step @p1988 :rule cong :premises (@p908) :args (@t1291))
1.92/2.11	(step @p1989 :rule cong :premises (@p1104 @p1988) :args (@t1292))
1.92/2.11	(step @p1990 :rule trans :premises (@p1989 @p1987))
1.92/2.11	(step @p1991 :rule cong :premises (@p1990) :args (@t2662))
1.92/2.11	(step @p1992 :rule trans :premises (@p1991 @p1986))
1.92/2.11	(step @p1993 :rule cong :premises (@p1992 @p1104) :args (@t2663))
1.92/2.11	(step @p1994 :rule trans :premises (@p1993 @p1985))
1.92/2.11	(step @p1995 :rule ho_cong :premises (@p749 @p1992))
1.92/2.11	(step @p1996 :rule ho_cong :premises (@p1995 @p1104))
1.92/2.11	(step @p1997 :rule cong :premises (@p1996 @p1994) :args ((= (_ (_ tptp.in @t2662) @t1) @t2663)))
1.92/2.11	(step @p1998 :rule symm :premises (@p1997))
1.92/2.11	(step @p1999 :rule refl :args (@t887))
1.92/2.11	(step @p2000 :rule eq_resolve :premises (@p1999 @p1998))
1.92/2.11	(step @p2001 :rule refl :args (tptp.setunion))
1.92/2.11	(step @p2002 :rule ho_cong :premises (@p2001 @p1990))
1.92/2.11	(step @p2003 :rule cong :premises (@p2002 @p1992) :args ((= (_ tptp.setunion @t1292) @t2662)))
1.92/2.11	(step @p2004 :rule symm :premises (@p2003))
1.92/2.11	(step @p2005 :rule refl :args (@t886))
1.92/2.11	(step @p2006 :rule eq_resolve :premises (@p2005 @p2004))
1.92/2.11	(step @p2007 :rule refl :args (@t408))
1.92/2.11	(step @p2008 :rule ho_cong :premises (@p2007 @p1988))
1.92/2.11	(step @p2009 :rule cong :premises (@p2008 @p1990) :args ((= (_ @t408 @t1291) @t1292)))
1.92/2.11	(step @p2010 :rule symm :premises (@p2009))
1.92/2.11	(step @p2011 :rule refl :args (@t877))
1.92/2.11	(step @p2012 :rule eq_resolve :premises (@p2011 @p2010))
1.92/2.11	(step @p2013 :rule cong :premises (@p915) :args (@t876))
1.92/2.11	(step @p2014 :rule ho_cong :premises (@p2007 @p2013))
1.92/2.11	(step @p2015 :rule trans :premises (@p2014 @p2012))
1.92/2.11	(step @p2016 :rule ho_cong :premises (@p2001 @p2015))
1.92/2.11	(step @p2017 :rule trans :premises (@p2016 @p2006))
1.92/2.11	(step @p2018 :rule ho_cong :premises (@p749 @p2017))
1.92/2.11	(step @p2019 :rule ho_cong :premises (@p2018 @p1104))
1.92/2.11	(step @p2020 :rule trans :premises (@p2019 @p2000))
1.92/2.11	(step @p2021 :rule nary_cong :premises (@p738 @p2020) :args (@t2666))
1.92/2.11	(step @p2022 :rule cong :premises (@p2021) :args ((forall @t9 @t2666)))
1.92/2.11	(step @p2023 :rule bool-impl-elim :args (@t7 @t887))
1.92/2.11	(step @p2024 :rule cong :premises (@p2023) :args (@t888))
1.92/2.11	(step @p2025 :rule trans :premises (@p2024 @p2022))
1.92/2.11	(step @p2026 :rule cong :premises (@p1090 @p2025) :args (@t2667))
1.92/2.11	(step @p2027 :rule cong :premises (@p2026) :args (@t2668))
1.92/2.11	(step @p2028 :rule trans :premises (@p2027 @p1984))
1.92/2.11	(step @p2029 :rule refl :args (tptp.apProp))
1.92/2.11	(step @p2030 :rule cong :premises (@p2029 @p2028) :args ((= tptp.apProp @t2668)))
1.92/2.11	(step @p2031 :rule refl :args (@t888))
1.92/2.11	(step @p2032 :rule cong :premises (@p1227 @p2031) :args (@t889))
1.92/2.11	(step @p2033 :rule cong :premises (@p2032) :args (@t890))
1.92/2.11	(step @p2034 :rule cong :premises (@p2029 @p2033) :args (@t891))
1.92/2.11	(step @p2035 :rule trans :premises (@p2034 @p2030))
1.92/2.11	(step @p2036 :rule eq_resolve :premises (@p190 @p2035))
1.92/2.11	(step @p2037 :rule cong :premises (@p2036 @p1962) :args (@t2669))
1.92/2.11	(step @p2038 :rule eq-symm :args (@t1383 @t1385))
1.92/2.11	(step @p2039 :rule cong :premises (@p2038) :args (@t2670))
1.92/2.11	(step @p2040 :rule refl :args (@t1386))
1.92/2.11	(step @p2041 :rule nary_cong :premises (@p2040 @p2039) :args (@t2671))
1.92/2.11	(step @p2042 :rule cong :premises (@p2041) :args (@t2672))
1.92/2.11	(step @p2043 :rule cong :premises (@p2042) :args (@t2673))
1.92/2.11	(step @p2044 :rule refl :args (@t1388))
1.92/2.11	(step @p2045 :rule nary_cong :premises (@p1239 @p1238 @p2044 @p2043) :args (@t2674))
1.92/2.11	(step @p2046 :rule aci_norm :args ((= @t2676 @t2674)))
1.92/2.11	(step @p2047 :rule trans :premises (@p2046 @p2045))
1.92/2.11	(step @p2048 :rule cong :premises (@p2047) :args (@t2677))
1.92/2.11	(step @p2049 :rule quant-merge-prenex :args ((= (forall @t883 @t2679) @t2677)))
1.92/2.11	(step @p2050 :rule alpha_equiv :args (@t2680 (@list @t1382) @t2362))
1.92/2.11	(step @p2051 :rule nary_cong :premises (@p950 @p949 @p2050) :args (@t2681))
1.92/2.11	(step @p2052 :rule quant-miniscope-or :args ((= @t2679 @t2681)))
1.92/2.11	(step @p2053 :rule trans :premises (@p2052 @p2051))
1.92/2.11	(step @p2054 :rule symm :premises (@p2053))
1.92/2.11	(step @p2055 :rule cong :premises (@p2054) :args ((forall @t883 (or @t1296 @t1294 @t2683))))
1.92/2.11	(step @p2056 :rule trans :premises (@p2055 @p2049))
1.92/2.11	(step @p2057 :rule trans :premises (@p2056 @p2048))
1.92/2.11	(step @p2058 :rule refl :args (@t2683))
1.92/2.11	(step @p2059 :rule nary_cong :premises (@p970 @p949 @p2058) :args (@t2684))
1.92/2.11	(step @p2060 :rule cong :premises (@p2059) :args ((forall @t883 @t2684)))
1.92/2.11	(step @p2061 :rule trans :premises (@p2060 @p2057))
1.92/2.11	(step @p2062 :rule aci_norm :args ((= (or @t2296 @t2683) @t2684)))
1.92/2.11	(step @p2063 :rule nary_cong :premises (@p975 @p2058) :args ((or @t2298 @t2683)))
1.92/2.11	(step @p2064 :rule trans :premises (@p2063 @p2062))
1.92/2.11	(step @p2065 :rule bool-impl-elim :args (@t2297 @t2683))
1.92/2.11	(step @p2066 :rule trans :premises (@p2065 @p2064))
1.92/2.11	(step @p2067 :rule cong :premises (@p2066) :args ((forall @t883 (=> @t2297 @t2683))))
1.92/2.11	(step @p2068 :rule trans :premises (@p2067 @p2061))
1.92/2.11	(step @p2069 :rule refl :args (@t2682))
1.92/2.11	(step @p2070 :rule nary_cong :premises (@p738 @p2069) :args (@t2685))
1.92/2.11	(step @p2071 :rule cong :premises (@p2070) :args ((forall @t9 @t2685)))
1.92/2.11	(step @p2072 :rule bool-impl-elim :args (@t7 @t2682))
1.92/2.11	(step @p2073 :rule cong :premises (@p2072) :args ((forall @t9 (=> @t7 @t2682))))
1.92/2.11	(step @p2074 :rule trans :premises (@p2073 @p2071))
1.92/2.11	(step @p2075 :rule refl :args (@t1385))
1.92/2.11	(step @p2076 :rule cong :premises (@p2015 @p2075) :args (@t2686))
1.92/2.11	(step @p2077 :rule cong :premises (@p2076) :args (@t2687))
1.92/2.11	(step @p2078 :rule refl :args (@t1384))
1.92/2.11	(step @p2079 :rule cong :premises (@p2078 @p2015) :args (@t2688))
1.92/2.11	(step @p2080 :rule cong :premises (@p2079) :args (@t2689))
1.92/2.11	(step @p2081 :rule nary_cong :premises (@p2080 @p2077) :args (@t2690))
1.92/2.11	(step @p2082 :rule cong :premises (@p2081) :args (@t2691))
1.92/2.11	(step @p2083 :rule cong :premises (@p2082) :args (@t2692))
1.92/2.11	(step @p2084 :rule beta-reduce :args ((= (_ (lambda @t64 (not (forall @t1387 (or (not (tptp.in @t1384 @t2)) (not (= @t2 @t1385)))))) @t877) @t2692)))
1.92/2.11	(step @p2085 :rule trans :premises (@p2084 @p2083))
1.92/2.11	(step @p2086 :rule alpha_equiv :args (@t2388 @t2362 (@list @t1384)))
1.92/2.11	(step @p2087 :rule cong :premises (@p2086) :args (@t2389))
1.92/2.11	(step @p2088 :rule cong :premises (@p2087) :args (@t2390))
1.92/2.11	(step @p2089 :rule ho_cong :premises (@p2088 @p2011))
1.92/2.11	(step @p2090 :rule trans :premises (@p2089 @p2085))
1.92/2.11	(step @p2091 :rule cong :premises (@p791 @p2090) :args (@t2693))
1.92/2.11	(step @p2092 :rule cong :premises (@p2091) :args (@t2694))
1.92/2.11	(step @p2093 :rule trans :premises (@p2092 @p2074))
1.92/2.11	(step @p2094 :rule cong :premises (@p1090 @p2093) :args (@t2695))
1.92/2.11	(step @p2095 :rule cong :premises (@p2094) :args (@t2696))
1.92/2.11	(step @p2096 :rule trans :premises (@p2095 @p2068))
1.92/2.11	(step @p2097 :rule refl :args (tptp.funcImageSingleton))
1.92/2.11	(step @p2098 :rule cong :premises (@p2097 @p2096) :args ((= tptp.funcImageSingleton @t2696)))
1.92/2.11	(step @p2099 :rule refl :args (@t877))
1.92/2.11	(step @p2100 :rule ho_cong :premises (@p1209 @p2099))
1.92/2.11	(step @p2101 :rule cong :premises (@p791 @p2100) :args (@t878))
1.92/2.11	(step @p2102 :rule cong :premises (@p2101) :args (@t879))
1.92/2.11	(step @p2103 :rule cong :premises (@p1227 @p2102) :args (@t882))
1.92/2.11	(step @p2104 :rule cong :premises (@p2103) :args (@t884))
1.92/2.11	(step @p2105 :rule cong :premises (@p2097 @p2104) :args (@t885))
1.92/2.11	(step @p2106 :rule trans :premises (@p2105 @p2098))
1.92/2.11	(step @p2107 :rule eq_resolve :premises (@p189 @p2106))
1.92/2.11	(step @p2108 :rule cong :premises (@p2107 @p2037) :args (@t2697))
1.92/2.11	(step @p2109 :rule refl :args (@t1390))
1.92/2.11	(step @p2110 :rule lambda-elim :args ((= @t2699 @t67)))
1.92/2.11	(step @p2111 :rule cong :premises (@p818 @p799 @p2110) :args (@t2700))
1.92/2.11	(step @p2112 :rule cong :premises (@p1730 @p2111) :args (@t2701))
1.92/2.11	(step @p2113 :rule cong :premises (@p2112) :args (@t2702))
1.92/2.11	(step @p2114 :rule nary_cong :premises (@p2113 @p2109) :args (@t2703))
1.92/2.11	(step @p2115 :rule cong :premises (@p2114) :args ((forall @t867 @t2703)))
1.92/2.11	(step @p2116 :rule refl :args (@t1390))
1.92/2.11	(step @p2117 :rule refl :args (@t76))
1.92/2.11	(step @p2118 :rule cong :premises (@p2117 @p2116) :args ((= @t76 @t1390)))
1.92/2.11	(step @p2119 :rule symm :premises (@p2118))
1.92/2.11	(step @p2120 :rule eq_resolve :premises (@p2117 @p2119))
1.92/2.11	(step @p2121 :rule refl :args ((tptp.in @t630 @t845)))
1.92/2.11	(step @p2122 :rule refl :args ((tptp.dpsetconstr @t2 @t1 @t843)))
1.92/2.11	(step @p2123 :rule refl :args (@t2698))
1.92/2.11	(step @p2124 :rule cong :premises (@p2123) :args (@t2699))
1.92/2.11	(step @p2125 :rule cong :premises (@p1162 @p1104 @p2124) :args (@t2700))
1.92/2.11	(step @p2126 :rule trans :premises (@p2125 @p2122))
1.92/2.11	(step @p2127 :rule cong :premises (@p746 @p2126) :args (@t2701))
1.92/2.11	(step @p2128 :rule trans :premises (@p2127 @p2121))
1.92/2.11	(step @p2129 :rule ho_cong :premises (@p750 @p2126))
1.92/2.11	(step @p2130 :rule cong :premises (@p2129 @p2128) :args ((= (_ @t2218 @t2700) @t2701)))
1.92/2.11	(step @p2131 :rule symm :premises (@p2130))
1.92/2.11	(step @p2132 :rule refl :args (@t846))
1.92/2.11	(step @p2133 :rule eq_resolve :premises (@p2132 @p2131))
1.92/2.11	(step @p2134 :rule ho_cong :premises (@p1613 @p2124))
1.92/2.11	(step @p2135 :rule cong :premises (@p2134 @p2126) :args ((= (_ @t844 @t2699) @t2700)))
1.92/2.11	(step @p2136 :rule symm :premises (@p2135))
1.92/2.11	(step @p2137 :rule refl :args (@t845))
1.92/2.11	(step @p2138 :rule eq_resolve :premises (@p2137 @p2136))
1.92/2.11	(step @p2139 :rule refl :args (@t842))
1.92/2.11	(step @p2140 :rule cong :premises (@p2139 @p2123) :args ((= @t842 @t2698)))
1.92/2.11	(step @p2141 :rule symm :premises (@p2140))
1.92/2.11	(step @p2142 :rule eq_resolve :premises (@p2139 @p2141))
1.92/2.11	(step @p2143 :rule cong :premises (@p2142) :args (@t843))
1.92/2.11	(step @p2144 :rule ho_cong :premises (@p1613 @p2143))
1.92/2.11	(step @p2145 :rule trans :premises (@p2144 @p2138))
1.92/2.11	(step @p2146 :rule ho_cong :premises (@p760 @p2145))
1.92/2.11	(step @p2147 :rule trans :premises (@p2146 @p2133))
1.92/2.11	(step @p2148 :rule cong :premises (@p2147) :args (@t2704))
1.92/2.11	(step @p2149 :rule nary_cong :premises (@p2148 @p2120) :args (@t2705))
1.92/2.11	(step @p2150 :rule cong :premises (@p2149) :args ((forall @t867 @t2705)))
1.92/2.11	(step @p2151 :rule trans :premises (@p2150 @p2115))
1.92/2.11	(step @p2152 :rule bool-impl-elim :args (@t846 @t76))
1.92/2.11	(step @p2153 :rule cong :premises (@p2152) :args (@t872))
1.92/2.11	(step @p2154 :rule trans :premises (@p2153 @p2151))
1.92/2.11	(step @p2155 :rule refl :args (tptp.dpsetconstrER))
1.92/2.11	(step @p2156 :rule cong :premises (@p2155 @p2154) :args (@t873))
1.92/2.11	(step @p2157 :rule eq_resolve :premises (@p188 @p2156))
1.92/2.11	(step @p2158 :rule cong :premises (@p2157 @p2108) :args (@t2706))
1.92/2.11	(step @p2159 :rule refl :args (@t1394))
1.92/2.11	(step @p2160 :rule nary_cong :premises (@p2113 @p2159) :args (@t2707))
1.92/2.11	(step @p2161 :rule cong :premises (@p2160) :args ((forall @t867 @t2707)))
1.92/2.11	(step @p2162 :rule nary_cong :premises (@p2148 @p778) :args (@t2708))
1.92/2.11	(step @p2163 :rule cong :premises (@p2162) :args ((forall @t867 @t2708)))
1.92/2.11	(step @p2164 :rule trans :premises (@p2163 @p2161))
1.92/2.11	(step @p2165 :rule bool-impl-elim :args (@t846 @t352))
1.92/2.11	(step @p2166 :rule cong :premises (@p2165) :args (@t870))
1.92/2.11	(step @p2167 :rule trans :premises (@p2166 @p2164))
1.92/2.11	(step @p2168 :rule refl :args (tptp.dpsetconstrEL2))
1.92/2.11	(step @p2169 :rule cong :premises (@p2168 @p2167) :args (@t871))
1.92/2.11	(step @p2170 :rule eq_resolve :premises (@p187 @p2169))
1.92/2.11	(step @p2171 :rule cong :premises (@p2170 @p2158) :args (@t2709))
1.92/2.11	(step @p2172 :rule refl :args (@t1240))
1.92/2.11	(step @p2173 :rule nary_cong :premises (@p2113 @p2172) :args (@t2710))
1.92/2.11	(step @p2174 :rule cong :premises (@p2173) :args ((forall @t867 @t2710)))
1.92/2.11	(step @p2175 :rule nary_cong :premises (@p2148 @p737) :args (@t2711))
1.92/2.11	(step @p2176 :rule cong :premises (@p2175) :args ((forall @t867 @t2711)))
1.92/2.11	(step @p2177 :rule trans :premises (@p2176 @p2174))
1.92/2.11	(step @p2178 :rule bool-impl-elim :args (@t846 @t7))
1.92/2.11	(step @p2179 :rule cong :premises (@p2178) :args (@t868))
1.92/2.11	(step @p2180 :rule trans :premises (@p2179 @p2177))
1.92/2.11	(step @p2181 :rule refl :args (tptp.dpsetconstrEL1))
1.92/2.11	(step @p2182 :rule cong :premises (@p2181 @p2180) :args (@t869))
1.92/2.11	(step @p2183 :rule eq_resolve :premises (@p186 @p2182))
1.92/2.11	(step @p2184 :rule cong :premises (@p2183 @p2171) :args (@t2712))
1.92/2.11	(step @p2185 :rule aci_norm :args ((= @t2714 @t1399)))
1.92/2.11	(step @p2186 :rule cong :premises (@p2185) :args (@t2715))
1.92/2.11	(step @p2187 :rule quant-merge-prenex :args ((= (forall @t850 @t2717) @t2715)))
1.92/2.11	(step @p2188 :rule alpha_equiv :args (@t2718 (@list @t1395) @t2210))
1.92/2.11	(step @p2189 :rule nary_cong :premises (@p724 @p2188) :args (@t2719))
1.92/2.11	(step @p2190 :rule quant-miniscope-or :args ((= @t2717 @t2719)))
1.92/2.11	(step @p2191 :rule trans :premises (@p2190 @p2189))
1.92/2.11	(step @p2192 :rule symm :premises (@p2191))
1.92/2.11	(step @p2193 :rule cong :premises (@p2192) :args ((forall @t850 (or @t1241 @t2720))))
1.92/2.11	(step @p2194 :rule trans :premises (@p2193 @p2187))
1.92/2.11	(step @p2195 :rule trans :premises (@p2194 @p2186))
1.92/2.11	(step @p2196 :rule refl :args (@t2720))
1.92/2.11	(step @p2197 :rule nary_cong :premises (@p738 @p2196) :args (@t2721))
1.92/2.11	(step @p2198 :rule cong :premises (@p2197) :args ((forall @t850 @t2721)))
1.92/2.11	(step @p2199 :rule trans :premises (@p2198 @p2195))
1.92/2.11	(step @p2200 :rule bool-impl-elim :args (@t7 @t2720))
1.92/2.11	(step @p2201 :rule cong :premises (@p2200) :args ((forall @t850 (=> @t7 @t2720))))
1.92/2.11	(step @p2202 :rule trans :premises (@p2201 @p2199))
1.92/2.11	(step @p2203 :rule refl :args (@t2215))
1.92/2.11	(step @p2204 :rule nary_cong :premises (@p2203 @p2113 @p2109) :args (@t2722))
1.92/2.11	(step @p2205 :rule cong :premises (@p2204) :args ((forall @t70 @t2722)))
1.92/2.11	(step @p2206 :rule nary_cong :premises (@p779 @p2148 @p2120) :args (@t2723))
1.92/2.11	(step @p2207 :rule cong :premises (@p2206) :args ((forall @t70 @t2723)))
1.92/2.11	(step @p2208 :rule trans :premises (@p2207 @p2205))
1.92/2.11	(step @p2209 :rule aci_norm :args ((= (or @t2220 @t2705) @t2723)))
1.92/2.11	(step @p2210 :rule nary_cong :premises (@p784 @p2152) :args ((or @t2220 @t862)))
1.92/2.11	(step @p2211 :rule trans :premises (@p2210 @p2209))
1.92/2.11	(step @p2212 :rule bool-impl-elim :args (@t352 @t862))
1.92/2.11	(step @p2213 :rule trans :premises (@p2212 @p2211))
1.92/2.11	(step @p2214 :rule cong :premises (@p2213) :args (@t863))
1.92/2.11	(step @p2215 :rule trans :premises (@p2214 @p2208))
1.92/2.11	(step @p2216 :rule cong :premises (@p791 @p2215) :args (@t864))
1.92/2.11	(step @p2217 :rule cong :premises (@p2216) :args (@t865))
1.92/2.11	(step @p2218 :rule trans :premises (@p2217 @p2202))
1.92/2.11	(step @p2219 :rule refl :args (tptp.dpsetconstrERa))
1.92/2.11	(step @p2220 :rule cong :premises (@p2219 @p2218) :args (@t866))
1.92/2.11	(step @p2221 :rule eq_resolve :premises (@p185 @p2220))
1.92/2.11	(step @p2222 :rule cong :premises (@p2221 @p2184) :args (@t2724))
1.92/2.11	(step @p2223 :rule refl :args (@t1250))
1.92/2.11	(step @p2224 :rule lambda-elim :args ((= @t2725 @t67)))
1.92/2.11	(step @p2225 :rule cong :premises (@p818 @p799 @p2224) :args (@t2726))
1.92/2.11	(step @p2226 :rule cong :premises (@p2225 @p2223) :args (@t2727))
1.92/2.11	(step @p2227 :rule cong :premises (@p2226) :args ((forall @t856 @t2727)))
1.92/2.11	(step @p2228 :rule refl :args ((tptp.subset @t854 @t672)))
1.92/2.11	(step @p2229 :rule refl :args ((tptp.dpsetconstr @t2 @t1 @t853)))
1.92/2.11	(step @p2230 :rule cong :premises (@p2116) :args (@t2725))
1.92/2.11	(step @p2231 :rule cong :premises (@p1162 @p1104 @p2230) :args (@t2726))
1.92/2.11	(step @p2232 :rule trans :premises (@p2231 @p2229))
1.92/2.11	(step @p2233 :rule cong :premises (@p2232 @p666) :args (@t2727))
1.92/2.11	(step @p2234 :rule trans :premises (@p2233 @p2228))
1.92/2.11	(step @p2235 :rule ho_cong :premises (@p1710 @p2232))
1.92/2.11	(step @p2236 :rule ho_cong :premises (@p2235 @p666))
1.92/2.11	(step @p2237 :rule cong :premises (@p2236 @p2234) :args ((= (_ (_ tptp.subset @t2726) @t1250) @t2727)))
1.92/2.11	(step @p2238 :rule symm :premises (@p2237))
1.92/2.11	(step @p2239 :rule refl :args (@t855))
1.92/2.11	(step @p2240 :rule eq_resolve :premises (@p2239 @p2238))
1.92/2.11	(step @p2241 :rule ho_cong :premises (@p1613 @p2230))
1.92/2.11	(step @p2242 :rule cong :premises (@p2241 @p2232) :args ((= (_ @t844 @t2725) @t2726)))
1.92/2.11	(step @p2243 :rule symm :premises (@p2242))
1.92/2.11	(step @p2244 :rule refl :args (@t854))
1.92/2.11	(step @p2245 :rule eq_resolve :premises (@p2244 @p2243))
1.92/2.11	(step @p2246 :rule cong :premises (@p2120) :args (@t853))
1.92/2.11	(step @p2247 :rule ho_cong :premises (@p1613 @p2246))
1.92/2.11	(step @p2248 :rule trans :premises (@p2247 @p2245))
1.92/2.11	(step @p2249 :rule ho_cong :premises (@p1710 @p2248))
1.92/2.11	(step @p2250 :rule ho_cong :premises (@p2249 @p679))
1.92/2.11	(step @p2251 :rule trans :premises (@p2250 @p2240))
1.92/2.11	(step @p2252 :rule cong :premises (@p2251) :args (@t857))
1.92/2.11	(step @p2253 :rule trans :premises (@p2252 @p2227))
1.92/2.11	(step @p2254 :rule beta-reduce :args ((= (_ @t2222 @t854) @t855)))
1.92/2.11	(step @p2255 :rule refl :args (@t854))
1.92/2.11	(step @p2256 :rule ho_cong :premises (@p802 @p2255))
1.92/2.11	(step @p2257 :rule trans :premises (@p2256 @p2254))
1.92/2.11	(step @p2258 :rule cong :premises (@p2257) :args (@t2728))
1.92/2.11	(step @p2259 :rule trans :premises (@p2258 @p2253))
1.92/2.11	(step @p2260 :rule refl :args (tptp.setOfPairsIsBReln))
1.92/2.11	(step @p2261 :rule cong :premises (@p2260 @p2259) :args ((= tptp.setOfPairsIsBReln @t2728)))
1.92/2.11	(step @p2262 :rule ho_cong :premises (@p820 @p2255))
1.92/2.11	(step @p2263 :rule cong :premises (@p2262) :args (@t860))
1.92/2.11	(step @p2264 :rule cong :premises (@p2260 @p2263) :args (@t861))
1.92/2.11	(step @p2265 :rule trans :premises (@p2264 @p2261))
1.92/2.11	(step @p2266 :rule eq_resolve :premises (@p184 @p2265))
1.92/2.11	(step @p2267 :rule cong :premises (@p2266 @p2222) :args (@t2729))
1.92/2.11	(step @p2268 :rule refl :args (tptp.dpsetconstrSub))
1.92/2.11	(step @p2269 :rule cong :premises (@p2268 @p2253) :args (@t858))
1.92/2.11	(step @p2270 :rule eq_resolve :premises (@p183 @p2269))
1.92/2.11	(step @p2271 :rule cong :premises (@p2270 @p2267) :args (@t2730))
1.92/2.11	(step @p2272 :rule aci_norm :args ((= @t2732 @t1406)))
1.92/2.11	(step @p2273 :rule cong :premises (@p2272) :args (@t2733))
1.92/2.11	(step @p2274 :rule quant-merge-prenex :args ((= (forall @t850 @t2735) @t2733)))
1.92/2.11	(step @p2275 :rule alpha_equiv :args (@t2736 (@list @t1402) @t2210))
1.92/2.11	(step @p2276 :rule nary_cong :premises (@p724 @p2275) :args (@t2737))
1.92/2.11	(step @p2277 :rule quant-miniscope-or :args ((= @t2735 @t2737)))
1.92/2.11	(step @p2278 :rule trans :premises (@p2277 @p2276))
1.92/2.11	(step @p2279 :rule symm :premises (@p2278))
1.92/2.11	(step @p2280 :rule cong :premises (@p2279) :args ((forall @t850 (or @t1241 @t2738))))
1.92/2.11	(step @p2281 :rule trans :premises (@p2280 @p2274))
1.92/2.11	(step @p2282 :rule trans :premises (@p2281 @p2273))
1.92/2.11	(step @p2283 :rule refl :args (@t2738))
1.92/2.11	(step @p2284 :rule nary_cong :premises (@p738 @p2283) :args (@t2739))
1.92/2.11	(step @p2285 :rule cong :premises (@p2284) :args ((forall @t850 @t2739)))
1.92/2.11	(step @p2286 :rule trans :premises (@p2285 @p2282))
1.92/2.11	(step @p2287 :rule bool-impl-elim :args (@t7 @t2738))
1.92/2.11	(step @p2288 :rule cong :premises (@p2287) :args ((forall @t850 (=> @t7 @t2738))))
1.92/2.11	(step @p2289 :rule trans :premises (@p2288 @p2286))
1.92/2.11	(step @p2290 :rule refl :args (@t1970))
1.92/2.11	(step @p2291 :rule nary_cong :premises (@p2203 @p2290 @p2112) :args (@t2740))
1.92/2.11	(step @p2292 :rule cong :premises (@p2291) :args ((forall @t70 @t2740)))
1.92/2.11	(step @p2293 :rule cong :premises (@p2120) :args (@t2741))
1.92/2.11	(step @p2294 :rule nary_cong :premises (@p779 @p2293 @p2147) :args (@t2742))
1.92/2.11	(step @p2295 :rule cong :premises (@p2294) :args ((forall @t70 @t2742)))
1.92/2.11	(step @p2296 :rule trans :premises (@p2295 @p2292))
1.92/2.11	(step @p2297 :rule aci_norm :args ((= (or @t2220 (or @t2741 @t846)) @t2742)))
1.92/2.11	(step @p2298 :rule bool-impl-elim :args (@t76 @t846))
1.92/2.11	(step @p2299 :rule nary_cong :premises (@p784 @p2298) :args ((or @t2220 @t847)))
1.92/2.11	(step @p2300 :rule trans :premises (@p2299 @p2297))
1.92/2.11	(step @p2301 :rule bool-impl-elim :args (@t352 @t847))
1.92/2.11	(step @p2302 :rule trans :premises (@p2301 @p2300))
1.92/2.11	(step @p2303 :rule cong :premises (@p2302) :args (@t848))
1.92/2.11	(step @p2304 :rule trans :premises (@p2303 @p2296))
1.92/2.11	(step @p2305 :rule cong :premises (@p791 @p2304) :args (@t849))
1.92/2.11	(step @p2306 :rule cong :premises (@p2305) :args (@t851))
1.92/2.11	(step @p2307 :rule trans :premises (@p2306 @p2289))
1.92/2.11	(step @p2308 :rule refl :args (tptp.dpsetconstrI))
1.92/2.11	(step @p2309 :rule cong :premises (@p2308 @p2307) :args (@t852))
1.92/2.11	(step @p2310 :rule eq_resolve :premises (@p182 @p2309))
1.92/2.11	(step @p2311 :rule cong :premises (@p2310 @p2271) :args (@t2743))
1.92/2.11	(step @p2312 :rule refl :args ((tptp.kpair @t764 @t810)))
1.92/2.11	(step @p2313 :rule refl :args (@t1408))
1.92/2.11	(step @p2314 :rule refl :args (@t1409))
1.92/2.11	(step @p2315 :rule cong :premises (@p2314 @p2313) :args (@t1410))
1.92/2.11	(step @p2316 :rule trans :premises (@p2315 @p2312))
1.92/2.11	(step @p2317 :rule refl :args (tptp.kpair))
1.92/2.11	(step @p2318 :rule ho_cong :premises (@p2317 @p2314))
1.92/2.11	(step @p2319 :rule ho_cong :premises (@p2318 @p2313))
1.92/2.11	(step @p2320 :rule cong :premises (@p2319 @p2316) :args ((= (_ @t2744 @t1408) @t1410)))
1.92/2.11	(step @p2321 :rule symm :premises (@p2320))
1.92/2.11	(step @p2322 :rule refl :args (@t811))
1.92/2.11	(step @p2323 :rule eq_resolve :premises (@p2322 @p2321))
1.92/2.11	(step @p2324 :rule refl :args (@t810))
1.92/2.11	(step @p2325 :rule cong :premises (@p2324 @p2313) :args ((= @t810 @t1408)))
1.92/2.11	(step @p2326 :rule symm :premises (@p2325))
1.92/2.11	(step @p2327 :rule eq_resolve :premises (@p2324 @p2326))
1.92/2.11	(step @p2328 :rule refl :args (@t764))
1.92/2.11	(step @p2329 :rule cong :premises (@p2328 @p2314) :args ((= @t764 @t1409)))
1.92/2.11	(step @p2330 :rule symm :premises (@p2329))
1.92/2.11	(step @p2331 :rule eq_resolve :premises (@p2328 @p2330))
1.92/2.11	(step @p2332 :rule ho_cong :premises (@p2317 @p2331))
1.92/2.11	(step @p2333 :rule ho_cong :premises (@p2332 @p2327))
1.92/2.11	(step @p2334 :rule trans :premises (@p2333 @p2323))
1.92/2.11	(step @p2335 :rule refl :args (@t381))
1.92/2.11	(step @p2336 :rule cong :premises (@p2335 @p2334) :args (@t2745))
1.92/2.11	(step @p2337 :rule refl :args ((tptp.in @t381 @t672)))
1.92/2.11	(step @p2338 :rule cong :premises (@p2335 @p666) :args (@t1412))
1.92/2.11	(step @p2339 :rule trans :premises (@p2338 @p2337))
1.92/2.11	(step @p2340 :rule refl :args (@t683))
1.92/2.11	(step @p2341 :rule ho_cong :premises (@p2340 @p666))
1.92/2.11	(step @p2342 :rule cong :premises (@p2341 @p2339) :args ((= (_ @t683 @t1250) @t1412)))
1.92/2.11	(step @p2343 :rule symm :premises (@p2342))
1.92/2.11	(step @p2344 :rule refl :args (@t684))
1.92/2.11	(step @p2345 :rule eq_resolve :premises (@p2344 @p2343))
1.92/2.11	(step @p2346 :rule ho_cong :premises (@p2340 @p679))
1.92/2.11	(step @p2347 :rule trans :premises (@p2346 @p2345))
1.92/2.11	(step @p2348 :rule cong :premises (@p2347) :args (@t2746))
1.92/2.11	(step @p2349 :rule nary_cong :premises (@p2348 @p2336) :args (@t2747))
1.92/2.11	(step @p2350 :rule cong :premises (@p2349) :args ((forall @t686 @t2747)))
1.92/2.11	(step @p2351 :rule bool-impl-elim :args (@t684 @t2745))
1.92/2.11	(step @p2352 :rule cong :premises (@p2351) :args ((forall @t686 (=> @t684 @t2745))))
1.92/2.11	(step @p2353 :rule trans :premises (@p2352 @p2350))
1.92/2.11	(step @p2354 :rule eq-symm :args (@t811 @t381))
1.92/2.11	(step @p2355 :rule refl :args (@t684))
1.92/2.11	(step @p2356 :rule cong :premises (@p2355 @p2354) :args (@t839))
1.92/2.11	(step @p2357 :rule cong :premises (@p2356) :args (@t840))
1.92/2.11	(step @p2358 :rule trans :premises (@p2357 @p2353))
1.92/2.11	(step @p2359 :rule refl :args (tptp.cartprodpairsurjEq))
1.92/2.11	(step @p2360 :rule cong :premises (@p2359 @p2358) :args (@t841))
1.92/2.11	(step @p2361 :rule eq_resolve :premises (@p181 @p2360))
1.92/2.11	(step @p2362 :rule cong :premises (@p2361 @p2311) :args (@t2748))
1.92/2.11	(step @p2363 :rule aci_norm :args ((= @t2750 @t1417)))
1.92/2.11	(step @p2364 :rule cong :premises (@p2363) :args (@t2751))
1.92/2.11	(step @p2365 :rule quant-merge-prenex :args ((= (forall @t245 @t2753) @t2751)))
1.92/2.11	(step @p2366 :rule alpha_equiv :args (@t2754 (@list @t1414) @t2210))
1.92/2.11	(step @p2367 :rule nary_cong :premises (@p724 @p2366) :args (@t2755))
1.92/2.11	(step @p2368 :rule quant-miniscope-or :args ((= @t2753 @t2755)))
1.92/2.11	(step @p2369 :rule trans :premises (@p2368 @p2367))
1.92/2.11	(step @p2370 :rule symm :premises (@p2369))
1.92/2.11	(step @p2371 :rule cong :premises (@p2370) :args ((forall @t245 (or @t1241 @t2756))))
1.92/2.11	(step @p2372 :rule trans :premises (@p2371 @p2365))
1.92/2.11	(step @p2373 :rule trans :premises (@p2372 @p2364))
1.92/2.11	(step @p2374 :rule refl :args (@t2756))
1.92/2.11	(step @p2375 :rule nary_cong :premises (@p738 @p2374) :args (@t2757))
1.92/2.11	(step @p2376 :rule cong :premises (@p2375) :args ((forall @t245 @t2757)))
1.92/2.11	(step @p2377 :rule trans :premises (@p2376 @p2373))
1.92/2.11	(step @p2378 :rule bool-impl-elim :args (@t7 @t2756))
1.92/2.11	(step @p2379 :rule cong :premises (@p2378) :args ((forall @t245 (=> @t7 @t2756))))
1.92/2.11	(step @p2380 :rule trans :premises (@p2379 @p2377))
1.92/2.11	(step @p2381 :rule refl :args ((tptp.ksnd @t630)))
1.92/2.11	(step @p2382 :rule cong :premises (@p746) :args (@t1434))
1.92/2.11	(step @p2383 :rule trans :premises (@p2382 @p2381))
1.92/2.11	(step @p2384 :rule refl :args (tptp.ksnd))
1.92/2.11	(step @p2385 :rule ho_cong :premises (@p2384 @p746))
1.92/2.11	(step @p2386 :rule cong :premises (@p2385 @p2383) :args ((= (_ tptp.ksnd @t1283) @t1434)))
1.92/2.11	(step @p2387 :rule symm :premises (@p2386))
1.92/2.11	(step @p2388 :rule refl :args (@t806))
1.92/2.11	(step @p2389 :rule eq_resolve :premises (@p2388 @p2387))
1.92/2.11	(step @p2390 :rule ho_cong :premises (@p2384 @p759))
1.92/2.11	(step @p2391 :rule trans :premises (@p2390 @p2389))
1.92/2.11	(step @p2392 :rule cong :premises (@p904 @p2391) :args (@t2758))
1.92/2.11	(step @p2393 :rule nary_cong :premises (@p779 @p2392) :args (@t2759))
1.92/2.11	(step @p2394 :rule cong :premises (@p2393) :args ((forall @t70 @t2759)))
1.92/2.11	(step @p2395 :rule bool-impl-elim :args (@t352 @t2758))
1.92/2.11	(step @p2396 :rule cong :premises (@p2395) :args ((forall @t70 (=> @t352 @t2758))))
1.92/2.11	(step @p2397 :rule trans :premises (@p2396 @p2394))
1.92/2.11	(step @p2398 :rule eq-symm :args (@t806 @t19))
1.92/2.11	(step @p2399 :rule cong :premises (@p930 @p2398) :args (@t834))
1.92/2.11	(step @p2400 :rule cong :premises (@p2399) :args (@t835))
1.92/2.11	(step @p2401 :rule trans :premises (@p2400 @p2397))
1.92/2.11	(step @p2402 :rule cong :premises (@p791 @p2401) :args (@t836))
1.92/2.11	(step @p2403 :rule cong :premises (@p2402) :args (@t837))
1.92/2.11	(step @p2404 :rule trans :premises (@p2403 @p2380))
1.92/2.11	(step @p2405 :rule refl :args (tptp.cartprodsndpairEq))
1.92/2.11	(step @p2406 :rule cong :premises (@p2405 @p2404) :args (@t838))
1.92/2.11	(step @p2407 :rule eq_resolve :premises (@p180 @p2406))
1.92/2.11	(step @p2408 :rule cong :premises (@p2407 @p2362) :args (@t2760))
1.92/2.11	(step @p2409 :rule aci_norm :args ((= @t2762 @t1422)))
1.92/2.11	(step @p2410 :rule cong :premises (@p2409) :args (@t2763))
1.92/2.11	(step @p2411 :rule quant-merge-prenex :args ((= (forall @t245 @t2765) @t2763)))
1.92/2.11	(step @p2412 :rule alpha_equiv :args (@t2766 (@list @t1419) @t2210))
1.92/2.11	(step @p2413 :rule nary_cong :premises (@p724 @p2412) :args (@t2767))
1.92/2.11	(step @p2414 :rule quant-miniscope-or :args ((= @t2765 @t2767)))
1.92/2.11	(step @p2415 :rule trans :premises (@p2414 @p2413))
1.92/2.11	(step @p2416 :rule symm :premises (@p2415))
1.92/2.11	(step @p2417 :rule cong :premises (@p2416) :args ((forall @t245 (or @t1241 @t2768))))
1.92/2.11	(step @p2418 :rule trans :premises (@p2417 @p2411))
1.92/2.11	(step @p2419 :rule trans :premises (@p2418 @p2410))
1.92/2.11	(step @p2420 :rule refl :args (@t2768))
1.92/2.11	(step @p2421 :rule nary_cong :premises (@p738 @p2420) :args (@t2769))
1.92/2.11	(step @p2422 :rule cong :premises (@p2421) :args ((forall @t245 @t2769)))
1.92/2.11	(step @p2423 :rule trans :premises (@p2422 @p2419))
1.92/2.11	(step @p2424 :rule bool-impl-elim :args (@t7 @t2768))
1.92/2.11	(step @p2425 :rule cong :premises (@p2424) :args ((forall @t245 (=> @t7 @t2768))))
1.92/2.11	(step @p2426 :rule trans :premises (@p2425 @p2423))
1.92/2.11	(step @p2427 :rule refl :args ((tptp.kfst @t630)))
1.92/2.11	(step @p2428 :rule cong :premises (@p746) :args (@t1475))
1.92/2.11	(step @p2429 :rule trans :premises (@p2428 @p2427))
1.92/2.11	(step @p2430 :rule refl :args (tptp.kfst))
1.92/2.11	(step @p2431 :rule ho_cong :premises (@p2430 @p746))
1.92/2.11	(step @p2432 :rule cong :premises (@p2431 @p2429) :args ((= (_ tptp.kfst @t1283) @t1475)))
1.92/2.11	(step @p2433 :rule symm :premises (@p2432))
1.92/2.11	(step @p2434 :rule refl :args (@t760))
1.92/2.11	(step @p2435 :rule eq_resolve :premises (@p2434 @p2433))
1.92/2.11	(step @p2436 :rule ho_cong :premises (@p2430 @p759))
1.92/2.11	(step @p2437 :rule trans :premises (@p2436 @p2435))
1.92/2.11	(step @p2438 :rule cong :premises (@p1183 @p2437) :args (@t2770))
1.92/2.11	(step @p2439 :rule nary_cong :premises (@p779 @p2438) :args (@t2771))
1.92/2.11	(step @p2440 :rule cong :premises (@p2439) :args ((forall @t70 @t2771)))
1.92/2.11	(step @p2441 :rule bool-impl-elim :args (@t352 @t2770))
1.92/2.11	(step @p2442 :rule cong :premises (@p2441) :args ((forall @t70 (=> @t352 @t2770))))
1.92/2.11	(step @p2443 :rule trans :premises (@p2442 @p2440))
1.92/2.11	(step @p2444 :rule eq-symm :args (@t760 @t4))
1.92/2.11	(step @p2445 :rule cong :premises (@p930 @p2444) :args (@t829))
1.92/2.11	(step @p2446 :rule cong :premises (@p2445) :args (@t830))
1.92/2.11	(step @p2447 :rule trans :premises (@p2446 @p2443))
1.92/2.11	(step @p2448 :rule cong :premises (@p791 @p2447) :args (@t831))
1.92/2.11	(step @p2449 :rule cong :premises (@p2448) :args (@t832))
1.92/2.11	(step @p2450 :rule trans :premises (@p2449 @p2426))
1.92/2.11	(step @p2451 :rule refl :args (tptp.cartprodfstpairEq))
1.92/2.11	(step @p2452 :rule cong :premises (@p2451 @p2450) :args (@t833))
1.92/2.11	(step @p2453 :rule eq_resolve :premises (@p179 @p2452))
1.92/2.11	(step @p2454 :rule cong :premises (@p2453 @p2408) :args (@t2772))
1.92/2.11	(step @p2455 :rule bool-eq-true :args (tptp.cartprodmempaircEq))
1.92/2.11	(step @p2456 :rule symm :premises (@p2455))
1.92/2.11	(step @p2457 :rule quant-unused-vars :args ((= (forall @t245 true) true)))
1.92/2.11	(step @p2458 :rule bool-impl-true1 :args (@t7))
1.92/2.11	(step @p2459 :rule quant-unused-vars :args ((= (forall @t70 true) true)))
1.92/2.11	(step @p2460 :rule bool-impl-true1 :args (@t352))
1.92/2.11	(step @p2461 :rule eq-refl :args (@t630))
1.92/2.11	(step @p2462 :rule cong :premises (@p930 @p2461) :args (@t824))
1.92/2.11	(step @p2463 :rule trans :premises (@p2462 @p2460))
1.92/2.11	(step @p2464 :rule cong :premises (@p2463) :args (@t825))
1.92/2.11	(step @p2465 :rule trans :premises (@p2464 @p2459))
1.92/2.11	(step @p2466 :rule cong :premises (@p791 @p2465) :args (@t826))
1.92/2.11	(step @p2467 :rule trans :premises (@p2466 @p2458))
1.92/2.11	(step @p2468 :rule cong :premises (@p2467) :args (@t827))
1.92/2.11	(step @p2469 :rule trans :premises (@p2468 @p2457))
1.92/2.11	(step @p2470 :rule refl :args (tptp.cartprodmempaircEq))
1.92/2.11	(step @p2471 :rule cong :premises (@p2470 @p2469) :args (@t828))
1.92/2.11	(step @p2472 :rule trans :premises (@p2471 @p2455))
1.92/2.11	(step @p2473 :rule eq_resolve :premises (@p178 @p2472))
1.92/2.11	(step @p2474 :rule eq_resolve :premises (@p2473 @p2456))
1.92/2.11	(step @p2475 :rule cong :premises (@p2474 @p2454) :args (@t2773))
1.92/2.11	(step @p2476 :rule refl :args ((tptp.in @t630 @t672)))
1.92/2.11	(step @p2477 :rule cong :premises (@p746 @p666) :args (@t1425))
1.92/2.11	(step @p2478 :rule trans :premises (@p2477 @p2476))
1.92/2.11	(step @p2479 :rule ho_cong :premises (@p750 @p666))
1.92/2.11	(step @p2480 :rule cong :premises (@p2479 @p2478) :args ((= (_ @t2218 @t1250) @t1425)))
1.92/2.11	(step @p2481 :rule symm :premises (@p2480))
1.92/2.11	(step @p2482 :rule refl :args (@t673))
1.92/2.11	(step @p2483 :rule eq_resolve :premises (@p2482 @p2481))
1.92/2.11	(step @p2484 :rule ho_cong :premises (@p760 @p679))
1.92/2.11	(step @p2485 :rule trans :premises (@p2484 @p2483))
1.92/2.11	(step @p2486 :rule cong :premises (@p2485) :args (@t2774))
1.92/2.11	(step @p2487 :rule nary_cong :premises (@p2486 @p778) :args (@t2775))
1.92/2.11	(step @p2488 :rule cong :premises (@p2487) :args ((forall @t819 @t2775)))
1.92/2.11	(step @p2489 :rule bool-impl-elim :args (@t673 @t352))
1.92/2.11	(step @p2490 :rule cong :premises (@p2489) :args (@t822))
1.92/2.11	(step @p2491 :rule trans :premises (@p2490 @p2488))
1.92/2.11	(step @p2492 :rule refl :args (tptp.cartprodpairmemER))
1.92/2.11	(step @p2493 :rule cong :premises (@p2492 @p2491) :args (@t823))
1.92/2.11	(step @p2494 :rule eq_resolve :premises (@p177 @p2493))
1.92/2.11	(step @p2495 :rule cong :premises (@p2494 @p2475) :args (@t2776))
1.92/2.11	(step @p2496 :rule nary_cong :premises (@p2486 @p737) :args (@t2777))
1.92/2.11	(step @p2497 :rule cong :premises (@p2496) :args ((forall @t819 @t2777)))
1.92/2.11	(step @p2498 :rule bool-impl-elim :args (@t673 @t7))
1.92/2.11	(step @p2499 :rule cong :premises (@p2498) :args (@t820))
1.92/2.11	(step @p2500 :rule trans :premises (@p2499 @p2497))
1.92/2.11	(step @p2501 :rule refl :args (tptp.cartprodpairmemEL))
1.92/2.11	(step @p2502 :rule cong :premises (@p2501 @p2500) :args (@t821))
1.92/2.11	(step @p2503 :rule eq_resolve :premises (@p176 @p2502))
1.92/2.11	(step @p2504 :rule cong :premises (@p2503 @p2495) :args (@t2778))
1.92/2.11	(step @p2505 :rule refl :args ((tptp.in @t810 @t1)))
1.92/2.11	(step @p2506 :rule cong :premises (@p2313 @p1104) :args (@t1429))
1.92/2.11	(step @p2507 :rule trans :premises (@p2506 @p2505))
1.92/2.11	(step @p2508 :rule ho_cong :premises (@p749 @p2313))
1.92/2.12	(step @p2509 :rule ho_cong :premises (@p2508 @p1104))
1.92/2.12	(step @p2510 :rule cong :premises (@p2509 @p2507) :args ((= (_ (_ tptp.in @t1408) @t1) @t1429)))
1.92/2.12	(step @p2511 :rule symm :premises (@p2510))
1.92/2.12	(step @p2512 :rule refl :args (@t816))
1.92/2.12	(step @p2513 :rule eq_resolve :premises (@p2512 @p2511))
1.92/2.12	(step @p2514 :rule ho_cong :premises (@p749 @p2327))
1.92/2.12	(step @p2515 :rule ho_cong :premises (@p2514 @p1104))
1.92/2.12	(step @p2516 :rule trans :premises (@p2515 @p2513))
1.92/2.12	(step @p2517 :rule nary_cong :premises (@p2348 @p2516) :args (@t2779))
1.92/2.12	(step @p2518 :rule cong :premises (@p2517) :args ((forall @t686 @t2779)))
1.92/2.12	(step @p2519 :rule bool-impl-elim :args (@t684 @t816))
1.92/2.12	(step @p2520 :rule cong :premises (@p2519) :args (@t817))
1.92/2.12	(step @p2521 :rule trans :premises (@p2520 @p2518))
1.92/2.12	(step @p2522 :rule refl :args (tptp.cartprodsndin))
1.92/2.12	(step @p2523 :rule cong :premises (@p2522 @p2521) :args (@t818))
1.92/2.12	(step @p2524 :rule eq_resolve :premises (@p175 @p2523))
1.92/2.12	(step @p2525 :rule cong :premises (@p2524 @p2504) :args (@t2780))
1.92/2.12	(step @p2526 :rule refl :args (@t1431))
1.92/2.12	(step @p2527 :rule refl :args (@t689))
1.92/2.12	(step @p2528 :rule cong :premises (@p2527 @p2526) :args ((= @t689 @t1431)))
1.92/2.12	(step @p2529 :rule symm :premises (@p2528))
1.92/2.12	(step @p2530 :rule eq_resolve :premises (@p2527 @p2529))
1.92/2.12	(step @p2531 :rule cong :premises (@p2530) :args (@t2781))
1.92/2.12	(step @p2532 :rule nary_cong :premises (@p2531 @p2336) :args (@t2782))
1.92/2.12	(step @p2533 :rule cong :premises (@p2532) :args ((forall @t752 @t2782)))
1.92/2.12	(step @p2534 :rule bool-impl-elim :args (@t689 @t2745))
1.92/2.12	(step @p2535 :rule cong :premises (@p2534) :args ((forall @t752 (=> @t689 @t2745))))
1.92/2.12	(step @p2536 :rule trans :premises (@p2535 @p2533))
1.92/2.12	(step @p2537 :rule refl :args (@t689))
1.92/2.12	(step @p2538 :rule cong :premises (@p2537 @p2354) :args (@t813))
1.92/2.12	(step @p2539 :rule cong :premises (@p2538) :args (@t814))
1.92/2.12	(step @p2540 :rule trans :premises (@p2539 @p2536))
1.92/2.12	(step @p2541 :rule refl :args (tptp.kpairsurjEq))
1.92/2.12	(step @p2542 :rule cong :premises (@p2541 @p2540) :args (@t815))
1.92/2.12	(step @p2543 :rule eq_resolve :premises (@p174 @p2542))
1.92/2.12	(step @p2544 :rule cong :premises (@p2543 @p2525) :args (@t2783))
1.92/2.12	(step @p2545 :rule cong :premises (@p2392) :args ((forall @t135 @t2758)))
1.92/2.12	(step @p2546 :rule cong :premises (@p2398) :args (@t808))
1.92/2.12	(step @p2547 :rule trans :premises (@p2546 @p2545))
1.92/2.12	(step @p2548 :rule refl :args (tptp.ksndpairEq))
1.92/2.12	(step @p2549 :rule cong :premises (@p2548 @p2547) :args (@t809))
1.92/2.12	(step @p2550 :rule eq_resolve :premises (@p173 @p2549))
1.92/2.12	(step @p2551 :rule cong :premises (@p2550 @p2544) :args (@t2784))
1.92/2.12	(step @p2552 :rule refl :args (@t1445))
1.92/2.12	(step @p2553 :rule nary_cong :premises (@p2531 @p2552) :args (@t2785))
1.92/2.12	(step @p2554 :rule cong :premises (@p2553) :args ((forall @t752 @t2785)))
1.92/2.12	(step @p2555 :rule bool-impl-elim :args (@t689 @t1445))
1.92/2.12	(step @p2556 :rule cong :premises (@p2555) :args ((forall @t752 (=> @t689 @t1445))))
1.92/2.12	(step @p2557 :rule trans :premises (@p2556 @p2554))
1.92/2.12	(step @p2558 :rule refl :args ((tptp.dsetconstr @t748 @t2786)))
1.92/2.12	(step @p2559 :rule refl :args ((tptp.kpair @t764 @t1437)))
1.92/2.12	(step @p2560 :rule refl :args (@t1437))
1.92/2.12	(step @p2561 :rule cong :premises (@p2314 @p2560) :args (@t1438))
1.92/2.12	(step @p2562 :rule trans :premises (@p2561 @p2559))
1.92/2.12	(step @p2563 :rule cong :premises (@p2335 @p2562) :args (@t1439))
1.92/2.12	(step @p2564 :rule cong :premises (@p2563) :args (@t1441))
1.92/2.12	(step @p2565 :rule refl :args (@t1442))
1.92/2.12	(step @p2566 :rule cong :premises (@p2565 @p2564) :args (@t1443))
1.92/2.12	(step @p2567 :rule trans :premises (@p2566 @p2558))
1.92/2.12	(step @p2568 :rule refl :args (tptp.dsetconstr))
1.92/2.12	(step @p2569 :rule ho_cong :premises (@p2568 @p2565))
1.92/2.12	(step @p2570 :rule ho_cong :premises (@p2569 @p2564))
1.92/2.12	(step @p2571 :rule cong :premises (@p2570 @p2567) :args ((= (_ @t2787 @t1441) @t1443)))
1.92/2.12	(step @p2572 :rule symm :premises (@p2571))
1.92/2.12	(step @p2573 :rule refl :args ((_ @t749 @t2786)))
1.92/2.12	(step @p2574 :rule eq_resolve :premises (@p2573 @p2572))
1.92/2.12	(step @p2575 :rule alpha_equiv :args ((lambda @t9 (= @t381 @t2788)) @t2362 (@list @t1437)))
1.92/2.12	(step @p2576 :rule refl :args ((tptp.kpair @t764 @t4)))
1.92/2.12	(step @p2577 :rule cong :premises (@p2314 @p1183) :args (@t2788))
1.92/2.12	(step @p2578 :rule trans :premises (@p2577 @p2576))
1.92/2.12	(step @p2579 :rule ho_cong :premises (@p2318 @p1183))
1.92/2.12	(step @p2580 :rule cong :premises (@p2579 @p2578) :args ((= (_ @t2744 @t4) @t2788)))
1.92/2.12	(step @p2581 :rule symm :premises (@p2580))
1.92/2.12	(step @p2582 :rule refl :args (@t799))
1.92/2.12	(step @p2583 :rule eq_resolve :premises (@p2582 @p2581))
1.92/2.12	(step @p2584 :rule ho_cong :premises (@p2332 @p1183))
1.92/2.12	(step @p2585 :rule trans :premises (@p2584 @p2583))
1.92/2.12	(step @p2586 :rule cong :premises (@p2335 @p2585) :args (@t800))
1.92/2.12	(step @p2587 :rule cong :premises (@p2586) :args (@t801))
1.92/2.12	(step @p2588 :rule trans :premises (@p2587 @p2575))
1.92/2.12	(step @p2589 :rule refl :args (@t748))
1.92/2.12	(step @p2590 :rule cong :premises (@p2589 @p2565) :args ((= @t748 @t1442)))
1.92/2.12	(step @p2591 :rule symm :premises (@p2590))
1.92/2.12	(step @p2592 :rule eq_resolve :premises (@p2589 @p2591))
1.92/2.12	(step @p2593 :rule ho_cong :premises (@p2568 @p2592))
1.92/2.12	(step @p2594 :rule ho_cong :premises (@p2593 @p2588))
1.92/2.12	(step @p2595 :rule trans :premises (@p2594 @p2574))
1.92/2.12	(step @p2596 :rule cong :premises (@p1158 @p2595) :args (@t2789))
1.92/2.12	(step @p2597 :rule cong :premises (@p2596) :args (@t2790))
1.92/2.12	(step @p2598 :rule cong :premises (@p1183 @p2595) :args (@t2791))
1.92/2.12	(step @p2599 :rule cong :premises (@p2598) :args (@t2792))
1.92/2.12	(step @p2600 :rule nary_cong :premises (@p2599 @p2597) :args (@t2793))
1.92/2.12	(step @p2601 :rule cong :premises (@p2600) :args ((forall @t9 @t2793)))
1.92/2.12	(step @p2602 :rule eq-symm :args (@t802 @t1444))
1.92/2.12	(step @p2603 :rule cong :premises (@p2602) :args (@t2794))
1.92/2.12	(step @p2604 :rule refl :args (@t2792))
1.92/2.12	(step @p2605 :rule nary_cong :premises (@p2604 @p2603) :args (@t2795))
1.92/2.12	(step @p2606 :rule cong :premises (@p2605) :args (@t2796))
1.92/2.12	(step @p2607 :rule trans :premises (@p2606 @p2601))
1.92/2.12	(step @p2608 :rule cong :premises (@p2607) :args (@t2797))
1.92/2.12	(step @p2609 :rule beta-reduce :args ((= @t2798 @t2797)))
1.92/2.12	(step @p2610 :rule trans :premises (@p2609 @p2608))
1.92/2.12	(step @p2611 :rule cong :premises (@p2537 @p2610) :args (@t2799))
1.92/2.12	(step @p2612 :rule cong :premises (@p2611) :args (@t2800))
1.92/2.12	(step @p2613 :rule trans :premises (@p2612 @p2557))
1.92/2.12	(step @p2614 :rule refl :args (tptp.ksndsingleton))
1.92/2.12	(step @p2615 :rule cong :premises (@p2614 @p2613) :args ((= tptp.ksndsingleton @t2800)))
1.92/2.12	(step @p2616 :rule refl :args (@t802))
1.92/2.12	(step @p2617 :rule ho_cong :premises (@p1209 @p2616))
1.92/2.12	(step @p2618 :rule cong :premises (@p2537 @p2617) :args (@t803))
1.92/2.12	(step @p2619 :rule cong :premises (@p2618) :args (@t804))
1.92/2.12	(step @p2620 :rule cong :premises (@p2614 @p2619) :args (@t805))
1.92/2.12	(step @p2621 :rule trans :premises (@p2620 @p2615))
1.92/2.12	(step @p2622 :rule eq_resolve :premises (@p172 @p2621))
1.92/2.12	(step @p2623 :rule cong :premises (@p2622 @p2551) :args (@t2801))
1.92/2.12	(step @p2624 :rule refl :args (@t787))
1.92/2.12	(step @p2625 :rule refl :args (@t1447))
1.92/2.12	(step @p2626 :rule refl :args (@t776))
1.92/2.12	(step @p2627 :rule cong :premises (@p2626 @p2625) :args ((= @t776 @t1447)))
1.92/2.12	(step @p2628 :rule symm :premises (@p2627))
1.92/2.12	(step @p2629 :rule eq_resolve :premises (@p2626 @p2628))
1.92/2.12	(step @p2630 :rule cong :premises (@p759 @p2629) :args (@t777))
1.92/2.12	(step @p2631 :rule cong :premises (@p2630) :args (@t2802))
1.92/2.12	(step @p2632 :rule nary_cong :premises (@p2631 @p2624) :args (@t2803))
1.92/2.12	(step @p2633 :rule cong :premises (@p2632) :args ((forall @t773 @t2803)))
1.92/2.12	(step @p2634 :rule bool-impl-elim :args (@t777 @t787))
1.92/2.12	(step @p2635 :rule cong :premises (@p2634) :args (@t796))
1.92/2.12	(step @p2636 :rule trans :premises (@p2635 @p2633))
1.92/2.12	(step @p2637 :rule refl :args (tptp.setukpairinjR))
1.92/2.12	(step @p2638 :rule cong :premises (@p2637 @p2636) :args (@t797))
1.92/2.12	(step @p2639 :rule eq_resolve :premises (@p171 @p2638))
1.92/2.12	(step @p2640 :rule cong :premises (@p2639 @p2623) :args (@t2804))
1.92/2.12	(step @p2641 :rule refl :args ((tptp.setadjoin @t742 @t770)))
1.92/2.12	(step @p2642 :rule refl :args ((tptp.setadjoin @t769 tptp.emptyset)))
1.92/2.12	(step @p2643 :rule refl :args ((tptp.setadjoin @t289 @t768)))
1.92/2.12	(step @p2644 :rule refl :args (@t1450))
1.92/2.12	(step @p2645 :rule refl :args (@t289))
1.92/2.12	(step @p2646 :rule cong :premises (@p2645 @p2644) :args (@t1451))
1.92/2.12	(step @p2647 :rule trans :premises (@p2646 @p2643))
1.92/2.12	(step @p2648 :rule cong :premises (@p2647 @p269) :args (@t1452))
1.92/2.12	(step @p2649 :rule trans :premises (@p2648 @p2642))
1.92/2.12	(step @p2650 :rule refl :args (@t1453))
1.92/2.12	(step @p2651 :rule cong :premises (@p2650 @p2649) :args (@t1454))
1.92/2.12	(step @p2652 :rule trans :premises (@p2651 @p2641))
1.92/2.12	(step @p2653 :rule refl :args (tptp.setadjoin))
1.92/2.12	(step @p2654 :rule ho_cong :premises (@p2653 @p2650))
1.92/2.12	(step @p2655 :rule ho_cong :premises (@p2654 @p2649))
1.92/2.12	(step @p2656 :rule cong :premises (@p2655 @p2652) :args ((= (_ (_ tptp.setadjoin @t1453) @t1452) @t1454)))
1.92/2.12	(step @p2657 :rule symm :premises (@p2656))
1.92/2.12	(step @p2658 :rule refl :args (@t771))
1.92/2.12	(step @p2659 :rule eq_resolve :premises (@p2658 @p2657))
1.92/2.12	(step @p2660 :rule ho_cong :premises (@p2653 @p2647))
1.92/2.12	(step @p2661 :rule ho_cong :premises (@p2660 @p269))
1.92/2.12	(step @p2662 :rule cong :premises (@p2661 @p2649) :args ((= (_ (_ tptp.setadjoin @t1451) tptp.emptyset) @t1452)))
1.92/2.12	(step @p2663 :rule symm :premises (@p2662))
1.92/2.12	(step @p2664 :rule refl :args (@t770))
1.92/2.12	(step @p2665 :rule eq_resolve :premises (@p2664 @p2663))
1.92/2.12	(step @p2666 :rule refl :args (@t741))
1.92/2.12	(step @p2667 :rule ho_cong :premises (@p2666 @p2644))
1.92/2.12	(step @p2668 :rule cong :premises (@p2667 @p2647) :args ((= (_ @t741 @t1450) @t1451)))
1.92/2.12	(step @p2669 :rule symm :premises (@p2668))
1.92/2.12	(step @p2670 :rule refl :args (@t769))
1.92/2.12	(step @p2671 :rule eq_resolve :premises (@p2670 @p2669))
1.92/2.12	(step @p2672 :rule refl :args (@t768))
1.92/2.12	(step @p2673 :rule cong :premises (@p2672 @p2644) :args ((= @t768 @t1450)))
1.92/2.12	(step @p2674 :rule symm :premises (@p2673))
1.92/2.12	(step @p2675 :rule eq_resolve :premises (@p2672 @p2674))
1.92/2.12	(step @p2676 :rule ho_cong :premises (@p2666 @p2675))
1.92/2.12	(step @p2677 :rule trans :premises (@p2676 @p2671))
1.92/2.12	(step @p2678 :rule ho_cong :premises (@p2653 @p2677))
1.92/2.12	(step @p2679 :rule ho_cong :premises (@p2678 @p269))
1.92/2.12	(step @p2680 :rule trans :premises (@p2679 @p2665))
1.92/2.12	(step @p2681 :rule refl :args (@t742))
1.92/2.12	(step @p2682 :rule cong :premises (@p2681 @p2650) :args ((= @t742 @t1453)))
1.92/2.12	(step @p2683 :rule symm :premises (@p2682))
1.92/2.12	(step @p2684 :rule eq_resolve :premises (@p2681 @p2683))
1.92/2.12	(step @p2685 :rule ho_cong :premises (@p2653 @p2684))
1.92/2.12	(step @p2686 :rule ho_cong :premises (@p2685 @p2680))
1.92/2.12	(step @p2687 :rule trans :premises (@p2686 @p2659))
1.92/2.12	(step @p2688 :rule refl :args ((tptp.setadjoin @t279 @t616)))
1.92/2.12	(step @p2689 :rule refl :args ((tptp.setadjoin @t291 tptp.emptyset)))
1.92/2.12	(step @p2690 :rule refl :args ((tptp.setadjoin @t4 @t275)))
1.92/2.12	(step @p2691 :rule refl :args (@t1455))
1.92/2.12	(step @p2692 :rule cong :premises (@p1183 @p2691) :args (@t1456))
1.92/2.12	(step @p2693 :rule trans :premises (@p2692 @p2690))
1.92/2.12	(step @p2694 :rule cong :premises (@p2693 @p269) :args (@t1457))
1.92/2.12	(step @p2695 :rule trans :premises (@p2694 @p2689))
1.92/2.12	(step @p2696 :rule cong :premises (@p1193 @p2695) :args (@t1458))
1.92/2.12	(step @p2697 :rule trans :premises (@p2696 @p2688))
1.92/2.12	(step @p2698 :rule ho_cong :premises (@p2653 @p1193))
1.92/2.12	(step @p2699 :rule ho_cong :premises (@p2698 @p2695))
1.92/2.12	(step @p2700 :rule cong :premises (@p2699 @p2697) :args ((= (_ @t2805 @t1457) @t1458)))
1.92/2.12	(step @p2701 :rule symm :premises (@p2700))
1.92/2.12	(step @p2702 :rule refl :args (@t618))
1.92/2.12	(step @p2703 :rule eq_resolve :premises (@p2702 @p2701))
1.92/2.12	(step @p2704 :rule ho_cong :premises (@p2653 @p2693))
1.92/2.12	(step @p2705 :rule ho_cong :premises (@p2704 @p269))
1.92/2.12	(step @p2706 :rule cong :premises (@p2705 @p2695) :args ((= (_ (_ tptp.setadjoin @t1456) tptp.emptyset) @t1457)))
1.92/2.12	(step @p2707 :rule symm :premises (@p2706))
1.92/2.12	(step @p2708 :rule refl :args (@t616))
1.92/2.12	(step @p2709 :rule eq_resolve :premises (@p2708 @p2707))
1.92/2.12	(step @p2710 :rule refl :args (@t24))
1.92/2.12	(step @p2711 :rule ho_cong :premises (@p2710 @p2691))
1.92/2.12	(step @p2712 :rule cong :premises (@p2711 @p2693) :args ((= (_ @t24 @t1455) @t1456)))
1.92/2.12	(step @p2713 :rule symm :premises (@p2712))
1.92/2.12	(step @p2714 :rule refl :args (@t291))
1.92/2.12	(step @p2715 :rule eq_resolve :premises (@p2714 @p2713))
1.92/2.12	(step @p2716 :rule refl :args (@t275))
1.92/2.12	(step @p2717 :rule cong :premises (@p2716 @p2691) :args ((= @t275 @t1455)))
1.92/2.12	(step @p2718 :rule symm :premises (@p2717))
1.92/2.12	(step @p2719 :rule eq_resolve :premises (@p2716 @p2718))
1.92/2.12	(step @p2720 :rule ho_cong :premises (@p2710 @p2719))
1.92/2.12	(step @p2721 :rule trans :premises (@p2720 @p2715))
1.92/2.12	(step @p2722 :rule ho_cong :premises (@p2653 @p2721))
1.92/2.12	(step @p2723 :rule ho_cong :premises (@p2722 @p269))
1.92/2.12	(step @p2724 :rule trans :premises (@p2723 @p2709))
1.92/2.12	(step @p2725 :rule ho_cong :premises (@p2653 @p1197))
1.92/2.12	(step @p2726 :rule ho_cong :premises (@p2725 @p2724))
1.92/2.12	(step @p2727 :rule trans :premises (@p2726 @p2703))
1.92/2.12	(step @p2728 :rule cong :premises (@p2727 @p2687) :args (@t772))
1.92/2.12	(step @p2729 :rule cong :premises (@p2728) :args (@t2806))
1.92/2.12	(step @p2730 :rule nary_cong :premises (@p2729 @p2624) :args (@t2807))
1.92/2.12	(step @p2731 :rule cong :premises (@p2730) :args ((forall @t773 @t2807)))
1.92/2.12	(step @p2732 :rule bool-impl-elim :args (@t772 @t787))
1.92/2.12	(step @p2733 :rule cong :premises (@p2732) :args (@t794))
1.92/2.12	(step @p2734 :rule trans :premises (@p2733 @p2731))
1.92/2.12	(step @p2735 :rule refl :args (tptp.setukpairinjR2))
1.92/2.12	(step @p2736 :rule cong :premises (@p2735 @p2734) :args (@t795))
1.92/2.12	(step @p2737 :rule eq_resolve :premises (@p170 @p2736))
1.92/2.12	(step @p2738 :rule cong :premises (@p2737 @p2640) :args (@t2808))
1.92/2.12	(step @p2739 :rule cong :premises (@p2721 @p2684) :args (@t791))
1.92/2.12	(step @p2740 :rule cong :premises (@p2739) :args (@t2809))
1.92/2.12	(step @p2741 :rule nary_cong :premises (@p2740 @p1412) :args (@t2810))
1.92/2.12	(step @p2742 :rule cong :premises (@p2741) :args ((forall @t295 @t2810)))
1.92/2.12	(step @p2743 :rule bool-impl-elim :args (@t791 @t129))
1.92/2.12	(step @p2744 :rule cong :premises (@p2743) :args (@t792))
1.92/2.12	(step @p2745 :rule trans :premises (@p2744 @p2742))
1.92/2.12	(step @p2746 :rule refl :args (tptp.upairequniteq))
1.92/2.12	(step @p2747 :rule cong :premises (@p2746 @p2745) :args (@t793))
1.92/2.12	(step @p2748 :rule eq_resolve :premises (@p169 @p2747))
1.92/2.12	(step @p2749 :rule cong :premises (@p2748 @p2738) :args (@t2811))
1.92/2.12	(step @p2750 :rule aci_norm :args ((= (or @t1462 false @t787) @t1463)))
1.92/2.12	(step @p2751 :rule refl :args (@t787))
1.92/2.12	(step @p2752 :rule evaluate :args (@t2812))
1.92/2.12	(step @p2753 :rule eq-refl :args (@t381))
1.92/2.12	(step @p2754 :rule cong :premises (@p2753) :args (@t2813))
1.92/2.12	(step @p2755 :rule trans :premises (@p2754 @p2752))
1.92/2.12	(step @p2756 :rule refl :args (@t1462))
1.92/2.12	(step @p2757 :rule nary_cong :premises (@p2756 @p2755 @p2751) :args (@t2814))
1.92/2.12	(step @p2758 :rule trans :premises (@p2757 @p2750))
1.92/2.12	(step @p2759 :rule cong :premises (@p2758) :args ((forall @t1464 @t2814)))
1.92/2.12	(step @p2760 :rule quant-var-elim-eq :args ((= (forall @t2817 @t2816) @t2814)))
1.92/2.12	(step @p2761 :rule aci_norm :args ((= @t2818 @t2816)))
1.92/2.12	(step @p2762 :rule cong :premises (@p2761) :args (@t2819))
1.92/2.12	(step @p2763 :rule trans :premises (@p2762 @p2760))
1.92/2.12	(step @p2764 :rule cong :premises (@p2763) :args (@t2820))
1.92/2.12	(step @p2765 :rule quant-merge-prenex :args ((= @t2820 @t2821)))
1.92/2.12	(step @p2766 :rule symm :premises (@p2765))
1.92/2.12	(step @p2767 :rule quant_var_reordering :args ((= (forall @t773 @t2818) @t2821)))
1.92/2.12	(step @p2768 :rule trans :premises (@p2767 @p2766 @p2764))
1.92/2.12	(step @p2769 :rule trans :premises (@p2768 @p2759))
1.92/2.12	(step @p2770 :rule refl :args (@t2815))
1.92/2.12	(step @p2771 :rule nary_cong :premises (@p2729 @p2770 @p2624) :args (@t2822))
1.92/2.12	(step @p2772 :rule cong :premises (@p2771) :args ((forall @t773 @t2822)))
1.92/2.12	(step @p2773 :rule trans :premises (@p2772 @p2769))
1.92/2.12	(step @p2774 :rule aci_norm :args ((= (or @t2806 (or @t2815 @t787)) @t2822)))
1.92/2.12	(step @p2775 :rule bool-impl-elim :args (@t385 @t787))
1.92/2.12	(step @p2776 :rule refl :args (@t2806))
1.92/2.12	(step @p2777 :rule nary_cong :premises (@p2776 @p2775) :args ((or @t2806 @t788)))
1.92/2.12	(step @p2778 :rule trans :premises (@p2777 @p2774))
1.92/2.12	(step @p2779 :rule bool-impl-elim :args (@t772 @t788))
1.92/2.12	(step @p2780 :rule trans :premises (@p2779 @p2778))
1.92/2.12	(step @p2781 :rule cong :premises (@p2780) :args (@t789))
1.92/2.12	(step @p2782 :rule trans :premises (@p2781 @p2773))
1.92/2.12	(step @p2783 :rule refl :args (tptp.setukpairinjR1))
1.92/2.12	(step @p2784 :rule cong :premises (@p2783 @p2782) :args (@t790))
1.92/2.12	(step @p2785 :rule eq_resolve :premises (@p168 @p2784))
1.92/2.12	(step @p2786 :rule cong :premises (@p2785 @p2749) :args (@t2823))
1.92/2.12	(step @p2787 :rule aci_norm :args ((= (or false @t1467) @t1467)))
1.92/2.12	(step @p2788 :rule refl :args (@t1467))
1.92/2.12	(step @p2789 :rule eq-refl :args (@t19))
1.92/2.12	(step @p2790 :rule cong :premises (@p2789) :args (@t2824))
1.92/2.12	(step @p2791 :rule trans :premises (@p2790 @p2752))
1.92/2.12	(step @p2792 :rule nary_cong :premises (@p2791 @p2788) :args (@t2825))
1.92/2.12	(step @p2793 :rule trans :premises (@p2792 @p2787))
1.92/2.12	(step @p2794 :rule cong :premises (@p2793) :args ((forall @t70 @t2825)))
1.92/2.12	(step @p2795 :rule quant-var-elim-eq :args ((= (forall @t9 @t2828) @t2825)))
1.92/2.12	(step @p2796 :rule aci_norm :args ((= @t2829 @t2828)))
1.92/2.12	(step @p2797 :rule cong :premises (@p2796) :args (@t2830))
1.92/2.12	(step @p2798 :rule trans :premises (@p2797 @p2795))
1.92/2.12	(step @p2799 :rule cong :premises (@p2798) :args (@t2831))
1.92/2.12	(step @p2800 :rule quant-merge-prenex :args ((= @t2831 @t2833)))
1.92/2.12	(step @p2801 :rule symm :premises (@p2800))
1.92/2.12	(step @p2802 :rule quant_var_reordering :args ((= (forall @t135 @t2829) @t2833)))
1.92/2.12	(step @p2803 :rule trans :premises (@p2802 @p2801 @p2799))
1.92/2.12	(step @p2804 :rule trans :premises (@p2803 @p2794))
1.92/2.12	(step @p2805 :rule refl :args ((tptp.setadjoin @t279 tptp.emptyset)))
1.92/2.12	(step @p2806 :rule cong :premises (@p1193 @p269) :args (@t2826))
1.92/2.12	(step @p2807 :rule trans :premises (@p2806 @p2805))
1.92/2.12	(step @p2808 :rule ho_cong :premises (@p2698 @p269))
1.92/2.12	(step @p2809 :rule cong :premises (@p2808 @p2807) :args ((= (_ @t2805 tptp.emptyset) @t2826)))
1.92/2.12	(step @p2810 :rule symm :premises (@p2809))
1.92/2.12	(step @p2811 :rule refl :args (@t783))
1.92/2.12	(step @p2812 :rule eq_resolve :premises (@p2811 @p2810))
1.92/2.12	(step @p2813 :rule ho_cong :premises (@p2725 @p269))
1.92/2.12	(step @p2814 :rule trans :premises (@p2813 @p2812))
1.92/2.12	(step @p2815 :rule cong :premises (@p2727 @p2814) :args (@t784))
1.92/2.12	(step @p2816 :rule refl :args (@t282))
1.92/2.12	(step @p2817 :rule nary_cong :premises (@p2816 @p2815) :args (@t2834))
1.92/2.12	(step @p2818 :rule cong :premises (@p2817) :args ((forall @t135 @t2834)))
1.92/2.12	(step @p2819 :rule trans :premises (@p2818 @p2804))
1.92/2.12	(step @p2820 :rule bool-impl-elim :args (@t129 @t784))
1.92/2.12	(step @p2821 :rule cong :premises (@p2820) :args (@t785))
1.92/2.12	(step @p2822 :rule trans :premises (@p2821 @p2819))
1.92/2.12	(step @p2823 :rule refl :args (tptp.setukpairinjR12))
1.92/2.12	(step @p2824 :rule cong :premises (@p2823 @p2822) :args (@t786))
1.92/2.12	(step @p2825 :rule eq_resolve :premises (@p167 @p2824))
1.92/2.12	(step @p2826 :rule cong :premises (@p2825 @p2786) :args (@t2835))
1.92/2.12	(step @p2827 :rule aci_norm :args ((= (or false @t1469) @t1469)))
1.92/2.12	(step @p2828 :rule refl :args (@t1469))
1.92/2.12	(step @p2829 :rule nary_cong :premises (@p2791 @p2828) :args (@t2836))
1.92/2.12	(step @p2830 :rule trans :premises (@p2829 @p2827))
1.92/2.12	(step @p2831 :rule cong :premises (@p2830) :args ((forall @t70 @t2836)))
1.92/2.12	(step @p2832 :rule quant-var-elim-eq :args ((= (forall @t9 @t2838) @t2836)))
1.92/2.12	(step @p2833 :rule aci_norm :args ((= @t2839 @t2838)))
1.92/2.12	(step @p2834 :rule cong :premises (@p2833) :args (@t2840))
1.92/2.12	(step @p2835 :rule trans :premises (@p2834 @p2832))
1.92/2.12	(step @p2836 :rule cong :premises (@p2835) :args (@t2841))
1.92/2.12	(step @p2837 :rule quant-merge-prenex :args ((= @t2841 @t2842)))
1.92/2.12	(step @p2838 :rule symm :premises (@p2837))
1.92/2.12	(step @p2839 :rule quant_var_reordering :args ((= (forall @t135 @t2839) @t2842)))
1.92/2.12	(step @p2840 :rule trans :premises (@p2839 @p2838 @p2836))
1.92/2.12	(step @p2841 :rule trans :premises (@p2840 @p2831))
1.92/2.12	(step @p2842 :rule cong :premises (@p1197 @p2721) :args (@t2843))
1.92/2.12	(step @p2843 :rule nary_cong :premises (@p2816 @p2842) :args (@t2844))
1.92/2.12	(step @p2844 :rule cong :premises (@p2843) :args ((forall @t135 @t2844)))
1.92/2.12	(step @p2845 :rule trans :premises (@p2844 @p2841))
1.92/2.12	(step @p2846 :rule bool-impl-elim :args (@t129 @t2843))
1.92/2.12	(step @p2847 :rule cong :premises (@p2846) :args ((forall @t135 (=> @t129 @t2843))))
1.92/2.12	(step @p2848 :rule trans :premises (@p2847 @p2845))
1.92/2.12	(step @p2849 :rule eq-symm :args (@t291 @t279))
1.92/2.12	(step @p2850 :rule refl :args (@t129))
1.92/2.12	(step @p2851 :rule cong :premises (@p2850 @p2849) :args (@t780))
1.92/2.12	(step @p2852 :rule cong :premises (@p2851) :args (@t781))
1.92/2.12	(step @p2853 :rule trans :premises (@p2852 @p2848))
1.92/2.12	(step @p2854 :rule refl :args (tptp.setukpairinjR11))
1.92/2.12	(step @p2855 :rule cong :premises (@p2854 @p2853) :args (@t782))
1.92/2.12	(step @p2856 :rule eq_resolve :premises (@p166 @p2855))
1.92/2.12	(step @p2857 :rule cong :premises (@p2856 @p2826) :args (@t2845))
1.92/2.12	(step @p2858 :rule refl :args (@t740))
1.92/2.12	(step @p2859 :rule nary_cong :premises (@p2631 @p2858) :args (@t2846))
1.92/2.12	(step @p2860 :rule cong :premises (@p2859) :args ((forall @t773 @t2846)))
1.92/2.12	(step @p2861 :rule bool-impl-elim :args (@t777 @t740))
1.92/2.12	(step @p2862 :rule cong :premises (@p2861) :args (@t778))
1.92/2.12	(step @p2863 :rule trans :premises (@p2862 @p2860))
1.92/2.12	(step @p2864 :rule refl :args (tptp.setukpairinjL))
1.92/2.12	(step @p2865 :rule cong :premises (@p2864 @p2863) :args (@t779))
1.92/2.12	(step @p2866 :rule eq_resolve :premises (@p165 @p2865))
1.92/2.12	(step @p2867 :rule cong :premises (@p2866 @p2857) :args (@t2847))
1.92/2.12	(step @p2868 :rule nary_cong :premises (@p2729 @p2858) :args (@t2848))
1.92/2.12	(step @p2869 :rule cong :premises (@p2868) :args ((forall @t773 @t2848)))
1.92/2.12	(step @p2870 :rule bool-impl-elim :args (@t772 @t740))
1.92/2.12	(step @p2871 :rule cong :premises (@p2870) :args (@t774))
1.92/2.12	(step @p2872 :rule trans :premises (@p2871 @p2869))
1.92/2.12	(step @p2873 :rule refl :args (tptp.setukpairinjL2))
1.92/2.12	(step @p2874 :rule cong :premises (@p2873 @p2872) :args (@t775))
1.92/2.12	(step @p2875 :rule eq_resolve :premises (@p164 @p2874))
1.92/2.12	(step @p2876 :rule cong :premises (@p2875 @p2867) :args (@t2849))
1.92/2.12	(step @p2877 :rule refl :args ((tptp.in @t764 @t2)))
1.92/2.12	(step @p2878 :rule cong :premises (@p2314 @p1162) :args (@t1473))
1.92/2.12	(step @p2879 :rule trans :premises (@p2878 @p2877))
1.92/2.12	(step @p2880 :rule ho_cong :premises (@p749 @p2314))
1.92/2.12	(step @p2881 :rule ho_cong :premises (@p2880 @p1162))
1.92/2.12	(step @p2882 :rule cong :premises (@p2881 @p2879) :args ((= (_ (_ tptp.in @t1409) @t2) @t1473)))
1.92/2.12	(step @p2883 :rule symm :premises (@p2882))
1.92/2.12	(step @p2884 :rule refl :args (@t765))
1.92/2.12	(step @p2885 :rule eq_resolve :premises (@p2884 @p2883))
1.92/2.12	(step @p2886 :rule ho_cong :premises (@p749 @p2331))
1.92/2.12	(step @p2887 :rule ho_cong :premises (@p2886 @p1162))
1.92/2.12	(step @p2888 :rule trans :premises (@p2887 @p2885))
1.92/2.12	(step @p2889 :rule nary_cong :premises (@p2348 @p2888) :args (@t2850))
1.92/2.12	(step @p2890 :rule cong :premises (@p2889) :args ((forall @t686 @t2850)))
1.92/2.12	(step @p2891 :rule bool-impl-elim :args (@t684 @t765))
1.92/2.12	(step @p2892 :rule cong :premises (@p2891) :args (@t766))
1.92/2.12	(step @p2893 :rule trans :premises (@p2892 @p2890))
1.92/2.12	(step @p2894 :rule refl :args (tptp.cartprodfstin))
1.92/2.12	(step @p2895 :rule cong :premises (@p2894 @p2893) :args (@t767))
1.92/2.12	(step @p2896 :rule eq_resolve :premises (@p163 @p2895))
1.92/2.12	(step @p2897 :rule cong :premises (@p2896 @p2876) :args (@t2851))
1.92/2.12	(step @p2898 :rule cong :premises (@p2438) :args ((forall @t135 @t2770)))
1.92/2.12	(step @p2899 :rule cong :premises (@p2444) :args (@t762))
1.92/2.12	(step @p2900 :rule trans :premises (@p2899 @p2898))
1.92/2.12	(step @p2901 :rule refl :args (tptp.kfstpairEq))
1.92/2.12	(step @p2902 :rule cong :premises (@p2901 @p2900) :args (@t763))
1.92/2.12	(step @p2903 :rule eq_resolve :premises (@p162 @p2902))
1.92/2.12	(step @p2904 :rule cong :premises (@p2903 @p2897) :args (@t2852))
1.92/2.12	(step @p2905 :rule aci_norm :args ((= (or @t1481 @t1480 false) @t1482)))
1.92/2.12	(step @p2906 :rule eq-refl :args (@t1479))
1.92/2.12	(step @p2907 :rule cong :premises (@p2906) :args (@t2853))
1.92/2.12	(step @p2908 :rule trans :premises (@p2907 @p2752))
1.92/2.12	(step @p2909 :rule refl :args (@t1480))
1.92/2.12	(step @p2910 :rule refl :args (@t1481))
1.92/2.12	(step @p2911 :rule nary_cong :premises (@p2910 @p2909 @p2908) :args (@t2854))
1.92/2.12	(step @p2912 :rule trans :premises (@p2911 @p2905))
1.92/2.12	(step @p2913 :rule cong :premises (@p2912) :args ((forall @t1483 @t2854)))
1.92/2.12	(step @p2914 :rule quant-var-elim-eq :args ((= (forall @t696 @t2859) @t2854)))
1.92/2.12	(step @p2915 :rule aci_norm :args ((= @t2860 @t2859)))
1.92/2.12	(step @p2916 :rule cong :premises (@p2915) :args (@t2861))
1.92/2.12	(step @p2917 :rule trans :premises (@p2916 @p2914))
1.92/2.12	(step @p2918 :rule cong :premises (@p2917) :args (@t2862))
1.92/2.12	(step @p2919 :rule quant-merge-prenex :args ((= @t2862 @t2863)))
1.92/2.12	(step @p2920 :rule symm :premises (@p2919))
1.92/2.12	(step @p2921 :rule quant_var_reordering :args ((= (forall @t2864 @t2860) @t2863)))
1.92/2.12	(step @p2922 :rule trans :premises (@p2921 @p2920 @p2918))
1.92/2.12	(step @p2923 :rule trans :premises (@p2922 @p2913))
1.92/2.12	(step @p2924 :rule aci_norm :args ((= @t2866 @t2860)))
1.92/2.12	(step @p2925 :rule cong :premises (@p2924) :args (@t2867))
1.92/2.12	(step @p2926 :rule trans :premises (@p2925 @p2923))
1.92/2.12	(step @p2927 :rule quant-merge-prenex :args ((= (forall @t696 @t2868) @t2867)))
1.92/2.12	(step @p2928 :rule refl :args (@t2858))
1.92/2.12	(step @p2929 :rule alpha_equiv :args (@t2869 (@list @t1478) @t2362))
1.92/2.12	(step @p2930 :rule nary_cong :premises (@p2929 @p2928) :args (@t2870))
1.92/2.12	(step @p2931 :rule quant-miniscope-or :args ((= @t2868 @t2870)))
1.92/2.12	(step @p2932 :rule trans :premises (@p2931 @p2930))
1.92/2.12	(step @p2933 :rule symm :premises (@p2932))
1.92/2.12	(step @p2934 :rule cong :premises (@p2933) :args ((forall @t696 (or @t2871 @t2858))))
1.92/2.12	(step @p2935 :rule trans :premises (@p2934 @p2927))
1.92/2.12	(step @p2936 :rule trans :premises (@p2935 @p2926))
1.92/2.12	(step @p2937 :rule refl :args ((tptp.in @t755 @t692)))
1.92/2.12	(step @p2938 :rule refl :args (@t692))
1.92/2.12	(step @p2939 :rule refl :args (@t2857))
1.92/2.12	(step @p2940 :rule cong :premises (@p2939 @p2938) :args (@t2858))
1.92/2.12	(step @p2941 :rule trans :premises (@p2940 @p2937))
1.92/2.12	(step @p2942 :rule ho_cong :premises (@p749 @p2939))
1.92/2.12	(step @p2943 :rule ho_cong :premises (@p2942 @p2938))
1.92/2.12	(step @p2944 :rule cong :premises (@p2943 @p2941) :args ((= (_ (_ tptp.in @t2857) @t692) @t2858)))
1.92/2.12	(step @p2945 :rule symm :premises (@p2944))
1.92/2.12	(step @p2946 :rule refl :args (@t756))
1.92/2.12	(step @p2947 :rule eq_resolve :premises (@p2946 @p2945))
1.92/2.12	(step @p2948 :rule refl :args (@t755))
1.92/2.12	(step @p2949 :rule cong :premises (@p2948 @p2939) :args ((= @t755 @t2857)))
1.92/2.12	(step @p2950 :rule symm :premises (@p2949))
1.92/2.12	(step @p2951 :rule eq_resolve :premises (@p2948 @p2950))
1.92/2.12	(step @p2952 :rule ho_cong :premises (@p749 @p2951))
1.92/2.12	(step @p2953 :rule ho_cong :premises (@p2952 @p2938))
1.92/2.12	(step @p2954 :rule trans :premises (@p2953 @p2947))
1.92/2.12	(step @p2955 :rule refl :args (@t2871))
1.92/2.12	(step @p2956 :rule nary_cong :premises (@p2955 @p2954) :args (@t2872))
1.92/2.12	(step @p2957 :rule cong :premises (@p2956) :args ((forall @t696 @t2872)))
1.92/2.12	(step @p2958 :rule trans :premises (@p2957 @p2936))
1.92/2.12	(step @p2959 :rule bool-double-not-elim :args (@t2871))
1.92/2.12	(step @p2960 :rule nary_cong :premises (@p2959 @p2946) :args ((or (not @t2873) @t756)))
1.92/2.12	(step @p2961 :rule bool-impl-elim :args (@t2873 @t756))
1.92/2.12	(step @p2962 :rule trans :premises (@p2961 @p2960))
1.92/2.12	(step @p2963 :rule cong :premises (@p2962) :args ((forall @t696 (=> @t2873 @t756))))
1.92/2.12	(step @p2964 :rule trans :premises (@p2963 @p2958))
1.92/2.12	(step @p2965 :rule refl :args (@t756))
1.92/2.12	(step @p2966 :rule beta-reduce :args ((= @t2874 @t2873)))
1.92/2.12	(step @p2967 :rule cong :premises (@p2966 @p2965) :args (@t2875))
1.92/2.12	(step @p2968 :rule cong :premises (@p2967) :args (@t2876))
1.92/2.12	(step @p2969 :rule trans :premises (@p2968 @p2964))
1.92/2.12	(step @p2970 :rule refl :args (tptp.theprop))
1.92/2.12	(step @p2971 :rule cong :premises (@p2970 @p2969) :args ((= tptp.theprop @t2876)))
1.92/2.12	(step @p2972 :rule refl :args (@t692))
1.92/2.12	(step @p2973 :rule ho_cong :premises (@p1209 @p2972))
1.92/2.12	(step @p2974 :rule cong :premises (@p2973 @p2965) :args (@t757))
1.92/2.12	(step @p2975 :rule cong :premises (@p2974) :args (@t758))
1.92/2.12	(step @p2976 :rule cong :premises (@p2970 @p2975) :args (@t759))
1.92/2.12	(step @p2977 :rule trans :premises (@p2976 @p2971))
1.92/2.12	(step @p2978 :rule eq_resolve :premises (@p161 @p2977))
1.92/2.12	(step @p2979 :rule cong :premises (@p2978 @p2904) :args (@t2877))
1.92/2.12	(step @p2980 :rule refl :args (@t1491))
1.92/2.12	(step @p2981 :rule nary_cong :premises (@p2531 @p2980) :args (@t2878))
1.92/2.12	(step @p2982 :rule cong :premises (@p2981) :args ((forall @t752 @t2878)))
1.92/2.12	(step @p2983 :rule bool-impl-elim :args (@t689 @t1491))
1.92/2.12	(step @p2984 :rule cong :premises (@p2983) :args ((forall @t752 (=> @t689 @t1491))))
1.92/2.12	(step @p2985 :rule trans :premises (@p2984 @p2982))
1.92/2.12	(step @p2986 :rule refl :args ((tptp.dsetconstr @t748 @t2880)))
1.92/2.12	(step @p2987 :rule refl :args ((tptp.in @t2879 @t381)))
1.92/2.12	(step @p2988 :rule refl :args (@t1486))
1.92/2.12	(step @p2989 :rule cong :premises (@p2988 @p2335) :args (@t1487))
1.92/2.12	(step @p2990 :rule trans :premises (@p2989 @p2987))
1.92/2.12	(step @p2991 :rule cong :premises (@p2990) :args (@t1489))
1.92/2.12	(step @p2992 :rule cong :premises (@p2565 @p2991) :args (@t1490))
1.92/2.12	(step @p2993 :rule trans :premises (@p2992 @p2986))
1.92/2.12	(step @p2994 :rule ho_cong :premises (@p2569 @p2991))
1.92/2.12	(step @p2995 :rule cong :premises (@p2994 @p2993) :args ((= (_ @t2787 @t1489) @t1490)))
1.92/2.12	(step @p2996 :rule symm :premises (@p2995))
1.92/2.12	(step @p2997 :rule refl :args ((_ @t749 @t2880)))
1.92/2.12	(step @p2998 :rule eq_resolve :premises (@p2997 @p2996))
1.92/2.12	(step @p2999 :rule alpha_equiv :args ((lambda @t9 @t2881) @t2362 (@list @t1485)))
1.92/2.12	(step @p3000 :rule refl :args ((tptp.in @t279 @t381)))
1.92/2.12	(step @p3001 :rule cong :premises (@p1193 @p2335) :args (@t2881))
1.92/2.12	(step @p3002 :rule trans :premises (@p3001 @p3000))
1.92/2.12	(step @p3003 :rule ho_cong :premises (@p749 @p1193))
1.92/2.12	(step @p3004 :rule ho_cong :premises (@p3003 @p2335))
1.92/2.12	(step @p3005 :rule cong :premises (@p3004 @p3002) :args ((= (_ @t2882 @t381) @t2881)))
1.92/2.12	(step @p3006 :rule symm :premises (@p3005))
1.92/2.12	(step @p3007 :rule refl :args (@t746))
1.92/2.12	(step @p3008 :rule eq_resolve :premises (@p3007 @p3006))
1.92/2.12	(step @p3009 :rule ho_cong :premises (@p749 @p1197))
1.92/2.12	(step @p3010 :rule ho_cong :premises (@p3009 @p2335))
1.92/2.12	(step @p3011 :rule trans :premises (@p3010 @p3008))
1.92/2.12	(step @p3012 :rule cong :premises (@p3011) :args (@t747))
1.92/2.12	(step @p3013 :rule trans :premises (@p3012 @p2999))
1.92/2.12	(step @p3014 :rule ho_cong :premises (@p2593 @p3013))
1.92/2.12	(step @p3015 :rule trans :premises (@p3014 @p2998))
1.92/2.12	(step @p3016 :rule cong :premises (@p1158 @p3015) :args (@t2883))
1.92/2.12	(step @p3017 :rule cong :premises (@p3016) :args (@t2884))
1.92/2.12	(step @p3018 :rule cong :premises (@p1183 @p3015) :args (@t2885))
1.92/2.12	(step @p3019 :rule cong :premises (@p3018) :args (@t2886))
1.92/2.12	(step @p3020 :rule nary_cong :premises (@p3019 @p3017) :args (@t2887))
1.92/2.12	(step @p3021 :rule cong :premises (@p3020) :args ((forall @t9 @t2887)))
1.92/2.12	(step @p3022 :rule eq-symm :args (@t750 @t1444))
1.92/2.12	(step @p3023 :rule cong :premises (@p3022) :args (@t2888))
1.92/2.12	(step @p3024 :rule refl :args (@t2886))
1.92/2.12	(step @p3025 :rule nary_cong :premises (@p3024 @p3023) :args (@t2889))
1.92/2.12	(step @p3026 :rule cong :premises (@p3025) :args (@t2890))
1.92/2.12	(step @p3027 :rule trans :premises (@p3026 @p3021))
1.92/2.12	(step @p3028 :rule cong :premises (@p3027) :args (@t2891))
1.92/2.12	(step @p3029 :rule beta-reduce :args ((= @t2892 @t2891)))
1.92/2.12	(step @p3030 :rule trans :premises (@p3029 @p3028))
1.92/2.12	(step @p3031 :rule cong :premises (@p2537 @p3030) :args (@t2893))
1.92/2.12	(step @p3032 :rule cong :premises (@p3031) :args (@t2894))
1.92/2.12	(step @p3033 :rule trans :premises (@p3032 @p2985))
1.92/2.12	(step @p3034 :rule refl :args (tptp.kfstsingleton))
1.92/2.12	(step @p3035 :rule cong :premises (@p3034 @p3033) :args ((= tptp.kfstsingleton @t2894)))
1.92/2.12	(step @p3036 :rule refl :args (@t750))
1.92/2.12	(step @p3037 :rule ho_cong :premises (@p1209 @p3036))
1.92/2.12	(step @p3038 :rule cong :premises (@p2537 @p3037) :args (@t751))
1.92/2.12	(step @p3039 :rule cong :premises (@p3038) :args (@t753))
1.92/2.12	(step @p3040 :rule cong :premises (@p3034 @p3039) :args (@t754))
1.92/2.12	(step @p3041 :rule trans :premises (@p3040 @p3035))
1.92/2.12	(step @p3042 :rule eq_resolve :premises (@p160 @p3041))
1.92/2.12	(step @p3043 :rule cong :premises (@p3042 @p2979) :args (@t2895))
1.92/2.12	(step @p3044 :rule refl :args ((tptp.in @t742 @t618)))
1.92/2.12	(step @p3045 :rule cong :premises (@p2650 @p2697) :args (@t1493))
1.92/2.12	(step @p3046 :rule trans :premises (@p3045 @p3044))
1.92/2.12	(step @p3047 :rule ho_cong :premises (@p749 @p2650))
1.92/2.12	(step @p3048 :rule ho_cong :premises (@p3047 @p2697))
1.92/2.12	(step @p3049 :rule cong :premises (@p3048 @p3046) :args ((= (_ (_ tptp.in @t1453) @t1458) @t1493)))
1.92/2.12	(step @p3050 :rule symm :premises (@p3049))
1.92/2.12	(step @p3051 :rule refl :args (@t743))
1.92/2.12	(step @p3052 :rule eq_resolve :premises (@p3051 @p3050))
1.92/2.12	(step @p3053 :rule ho_cong :premises (@p749 @p2684))
1.92/2.12	(step @p3054 :rule ho_cong :premises (@p3053 @p2727))
1.92/2.12	(step @p3055 :rule trans :premises (@p3054 @p3052))
1.92/2.12	(step @p3056 :rule cong :premises (@p3055) :args (@t2896))
1.92/2.12	(step @p3057 :rule nary_cong :premises (@p3056 @p2858) :args (@t2897))
1.92/2.12	(step @p3058 :rule cong :premises (@p3057) :args ((forall @t295 @t2897)))
1.92/2.12	(step @p3059 :rule bool-impl-elim :args (@t743 @t740))
1.92/2.12	(step @p3060 :rule cong :premises (@p3059) :args (@t744))
1.92/2.12	(step @p3061 :rule trans :premises (@p3060 @p3058))
1.92/2.12	(step @p3062 :rule refl :args (tptp.setukpairinjL1))
1.92/2.12	(step @p3063 :rule cong :premises (@p3062 @p3061) :args (@t745))
1.92/2.12	(step @p3064 :rule eq_resolve :premises (@p159 @p3063))
1.92/2.12	(step @p3065 :rule cong :premises (@p3064 @p3043) :args (@t2898))
1.92/2.12	(step @p3066 :rule eq-symm :args (@t1455 @t1444))
1.92/2.12	(step @p3067 :rule cong :premises (@p3066) :args (@t2899))
1.92/2.12	(step @p3068 :rule nary_cong :premises (@p3067 @p2850) :args (@t2900))
1.92/2.12	(step @p3069 :rule cong :premises (@p3068) :args ((forall @t135 @t2900)))
1.92/2.12	(step @p3070 :rule cong :premises (@p2719 @p1197) :args (@t2901))
1.92/2.12	(step @p3071 :rule cong :premises (@p3070) :args (@t2902))
1.92/2.12	(step @p3072 :rule nary_cong :premises (@p3071 @p1412) :args (@t2903))
1.92/2.12	(step @p3073 :rule cong :premises (@p3072) :args ((forall @t135 @t2903)))
1.92/2.12	(step @p3074 :rule trans :premises (@p3073 @p3069))
1.92/2.12	(step @p3075 :rule bool-impl-elim :args (@t2901 @t129))
1.92/2.12	(step @p3076 :rule cong :premises (@p3075) :args ((forall @t135 (=> @t2901 @t129))))
1.92/2.12	(step @p3077 :rule trans :premises (@p3076 @p3074))
1.92/2.12	(step @p3078 :rule eq-symm :args (@t279 @t275))
1.92/2.12	(step @p3079 :rule cong :premises (@p3078 @p2850) :args (@t737))
1.92/2.12	(step @p3080 :rule cong :premises (@p3079) :args (@t738))
1.92/2.12	(step @p3081 :rule trans :premises (@p3080 @p3077))
1.92/2.12	(step @p3082 :rule refl :args (tptp.singletonsuniq))
1.92/2.12	(step @p3083 :rule cong :premises (@p3082 @p3081) :args (@t739))
1.92/2.12	(step @p3084 :rule eq_resolve :premises (@p158 @p3083))
1.92/2.12	(step @p3085 :rule cong :premises (@p3084 @p3065) :args (@t2904))
1.92/2.12	(step @p3086 :rule aci_norm :args ((= @t2906 @t1513)))
1.92/2.12	(step @p3087 :rule cong :premises (@p3086) :args (@t2907))
1.92/2.12	(step @p3088 :rule quant-merge-prenex :args ((= (forall @t309 @t2909) @t2907)))
1.92/2.12	(step @p3089 :rule refl :args (@t1502))
1.92/2.12	(step @p3090 :rule alpha_equiv :args (@t2910 (@list @t1496) @t2362))
1.92/2.12	(step @p3091 :rule refl :args (@t1512))
1.92/2.12	(step @p3092 :rule nary_cong :premises (@p3091 @p3090 @p3089) :args (@t2911))
1.92/2.12	(step @p3093 :rule quant-miniscope-or :args ((= @t2909 @t2911)))
1.92/2.12	(step @p3094 :rule trans :premises (@p3093 @p3092))
1.92/2.12	(step @p3095 :rule symm :premises (@p3094))
1.92/2.12	(step @p3096 :rule cong :premises (@p3095) :args ((forall @t309 @t2912)))
1.92/2.12	(step @p3097 :rule trans :premises (@p3096 @p3088))
1.92/2.12	(step @p3098 :rule trans :premises (@p3097 @p3087))
1.92/2.12	(step @p3099 :rule aci_norm :args ((= (or @t1512 (or @t1530 @t1502)) @t2912)))
1.92/2.12	(step @p3100 :rule bool-double-not-elim :args (@t1530))
1.92/2.12	(step @p3101 :rule nary_cong :premises (@p3100 @p3089) :args ((or @t2913 @t1502)))
1.92/2.12	(step @p3102 :rule bool-impl-elim :args (@t1531 @t1502))
1.92/2.12	(step @p3103 :rule trans :premises (@p3102 @p3101))
1.92/2.12	(step @p3104 :rule nary_cong :premises (@p3091 @p3103) :args ((or @t1512 @t2914)))
1.92/2.12	(step @p3105 :rule trans :premises (@p3104 @p3099))
1.92/2.12	(step @p3106 :rule bool-impl-elim :args (@t1511 @t2914))
1.92/2.12	(step @p3107 :rule trans :premises (@p3106 @p3105))
1.92/2.12	(step @p3108 :rule cong :premises (@p3107) :args ((forall @t309 (=> @t1511 @t2914))))
1.92/2.12	(step @p3109 :rule trans :premises (@p3108 @p3098))
1.92/2.12	(step @p3110 :rule nary_cong :premises (@p738 @p1403) :args (@t2915))
1.92/2.12	(step @p3111 :rule cong :premises (@p3110) :args ((forall @t9 @t2915)))
1.92/2.12	(step @p3112 :rule bool-and-de-morgan :args (@t7 @t144 true))
1.92/2.12	(step @p3113 :rule cong :premises (@p3112) :args (@t2916))
1.92/2.12	(step @p3114 :rule trans :premises (@p3113 @p3111))
1.92/2.12	(step @p3115 :rule cong :premises (@p3114) :args (@t2917))
1.92/2.12	(step @p3116 :rule exists-elim :args ((= @t307 @t2917)))
1.92/2.12	(step @p3117 :rule trans :premises (@p3116 @p3115))
1.92/2.12	(step @p3118 :rule cong :premises (@p3117 @p1476) :args (@t2918))
1.92/2.12	(step @p3119 :rule cong :premises (@p1451 @p3118) :args (@t2919))
1.92/2.12	(step @p3120 :rule cong :premises (@p3119) :args (@t2920))
1.92/2.12	(step @p3121 :rule trans :premises (@p3120 @p3109))
1.92/2.12	(step @p3122 :rule refl :args (tptp.ex1I2))
1.92/2.12	(step @p3123 :rule cong :premises (@p3122 @p3121) :args ((= tptp.ex1I2 @t2920)))
1.92/2.12	(step @p3124 :rule refl :args (@t307))
1.92/2.12	(step @p3125 :rule cong :premises (@p3124 @p1484) :args (@t733))
1.92/2.12	(step @p3126 :rule cong :premises (@p1482 @p3125) :args (@t734))
1.92/2.12	(step @p3127 :rule cong :premises (@p3126) :args (@t735))
1.92/2.12	(step @p3128 :rule cong :premises (@p3122 @p3127) :args (@t736))
1.92/2.12	(step @p3129 :rule trans :premises (@p3128 @p3123))
1.92/2.12	(step @p3130 :rule eq_resolve :premises (@p157 @p3129))
1.92/2.12	(step @p3131 :rule cong :premises (@p3130 @p3085) :args (@t2921))
1.92/2.12	(step @p3132 :rule eq-symm :args (@t1517 @t1325))
1.92/2.12	(step @p3133 :rule cong :premises (@p3132) :args (@t2922))
1.92/2.12	(step @p3134 :rule refl :args (@t1518))
1.92/2.12	(step @p3135 :rule nary_cong :premises (@p3134 @p3133) :args (@t2923))
1.92/2.12	(step @p3136 :rule cong :premises (@p3135) :args (@t2924))
1.92/2.12	(step @p3137 :rule cong :premises (@p3136) :args (@t2925))
1.92/2.12	(step @p3138 :rule refl :args (@t1525))
1.92/2.12	(step @p3139 :rule refl :args (@t1508))
1.92/2.12	(step @p3140 :rule nary_cong :premises (@p878 @p3139 @p3138 @p3137) :args (@t2926))
1.92/2.12	(step @p3141 :rule cong :premises (@p3140) :args ((forall @t159 @t2926)))
1.92/2.12	(step @p3142 :rule alpha_equiv :args (@t1501 @t2362 (@list @t1516)))
1.92/2.12	(step @p3143 :rule cong :premises (@p3142) :args (@t1502))
1.92/2.12	(step @p3144 :rule refl :args (@t1525))
1.92/2.12	(step @p3145 :rule nary_cong :premises (@p738 @p1403 @p3144 @p3143) :args (@t2927))
1.92/2.12	(step @p3146 :rule cong :premises (@p3145) :args ((forall @t159 @t2927)))
1.92/2.12	(step @p3147 :rule trans :premises (@p3146 @p3141))
1.92/2.12	(step @p3148 :rule aci_norm :args ((= (or @t197 @t2928) @t2927)))
1.92/2.12	(step @p3149 :rule aci_norm :args ((= (or @t315 (or @t1525 @t1502)) @t2928)))
1.92/2.12	(step @p3150 :rule bool-impl-elim :args (@t1524 @t1502))
1.92/2.12	(step @p3151 :rule nary_cong :premises (@p1437 @p3150) :args ((or @t315 @t2929)))
1.92/2.12	(step @p3152 :rule trans :premises (@p3151 @p3149))
1.92/2.12	(step @p3153 :rule bool-impl-elim :args (@t144 @t2929))
1.92/2.12	(step @p3154 :rule trans :premises (@p3153 @p3152))
1.92/2.12	(step @p3155 :rule refl :args (@t197))
1.92/2.12	(step @p3156 :rule nary_cong :premises (@p3155 @p3154) :args ((or @t197 @t2930)))
1.92/2.12	(step @p3157 :rule trans :premises (@p3156 @p3148))
1.92/2.12	(step @p3158 :rule bool-impl-elim :args (@t7 @t2930))
1.92/2.12	(step @p3159 :rule trans :premises (@p3158 @p3157))
1.92/2.12	(step @p3160 :rule cong :premises (@p3159) :args ((forall @t159 (=> @t7 @t2930))))
1.92/2.12	(step @p3161 :rule trans :premises (@p3160 @p3147))
1.92/2.12	(step @p3162 :rule lambda-elim :args ((= @t2931 @t143)))
1.92/2.12	(step @p3163 :rule cong :premises (@p818 @p3162) :args (@t2932))
1.92/2.12	(step @p3164 :rule cong :premises (@p1147 @p3163) :args (@t2933))
1.92/2.12	(step @p3165 :rule cong :premises (@p3164) :args (@t2934))
1.92/2.12	(step @p3166 :rule cong :premises (@p1153 @p3163) :args (@t2935))
1.92/2.12	(step @p3167 :rule cong :premises (@p3166) :args (@t2936))
1.92/2.12	(step @p3168 :rule nary_cong :premises (@p3167 @p3165) :args (@t2937))
1.92/2.12	(step @p3169 :rule cong :premises (@p3168) :args ((forall @t9 @t2937)))
1.92/2.12	(step @p3170 :rule cong :premises (@p1417) :args (@t154))
1.92/2.12	(step @p3171 :rule cong :premises (@p1162 @p3170) :args (@t2938))
1.92/2.12	(step @p3172 :rule cong :premises (@p1158 @p3171) :args (@t2939))
1.92/2.12	(step @p3173 :rule cong :premises (@p3172) :args (@t2940))
1.92/2.12	(step @p3174 :rule cong :premises (@p1183 @p3171) :args (@t2941))
1.92/2.12	(step @p3175 :rule cong :premises (@p3174) :args (@t2942))
1.92/2.12	(step @p3176 :rule nary_cong :premises (@p3175 @p3173) :args (@t2943))
1.92/2.12	(step @p3177 :rule cong :premises (@p3176) :args (@t2944))
1.92/2.12	(step @p3178 :rule trans :premises (@p3177 @p3169))
1.92/2.12	(step @p3179 :rule cong :premises (@p3178) :args (@t2945))
1.92/2.12	(step @p3180 :rule beta-reduce :args ((= (_ @t2479 @t154) @t2945)))
1.92/2.12	(step @p3181 :rule trans :premises (@p3180 @p3179))
1.92/2.12	(step @p3182 :rule refl :args (@t154))
1.92/2.12	(step @p3183 :rule ho_cong :premises (@p1474 @p3182))
1.92/2.12	(step @p3184 :rule trans :premises (@p3183 @p3181))
1.92/2.12	(step @p3185 :rule aci_norm :args ((= (or @t2455 @t2462) @t2456)))
1.92/2.12	(step @p3186 :rule nary_cong :premises (@p1442 @p1436) :args ((or @t2455 @t166)))
1.92/2.12	(step @p3187 :rule trans :premises (@p3186 @p3185))
1.92/2.12	(step @p3188 :rule bool-impl-elim :args (@t21 @t166))
1.92/2.12	(step @p3189 :rule trans :premises (@p3188 @p3187))
1.92/2.12	(step @p3190 :rule cong :premises (@p3189) :args ((forall @t70 (=> @t21 @t166))))
1.92/2.12	(step @p3191 :rule trans :premises (@p3190 @p1426))
1.92/2.12	(step @p3192 :rule eq-symm :args (@t19 @t4))
1.92/2.12	(step @p3193 :rule refl :args (@t153))
1.92/2.12	(step @p3194 :rule cong :premises (@p3193 @p3192) :args (@t725))
1.92/2.12	(step @p3195 :rule refl :args (@t21))
1.92/2.12	(step @p3196 :rule cong :premises (@p3195 @p3194) :args (@t726))
1.92/2.12	(step @p3197 :rule cong :premises (@p3196) :args (@t727))
1.92/2.12	(step @p3198 :rule trans :premises (@p3197 @p3191))
1.92/2.12	(step @p3199 :rule cong :premises (@p3198 @p3184) :args (@t2946))
1.92/2.12	(step @p3200 :rule refl :args (@t144))
1.92/2.12	(step @p3201 :rule cong :premises (@p3200 @p3199) :args (@t2947))
1.92/2.12	(step @p3202 :rule cong :premises (@p791 @p3201) :args (@t2948))
1.92/2.12	(step @p3203 :rule cong :premises (@p3202) :args (@t2949))
1.92/2.12	(step @p3204 :rule trans :premises (@p3203 @p3161))
1.92/2.12	(step @p3205 :rule refl :args (tptp.ex1I))
1.92/2.12	(step @p3206 :rule cong :premises (@p3205 @p3204) :args ((= tptp.ex1I @t2949)))
1.92/2.12	(step @p3207 :rule ho_cong :premises (@p1483 @p3182))
1.92/2.12	(step @p3208 :rule refl :args (@t727))
1.92/2.12	(step @p3209 :rule cong :premises (@p3208 @p3207) :args (@t728))
1.92/2.12	(step @p3210 :rule cong :premises (@p3200 @p3209) :args (@t729))
1.92/2.12	(step @p3211 :rule cong :premises (@p791 @p3210) :args (@t730))
1.92/2.12	(step @p3212 :rule cong :premises (@p3211) :args (@t731))
1.92/2.12	(step @p3213 :rule cong :premises (@p3205 @p3212) :args (@t732))
1.92/2.12	(step @p3214 :rule trans :premises (@p3213 @p3206))
1.92/2.12	(step @p3215 :rule eq_resolve :premises (@p156 @p3214))
1.92/2.12	(step @p3216 :rule cong :premises (@p3215 @p3131) :args (@t2950))
1.92/2.12	(step @p3217 :rule eq-symm :args (@t1528 @t1325))
1.92/2.12	(step @p3218 :rule cong :premises (@p3217) :args (@t2951))
1.92/2.12	(step @p3219 :rule refl :args (@t1529))
1.92/2.12	(step @p3220 :rule refl :args (@t1531))
1.92/2.12	(step @p3221 :rule nary_cong :premises (@p3220 @p3219 @p3218) :args (@t2952))
1.92/2.12	(step @p3222 :rule aci_norm :args ((= @t2954 @t2952)))
1.92/2.12	(step @p3223 :rule trans :premises (@p3222 @p3221))
1.92/2.12	(step @p3224 :rule cong :premises (@p3223) :args (@t2955))
1.92/2.12	(step @p3225 :rule quant-merge-prenex :args ((= (forall @t309 @t2957) @t2955)))
1.92/2.12	(step @p3226 :rule refl :args (@t1531))
1.92/2.12	(step @p3227 :rule alpha_equiv :args (@t2958 (@list @t1527) @t2362))
1.92/2.12	(step @p3228 :rule nary_cong :premises (@p3227 @p3226) :args (@t2959))
1.92/2.12	(step @p3229 :rule quant-miniscope-or :args ((= @t2957 @t2959)))
1.92/2.12	(step @p3230 :rule trans :premises (@p3229 @p3228))
1.92/2.12	(step @p3231 :rule symm :premises (@p3230))
1.92/2.12	(step @p3232 :rule cong :premises (@p3231) :args ((forall @t309 (or @t1501 @t1531))))
1.92/2.12	(step @p3233 :rule trans :premises (@p3232 @p3225))
1.92/2.12	(step @p3234 :rule trans :premises (@p3233 @p3224))
1.92/2.12	(step @p3235 :rule nary_cong :premises (@p1384 @p3226) :args ((or @t2444 @t1531)))
1.92/2.12	(step @p3236 :rule bool-impl-elim :args (@t1502 @t1531))
1.92/2.12	(step @p3237 :rule trans :premises (@p3236 @p3235))
1.92/2.12	(step @p3238 :rule cong :premises (@p3237) :args ((forall @t309 (=> @t1502 @t1531))))
1.92/2.12	(step @p3239 :rule trans :premises (@p3238 @p3234))
1.92/2.12	(step @p3240 :rule cong :premises (@p1476 @p3117) :args (@t2960))
1.92/2.12	(step @p3241 :rule cong :premises (@p3240) :args (@t2961))
1.92/2.12	(step @p3242 :rule trans :premises (@p3241 @p3239))
1.92/2.12	(step @p3243 :rule refl :args (tptp.ex1E1))
1.92/2.12	(step @p3244 :rule cong :premises (@p3243 @p3242) :args ((= tptp.ex1E1 @t2961)))
1.92/2.12	(step @p3245 :rule cong :premises (@p1484 @p3124) :args (@t722))
1.92/2.12	(step @p3246 :rule cong :premises (@p3245) :args (@t723))
1.92/2.12	(step @p3247 :rule cong :premises (@p3243 @p3246) :args (@t724))
1.92/2.12	(step @p3248 :rule trans :premises (@p3247 @p3244))
1.92/2.12	(step @p3249 :rule eq_resolve :premises (@p155 @p3248))
1.92/2.12	(step @p3250 :rule cong :premises (@p3249 @p3216) :args (@t2962))
1.92/2.12	(step @p3251 :rule cong :premises (@p3117 @p1191) :args (@t2963))
1.92/2.12	(step @p3252 :rule cong :premises (@p1451 @p3251) :args (@t2964))
1.92/2.12	(step @p3253 :rule cong :premises (@p3252) :args (@t2965))
1.92/2.12	(step @p3254 :rule trans :premises (@p3253 @p3109))
1.92/2.12	(step @p3255 :rule refl :args (tptp.singletonprop))
1.92/2.12	(step @p3256 :rule cong :premises (@p3255 @p3254) :args ((= tptp.singletonprop @t2965)))
1.92/2.12	(step @p3257 :rule cong :premises (@p3124 @p1210) :args (@t713))
1.92/2.12	(step @p3258 :rule cong :premises (@p1482 @p3257) :args (@t717))
1.92/2.12	(step @p3259 :rule cong :premises (@p3258) :args (@t718))
1.92/2.12	(step @p3260 :rule cong :premises (@p3255 @p3259) :args (@t719))
1.92/2.12	(step @p3261 :rule trans :premises (@p3260 @p3256))
1.92/2.12	(step @p3262 :rule eq_resolve :premises (@p154 @p3261))
1.92/2.12	(step @p3263 :rule cong :premises (@p3262 @p3250) :args (@t2966))
1.92/2.12	(step @p3264 :rule refl :args ((tptp.setunion @t279)))
1.92/2.12	(step @p3265 :rule cong :premises (@p1193) :args (@t1534))
1.92/2.12	(step @p3266 :rule trans :premises (@p3265 @p3264))
1.92/2.12	(step @p3267 :rule ho_cong :premises (@p2001 @p1193))
1.92/2.12	(step @p3268 :rule cong :premises (@p3267 @p3266) :args ((= (_ tptp.setunion @t1444) @t1534)))
1.92/2.12	(step @p3269 :rule symm :premises (@p3268))
1.92/2.12	(step @p3270 :rule refl :args (@t709))
1.92/2.12	(step @p3271 :rule eq_resolve :premises (@p3270 @p3269))
1.92/2.12	(step @p3272 :rule ho_cong :premises (@p2001 @p1197))
1.92/2.12	(step @p3273 :rule trans :premises (@p3272 @p3271))
1.92/2.12	(step @p3274 :rule cong :premises (@p1183 @p3273) :args (@t2967))
1.92/2.12	(step @p3275 :rule cong :premises (@p3274) :args ((forall @t9 @t2967)))
1.92/2.12	(step @p3276 :rule eq-symm :args (@t709 @t4))
1.92/2.12	(step @p3277 :rule cong :premises (@p3276) :args (@t710))
1.92/2.12	(step @p3278 :rule trans :premises (@p3277 @p3275))
1.92/2.12	(step @p3279 :rule refl :args (tptp.setunionsingleton))
1.92/2.12	(step @p3280 :rule cong :premises (@p3279 @p3278) :args (@t711))
1.92/2.12	(step @p3281 :rule eq_resolve :premises (@p153 @p3280))
1.92/2.12	(step @p3282 :rule cong :premises (@p3281 @p3263) :args (@t2968))
1.92/2.12	(step @p3283 :rule refl :args ((tptp.subset @t2 @t702)))
1.92/2.12	(step @p3284 :rule refl :args ((tptp.setunion @t701)))
1.92/2.12	(step @p3285 :rule refl :args (@t1536))
1.92/2.12	(step @p3286 :rule cong :premises (@p3285) :args (@t1537))
1.92/2.12	(step @p3287 :rule trans :premises (@p3286 @p3284))
1.92/2.12	(step @p3288 :rule cong :premises (@p1162 @p3287) :args (@t1538))
1.92/2.12	(step @p3289 :rule trans :premises (@p3288 @p3283))
1.92/2.12	(step @p3290 :rule refl :args (@t419))
1.92/2.12	(step @p3291 :rule ho_cong :premises (@p3290 @p3287))
1.92/2.12	(step @p3292 :rule cong :premises (@p3291 @p3289) :args ((= (_ @t419 @t1537) @t1538)))
1.92/2.12	(step @p3293 :rule symm :premises (@p3292))
1.92/2.12	(step @p3294 :rule refl :args (@t706))
1.92/2.12	(step @p3295 :rule eq_resolve :premises (@p3294 @p3293))
1.92/2.12	(step @p3296 :rule ho_cong :premises (@p2001 @p3285))
1.92/2.12	(step @p3297 :rule cong :premises (@p3296 @p3287) :args ((= (_ tptp.setunion @t1536) @t1537)))
1.92/2.12	(step @p3298 :rule symm :premises (@p3297))
1.92/2.12	(step @p3299 :rule refl :args (@t702))
1.92/2.12	(step @p3300 :rule eq_resolve :premises (@p3299 @p3298))
1.92/2.12	(step @p3301 :rule refl :args (@t701))
1.92/2.12	(step @p3302 :rule cong :premises (@p3301 @p3285) :args ((= @t701 @t1536)))
1.92/2.12	(step @p3303 :rule symm :premises (@p3302))
1.92/2.12	(step @p3304 :rule eq_resolve :premises (@p3301 @p3303))
1.92/2.12	(step @p3305 :rule ho_cong :premises (@p2001 @p3304))
1.92/2.12	(step @p3306 :rule trans :premises (@p3305 @p3300))
1.92/2.12	(step @p3307 :rule ho_cong :premises (@p3290 @p3306))
1.92/2.12	(step @p3308 :rule trans :premises (@p3307 @p3295))
1.92/2.12	(step @p3309 :rule cong :premises (@p3308) :args (@t707))
1.92/2.12	(step @p3310 :rule refl :args (tptp.setunionsingleton2))
1.92/2.12	(step @p3311 :rule cong :premises (@p3310 @p3309) :args (@t708))
1.92/2.12	(step @p3312 :rule eq_resolve :premises (@p152 @p3311))
1.92/2.12	(step @p3313 :rule cong :premises (@p3312 @p3282) :args (@t2969))
1.92/2.12	(step @p3314 :rule refl :args ((tptp.subset @t702 @t2)))
1.92/2.12	(step @p3315 :rule cong :premises (@p3287 @p1162) :args (@t1540))
1.92/2.12	(step @p3316 :rule trans :premises (@p3315 @p3314))
1.92/2.12	(step @p3317 :rule ho_cong :premises (@p1710 @p3287))
1.92/2.12	(step @p3318 :rule ho_cong :premises (@p3317 @p1162))
1.92/2.12	(step @p3319 :rule cong :premises (@p3318 @p3316) :args ((= (_ (_ tptp.subset @t1537) @t2) @t1540)))
1.92/2.12	(step @p3320 :rule symm :premises (@p3319))
1.92/2.12	(step @p3321 :rule refl :args (@t703))
1.92/2.12	(step @p3322 :rule eq_resolve :premises (@p3321 @p3320))
1.92/2.12	(step @p3323 :rule ho_cong :premises (@p1710 @p3306))
1.92/2.12	(step @p3324 :rule ho_cong :premises (@p3323 @p1162))
1.92/2.12	(step @p3325 :rule trans :premises (@p3324 @p3322))
1.92/2.12	(step @p3326 :rule cong :premises (@p3325) :args (@t704))
1.92/2.12	(step @p3327 :rule refl :args (tptp.setunionsingleton1))
1.92/2.12	(step @p3328 :rule cong :premises (@p3327 @p3326) :args (@t705))
1.92/2.12	(step @p3329 :rule eq_resolve :premises (@p151 @p3328))
1.92/2.12	(step @p3330 :rule cong :premises (@p3329 @p3313) :args (@t2970))
1.92/2.12	(step @p3331 :rule refl :args (@t1545))
1.92/2.12	(step @p3332 :rule refl :args ((tptp.in @t4 @t43)))
1.92/2.12	(step @p3333 :rule refl :args (@t1546))
1.92/2.12	(step @p3334 :rule cong :premises (@p1183 @p3333) :args (@t1547))
1.92/2.12	(step @p3335 :rule trans :premises (@p3334 @p3332))
1.92/2.12	(step @p3336 :rule refl :args (@t5))
1.92/2.12	(step @p3337 :rule ho_cong :premises (@p3336 @p3333))
1.92/2.12	(step @p3338 :rule cong :premises (@p3337 @p3335) :args ((= (_ @t5 @t1546) @t1547)))
1.92/2.12	(step @p3339 :rule symm :premises (@p3338))
1.92/2.12	(step @p3340 :rule refl :args (@t44))
1.92/2.12	(step @p3341 :rule eq_resolve :premises (@p3340 @p3339))
1.92/2.12	(step @p3342 :rule refl :args (@t43))
1.92/2.12	(step @p3343 :rule cong :premises (@p3342 @p3333) :args ((= @t43 @t1546)))
1.92/2.12	(step @p3344 :rule symm :premises (@p3343))
1.92/2.12	(step @p3345 :rule eq_resolve :premises (@p3342 @p3344))
1.92/2.12	(step @p3346 :rule ho_cong :premises (@p3336 @p3345))
1.92/2.12	(step @p3347 :rule trans :premises (@p3346 @p3341))
1.92/2.12	(step @p3348 :rule cong :premises (@p3347) :args (@t2971))
1.92/2.12	(step @p3349 :rule nary_cong :premises (@p3348 @p3331) :args (@t2972))
1.92/2.12	(step @p3350 :rule cong :premises (@p3349) :args ((forall @t46 @t2972)))
1.92/2.12	(step @p3351 :rule bool-impl-elim :args (@t44 @t1545))
1.92/2.12	(step @p3352 :rule cong :premises (@p3351) :args ((forall @t46 (=> @t44 @t1545))))
1.92/2.12	(step @p3353 :rule trans :premises (@p3352 @p3350))
1.92/2.12	(step @p3354 :rule refl :args (@t1542))
1.92/2.12	(step @p3355 :rule refl :args (@t693))
1.92/2.12	(step @p3356 :rule cong :premises (@p3355 @p3354) :args ((= @t693 @t1542)))
1.92/2.12	(step @p3357 :rule symm :premises (@p3356))
1.92/2.12	(step @p3358 :rule eq_resolve :premises (@p3355 @p3357))
1.92/2.12	(step @p3359 :rule cong :premises (@p3358) :args (@t2973))
1.92/2.12	(step @p3360 :rule refl :args (@t1544))
1.92/2.12	(step @p3361 :rule refl :args (@t694))
1.92/2.12	(step @p3362 :rule cong :premises (@p3361 @p3360) :args ((= @t694 @t1544)))
1.92/2.12	(step @p3363 :rule symm :premises (@p3362))
1.92/2.12	(step @p3364 :rule eq_resolve :premises (@p3361 @p3363))
1.92/2.12	(step @p3365 :rule cong :premises (@p3364) :args (@t2974))
1.92/2.12	(step @p3366 :rule nary_cong :premises (@p3365 @p3359) :args (@t2975))
1.92/2.12	(step @p3367 :rule cong :premises (@p3366) :args ((forall @t696 @t2975)))
1.92/2.12	(step @p3368 :rule bool-and-de-morgan :args (@t694 @t693 true))
1.92/2.12	(step @p3369 :rule cong :premises (@p3368) :args (@t2976))
1.92/2.12	(step @p3370 :rule trans :premises (@p3369 @p3367))
1.92/2.12	(step @p3371 :rule cong :premises (@p3370) :args (@t2977))
1.92/2.12	(step @p3372 :rule exists-elim :args ((= @t697 @t2977)))
1.92/2.12	(step @p3373 :rule trans :premises (@p3372 @p3371))
1.92/2.12	(step @p3374 :rule refl :args (@t44))
1.92/2.12	(step @p3375 :rule cong :premises (@p3374 @p3373) :args (@t698))
1.92/2.12	(step @p3376 :rule cong :premises (@p3375) :args (@t699))
1.92/2.12	(step @p3377 :rule trans :premises (@p3376 @p3353))
1.92/2.12	(step @p3378 :rule refl :args (tptp.setunionE2))
1.92/2.12	(step @p3379 :rule cong :premises (@p3378 @p3377) :args (@t700))
1.92/2.12	(step @p3380 :rule eq_resolve :premises (@p150 @p3379))
1.92/2.12	(step @p3381 :rule cong :premises (@p3380 @p3330) :args (@t2978))
1.92/2.12	(step @p3382 :rule nary_cong :premises (@p2348 @p2530) :args (@t2979))
1.92/2.12	(step @p3383 :rule cong :premises (@p3382) :args ((forall @t686 @t2979)))
1.92/2.12	(step @p3384 :rule bool-impl-elim :args (@t684 @t689))
1.92/2.12	(step @p3385 :rule cong :premises (@p3384) :args (@t690))
1.92/2.12	(step @p3386 :rule trans :premises (@p3385 @p3383))
1.92/2.12	(step @p3387 :rule refl :args (tptp.cartprodmempair))
1.92/2.12	(step @p3388 :rule cong :premises (@p3387 @p3386) :args (@t691))
1.92/2.12	(step @p3389 :rule eq_resolve :premises (@p149 @p3388))
1.92/2.12	(step @p3390 :rule cong :premises (@p3389 @p3381) :args (@t2980))
1.92/2.12	(step @p3391 :rule refl :args (@t1556))
1.92/2.12	(step @p3392 :rule nary_cong :premises (@p2348 @p3391) :args (@t2981))
1.92/2.12	(step @p3393 :rule cong :premises (@p3392) :args ((forall @t686 @t2981)))
1.92/2.12	(step @p3394 :rule bool-impl-elim :args (@t684 @t1556))
1.92/2.12	(step @p3395 :rule cong :premises (@p3394) :args ((forall @t686 (=> @t684 @t1556))))
1.92/2.12	(step @p3396 :rule trans :premises (@p3395 @p3393))
1.92/2.12	(step @p3397 :rule aci_norm :args ((= @t2983 @t1554)))
1.92/2.12	(step @p3398 :rule cong :premises (@p3397) :args (@t2984))
1.92/2.12	(step @p3399 :rule quant-merge-prenex :args ((= (forall @t9 @t2986) @t2984)))
1.92/2.12	(step @p3400 :rule alpha_equiv :args (@t2987 (@list @t1551) @t2210))
1.92/2.12	(step @p3401 :rule nary_cong :premises (@p724 @p3400) :args (@t2988))
1.92/2.12	(step @p3402 :rule quant-miniscope-or :args ((= @t2986 @t2988)))
1.92/2.12	(step @p3403 :rule trans :premises (@p3402 @p3401))
1.92/2.12	(step @p3404 :rule symm :premises (@p3403))
1.92/2.12	(step @p3405 :rule cong :premises (@p3404) :args ((forall @t9 (or @t1241 @t2989))))
1.92/2.12	(step @p3406 :rule trans :premises (@p3405 @p3399))
1.92/2.12	(step @p3407 :rule trans :premises (@p3406 @p3398))
1.92/2.12	(step @p3408 :rule refl :args (@t2989))
1.92/2.12	(step @p3409 :rule nary_cong :premises (@p738 @p3408) :args (@t2990))
1.92/2.12	(step @p3410 :rule cong :premises (@p3409) :args ((forall @t9 @t2990)))
1.92/2.12	(step @p3411 :rule trans :premises (@p3410 @p3407))
1.92/2.12	(step @p3412 :rule bool-double-not-elim :args (@t2989))
1.92/2.12	(step @p3413 :rule nary_cong :premises (@p3155 @p3412) :args ((or @t197 (not @t2991))))
1.92/2.12	(step @p3414 :rule bool-and-de-morgan :args (@t7 @t2991 true))
1.92/2.12	(step @p3415 :rule trans :premises (@p3414 @p3413))
1.92/2.12	(step @p3416 :rule cong :premises (@p3415) :args (@t2993))
1.92/2.12	(step @p3417 :rule trans :premises (@p3416 @p3411))
1.92/2.12	(step @p3418 :rule cong :premises (@p3417) :args (@t2994))
1.92/2.12	(step @p3419 :rule exists-elim :args ((= (exists @t9 @t2992) @t2994)))
1.92/2.12	(step @p3420 :rule trans :premises (@p3419 @p3418))
1.92/2.12	(step @p3421 :rule cong :premises (@p2335 @p759) :args (@t678))
1.92/2.12	(step @p3422 :rule cong :premises (@p3421) :args (@t2995))
1.92/2.12	(step @p3423 :rule nary_cong :premises (@p779 @p3422) :args (@t2996))
1.92/2.12	(step @p3424 :rule cong :premises (@p3423) :args ((forall @t70 @t2996)))
1.92/2.12	(step @p3425 :rule bool-and-de-morgan :args (@t352 @t678 true))
1.92/2.12	(step @p3426 :rule cong :premises (@p3425) :args (@t2997))
1.92/2.12	(step @p3427 :rule trans :premises (@p3426 @p3424))
1.92/2.12	(step @p3428 :rule cong :premises (@p3427) :args (@t2998))
1.92/2.12	(step @p3429 :rule exists-elim :args ((= @t680 @t2998)))
1.92/2.12	(step @p3430 :rule trans :premises (@p3429 @p3428))
1.92/2.12	(step @p3431 :rule nary_cong :premises (@p791 @p3430) :args (@t681))
1.92/2.12	(step @p3432 :rule cong :premises (@p3431) :args (@t682))
1.92/2.12	(step @p3433 :rule trans :premises (@p3432 @p3420))
1.92/2.12	(step @p3434 :rule cong :premises (@p2355 @p3433) :args (@t685))
1.92/2.12	(step @p3435 :rule cong :premises (@p3434) :args (@t687))
1.92/2.12	(step @p3436 :rule trans :premises (@p3435 @p3396))
1.92/2.12	(step @p3437 :rule refl :args (tptp.cartprodmempair1))
1.92/2.12	(step @p3438 :rule cong :premises (@p3437 @p3436) :args (@t688))
1.92/2.12	(step @p3439 :rule eq_resolve :premises (@p148 @p3438))
1.92/2.12	(step @p3440 :rule cong :premises (@p3439 @p3390) :args (@t2999))
1.92/2.12	(step @p3441 :rule aci_norm :args ((= @t3001 @t1561)))
1.92/2.12	(step @p3442 :rule cong :premises (@p3441) :args (@t3002))
1.92/2.12	(step @p3443 :rule quant-merge-prenex :args ((= (forall @t245 @t3004) @t3002)))
1.92/2.12	(step @p3444 :rule alpha_equiv :args (@t3005 (@list @t1558) @t2210))
1.92/2.12	(step @p3445 :rule nary_cong :premises (@p724 @p3444) :args (@t3006))
1.92/2.12	(step @p3446 :rule quant-miniscope-or :args ((= @t3004 @t3006)))
1.92/2.12	(step @p3447 :rule trans :premises (@p3446 @p3445))
1.92/2.12	(step @p3448 :rule symm :premises (@p3447))
1.92/2.12	(step @p3449 :rule cong :premises (@p3448) :args ((forall @t245 (or @t1241 @t3007))))
1.92/2.12	(step @p3450 :rule trans :premises (@p3449 @p3443))
1.92/2.12	(step @p3451 :rule trans :premises (@p3450 @p3442))
1.92/2.12	(step @p3452 :rule refl :args (@t3007))
1.92/2.12	(step @p3453 :rule nary_cong :premises (@p738 @p3452) :args (@t3008))
1.92/2.12	(step @p3454 :rule cong :premises (@p3453) :args ((forall @t245 @t3008)))
1.92/2.12	(step @p3455 :rule trans :premises (@p3454 @p3451))
1.92/2.12	(step @p3456 :rule bool-impl-elim :args (@t7 @t3007))
1.92/2.12	(step @p3457 :rule cong :premises (@p3456) :args ((forall @t245 (=> @t7 @t3007))))
1.92/2.12	(step @p3458 :rule trans :premises (@p3457 @p3455))
1.92/2.12	(step @p3459 :rule nary_cong :premises (@p779 @p2485) :args (@t3009))
1.92/2.12	(step @p3460 :rule cong :premises (@p3459) :args ((forall @t70 @t3009)))
1.92/2.12	(step @p3461 :rule bool-impl-elim :args (@t352 @t673))
1.92/2.12	(step @p3462 :rule cong :premises (@p3461) :args (@t674))
1.92/2.12	(step @p3463 :rule trans :premises (@p3462 @p3460))
1.92/2.12	(step @p3464 :rule cong :premises (@p791 @p3463) :args (@t675))
1.92/2.12	(step @p3465 :rule cong :premises (@p3464) :args (@t676))
1.92/2.12	(step @p3466 :rule trans :premises (@p3465 @p3458))
1.92/2.12	(step @p3467 :rule refl :args (tptp.cartprodpairin))
1.92/2.12	(step @p3468 :rule cong :premises (@p3467 @p3466) :args (@t677))
1.92/2.12	(step @p3469 :rule eq_resolve :premises (@p147 @p3468))
1.92/2.12	(step @p3470 :rule cong :premises (@p3469 @p3440) :args (@t3010))
1.92/2.12	(step @p3471 :rule aci_norm :args ((= @t3012 @t1570)))
1.92/2.12	(step @p3472 :rule cong :premises (@p3471) :args (@t3013))
1.92/2.12	(step @p3473 :rule quant-merge-prenex :args ((= (forall @t245 @t3015) @t3013)))
1.92/2.12	(step @p3474 :rule alpha_equiv :args (@t3016 (@list @t1567) @t2210))
1.92/2.12	(step @p3475 :rule nary_cong :premises (@p724 @p3474) :args (@t3017))
1.92/2.12	(step @p3476 :rule quant-miniscope-or :args ((= @t3015 @t3017)))
1.92/2.12	(step @p3477 :rule trans :premises (@p3476 @p3475))
1.92/2.12	(step @p3478 :rule symm :premises (@p3477))
1.92/2.12	(step @p3479 :rule cong :premises (@p3478) :args ((forall @t245 (or @t1241 @t3019))))
1.92/2.12	(step @p3480 :rule trans :premises (@p3479 @p3473))
1.92/2.12	(step @p3481 :rule trans :premises (@p3480 @p3472))
1.92/2.12	(step @p3482 :rule refl :args (@t3019))
1.92/2.12	(step @p3483 :rule nary_cong :premises (@p738 @p3482) :args (@t3020))
1.92/2.12	(step @p3484 :rule cong :premises (@p3483) :args ((forall @t245 @t3020)))
1.92/2.12	(step @p3485 :rule trans :premises (@p3484 @p3481))
1.92/2.12	(step @p3486 :rule bool-impl-elim :args (@t7 @t3019))
1.92/2.12	(step @p3487 :rule cong :premises (@p3486) :args ((forall @t245 (=> @t7 @t3019))))
1.92/2.12	(step @p3488 :rule trans :premises (@p3487 @p3485))
1.92/2.12	(step @p3489 :rule refl :args ((tptp.in @t630 @t660)))
1.92/2.12	(step @p3490 :rule refl :args ((tptp.powerset @t641)))
1.92/2.12	(step @p3491 :rule refl :args ((tptp.powerset @t492)))
1.92/2.12	(step @p3492 :rule refl :args (@t1564))
1.92/2.12	(step @p3493 :rule cong :premises (@p3492) :args (@t1565))
1.92/2.12	(step @p3494 :rule trans :premises (@p3493 @p3491))
1.92/2.12	(step @p3495 :rule cong :premises (@p3494) :args (@t1566))
1.92/2.12	(step @p3496 :rule trans :premises (@p3495 @p3490))
1.92/2.12	(step @p3497 :rule cong :premises (@p746 @p3496) :args (@t3018))
1.92/2.12	(step @p3498 :rule trans :premises (@p3497 @p3489))
1.92/2.12	(step @p3499 :rule ho_cong :premises (@p750 @p3496))
1.92/2.12	(step @p3500 :rule cong :premises (@p3499 @p3498) :args ((= (_ @t2218 @t1566) @t3018)))
1.92/2.12	(step @p3501 :rule symm :premises (@p3500))
1.92/2.12	(step @p3502 :rule refl :args (@t667))
1.92/2.12	(step @p3503 :rule eq_resolve :premises (@p3502 @p3501))
1.92/2.12	(step @p3504 :rule refl :args (tptp.powerset))
1.92/2.12	(step @p3505 :rule ho_cong :premises (@p3504 @p3494))
1.92/2.12	(step @p3506 :rule cong :premises (@p3505 @p3496) :args ((= (_ tptp.powerset @t1565) @t1566)))
1.92/2.12	(step @p3507 :rule symm :premises (@p3506))
1.92/2.12	(step @p3508 :rule refl :args (@t660))
1.92/2.12	(step @p3509 :rule eq_resolve :premises (@p3508 @p3507))
1.92/2.12	(step @p3510 :rule ho_cong :premises (@p3504 @p3492))
1.92/2.12	(step @p3511 :rule cong :premises (@p3510 @p3494) :args ((= (_ tptp.powerset @t1564) @t1565)))
1.92/2.12	(step @p3512 :rule symm :premises (@p3511))
1.92/2.12	(step @p3513 :rule refl :args (@t641))
1.92/2.12	(step @p3514 :rule eq_resolve :premises (@p3513 @p3512))
1.92/2.12	(step @p3515 :rule refl :args (@t492))
1.92/2.12	(step @p3516 :rule cong :premises (@p3515 @p3492) :args ((= @t492 @t1564)))
1.92/2.12	(step @p3517 :rule symm :premises (@p3516))
1.92/2.12	(step @p3518 :rule eq_resolve :premises (@p3515 @p3517))
1.92/2.12	(step @p3519 :rule ho_cong :premises (@p3504 @p3518))
1.92/2.12	(step @p3520 :rule trans :premises (@p3519 @p3514))
1.92/2.12	(step @p3521 :rule ho_cong :premises (@p3504 @p3520))
1.92/2.12	(step @p3522 :rule trans :premises (@p3521 @p3509))
1.92/2.12	(step @p3523 :rule ho_cong :premises (@p760 @p3522))
1.92/2.12	(step @p3524 :rule trans :premises (@p3523 @p3503))
1.92/2.12	(step @p3525 :rule nary_cong :premises (@p779 @p3524) :args (@t3021))
1.92/2.12	(step @p3526 :rule cong :premises (@p3525) :args ((forall @t70 @t3021)))
1.92/2.12	(step @p3527 :rule bool-impl-elim :args (@t352 @t667))
1.92/2.12	(step @p3528 :rule cong :premises (@p3527) :args (@t668))
1.92/2.12	(step @p3529 :rule trans :premises (@p3528 @p3526))
1.92/2.12	(step @p3530 :rule cong :premises (@p791 @p3529) :args (@t669))
1.92/2.12	(step @p3531 :rule cong :premises (@p3530) :args (@t670))
1.92/2.12	(step @p3532 :rule trans :premises (@p3531 @p3488))
1.92/2.12	(step @p3533 :rule refl :args (tptp.ubforcartprodlem3))
1.92/2.12	(step @p3534 :rule cong :premises (@p3533 @p3532) :args (@t671))
1.92/2.12	(step @p3535 :rule eq_resolve :premises (@p146 @p3534))
1.92/2.12	(step @p3536 :rule cong :premises (@p3535 @p3470) :args (@t3022))
1.92/2.12	(step @p3537 :rule aci_norm :args ((= @t3024 @t1576)))
1.92/2.12	(step @p3538 :rule cong :premises (@p3537) :args (@t3025))
1.92/2.12	(step @p3539 :rule quant-merge-prenex :args ((= (forall @t245 @t3027) @t3025)))
1.92/2.12	(step @p3540 :rule alpha_equiv :args (@t3028 (@list @t1573) @t2210))
1.92/2.12	(step @p3541 :rule nary_cong :premises (@p724 @p3540) :args (@t3029))
1.92/2.12	(step @p3542 :rule quant-miniscope-or :args ((= @t3027 @t3029)))
1.92/2.12	(step @p3543 :rule trans :premises (@p3542 @p3541))
1.92/2.12	(step @p3544 :rule symm :premises (@p3543))
1.92/2.12	(step @p3545 :rule cong :premises (@p3544) :args ((forall @t245 (or @t1241 @t3031))))
1.92/2.12	(step @p3546 :rule trans :premises (@p3545 @p3539))
1.92/2.12	(step @p3547 :rule trans :premises (@p3546 @p3538))
1.92/2.12	(step @p3548 :rule refl :args (@t3031))
1.92/2.12	(step @p3549 :rule nary_cong :premises (@p738 @p3548) :args (@t3032))
1.92/2.12	(step @p3550 :rule cong :premises (@p3549) :args ((forall @t245 @t3032)))
1.92/2.12	(step @p3551 :rule trans :premises (@p3550 @p3547))
1.92/2.12	(step @p3552 :rule bool-impl-elim :args (@t7 @t3031))
1.92/2.12	(step @p3553 :rule cong :premises (@p3552) :args ((forall @t245 (=> @t7 @t3031))))
1.92/2.12	(step @p3554 :rule trans :premises (@p3553 @p3551))
1.92/2.12	(step @p3555 :rule refl :args ((tptp.in @t618 @t660)))
1.92/2.12	(step @p3556 :rule cong :premises (@p2697 @p3496) :args (@t3030))
1.92/2.12	(step @p3557 :rule trans :premises (@p3556 @p3555))
1.92/2.12	(step @p3558 :rule ho_cong :premises (@p749 @p2697))
1.92/2.12	(step @p3559 :rule ho_cong :premises (@p3558 @p3496))
1.92/2.12	(step @p3560 :rule cong :premises (@p3559 @p3557) :args ((= (_ (_ tptp.in @t1458) @t1566) @t3030)))
1.92/2.12	(step @p3561 :rule symm :premises (@p3560))
1.92/2.12	(step @p3562 :rule refl :args (@t661))
1.92/2.12	(step @p3563 :rule eq_resolve :premises (@p3562 @p3561))
1.92/2.12	(step @p3564 :rule ho_cong :premises (@p749 @p2727))
1.92/2.12	(step @p3565 :rule ho_cong :premises (@p3564 @p3522))
1.92/2.12	(step @p3566 :rule trans :premises (@p3565 @p3563))
1.92/2.12	(step @p3567 :rule nary_cong :premises (@p779 @p3566) :args (@t3033))
1.92/2.12	(step @p3568 :rule cong :premises (@p3567) :args ((forall @t70 @t3033)))
1.92/2.12	(step @p3569 :rule bool-impl-elim :args (@t352 @t661))
1.92/2.12	(step @p3570 :rule cong :premises (@p3569) :args (@t662))
1.92/2.12	(step @p3571 :rule trans :premises (@p3570 @p3568))
1.92/2.12	(step @p3572 :rule cong :premises (@p791 @p3571) :args (@t663))
1.92/2.12	(step @p3573 :rule cong :premises (@p3572) :args (@t664))
1.92/2.12	(step @p3574 :rule trans :premises (@p3573 @p3554))
1.92/2.12	(step @p3575 :rule refl :args (tptp.ubforcartprodlem2))
1.92/2.12	(step @p3576 :rule cong :premises (@p3575 @p3574) :args (@t665))
1.92/2.12	(step @p3577 :rule eq_resolve :premises (@p145 @p3576))
1.92/2.12	(step @p3578 :rule cong :premises (@p3577 @p3536) :args (@t3034))
1.92/2.12	(step @p3579 :rule aci_norm :args ((= @t3036 @t1582)))
1.92/2.12	(step @p3580 :rule cong :premises (@p3579) :args (@t3037))
1.92/2.12	(step @p3581 :rule quant-merge-prenex :args ((= (forall @t245 @t3039) @t3037)))
1.92/2.12	(step @p3582 :rule alpha_equiv :args (@t3040 (@list @t1579) @t2210))
1.92/2.12	(step @p3583 :rule nary_cong :premises (@p724 @p3582) :args (@t3041))
1.92/2.12	(step @p3584 :rule quant-miniscope-or :args ((= @t3039 @t3041)))
1.92/2.12	(step @p3585 :rule trans :premises (@p3584 @p3583))
1.92/2.12	(step @p3586 :rule symm :premises (@p3585))
1.92/2.12	(step @p3587 :rule cong :premises (@p3586) :args ((forall @t245 (or @t1241 @t3043))))
1.92/2.12	(step @p3588 :rule trans :premises (@p3587 @p3581))
1.92/2.12	(step @p3589 :rule trans :premises (@p3588 @p3580))
1.92/2.12	(step @p3590 :rule refl :args (@t3043))
1.92/2.12	(step @p3591 :rule nary_cong :premises (@p738 @p3590) :args (@t3044))
1.92/2.12	(step @p3592 :rule cong :premises (@p3591) :args ((forall @t245 @t3044)))
1.92/2.12	(step @p3593 :rule trans :premises (@p3592 @p3589))
1.92/2.12	(step @p3594 :rule bool-impl-elim :args (@t7 @t3043))
1.92/2.12	(step @p3595 :rule cong :premises (@p3594) :args ((forall @t245 (=> @t7 @t3043))))
1.92/2.12	(step @p3596 :rule trans :premises (@p3595 @p3593))
1.92/2.12	(step @p3597 :rule refl :args ((tptp.subset @t618 @t641)))
1.92/2.12	(step @p3598 :rule cong :premises (@p2697 @p3494) :args (@t3042))
1.92/2.12	(step @p3599 :rule trans :premises (@p3598 @p3597))
1.92/2.12	(step @p3600 :rule ho_cong :premises (@p1710 @p2697))
1.92/2.12	(step @p3601 :rule ho_cong :premises (@p3600 @p3494))
1.92/2.12	(step @p3602 :rule cong :premises (@p3601 @p3599) :args ((= (_ (_ tptp.subset @t1458) @t1565) @t3042)))
1.92/2.12	(step @p3603 :rule symm :premises (@p3602))
1.92/2.12	(step @p3604 :rule refl :args (@t655))
1.92/2.12	(step @p3605 :rule eq_resolve :premises (@p3604 @p3603))
1.92/2.12	(step @p3606 :rule ho_cong :premises (@p1710 @p2727))
1.92/2.12	(step @p3607 :rule ho_cong :premises (@p3606 @p3520))
1.92/2.12	(step @p3608 :rule trans :premises (@p3607 @p3605))
1.92/2.12	(step @p3609 :rule nary_cong :premises (@p779 @p3608) :args (@t3045))
1.92/2.12	(step @p3610 :rule cong :premises (@p3609) :args ((forall @t70 @t3045)))
1.92/2.12	(step @p3611 :rule bool-impl-elim :args (@t352 @t655))
1.92/2.12	(step @p3612 :rule cong :premises (@p3611) :args (@t656))
1.92/2.12	(step @p3613 :rule trans :premises (@p3612 @p3610))
1.92/2.12	(step @p3614 :rule cong :premises (@p791 @p3613) :args (@t657))
1.92/2.12	(step @p3615 :rule cong :premises (@p3614) :args (@t658))
1.92/2.12	(step @p3616 :rule trans :premises (@p3615 @p3596))
1.92/2.12	(step @p3617 :rule refl :args (tptp.ubforcartprodlem1))
1.92/2.12	(step @p3618 :rule cong :premises (@p3617 @p3616) :args (@t659))
1.92/2.12	(step @p3619 :rule eq_resolve :premises (@p144 @p3618))
1.92/2.12	(step @p3620 :rule cong :premises (@p3619 @p3578) :args (@t3046))
1.92/2.12	(step @p3621 :rule aci_norm :args ((= @t3048 @t1588)))
1.92/2.12	(step @p3622 :rule cong :premises (@p3621) :args (@t3049))
1.92/2.12	(step @p3623 :rule quant-merge-prenex :args ((= (forall @t245 @t3051) @t3049)))
1.92/2.12	(step @p3624 :rule alpha_equiv :args (@t3052 (@list @t1585) @t2210))
1.92/2.12	(step @p3625 :rule nary_cong :premises (@p724 @p3624) :args (@t3053))
1.92/2.12	(step @p3626 :rule quant-miniscope-or :args ((= @t3051 @t3053)))
1.92/2.12	(step @p3627 :rule trans :premises (@p3626 @p3625))
1.92/2.12	(step @p3628 :rule symm :premises (@p3627))
1.92/2.12	(step @p3629 :rule cong :premises (@p3628) :args ((forall @t245 (or @t1241 @t3055))))
1.92/2.12	(step @p3630 :rule trans :premises (@p3629 @p3623))
1.92/2.12	(step @p3631 :rule trans :premises (@p3630 @p3622))
1.92/2.12	(step @p3632 :rule refl :args (@t3055))
1.92/2.12	(step @p3633 :rule nary_cong :premises (@p738 @p3632) :args (@t3056))
1.92/2.12	(step @p3634 :rule cong :premises (@p3633) :args ((forall @t245 @t3056)))
1.92/2.12	(step @p3635 :rule trans :premises (@p3634 @p3631))
1.92/2.12	(step @p3636 :rule bool-impl-elim :args (@t7 @t3055))
1.92/2.12	(step @p3637 :rule cong :premises (@p3636) :args ((forall @t245 (=> @t7 @t3055))))
1.92/2.12	(step @p3638 :rule trans :premises (@p3637 @p3635))
1.92/2.12	(step @p3639 :rule refl :args ((tptp.in @t291 @t641)))
1.92/2.12	(step @p3640 :rule cong :premises (@p2693 @p3494) :args (@t3054))
1.92/2.12	(step @p3641 :rule trans :premises (@p3640 @p3639))
1.92/2.12	(step @p3642 :rule ho_cong :premises (@p749 @p2693))
1.92/2.12	(step @p3643 :rule ho_cong :premises (@p3642 @p3494))
1.92/2.12	(step @p3644 :rule cong :premises (@p3643 @p3641) :args ((= (_ (_ tptp.in @t1456) @t1565) @t3054)))
1.92/2.12	(step @p3645 :rule symm :premises (@p3644))
1.92/2.12	(step @p3646 :rule refl :args (@t650))
1.92/2.12	(step @p3647 :rule eq_resolve :premises (@p3646 @p3645))
1.92/2.12	(step @p3648 :rule ho_cong :premises (@p749 @p2721))
1.92/2.12	(step @p3649 :rule ho_cong :premises (@p3648 @p3520))
1.92/2.12	(step @p3650 :rule trans :premises (@p3649 @p3647))
1.92/2.12	(step @p3651 :rule nary_cong :premises (@p779 @p3650) :args (@t3057))
1.92/2.12	(step @p3652 :rule cong :premises (@p3651) :args ((forall @t70 @t3057)))
1.92/2.12	(step @p3653 :rule bool-impl-elim :args (@t352 @t650))
1.92/2.12	(step @p3654 :rule cong :premises (@p3653) :args (@t651))
1.92/2.12	(step @p3655 :rule trans :premises (@p3654 @p3652))
1.92/2.12	(step @p3656 :rule cong :premises (@p791 @p3655) :args (@t652))
1.92/2.12	(step @p3657 :rule cong :premises (@p3656) :args (@t653))
1.92/2.12	(step @p3658 :rule trans :premises (@p3657 @p3638))
1.92/2.12	(step @p3659 :rule refl :args (tptp.upairinpowunion))
1.92/2.12	(step @p3660 :rule cong :premises (@p3659 @p3658) :args (@t654))
1.92/2.12	(step @p3661 :rule eq_resolve :premises (@p143 @p3660))
1.92/2.12	(step @p3662 :rule cong :premises (@p3661 @p3620) :args (@t3058))
1.92/2.12	(step @p3663 :rule aci_norm :args ((= @t3060 @t1594)))
1.92/2.12	(step @p3664 :rule cong :premises (@p3663) :args (@t3061))
1.92/2.12	(step @p3665 :rule quant-merge-prenex :args ((= (forall @t245 @t3063) @t3061)))
1.92/2.12	(step @p3666 :rule alpha_equiv :args (@t3064 (@list @t1591) @t2210))
1.92/2.12	(step @p3667 :rule nary_cong :premises (@p724 @p3666) :args (@t3065))
1.92/2.12	(step @p3668 :rule quant-miniscope-or :args ((= @t3063 @t3065)))
1.92/2.12	(step @p3669 :rule trans :premises (@p3668 @p3667))
1.92/2.12	(step @p3670 :rule symm :premises (@p3669))
1.92/2.12	(step @p3671 :rule cong :premises (@p3670) :args ((forall @t245 (or @t1241 @t3067))))
1.92/2.12	(step @p3672 :rule trans :premises (@p3671 @p3665))
1.92/2.12	(step @p3673 :rule trans :premises (@p3672 @p3664))
1.92/2.12	(step @p3674 :rule refl :args (@t3067))
1.92/2.12	(step @p3675 :rule nary_cong :premises (@p738 @p3674) :args (@t3068))
1.92/2.12	(step @p3676 :rule cong :premises (@p3675) :args ((forall @t245 @t3068)))
1.92/2.12	(step @p3677 :rule trans :premises (@p3676 @p3673))
1.92/2.12	(step @p3678 :rule bool-impl-elim :args (@t7 @t3067))
1.92/2.12	(step @p3679 :rule cong :premises (@p3678) :args ((forall @t245 (=> @t7 @t3067))))
1.92/2.12	(step @p3680 :rule trans :premises (@p3679 @p3677))
1.92/2.12	(step @p3681 :rule refl :args ((tptp.subset @t291 @t492)))
1.92/2.12	(step @p3682 :rule cong :premises (@p2693 @p3492) :args (@t3066))
1.92/2.12	(step @p3683 :rule trans :premises (@p3682 @p3681))
1.92/2.12	(step @p3684 :rule ho_cong :premises (@p1710 @p2693))
1.92/2.12	(step @p3685 :rule ho_cong :premises (@p3684 @p3492))
1.92/2.12	(step @p3686 :rule cong :premises (@p3685 @p3683) :args ((= (_ (_ tptp.subset @t1456) @t1564) @t3066)))
1.92/2.12	(step @p3687 :rule symm :premises (@p3686))
1.92/2.12	(step @p3688 :rule refl :args (@t645))
1.92/2.12	(step @p3689 :rule eq_resolve :premises (@p3688 @p3687))
1.92/2.12	(step @p3690 :rule ho_cong :premises (@p1710 @p2721))
1.92/2.12	(step @p3691 :rule ho_cong :premises (@p3690 @p3518))
1.92/2.12	(step @p3692 :rule trans :premises (@p3691 @p3689))
1.92/2.12	(step @p3693 :rule nary_cong :premises (@p779 @p3692) :args (@t3069))
1.92/2.12	(step @p3694 :rule cong :premises (@p3693) :args ((forall @t70 @t3069)))
1.92/2.12	(step @p3695 :rule bool-impl-elim :args (@t352 @t645))
1.92/2.12	(step @p3696 :rule cong :premises (@p3695) :args (@t646))
1.92/2.12	(step @p3697 :rule trans :premises (@p3696 @p3694))
1.92/2.12	(step @p3698 :rule cong :premises (@p791 @p3697) :args (@t647))
1.92/2.12	(step @p3699 :rule cong :premises (@p3698) :args (@t648))
1.92/2.12	(step @p3700 :rule trans :premises (@p3699 @p3680))
1.92/2.12	(step @p3701 :rule refl :args (tptp.upairsubunion))
1.92/2.12	(step @p3702 :rule cong :premises (@p3701 @p3700) :args (@t649))
1.92/2.12	(step @p3703 :rule eq_resolve :premises (@p142 @p3702))
1.92/2.12	(step @p3704 :rule cong :premises (@p3703 @p3662) :args (@t3070))
1.92/2.12	(step @p3705 :rule eq-symm :args (@t1599 tptp.upairset2E))
1.92/2.12	(step @p3706 :rule refl :args (tptp.upairset2E))
1.92/2.12	(step @p3707 :rule refl :args (@t1597))
1.92/2.12	(step @p3708 :rule refl :args ((tptp.in @t289 @t291)))
1.92/2.12	(step @p3709 :rule cong :premises (@p2645 @p2693) :args (@t1598))
1.92/2.12	(step @p3710 :rule trans :premises (@p3709 @p3708))
1.92/2.12	(step @p3711 :rule refl :args (@t292))
1.92/2.12	(step @p3712 :rule ho_cong :premises (@p3711 @p2693))
1.92/2.12	(step @p3713 :rule cong :premises (@p3712 @p3710) :args ((= (_ @t292 @t1456) @t1598)))
1.92/2.12	(step @p3714 :rule symm :premises (@p3713))
1.92/2.12	(step @p3715 :rule refl :args (@t293))
1.92/2.12	(step @p3716 :rule eq_resolve :premises (@p3715 @p3714))
1.92/2.12	(step @p3717 :rule ho_cong :premises (@p3711 @p2721))
1.92/2.12	(step @p3718 :rule trans :premises (@p3717 @p3716))
1.92/2.12	(step @p3719 :rule cong :premises (@p3718) :args (@t3071))
1.92/2.12	(step @p3720 :rule nary_cong :premises (@p3719 @p2858 @p3707) :args (@t3072))
1.92/2.12	(step @p3721 :rule cong :premises (@p3720) :args ((forall @t295 @t3072)))
1.92/2.12	(step @p3722 :rule aci_norm :args ((= (or @t3071 @t3073) @t3072)))
1.92/2.12	(step @p3723 :rule bool-impl-elim :args (@t293 @t3073))
1.92/2.12	(step @p3724 :rule trans :premises (@p3723 @p3722))
1.92/2.12	(step @p3725 :rule cong :premises (@p3724) :args ((forall @t295 (=> @t293 @t3073))))
1.92/2.12	(step @p3726 :rule trans :premises (@p3725 @p3721))
1.92/2.12	(step @p3727 :rule eq-symm :args (@t289 @t19))
1.92/2.12	(step @p3728 :rule eq-symm :args (@t289 @t4))
1.92/2.12	(step @p3729 :rule nary_cong :premises (@p3728 @p3727) :args (@t290))
1.92/2.12	(step @p3730 :rule refl :args (@t293))
1.92/2.12	(step @p3731 :rule cong :premises (@p3730 @p3729) :args (@t294))
1.92/2.12	(step @p3732 :rule cong :premises (@p3731) :args (@t296))
1.92/2.12	(step @p3733 :rule trans :premises (@p3732 @p3726))
1.92/2.12	(step @p3734 :rule cong :premises (@p3733 @p3706) :args ((= @t296 tptp.upairset2E)))
1.92/2.12	(step @p3735 :rule trans :premises (@p3734 @p3705))
1.92/2.12	(step @p3736 :rule eq-symm :args (tptp.upairset2E @t296))
1.92/2.12	(step @p3737 :rule trans :premises (@p3736 @p3735))
1.92/2.12	(step @p3738 :rule eq_resolve :premises (@p141 @p3737))
1.92/2.12	(step @p3739 :rule cong :premises (@p3738 @p3704) :args (@t3074))
1.92/2.12	(step @p3740 :rule refl :args ((tptp.in @t279 @t641)))
1.92/2.12	(step @p3741 :rule cong :premises (@p1193 @p3494) :args (@t1600))
1.92/2.12	(step @p3742 :rule trans :premises (@p3741 @p3740))
1.92/2.12	(step @p3743 :rule ho_cong :premises (@p3003 @p3494))
1.92/2.12	(step @p3744 :rule cong :premises (@p3743 @p3742) :args ((= (_ @t2882 @t1565) @t1600)))
1.92/2.12	(step @p3745 :rule symm :premises (@p3744))
1.92/2.12	(step @p3746 :rule refl :args (@t642))
1.92/2.12	(step @p3747 :rule eq_resolve :premises (@p3746 @p3745))
1.92/2.12	(step @p3748 :rule ho_cong :premises (@p3009 @p3520))
1.92/2.12	(step @p3749 :rule trans :premises (@p3748 @p3747))
1.92/2.12	(step @p3750 :rule nary_cong :premises (@p738 @p3749) :args (@t3075))
1.92/2.12	(step @p3751 :rule cong :premises (@p3750) :args ((forall @t245 @t3075)))
1.92/2.12	(step @p3752 :rule bool-impl-elim :args (@t7 @t642))
1.92/2.12	(step @p3753 :rule cong :premises (@p3752) :args (@t643))
1.92/2.12	(step @p3754 :rule trans :premises (@p3753 @p3751))
1.92/2.12	(step @p3755 :rule refl :args (tptp.singletoninpowunion))
1.92/2.12	(step @p3756 :rule cong :premises (@p3755 @p3754) :args (@t644))
1.92/2.12	(step @p3757 :rule eq_resolve :premises (@p140 @p3756))
1.92/2.12	(step @p3758 :rule cong :premises (@p3757 @p3739) :args (@t3076))
1.92/2.12	(step @p3759 :rule refl :args ((tptp.in @t279 @t33)))
1.92/2.12	(step @p3760 :rule refl :args (@t1602))
1.92/2.12	(step @p3761 :rule cong :premises (@p1193 @p3760) :args (@t1603))
1.92/2.12	(step @p3762 :rule trans :premises (@p3761 @p3759))
1.92/2.12	(step @p3763 :rule ho_cong :premises (@p3003 @p3760))
1.92/2.12	(step @p3764 :rule cong :premises (@p3763 @p3762) :args ((= (_ @t2882 @t1602) @t1603)))
1.92/2.12	(step @p3765 :rule symm :premises (@p3764))
1.92/2.12	(step @p3766 :rule refl :args (@t638))
1.92/2.12	(step @p3767 :rule eq_resolve :premises (@p3766 @p3765))
1.92/2.12	(step @p3768 :rule refl :args (@t33))
1.92/2.12	(step @p3769 :rule cong :premises (@p3768 @p3760) :args ((= @t33 @t1602)))
1.92/2.12	(step @p3770 :rule symm :premises (@p3769))
1.92/2.12	(step @p3771 :rule eq_resolve :premises (@p3768 @p3770))
1.92/2.12	(step @p3772 :rule ho_cong :premises (@p3009 @p3771))
1.92/2.12	(step @p3773 :rule trans :premises (@p3772 @p3767))
1.92/2.12	(step @p3774 :rule nary_cong :premises (@p738 @p3773) :args (@t3077))
1.92/2.12	(step @p3775 :rule cong :premises (@p3774) :args ((forall @t46 @t3077)))
1.92/2.12	(step @p3776 :rule bool-impl-elim :args (@t7 @t638))
1.92/2.12	(step @p3777 :rule cong :premises (@p3776) :args (@t639))
1.92/2.12	(step @p3778 :rule trans :premises (@p3777 @p3775))
1.92/2.12	(step @p3779 :rule refl :args (tptp.singletoninpowerset))
1.92/2.12	(step @p3780 :rule cong :premises (@p3779 @p3778) :args (@t640))
1.92/2.12	(step @p3781 :rule eq_resolve :premises (@p139 @p3780))
1.92/2.12	(step @p3782 :rule cong :premises (@p3781 @p3758) :args (@t3078))
1.92/2.12	(step @p3783 :rule refl :args ((tptp.subset @t279 @t2)))
1.92/2.12	(step @p3784 :rule cong :premises (@p1193 @p1162) :args (@t1605))
1.92/2.12	(step @p3785 :rule trans :premises (@p3784 @p3783))
1.92/2.12	(step @p3786 :rule ho_cong :premises (@p1710 @p1193))
1.92/2.12	(step @p3787 :rule ho_cong :premises (@p3786 @p1162))
1.92/2.12	(step @p3788 :rule cong :premises (@p3787 @p3785) :args ((= (_ (_ tptp.subset @t1444) @t2) @t1605)))
1.92/2.12	(step @p3789 :rule symm :premises (@p3788))
1.92/2.12	(step @p3790 :rule refl :args (@t634))
1.92/2.12	(step @p3791 :rule eq_resolve :premises (@p3790 @p3789))
1.92/2.12	(step @p3792 :rule ho_cong :premises (@p1710 @p1197))
1.92/2.12	(step @p3793 :rule ho_cong :premises (@p3792 @p1162))
1.92/2.12	(step @p3794 :rule trans :premises (@p3793 @p3791))
1.92/2.12	(step @p3795 :rule nary_cong :premises (@p738 @p3794) :args (@t3079))
1.92/2.12	(step @p3796 :rule cong :premises (@p3795) :args ((forall @t46 @t3079)))
1.92/2.12	(step @p3797 :rule bool-impl-elim :args (@t7 @t634))
1.92/2.12	(step @p3798 :rule cong :premises (@p3797) :args (@t635))
1.92/2.12	(step @p3799 :rule trans :premises (@p3798 @p3796))
1.92/2.12	(step @p3800 :rule refl :args (tptp.singletonsubset))
1.92/2.12	(step @p3801 :rule cong :premises (@p3800 @p3799) :args (@t636))
1.92/2.12	(step @p3802 :rule eq_resolve :premises (@p138 @p3801))
1.92/2.12	(step @p3803 :rule cong :premises (@p3802 @p3782) :args (@t3080))
1.92/2.12	(step @p3804 :rule refl :args ((tptp.iskpair @t630)))
1.92/2.12	(step @p3805 :rule cong :premises (@p746) :args (@t1607))
1.92/2.12	(step @p3806 :rule trans :premises (@p3805 @p3804))
1.92/2.12	(step @p3807 :rule refl :args (tptp.iskpair))
1.92/2.12	(step @p3808 :rule ho_cong :premises (@p3807 @p746))
1.92/2.12	(step @p3809 :rule cong :premises (@p3808 @p3806) :args ((= (_ tptp.iskpair @t1283) @t1607)))
1.92/2.12	(step @p3810 :rule symm :premises (@p3809))
1.92/2.12	(step @p3811 :rule refl :args (@t631))
1.92/2.12	(step @p3812 :rule eq_resolve :premises (@p3811 @p3810))
1.92/2.12	(step @p3813 :rule ho_cong :premises (@p3807 @p759))
1.92/2.12	(step @p3814 :rule trans :premises (@p3813 @p3812))
1.92/2.12	(step @p3815 :rule cong :premises (@p3814) :args (@t632))
1.92/2.12	(step @p3816 :rule refl :args (tptp.kpairp))
1.92/2.12	(step @p3817 :rule cong :premises (@p3816 @p3815) :args (@t633))
1.92/2.12	(step @p3818 :rule eq_resolve :premises (@p137 @p3817))
1.92/2.12	(step @p3819 :rule cong :premises (@p3818 @p3803) :args (@t3081))
1.92/2.12	(step @p3820 :rule refl :args ((tptp.iskpair @t618)))
1.92/2.12	(step @p3821 :rule cong :premises (@p2697) :args (@t1609))
1.92/2.12	(step @p3822 :rule trans :premises (@p3821 @p3820))
1.92/2.12	(step @p3823 :rule ho_cong :premises (@p3807 @p2697))
1.92/2.12	(step @p3824 :rule cong :premises (@p3823 @p3822) :args ((= (_ tptp.iskpair @t1458) @t1609)))
1.92/2.12	(step @p3825 :rule symm :premises (@p3824))
1.92/2.12	(step @p3826 :rule refl :args (@t626))
1.92/2.12	(step @p3827 :rule eq_resolve :premises (@p3826 @p3825))
1.92/2.12	(step @p3828 :rule ho_cong :premises (@p3807 @p2727))
1.92/2.12	(step @p3829 :rule trans :premises (@p3828 @p3827))
1.92/2.12	(step @p3830 :rule cong :premises (@p3829) :args (@t627))
1.92/2.12	(step @p3831 :rule refl :args (tptp.kpairiskpair))
1.92/2.12	(step @p3832 :rule cong :premises (@p3831 @p3830) :args (@t628))
1.92/2.12	(step @p3833 :rule eq_resolve :premises (@p136 @p3832))
1.92/2.12	(step @p3834 :rule cong :premises (@p3833 @p3819) :args (@t3082))
1.92/2.12	(step @p3835 :rule refl :args ((tptp.in @t19 @t619)))
1.92/2.12	(step @p3836 :rule refl :args ((tptp.setunion @t618)))
1.92/2.12	(step @p3837 :rule cong :premises (@p2697) :args (@t1611))
1.92/2.12	(step @p3838 :rule trans :premises (@p3837 @p3836))
1.92/2.12	(step @p3839 :rule cong :premises (@p904 @p3838) :args (@t1612))
1.92/2.12	(step @p3840 :rule trans :premises (@p3839 @p3835))
1.92/2.12	(step @p3841 :rule refl :args (@t20))
1.92/2.12	(step @p3842 :rule ho_cong :premises (@p3841 @p3838))
1.92/2.12	(step @p3843 :rule cong :premises (@p3842 @p3840) :args ((= (_ @t20 @t1611) @t1612)))
1.92/2.12	(step @p3844 :rule symm :premises (@p3843))
1.92/2.12	(step @p3845 :rule refl :args (@t623))
1.92/2.12	(step @p3846 :rule eq_resolve :premises (@p3845 @p3844))
1.92/2.12	(step @p3847 :rule ho_cong :premises (@p2001 @p2697))
1.92/2.12	(step @p3848 :rule cong :premises (@p3847 @p3838) :args ((= (_ tptp.setunion @t1458) @t1611)))
1.92/2.12	(step @p3849 :rule symm :premises (@p3848))
1.92/2.12	(step @p3850 :rule refl :args (@t619))
1.92/2.12	(step @p3851 :rule eq_resolve :premises (@p3850 @p3849))
1.92/2.12	(step @p3852 :rule ho_cong :premises (@p2001 @p2727))
1.92/2.12	(step @p3853 :rule trans :premises (@p3852 @p3851))
1.92/2.12	(step @p3854 :rule ho_cong :premises (@p3841 @p3853))
1.92/2.12	(step @p3855 :rule trans :premises (@p3854 @p3846))
1.92/2.12	(step @p3856 :rule cong :premises (@p3855) :args (@t624))
1.92/2.12	(step @p3857 :rule refl :args (tptp.setukpairIR))
1.92/2.12	(step @p3858 :rule cong :premises (@p3857 @p3856) :args (@t625))
1.92/2.12	(step @p3859 :rule eq_resolve :premises (@p135 @p3858))
1.92/2.12	(step @p3860 :rule cong :premises (@p3859 @p3834) :args (@t3083))
1.92/2.12	(step @p3861 :rule refl :args ((tptp.in @t4 @t619)))
1.92/2.12	(step @p3862 :rule cong :premises (@p1183 @p3838) :args (@t1614))
1.92/2.12	(step @p3863 :rule trans :premises (@p3862 @p3861))
1.92/2.12	(step @p3864 :rule ho_cong :premises (@p3336 @p3838))
1.92/2.12	(step @p3865 :rule cong :premises (@p3864 @p3863) :args ((= (_ @t5 @t1611) @t1614)))
1.92/2.12	(step @p3866 :rule symm :premises (@p3865))
1.92/2.12	(step @p3867 :rule refl :args (@t620))
1.92/2.12	(step @p3868 :rule eq_resolve :premises (@p3867 @p3866))
1.92/2.12	(step @p3869 :rule ho_cong :premises (@p3336 @p3853))
1.92/2.12	(step @p3870 :rule trans :premises (@p3869 @p3868))
1.92/2.12	(step @p3871 :rule cong :premises (@p3870) :args (@t621))
1.92/2.12	(step @p3872 :rule refl :args (tptp.setukpairIL))
1.92/2.12	(step @p3873 :rule cong :premises (@p3872 @p3871) :args (@t622))
1.92/2.12	(step @p3874 :rule eq_resolve :premises (@p134 @p3873))
1.92/2.12	(step @p3875 :rule cong :premises (@p3874 @p3860) :args (@t3084))
1.92/2.12	(step @p3876 :rule eq-symm :args (@t1617 tptp.secondinupair))
1.92/2.12	(step @p3877 :rule refl :args (tptp.secondinupair))
1.92/2.12	(step @p3878 :rule refl :args ((tptp.in @t19 @t291)))
1.92/2.12	(step @p3879 :rule cong :premises (@p904 @p2693) :args (@t1616))
1.92/2.12	(step @p3880 :rule trans :premises (@p3879 @p3878))
1.92/2.12	(step @p3881 :rule ho_cong :premises (@p3841 @p2693))
1.92/2.12	(step @p3882 :rule cong :premises (@p3881 @p3880) :args ((= (_ @t20 @t1456) @t1616)))
1.92/2.12	(step @p3883 :rule symm :premises (@p3882))
1.92/2.12	(step @p3884 :rule refl :args (@t301))
1.92/2.12	(step @p3885 :rule eq_resolve :premises (@p3884 @p3883))
1.92/2.12	(step @p3886 :rule ho_cong :premises (@p3841 @p2721))
1.92/2.12	(step @p3887 :rule trans :premises (@p3886 @p3885))
1.92/2.12	(step @p3888 :rule cong :premises (@p3887) :args (@t302))
1.92/2.12	(step @p3889 :rule cong :premises (@p3888 @p3877) :args ((= @t302 tptp.secondinupair)))
1.92/2.12	(step @p3890 :rule trans :premises (@p3889 @p3876))
1.92/2.12	(step @p3891 :rule eq-symm :args (tptp.secondinupair @t302))
1.92/2.12	(step @p3892 :rule trans :premises (@p3891 @p3890))
1.92/2.12	(step @p3893 :rule eq_resolve :premises (@p133 @p3892))
1.92/2.12	(step @p3894 :rule cong :premises (@p3893 @p3875) :args (@t3085))
1.92/2.12	(step @p3895 :rule refl :args ((tptp.in @t4 @t598)))
1.92/2.12	(step @p3896 :rule refl :args (@t1618))
1.92/2.12	(step @p3897 :rule cong :premises (@p1183 @p3896) :args (@t1619))
1.92/2.12	(step @p3898 :rule trans :premises (@p3897 @p3895))
1.92/2.12	(step @p3899 :rule ho_cong :premises (@p3336 @p3896))
1.92/2.12	(step @p3900 :rule cong :premises (@p3899 @p3898) :args ((= (_ @t5 @t1618) @t1619)))
1.92/2.12	(step @p3901 :rule symm :premises (@p3900))
1.92/2.12	(step @p3902 :rule refl :args (@t599))
1.92/2.12	(step @p3903 :rule eq_resolve :premises (@p3902 @p3901))
1.92/2.12	(step @p3904 :rule refl :args (@t598))
1.92/2.12	(step @p3905 :rule cong :premises (@p3904 @p3896) :args ((= @t598 @t1618)))
1.92/2.12	(step @p3906 :rule symm :premises (@p3905))
1.92/2.12	(step @p3907 :rule eq_resolve :premises (@p3904 @p3906))
1.92/2.12	(step @p3908 :rule ho_cong :premises (@p3336 @p3907))
1.92/2.12	(step @p3909 :rule trans :premises (@p3908 @p3903))
1.92/2.12	(step @p3910 :rule cong :premises (@p3909) :args (@t609))
1.92/2.12	(step @p3911 :rule refl :args (@t1621))
1.92/2.12	(step @p3912 :rule refl :args (@t6))
1.92/2.12	(step @p3913 :rule cong :premises (@p3912 @p3911) :args ((= @t6 @t1621)))
1.92/2.12	(step @p3914 :rule symm :premises (@p3913))
1.92/2.12	(step @p3915 :rule eq_resolve :premises (@p3912 @p3914))
1.92/2.12	(step @p3916 :rule nary_cong :premises (@p737 @p3915 @p3910) :args (@t3086))
1.92/2.12	(step @p3917 :rule cong :premises (@p3916) :args ((forall @t245 @t3086)))
1.92/2.12	(step @p3918 :rule aci_norm :args ((= (or @t7 (or @t6 @t609)) @t3086)))
1.92/2.12	(step @p3919 :rule refl :args (@t609))
1.92/2.12	(step @p3920 :rule bool-double-not-elim :args (@t6))
1.92/2.12	(step @p3921 :rule nary_cong :premises (@p3920 @p3919) :args ((or @t3087 @t609)))
1.92/2.12	(step @p3922 :rule bool-impl-elim :args (@t435 @t609))
1.92/2.12	(step @p3923 :rule trans :premises (@p3922 @p3921))
1.92/2.12	(step @p3924 :rule nary_cong :premises (@p734 @p3923) :args ((or @t7 @t613)))
1.92/2.12	(step @p3925 :rule trans :premises (@p3924 @p3918))
1.92/2.12	(step @p3926 :rule refl :args (@t613))
1.92/2.12	(step @p3927 :rule bool-double-not-elim :args (@t7))
1.92/2.12	(step @p3928 :rule nary_cong :premises (@p3927 @p3926) :args ((or @t3088 @t613)))
1.92/2.12	(step @p3929 :rule bool-impl-elim :args (@t197 @t613))
1.92/2.12	(step @p3930 :rule trans :premises (@p3929 @p3928))
1.92/2.12	(step @p3931 :rule trans :premises (@p3930 @p3925))
1.92/2.12	(step @p3932 :rule cong :premises (@p3931) :args (@t614))
1.92/2.12	(step @p3933 :rule trans :premises (@p3932 @p3917))
1.92/2.12	(step @p3934 :rule refl :args (tptp.symdiffIneg2))
1.92/2.12	(step @p3935 :rule cong :premises (@p3934 @p3933) :args (@t615))
1.92/2.12	(step @p3936 :rule eq_resolve :premises (@p132 @p3935))
1.92/2.12	(step @p3937 :rule cong :premises (@p3936 @p3894) :args (@t3089))
1.92/2.12	(step @p3938 :rule cong :premises (@p3915) :args (@t435))
1.92/2.12	(step @p3939 :rule nary_cong :premises (@p738 @p3938 @p3910) :args (@t3090))
1.92/2.12	(step @p3940 :rule cong :premises (@p3939) :args ((forall @t245 @t3090)))
1.92/2.12	(step @p3941 :rule aci_norm :args ((= (or @t197 (or @t435 @t609)) @t3090)))
1.92/2.12	(step @p3942 :rule bool-impl-elim :args (@t6 @t609))
1.92/2.12	(step @p3943 :rule nary_cong :premises (@p3155 @p3942) :args ((or @t197 @t610)))
1.92/2.12	(step @p3944 :rule trans :premises (@p3943 @p3941))
1.92/2.12	(step @p3945 :rule bool-impl-elim :args (@t7 @t610))
1.92/2.12	(step @p3946 :rule trans :premises (@p3945 @p3944))
1.92/2.12	(step @p3947 :rule cong :premises (@p3946) :args (@t611))
1.92/2.12	(step @p3948 :rule trans :premises (@p3947 @p3940))
1.92/2.12	(step @p3949 :rule refl :args (tptp.symdiffIneg1))
1.92/2.12	(step @p3950 :rule cong :premises (@p3949 @p3948) :args (@t612))
1.92/2.12	(step @p3951 :rule eq_resolve :premises (@p131 @p3950))
1.92/2.12	(step @p3952 :rule cong :premises (@p3951 @p3937) :args (@t3091))
1.92/2.12	(step @p3953 :rule nary_cong :premises (@p737 @p3938 @p3909) :args (@t3092))
1.92/2.12	(step @p3954 :rule cong :premises (@p3953) :args ((forall @t245 @t3092)))
1.92/2.12	(step @p3955 :rule aci_norm :args ((= (or @t7 (or @t435 @t599)) @t3092)))
1.92/2.12	(step @p3956 :rule bool-impl-elim :args (@t6 @t599))
1.92/2.12	(step @p3957 :rule nary_cong :premises (@p734 @p3956) :args ((or @t7 @t606)))
1.92/2.12	(step @p3958 :rule trans :premises (@p3957 @p3955))
1.92/2.12	(step @p3959 :rule refl :args (@t606))
1.92/2.12	(step @p3960 :rule nary_cong :premises (@p3927 @p3959) :args ((or @t3088 @t606)))
1.92/2.12	(step @p3961 :rule bool-impl-elim :args (@t197 @t606))
1.92/2.12	(step @p3962 :rule trans :premises (@p3961 @p3960))
1.92/2.12	(step @p3963 :rule trans :premises (@p3962 @p3958))
1.92/2.12	(step @p3964 :rule cong :premises (@p3963) :args (@t607))
1.92/2.12	(step @p3965 :rule trans :premises (@p3964 @p3954))
1.92/2.12	(step @p3966 :rule refl :args (tptp.symdiffI2))
1.92/2.12	(step @p3967 :rule cong :premises (@p3966 @p3965) :args (@t608))
1.92/2.12	(step @p3968 :rule eq_resolve :premises (@p130 @p3967))
1.92/2.12	(step @p3969 :rule cong :premises (@p3968 @p3952) :args (@t3093))
1.92/2.12	(step @p3970 :rule nary_cong :premises (@p738 @p3915 @p3909) :args (@t3094))
1.92/2.12	(step @p3971 :rule cong :premises (@p3970) :args ((forall @t245 @t3094)))
1.92/2.12	(step @p3972 :rule aci_norm :args ((= (or @t197 (or @t6 @t599)) @t3094)))
1.92/2.12	(step @p3973 :rule nary_cong :premises (@p3920 @p3902) :args ((or @t3087 @t599)))
1.92/2.12	(step @p3974 :rule bool-impl-elim :args (@t435 @t599))
1.92/2.12	(step @p3975 :rule trans :premises (@p3974 @p3973))
1.92/2.12	(step @p3976 :rule nary_cong :premises (@p3155 @p3975) :args ((or @t197 @t603)))
1.92/2.12	(step @p3977 :rule trans :premises (@p3976 @p3972))
1.92/2.12	(step @p3978 :rule bool-impl-elim :args (@t7 @t603))
1.92/2.12	(step @p3979 :rule trans :premises (@p3978 @p3977))
1.92/2.12	(step @p3980 :rule cong :premises (@p3979) :args (@t604))
1.92/2.12	(step @p3981 :rule trans :premises (@p3980 @p3971))
1.92/2.12	(step @p3982 :rule refl :args (tptp.symdiffI1))
1.92/2.12	(step @p3983 :rule cong :premises (@p3982 @p3981) :args (@t605))
1.92/2.12	(step @p3984 :rule eq_resolve :premises (@p129 @p3983))
1.92/2.12	(step @p3985 :rule cong :premises (@p3984 @p3969) :args (@t3095))
1.92/2.12	(step @p3986 :rule refl :args (@t1627))
1.92/2.12	(step @p3987 :rule refl :args (@t1628))
1.92/2.12	(step @p3988 :rule nary_cong :premises (@p3910 @p3987 @p3986) :args (@t3096))
1.92/2.12	(step @p3989 :rule cong :premises (@p3988) :args ((forall @t245 @t3096)))
1.92/2.12	(step @p3990 :rule aci_norm :args ((= (or @t609 @t3097) @t3096)))
1.92/2.12	(step @p3991 :rule bool-impl-elim :args (@t599 @t3097))
1.92/2.12	(step @p3992 :rule trans :premises (@p3991 @p3990))
1.92/2.12	(step @p3993 :rule cong :premises (@p3992) :args ((forall @t245 (=> @t599 @t3097))))
1.92/2.12	(step @p3994 :rule trans :premises (@p3993 @p3989))
1.92/2.12	(step @p3995 :rule aci_norm :args ((= (and @t1241 @t1621 true) @t1627)))
1.92/2.12	(step @p3996 :rule evaluate :args (@t3098))
1.92/2.12	(step @p3997 :rule refl :args (@t1621))
1.92/2.12	(step @p3998 :rule nary_cong :premises (@p878 @p3997 @p3996) :args (@t3099))
1.92/2.12	(step @p3999 :rule trans :premises (@p3998 @p3995))
1.92/2.12	(step @p4000 :rule aci_norm :args ((= (and @t1240 @t1623 true) @t1628)))
1.92/2.12	(step @p4001 :rule refl :args (@t1623))
1.92/2.12	(step @p4002 :rule nary_cong :premises (@p2172 @p4001 @p3996) :args (@t3100))
1.92/2.12	(step @p4003 :rule trans :premises (@p4002 @p4000))
1.92/2.12	(step @p4004 :rule nary_cong :premises (@p4003 @p3999) :args (@t3101))
1.92/2.12	(step @p4005 :rule aci_norm :args ((= @t3102 @t3101)))
1.92/2.12	(step @p4006 :rule trans :premises (@p4005 @p4004))
1.92/2.12	(step @p4007 :rule quant-var-elim-eq :args ((= (forall @t179 (or @t3106 @t3105 @t3104 @t173)) @t3102)))
1.92/2.12	(step @p4008 :rule refl :args (@t173))
1.92/2.12	(step @p4009 :rule refl :args (@t3104))
1.92/2.12	(step @p4010 :rule refl :args (@t3105))
1.92/2.12	(step @p4011 :rule bool-eq-false :args (@t173))
1.92/2.12	(step @p4012 :rule symm :premises (@p4011))
1.92/2.12	(step @p4013 :rule cong :premises (@p4012) :args ((not @t3103)))
1.92/2.12	(step @p4014 :rule bool-double-not-elim :args (@t173))
1.92/2.12	(step @p4015 :rule symm :premises (@p4014))
1.92/2.12	(step @p4016 :rule trans :premises (@p4015 @p4013))
1.92/2.12	(step @p4017 :rule nary_cong :premises (@p4016 @p4010 @p4009 @p4008) :args (@t3107))
1.92/2.12	(step @p4018 :rule aci_norm :args ((= @t3108 @t3107)))
1.92/2.12	(step @p4019 :rule trans :premises (@p4018 @p4017))
1.92/2.12	(step @p4020 :rule cong :premises (@p4019) :args ((forall @t179 @t3108)))
1.92/2.12	(step @p4021 :rule trans :premises (@p4020 @p4007))
1.92/2.12	(step @p4022 :rule trans :premises (@p4021 @p4006))
1.92/2.12	(step @p4023 :rule refl :args (@t3103))
1.92/2.12	(step @p4024 :rule nary_cong :premises (@p738 @p3915 @p4023) :args (@t3109))
1.92/2.12	(step @p4025 :rule nary_cong :premises (@p737 @p3938 @p4023) :args (@t3110))
1.92/2.12	(step @p4026 :rule nary_cong :premises (@p4025 @p4024 @p4008) :args (@t3111))
1.92/2.12	(step @p4027 :rule cong :premises (@p4026) :args ((forall @t179 @t3111)))
1.92/2.12	(step @p4028 :rule trans :premises (@p4027 @p4022))
1.92/2.12	(step @p4029 :rule aci_norm :args ((= (or @t3110 (or @t3109 @t173)) @t3111)))
1.92/2.12	(step @p4030 :rule aci_norm :args ((= (and @t197 @t3112) @t3109)))
1.92/2.12	(step @p4031 :rule bool-implies-de-morgan :args (@t6 @t173))
1.92/2.12	(step @p4032 :rule nary_cong :premises (@p3155 @p4031) :args ((and @t197 @t3113)))
1.92/2.12	(step @p4033 :rule trans :premises (@p4032 @p4030))
1.92/2.12	(step @p4034 :rule bool-implies-de-morgan :args (@t197 @t498))
1.92/2.12	(step @p4035 :rule trans :premises (@p4034 @p4033))
1.92/2.12	(step @p4036 :rule nary_cong :premises (@p4035 @p4008) :args ((or (not @t593) @t173)))
1.92/2.12	(step @p4037 :rule bool-impl-elim :args (@t593 @t173))
1.92/2.12	(step @p4038 :rule trans :premises (@p4037 @p4036))
1.92/2.12	(step @p4039 :rule aci_norm :args ((= (and @t7 (and @t435 @t3103)) @t3110)))
1.92/2.12	(step @p4040 :rule bool-implies-de-morgan :args (@t435 @t173))
1.92/2.12	(step @p4041 :rule nary_cong :premises (@p734 @p4040) :args ((and @t7 (not @t595))))
1.92/2.12	(step @p4042 :rule trans :premises (@p4041 @p4039))
1.92/2.12	(step @p4043 :rule bool-implies-de-morgan :args (@t7 @t595))
1.92/2.12	(step @p4044 :rule trans :premises (@p4043 @p4042))
1.92/2.12	(step @p4045 :rule nary_cong :premises (@p4044 @p4038) :args ((or (not @t596) @t594)))
1.92/2.12	(step @p4046 :rule trans :premises (@p4045 @p4029))
1.92/2.12	(step @p4047 :rule bool-impl-elim :args (@t596 @t594))
1.92/2.12	(step @p4048 :rule trans :premises (@p4047 @p4046))
1.92/2.12	(step @p4049 :rule cong :premises (@p4048) :args (@t597))
1.92/2.12	(step @p4050 :rule trans :premises (@p4049 @p4028))
1.92/2.12	(step @p4051 :rule refl :args (@t599))
1.92/2.12	(step @p4052 :rule cong :premises (@p4051 @p4050) :args (@t600))
1.92/2.12	(step @p4053 :rule cong :premises (@p4052) :args (@t601))
1.92/2.12	(step @p4054 :rule trans :premises (@p4053 @p3994))
1.92/2.12	(step @p4055 :rule refl :args (tptp.symdiffE))
1.92/2.12	(step @p4056 :rule cong :premises (@p4055 @p4054) :args (@t602))
1.92/2.12	(step @p4057 :rule eq_resolve :premises (@p128 @p4056))
1.92/2.12	(step @p4058 :rule cong :premises (@p4057 @p3985) :args (@t3114))
1.92/2.12	(step @p4059 :rule refl :args (@t1630))
1.92/2.12	(step @p4060 :rule refl :args (@t420))
1.92/2.12	(step @p4061 :rule cong :premises (@p4060 @p4059) :args ((= @t420 @t1630)))
1.92/2.12	(step @p4062 :rule symm :premises (@p4061))
1.92/2.12	(step @p4063 :rule eq_resolve :premises (@p4060 @p4062))
1.92/2.12	(step @p4064 :rule refl :args (@t1631))
1.92/2.12	(step @p4065 :rule refl :args (@t565))
1.92/2.12	(step @p4066 :rule cong :premises (@p4065 @p4064) :args ((= @t565 @t1631)))
1.92/2.12	(step @p4067 :rule symm :premises (@p4066))
1.92/2.12	(step @p4068 :rule eq_resolve :premises (@p4065 @p4067))
1.92/2.12	(step @p4069 :rule cong :premises (@p269 @p4068) :args (@t3115))
1.92/2.12	(step @p4070 :rule cong :premises (@p4069) :args (@t3116))
1.92/2.12	(step @p4071 :rule nary_cong :premises (@p4070 @p4063) :args (@t3117))
1.92/2.12	(step @p4072 :rule cong :premises (@p4071) :args ((forall @t12 @t3117)))
1.92/2.12	(step @p4073 :rule bool-impl-elim :args (@t3115 @t420))
1.92/2.12	(step @p4074 :rule cong :premises (@p4073) :args ((forall @t12 (=> @t3115 @t420))))
1.92/2.12	(step @p4075 :rule trans :premises (@p4074 @p4072))
1.92/2.12	(step @p4076 :rule refl :args (@t420))
1.92/2.12	(step @p4077 :rule eq-symm :args (@t565 tptp.emptyset))
1.92/2.12	(step @p4078 :rule cong :premises (@p4077 @p4076) :args (@t590))
1.92/2.12	(step @p4079 :rule cong :premises (@p4078) :args (@t591))
1.92/2.12	(step @p4080 :rule trans :premises (@p4079 @p4075))
1.92/2.12	(step @p4081 :rule refl :args (tptp.setminusSubset1))
1.92/2.12	(step @p4082 :rule cong :premises (@p4081 @p4080) :args (@t592))
1.92/2.12	(step @p4083 :rule eq_resolve :premises (@p127 @p4082))
1.92/2.12	(step @p4084 :rule cong :premises (@p4083 @p4058) :args (@t3118))
1.92/2.12	(step @p4085 :rule refl :args ((tptp.subset @t565 @t2)))
1.92/2.12	(step @p4086 :rule cong :premises (@p4064 @p1162) :args (@t1634))
1.92/2.12	(step @p4087 :rule trans :premises (@p4086 @p4085))
1.92/2.12	(step @p4088 :rule ho_cong :premises (@p1710 @p4064))
1.92/2.12	(step @p4089 :rule ho_cong :premises (@p4088 @p1162))
1.92/2.12	(step @p4090 :rule cong :premises (@p4089 @p4087) :args ((= (_ (_ tptp.subset @t1631) @t2) @t1634)))
1.92/2.12	(step @p4091 :rule symm :premises (@p4090))
1.92/2.12	(step @p4092 :rule refl :args (@t587))
1.92/2.12	(step @p4093 :rule eq_resolve :premises (@p4092 @p4091))
1.92/2.12	(step @p4094 :rule ho_cong :premises (@p1710 @p4068))
1.92/2.12	(step @p4095 :rule ho_cong :premises (@p4094 @p1162))
1.92/2.12	(step @p4096 :rule trans :premises (@p4095 @p4093))
1.92/2.12	(step @p4097 :rule cong :premises (@p4096) :args (@t588))
1.92/2.12	(step @p4098 :rule refl :args (tptp.setminusLsub))
1.92/2.12	(step @p4099 :rule cong :premises (@p4098 @p4097) :args (@t589))
1.92/2.12	(step @p4100 :rule eq_resolve :premises (@p126 @p4099))
1.92/2.12	(step @p4101 :rule cong :premises (@p4100 @p4084) :args (@t3119))
1.92/2.12	(step @p4102 :rule refl :args ((tptp.in @t4 @t565)))
1.92/2.12	(step @p4103 :rule cong :premises (@p1183 @p4064) :args (@t1636))
1.92/2.12	(step @p4104 :rule trans :premises (@p4103 @p4102))
1.92/2.12	(step @p4105 :rule ho_cong :premises (@p3336 @p4064))
1.92/2.12	(step @p4106 :rule cong :premises (@p4105 @p4104) :args ((= (_ @t5 @t1631) @t1636)))
1.92/2.12	(step @p4107 :rule symm :premises (@p4106))
1.92/2.12	(step @p4108 :rule refl :args (@t566))
1.92/2.12	(step @p4109 :rule eq_resolve :premises (@p4108 @p4107))
1.92/2.12	(step @p4110 :rule ho_cong :premises (@p3336 @p4068))
1.92/2.12	(step @p4111 :rule trans :premises (@p4110 @p4109))
1.92/2.12	(step @p4112 :rule cong :premises (@p4111) :args (@t578))
1.92/2.12	(step @p4113 :rule nary_cong :premises (@p3938 @p4112) :args (@t3120))
1.92/2.12	(step @p4114 :rule cong :premises (@p4113) :args ((forall @t245 @t3120)))
1.92/2.12	(step @p4115 :rule bool-impl-elim :args (@t6 @t578))
1.92/2.12	(step @p4116 :rule cong :premises (@p4115) :args (@t585))
1.92/2.12	(step @p4117 :rule trans :premises (@p4116 @p4114))
1.92/2.12	(step @p4118 :rule refl :args (tptp.setminusIRneg))
1.92/2.12	(step @p4119 :rule cong :premises (@p4118 @p4117) :args (@t586))
1.92/2.12	(step @p4120 :rule eq_resolve :premises (@p125 @p4119))
1.92/2.12	(step @p4121 :rule cong :premises (@p4120 @p4101) :args (@t3121))
1.92/2.12	(step @p4122 :rule nary_cong :premises (@p737 @p4112) :args (@t3122))
1.92/2.12	(step @p4123 :rule cong :premises (@p4122) :args ((forall @t245 @t3122)))
1.92/2.12	(step @p4124 :rule refl :args (@t578))
1.92/2.12	(step @p4125 :rule nary_cong :premises (@p3927 @p4124) :args ((or @t3088 @t578)))
1.92/2.12	(step @p4126 :rule bool-impl-elim :args (@t197 @t578))
1.92/2.12	(step @p4127 :rule trans :premises (@p4126 @p4125))
1.92/2.12	(step @p4128 :rule cong :premises (@p4127) :args (@t583))
1.92/2.12	(step @p4129 :rule trans :premises (@p4128 @p4123))
1.92/2.12	(step @p4130 :rule refl :args (tptp.setminusILneg))
1.92/2.12	(step @p4131 :rule cong :premises (@p4130 @p4129) :args (@t584))
1.92/2.12	(step @p4132 :rule eq_resolve :premises (@p124 @p4131))
1.92/2.12	(step @p4133 :rule cong :premises (@p4132 @p4121) :args (@t3123))
1.92/2.12	(step @p4134 :rule nary_cong :premises (@p4111 @p3915 @p738) :args (@t3124))
1.92/2.12	(step @p4135 :rule cong :premises (@p4134) :args ((forall @t245 @t3124)))
1.92/2.12	(step @p4136 :rule aci_norm :args ((= (or @t566 @t3125) @t3124)))
1.92/2.12	(step @p4137 :rule nary_cong :premises (@p3920 @p3155) :args ((or @t3087 @t197)))
1.92/2.12	(step @p4138 :rule bool-impl-elim :args (@t435 @t197))
1.92/2.12	(step @p4139 :rule trans :premises (@p4138 @p4137))
1.92/2.12	(step @p4140 :rule nary_cong :premises (@p4108 @p4139) :args ((or @t566 @t436)))
1.92/2.12	(step @p4141 :rule trans :premises (@p4140 @p4136))
1.92/2.12	(step @p4142 :rule refl :args (@t436))
1.92/2.12	(step @p4143 :rule bool-double-not-elim :args (@t566))
1.92/2.12	(step @p4144 :rule nary_cong :premises (@p4143 @p4142) :args ((or @t3126 @t436)))
1.92/2.12	(step @p4145 :rule bool-impl-elim :args (@t578 @t436))
1.92/2.12	(step @p4146 :rule trans :premises (@p4145 @p4144))
1.92/2.12	(step @p4147 :rule trans :premises (@p4146 @p4141))
1.92/2.12	(step @p4148 :rule cong :premises (@p4147) :args (@t581))
1.92/2.12	(step @p4149 :rule trans :premises (@p4148 @p4135))
1.92/2.12	(step @p4150 :rule refl :args (tptp.setminusELneg))
1.92/2.12	(step @p4151 :rule cong :premises (@p4150 @p4149) :args (@t582))
1.92/2.12	(step @p4152 :rule eq_resolve :premises (@p123 @p4151))
1.92/2.12	(step @p4153 :rule cong :premises (@p4152 @p4133) :args (@t3127))
1.92/2.12	(step @p4154 :rule nary_cong :premises (@p4111 @p738 @p3915) :args (@t3128))
1.92/2.12	(step @p4155 :rule cong :premises (@p4154) :args ((forall @t245 @t3128)))
1.92/2.12	(step @p4156 :rule aci_norm :args ((= (or @t566 @t3129) @t3128)))
1.92/2.12	(step @p4157 :rule bool-impl-elim :args (@t7 @t6))
1.92/2.12	(step @p4158 :rule nary_cong :premises (@p4108 @p4157) :args ((or @t566 @t191)))
1.92/2.12	(step @p4159 :rule trans :premises (@p4158 @p4156))
1.92/2.12	(step @p4160 :rule refl :args (@t191))
1.92/2.12	(step @p4161 :rule nary_cong :premises (@p4143 @p4160) :args ((or @t3126 @t191)))
1.92/2.12	(step @p4162 :rule bool-impl-elim :args (@t578 @t191))
1.92/2.12	(step @p4163 :rule trans :premises (@p4162 @p4161))
1.92/2.12	(step @p4164 :rule trans :premises (@p4163 @p4159))
1.92/2.12	(step @p4165 :rule cong :premises (@p4164) :args (@t579))
1.92/2.12	(step @p4166 :rule trans :premises (@p4165 @p4155))
1.92/2.12	(step @p4167 :rule refl :args (tptp.setminusERneg))
1.92/2.12	(step @p4168 :rule cong :premises (@p4167 @p4166) :args (@t580))
1.92/2.12	(step @p4169 :rule eq_resolve :premises (@p122 @p4168))
1.92/2.12	(step @p4170 :rule cong :premises (@p4169 @p4153) :args (@t3130))
1.92/2.12	(step @p4171 :rule cong :premises (@p4063) :args (@t439))
1.92/2.12	(step @p4172 :rule nary_cong :premises (@p4171 @p4069) :args (@t3131))
1.92/2.12	(step @p4173 :rule cong :premises (@p4172) :args ((forall @t12 @t3131)))
1.92/2.12	(step @p4174 :rule bool-impl-elim :args (@t420 @t3115))
1.92/2.12	(step @p4175 :rule cong :premises (@p4174) :args ((forall @t12 (=> @t420 @t3115))))
1.92/2.12	(step @p4176 :rule trans :premises (@p4175 @p4173))
1.92/2.12	(step @p4177 :rule cong :premises (@p4076 @p4077) :args (@t575))
1.92/2.12	(step @p4178 :rule cong :premises (@p4177) :args (@t576))
1.92/2.12	(step @p4179 :rule trans :premises (@p4178 @p4176))
1.92/2.12	(step @p4180 :rule refl :args (tptp.setminusSubset2))
1.92/2.12	(step @p4181 :rule cong :premises (@p4180 @p4179) :args (@t577))
1.92/2.12	(step @p4182 :rule eq_resolve :premises (@p121 @p4181))
1.92/2.12	(step @p4183 :rule cong :premises (@p4182 @p4170) :args (@t3132))
1.92/2.12	(step @p4184 :rule nary_cong :premises (@p4112 @p3938) :args (@t3133))
1.92/2.12	(step @p4185 :rule cong :premises (@p4184) :args ((forall @t245 @t3133)))
1.92/2.12	(step @p4186 :rule bool-impl-elim :args (@t566 @t435))
1.92/2.12	(step @p4187 :rule cong :premises (@p4186) :args (@t572))
1.92/2.12	(step @p4188 :rule trans :premises (@p4187 @p4185))
1.92/2.12	(step @p4189 :rule refl :args (tptp.setminusER))
1.92/2.12	(step @p4190 :rule cong :premises (@p4189 @p4188) :args (@t573))
1.92/2.12	(step @p4191 :rule eq_resolve :premises (@p120 @p4190))
1.92/2.12	(step @p4192 :rule cong :premises (@p4191 @p4183) :args (@t3134))
1.92/2.12	(step @p4193 :rule nary_cong :premises (@p4112 @p737) :args (@t3135))
1.92/2.12	(step @p4194 :rule cong :premises (@p4193) :args ((forall @t245 @t3135)))
1.92/2.12	(step @p4195 :rule bool-impl-elim :args (@t566 @t7))
1.92/2.12	(step @p4196 :rule cong :premises (@p4195) :args (@t570))
1.92/2.12	(step @p4197 :rule trans :premises (@p4196 @p4194))
1.92/2.12	(step @p4198 :rule refl :args (tptp.setminusEL))
1.92/2.12	(step @p4199 :rule cong :premises (@p4198 @p4197) :args (@t571))
1.92/2.12	(step @p4200 :rule eq_resolve :premises (@p119 @p4199))
1.92/2.12	(step @p4201 :rule cong :premises (@p4200 @p4192) :args (@t3136))
1.92/2.12	(step @p4202 :rule nary_cong :premises (@p738 @p3915 @p4111) :args (@t3137))
1.92/2.12	(step @p4203 :rule cong :premises (@p4202) :args ((forall @t245 @t3137)))
1.92/2.12	(step @p4204 :rule aci_norm :args ((= (or @t197 (or @t6 @t566)) @t3137)))
1.92/2.12	(step @p4205 :rule nary_cong :premises (@p3920 @p4108) :args ((or @t3087 @t566)))
1.92/2.12	(step @p4206 :rule bool-impl-elim :args (@t435 @t566))
1.92/2.12	(step @p4207 :rule trans :premises (@p4206 @p4205))
1.92/2.12	(step @p4208 :rule nary_cong :premises (@p3155 @p4207) :args ((or @t197 @t567)))
1.92/2.12	(step @p4209 :rule trans :premises (@p4208 @p4204))
1.92/2.12	(step @p4210 :rule bool-impl-elim :args (@t7 @t567))
1.92/2.12	(step @p4211 :rule trans :premises (@p4210 @p4209))
1.92/2.12	(step @p4212 :rule cong :premises (@p4211) :args (@t568))
1.92/2.12	(step @p4213 :rule trans :premises (@p4212 @p4203))
1.92/2.12	(step @p4214 :rule refl :args (tptp.setminusI))
1.92/2.12	(step @p4215 :rule cong :premises (@p4214 @p4213) :args (@t569))
1.92/2.12	(step @p4216 :rule eq_resolve :premises (@p118 @p4215))
1.92/2.12	(step @p4217 :rule cong :premises (@p4216 @p4201) :args (@t3138))
1.92/2.12	(step @p4218 :rule refl :args ((tptp.binunion @t515 @t558)))
1.92/2.12	(step @p4219 :rule refl :args (@t1647))
1.92/2.12	(step @p4220 :rule refl :args (@t1648))
1.92/2.12	(step @p4221 :rule cong :premises (@p4220 @p4219) :args (@t1649))
1.92/2.12	(step @p4222 :rule trans :premises (@p4221 @p4218))
1.92/2.12	(step @p4223 :rule refl :args (tptp.binunion))
1.92/2.12	(step @p4224 :rule ho_cong :premises (@p4223 @p4220))
1.92/2.12	(step @p4225 :rule ho_cong :premises (@p4224 @p4219))
1.92/2.12	(step @p4226 :rule cong :premises (@p4225 @p4222) :args ((= (_ (_ tptp.binunion @t1648) @t1647) @t1649)))
1.92/2.12	(step @p4227 :rule symm :premises (@p4226))
1.92/2.12	(step @p4228 :rule refl :args (@t559))
1.92/2.12	(step @p4229 :rule eq_resolve :premises (@p4228 @p4227))
1.92/2.12	(step @p4230 :rule refl :args (@t558))
1.92/2.12	(step @p4231 :rule cong :premises (@p4230 @p4219) :args ((= @t558 @t1647)))
1.92/2.12	(step @p4232 :rule symm :premises (@p4231))
1.92/2.12	(step @p4233 :rule eq_resolve :premises (@p4230 @p4232))
1.92/2.12	(step @p4234 :rule refl :args (@t515))
1.92/2.12	(step @p4235 :rule cong :premises (@p4234 @p4220) :args ((= @t515 @t1648)))
1.92/2.12	(step @p4236 :rule symm :premises (@p4235))
1.92/2.12	(step @p4237 :rule eq_resolve :premises (@p4234 @p4236))
1.92/2.12	(step @p4238 :rule ho_cong :premises (@p4223 @p4237))
1.92/2.12	(step @p4239 :rule ho_cong :premises (@p4238 @p4233))
1.92/2.12	(step @p4240 :rule trans :premises (@p4239 @p4229))
1.92/2.12	(step @p4241 :rule refl :args ((tptp.binintersect @t2 @t560)))
1.92/2.12	(step @p4242 :rule refl :args (@t1650))
1.92/2.12	(step @p4243 :rule cong :premises (@p1162 @p4242) :args (@t1651))
1.92/2.12	(step @p4244 :rule trans :premises (@p4243 @p4241))
1.92/2.12	(step @p4245 :rule refl :args (@t514))
1.92/2.12	(step @p4246 :rule ho_cong :premises (@p4245 @p4242))
1.92/2.12	(step @p4247 :rule cong :premises (@p4246 @p4244) :args ((= (_ @t514 @t1650) @t1651)))
1.92/2.12	(step @p4248 :rule symm :premises (@p4247))
1.92/2.12	(step @p4249 :rule refl :args (@t561))
1.92/2.12	(step @p4250 :rule eq_resolve :premises (@p4249 @p4248))
1.92/2.12	(step @p4251 :rule refl :args (@t560))
1.92/2.12	(step @p4252 :rule cong :premises (@p4251 @p4242) :args ((= @t560 @t1650)))
1.92/2.12	(step @p4253 :rule symm :premises (@p4252))
1.92/2.12	(step @p4254 :rule eq_resolve :premises (@p4251 @p4253))
1.92/2.12	(step @p4255 :rule ho_cong :premises (@p4245 @p4254))
1.92/2.12	(step @p4256 :rule trans :premises (@p4255 @p4250))
1.92/2.12	(step @p4257 :rule cong :premises (@p4256 @p4240) :args (@t562))
1.92/2.12	(step @p4258 :rule cong :premises (@p4257) :args (@t563))
1.92/2.12	(step @p4259 :rule refl :args (tptp.bs114d))
1.92/2.12	(step @p4260 :rule cong :premises (@p4259 @p4258) :args (@t564))
1.92/2.12	(step @p4261 :rule eq_resolve :premises (@p117 @p4260))
1.92/2.12	(step @p4262 :rule cong :premises (@p4261 @p4217) :args (@t3139))
1.92/2.12	(step @p4263 :rule cong :premises (@p1162 @p4237) :args (@t3140))
1.92/2.12	(step @p4264 :rule cong :premises (@p4263) :args (@t3141))
1.92/2.12	(step @p4265 :rule nary_cong :premises (@p4264 @p4063) :args (@t3142))
1.92/2.12	(step @p4266 :rule cong :premises (@p4265) :args ((forall @t12 @t3142)))
1.92/2.12	(step @p4267 :rule bool-impl-elim :args (@t3140 @t420))
1.92/2.12	(step @p4268 :rule cong :premises (@p4267) :args ((forall @t12 (=> @t3140 @t420))))
1.92/2.12	(step @p4269 :rule trans :premises (@p4268 @p4266))
1.92/2.12	(step @p4270 :rule eq-symm :args (@t515 @t2))
1.92/2.12	(step @p4271 :rule cong :premises (@p4270 @p4076) :args (@t555))
1.92/2.12	(step @p4272 :rule cong :premises (@p4271) :args (@t556))
1.92/2.12	(step @p4273 :rule trans :premises (@p4272 @p4269))
1.92/2.12	(step @p4274 :rule refl :args (tptp.binintersectSubset1))
1.92/2.12	(step @p4275 :rule cong :premises (@p4274 @p4273) :args (@t557))
1.92/2.12	(step @p4276 :rule eq_resolve :premises (@p116 @p4275))
1.92/2.12	(step @p4277 :rule cong :premises (@p4276 @p4262) :args (@t3143))
1.92/2.12	(step @p4278 :rule cong :premises (@p1104 @p4237) :args (@t3144))
1.92/2.12	(step @p4279 :rule refl :args (@t1656))
1.92/2.12	(step @p4280 :rule refl :args (@t425))
1.92/2.12	(step @p4281 :rule cong :premises (@p4280 @p4279) :args ((= @t425 @t1656)))
1.92/2.12	(step @p4282 :rule symm :premises (@p4281))
1.92/2.12	(step @p4283 :rule eq_resolve :premises (@p4280 @p4282))
1.92/2.12	(step @p4284 :rule cong :premises (@p4283) :args (@t3145))
1.92/2.12	(step @p4285 :rule nary_cong :premises (@p4284 @p4278) :args (@t3146))
1.92/2.12	(step @p4286 :rule cong :premises (@p4285) :args ((forall @t12 @t3146)))
1.92/2.12	(step @p4287 :rule bool-impl-elim :args (@t425 @t3144))
1.92/2.12	(step @p4288 :rule cong :premises (@p4287) :args ((forall @t12 (=> @t425 @t3144))))
1.92/2.12	(step @p4289 :rule trans :premises (@p4288 @p4286))
1.92/2.12	(step @p4290 :rule eq-symm :args (@t515 @t1))
1.92/2.12	(step @p4291 :rule refl :args (@t425))
1.92/2.12	(step @p4292 :rule cong :premises (@p4291 @p4290) :args (@t552))
1.92/2.12	(step @p4293 :rule cong :premises (@p4292) :args (@t553))
1.92/2.12	(step @p4294 :rule trans :premises (@p4293 @p4289))
1.92/2.12	(step @p4295 :rule refl :args (tptp.binintersectSubset4))
1.92/2.12	(step @p4296 :rule cong :premises (@p4295 @p4294) :args (@t554))
1.92/2.12	(step @p4297 :rule eq_resolve :premises (@p115 @p4296))
1.92/2.12	(step @p4298 :rule cong :premises (@p4297 @p4277) :args (@t3147))
1.92/2.12	(step @p4299 :rule refl :args ((tptp.subset @t515 @t1)))
1.92/2.12	(step @p4300 :rule cong :premises (@p4220 @p1104) :args (@t1659))
1.92/2.12	(step @p4301 :rule trans :premises (@p4300 @p4299))
1.92/2.12	(step @p4302 :rule ho_cong :premises (@p1710 @p4220))
1.92/2.12	(step @p4303 :rule ho_cong :premises (@p4302 @p1104))
1.92/2.12	(step @p4304 :rule cong :premises (@p4303 @p4301) :args ((= (_ @t3148 @t1) @t1659)))
1.92/2.12	(step @p4305 :rule symm :premises (@p4304))
1.92/2.12	(step @p4306 :rule refl :args (@t549))
1.92/2.12	(step @p4307 :rule eq_resolve :premises (@p4306 @p4305))
1.92/2.12	(step @p4308 :rule ho_cong :premises (@p1710 @p4237))
1.92/2.12	(step @p4309 :rule ho_cong :premises (@p4308 @p1104))
1.92/2.12	(step @p4310 :rule trans :premises (@p4309 @p4307))
1.92/2.12	(step @p4311 :rule cong :premises (@p4310) :args (@t550))
1.92/2.12	(step @p4312 :rule refl :args (tptp.binintersectRsub))
1.92/2.12	(step @p4313 :rule cong :premises (@p4312 @p4311) :args (@t551))
1.92/2.12	(step @p4314 :rule eq_resolve :premises (@p114 @p4313))
1.92/2.12	(step @p4315 :rule cong :premises (@p4314 @p4298) :args (@t3149))
1.92/2.12	(step @p4316 :rule cong :premises (@p269 @p4237) :args (@t3150))
1.92/2.12	(step @p4317 :rule refl :args (@t1662))
1.92/2.12	(step @p4318 :rule nary_cong :premises (@p4317 @p4316) :args (@t3151))
1.92/2.12	(step @p4319 :rule cong :premises (@p4318) :args ((forall @t12 @t3151)))
1.92/2.12	(step @p4320 :rule bool-impl-elim :args (@t1661 @t3150))
1.92/2.12	(step @p4321 :rule cong :premises (@p4320) :args ((forall @t12 (=> @t1661 @t3150))))
1.92/2.12	(step @p4322 :rule trans :premises (@p4321 @p4319))
1.92/2.12	(step @p4323 :rule eq-symm :args (@t515 tptp.emptyset))
1.92/2.12	(step @p4324 :rule bool-double-not-elim :args (@t1661))
1.92/2.12	(step @p4325 :rule nary_cong :premises (@p738 @p3938) :args (@t3152))
1.92/2.12	(step @p4326 :rule cong :premises (@p4325) :args ((forall @t9 @t3152)))
1.92/2.12	(step @p4327 :rule bool-and-de-morgan :args (@t7 @t6 true))
1.92/2.12	(step @p4328 :rule cong :premises (@p4327) :args (@t3153))
1.92/2.12	(step @p4329 :rule trans :premises (@p4328 @p4326))
1.92/2.12	(step @p4330 :rule cong :premises (@p4329) :args (@t3154))
1.92/2.12	(step @p4331 :rule exists-elim :args ((= @t544 @t3154)))
1.92/2.12	(step @p4332 :rule trans :premises (@p4331 @p4330))
1.92/2.12	(step @p4333 :rule cong :premises (@p4332) :args (@t545))
1.92/2.12	(step @p4334 :rule trans :premises (@p4333 @p4324))
1.92/2.12	(step @p4335 :rule cong :premises (@p4334 @p4323) :args (@t546))
1.92/2.12	(step @p4336 :rule cong :premises (@p4335) :args (@t547))
1.92/2.12	(step @p4337 :rule trans :premises (@p4336 @p4322))
1.92/2.12	(step @p4338 :rule refl :args (tptp.disjointsetsI1))
1.92/2.12	(step @p4339 :rule cong :premises (@p4338 @p4337) :args (@t548))
1.92/2.12	(step @p4340 :rule eq_resolve :premises (@p113 @p4339))
1.92/2.12	(step @p4341 :rule cong :premises (@p4340 @p4315) :args (@t3155))
1.92/2.12	(step @p4342 :rule refl :args ((tptp.in @t4 @t515)))
1.92/2.12	(step @p4343 :rule cong :premises (@p1183 @p4220) :args (@t1664))
1.92/2.12	(step @p4344 :rule trans :premises (@p4343 @p4342))
1.92/2.12	(step @p4345 :rule ho_cong :premises (@p3336 @p4220))
1.92/2.12	(step @p4346 :rule cong :premises (@p4345 @p4344) :args ((= (_ @t5 @t1648) @t1664)))
1.92/2.12	(step @p4347 :rule symm :premises (@p4346))
1.92/2.12	(step @p4348 :rule refl :args (@t516))
1.92/2.12	(step @p4349 :rule eq_resolve :premises (@p4348 @p4347))
1.92/2.12	(step @p4350 :rule ho_cong :premises (@p3336 @p4237))
1.92/2.12	(step @p4351 :rule trans :premises (@p4350 @p4349))
1.92/2.12	(step @p4352 :rule cong :premises (@p4351) :args (@t3156))
1.92/2.12	(step @p4353 :rule nary_cong :premises (@p4352 @p3915) :args (@t3157))
1.92/2.12	(step @p4354 :rule cong :premises (@p4353) :args ((forall @t245 @t3157)))
1.92/2.12	(step @p4355 :rule bool-impl-elim :args (@t516 @t6))
1.92/2.12	(step @p4356 :rule cong :premises (@p4355) :args (@t541))
1.92/2.12	(step @p4357 :rule trans :premises (@p4356 @p4354))
1.92/2.12	(step @p4358 :rule refl :args (tptp.binintersectER))
1.92/2.12	(step @p4359 :rule cong :premises (@p4358 @p4357) :args (@t542))
1.92/2.12	(step @p4360 :rule eq_resolve :premises (@p112 @p4359))
1.92/2.12	(step @p4361 :rule cong :premises (@p4360 @p4341) :args (@t3158))
1.92/2.12	(step @p4362 :rule cong :premises (@p4278) :args (@t3159))
1.92/2.12	(step @p4363 :rule nary_cong :premises (@p4362 @p4283) :args (@t3160))
1.92/2.12	(step @p4364 :rule cong :premises (@p4363) :args ((forall @t12 @t3160)))
1.92/2.12	(step @p4365 :rule bool-impl-elim :args (@t3144 @t425))
1.92/2.12	(step @p4366 :rule cong :premises (@p4365) :args ((forall @t12 (=> @t3144 @t425))))
1.92/2.12	(step @p4367 :rule trans :premises (@p4366 @p4364))
1.92/2.12	(step @p4368 :rule cong :premises (@p4290 @p4291) :args (@t538))
1.92/2.12	(step @p4369 :rule cong :premises (@p4368) :args (@t539))
1.92/2.12	(step @p4370 :rule trans :premises (@p4369 @p4367))
1.92/2.12	(step @p4371 :rule refl :args (tptp.binintersectSubset3))
1.92/2.12	(step @p4372 :rule cong :premises (@p4371 @p4370) :args (@t540))
1.92/2.12	(step @p4373 :rule eq_resolve :premises (@p111 @p4372))
1.92/2.12	(step @p4374 :rule cong :premises (@p4373 @p4361) :args (@t3161))
1.92/2.12	(step @p4375 :rule nary_cong :premises (@p4171 @p4263) :args (@t3162))
1.92/2.12	(step @p4376 :rule cong :premises (@p4375) :args ((forall @t12 @t3162)))
1.92/2.12	(step @p4377 :rule bool-impl-elim :args (@t420 @t3140))
1.92/2.12	(step @p4378 :rule cong :premises (@p4377) :args ((forall @t12 (=> @t420 @t3140))))
1.92/2.12	(step @p4379 :rule trans :premises (@p4378 @p4376))
1.92/2.12	(step @p4380 :rule cong :premises (@p4076 @p4270) :args (@t534))
1.92/2.12	(step @p4381 :rule cong :premises (@p4380) :args (@t535))
1.92/2.12	(step @p4382 :rule trans :premises (@p4381 @p4379))
1.92/2.12	(step @p4383 :rule refl :args (tptp.binintersectSubset2))
1.92/2.12	(step @p4384 :rule cong :premises (@p4383 @p4382) :args (@t536))
1.92/2.12	(step @p4385 :rule eq_resolve :premises (@p110 @p4384))
1.92/2.12	(step @p4386 :rule cong :premises (@p4385 @p4374) :args (@t3163))
1.92/2.12	(step @p4387 :rule refl :args ((tptp.subset @t515 @t2)))
1.92/2.12	(step @p4388 :rule cong :premises (@p4220 @p1162) :args (@t1669))
1.92/2.12	(step @p4389 :rule trans :premises (@p4388 @p4387))
1.92/2.12	(step @p4390 :rule ho_cong :premises (@p4302 @p1162))
1.93/2.12	(step @p4391 :rule cong :premises (@p4390 @p4389) :args ((= (_ @t3148 @t2) @t1669)))
1.93/2.12	(step @p4392 :rule symm :premises (@p4391))
1.93/2.12	(step @p4393 :rule refl :args (@t530))
1.93/2.12	(step @p4394 :rule eq_resolve :premises (@p4393 @p4392))
1.93/2.12	(step @p4395 :rule ho_cong :premises (@p4308 @p1162))
1.93/2.12	(step @p4396 :rule trans :premises (@p4395 @p4394))
1.93/2.12	(step @p4397 :rule cong :premises (@p4396) :args (@t531))
1.93/2.12	(step @p4398 :rule refl :args (tptp.binintersectLsub))
1.93/2.12	(step @p4399 :rule cong :premises (@p4398 @p4397) :args (@t532))
1.93/2.12	(step @p4400 :rule eq_resolve :premises (@p109 @p4399))
1.93/2.12	(step @p4401 :rule cong :premises (@p4400 @p4386) :args (@t3164))
1.93/2.12	(step @p4402 :rule nary_cong :premises (@p4352 @p737) :args (@t3165))
1.93/2.12	(step @p4403 :rule cong :premises (@p4402) :args ((forall @t245 @t3165)))
1.93/2.12	(step @p4404 :rule bool-impl-elim :args (@t516 @t7))
1.93/2.12	(step @p4405 :rule cong :premises (@p4404) :args (@t527))
1.93/2.12	(step @p4406 :rule trans :premises (@p4405 @p4403))
1.93/2.12	(step @p4407 :rule refl :args (tptp.binintersectEL))
1.93/2.12	(step @p4408 :rule cong :premises (@p4407 @p4406) :args (@t528))
1.93/2.12	(step @p4409 :rule eq_resolve :premises (@p108 @p4408))
1.93/2.12	(step @p4410 :rule cong :premises (@p4409 @p4401) :args (@t3166))
1.93/2.12	(step @p4411 :rule refl :args ((tptp.subset @t104 @t515)))
1.93/2.12	(step @p4412 :rule refl :args (@t104))
1.93/2.12	(step @p4413 :rule cong :premises (@p4412 @p4220) :args (@t1672))
1.93/2.12	(step @p4414 :rule trans :premises (@p4413 @p4411))
1.93/2.12	(step @p4415 :rule refl :args (@t520))
1.93/2.12	(step @p4416 :rule ho_cong :premises (@p4415 @p4220))
1.93/2.12	(step @p4417 :rule cong :premises (@p4416 @p4414) :args ((= (_ @t520 @t1648) @t1672)))
1.93/2.12	(step @p4418 :rule symm :premises (@p4417))
1.93/2.12	(step @p4419 :rule refl :args (@t521))
1.93/2.12	(step @p4420 :rule eq_resolve :premises (@p4419 @p4418))
1.93/2.12	(step @p4421 :rule ho_cong :premises (@p4415 @p4237))
1.93/2.12	(step @p4422 :rule trans :premises (@p4421 @p4420))
1.93/2.12	(step @p4423 :rule refl :args (@t1673))
1.93/2.12	(step @p4424 :rule refl :args (@t522))
1.93/2.12	(step @p4425 :rule cong :premises (@p4424 @p4423) :args ((= @t522 @t1673)))
1.93/2.12	(step @p4426 :rule symm :premises (@p4425))
1.93/2.12	(step @p4427 :rule eq_resolve :premises (@p4424 @p4426))
1.93/2.12	(step @p4428 :rule cong :premises (@p4427) :args (@t3167))
1.93/2.12	(step @p4429 :rule refl :args (@t1674))
1.93/2.12	(step @p4430 :rule refl :args (@t524))
1.93/2.12	(step @p4431 :rule cong :premises (@p4430 @p4429) :args ((= @t524 @t1674)))
1.93/2.12	(step @p4432 :rule symm :premises (@p4431))
1.93/2.12	(step @p4433 :rule eq_resolve :premises (@p4430 @p4432))
1.93/2.12	(step @p4434 :rule cong :premises (@p4433) :args (@t3168))
1.93/2.12	(step @p4435 :rule nary_cong :premises (@p4434 @p4428 @p4422) :args (@t3169))
1.93/2.12	(step @p4436 :rule cong :premises (@p4435) :args ((forall @t455 @t3169)))
1.93/2.12	(step @p4437 :rule aci_norm :args ((= (or @t3168 (or @t3167 @t521)) @t3169)))
1.93/2.12	(step @p4438 :rule bool-impl-elim :args (@t522 @t521))
1.93/2.12	(step @p4439 :rule refl :args (@t3168))
1.93/2.12	(step @p4440 :rule nary_cong :premises (@p4439 @p4438) :args ((or @t3168 @t523)))
1.93/2.12	(step @p4441 :rule trans :premises (@p4440 @p4437))
1.93/2.12	(step @p4442 :rule bool-impl-elim :args (@t524 @t523))
1.93/2.12	(step @p4443 :rule trans :premises (@p4442 @p4441))
1.93/2.12	(step @p4444 :rule cong :premises (@p4443) :args (@t525))
1.93/2.12	(step @p4445 :rule trans :premises (@p4444 @p4436))
1.93/2.12	(step @p4446 :rule refl :args (tptp.binintersectSubset5))
1.93/2.12	(step @p4447 :rule cong :premises (@p4446 @p4445) :args (@t526))
1.93/2.12	(step @p4448 :rule eq_resolve :premises (@p107 @p4447))
1.93/2.12	(step @p4449 :rule cong :premises (@p4448 @p4410) :args (@t3170))
1.93/2.12	(step @p4450 :rule nary_cong :premises (@p738 @p3938 @p4351) :args (@t3171))
1.93/2.12	(step @p4451 :rule cong :premises (@p4450) :args ((forall @t245 @t3171)))
1.93/2.12	(step @p4452 :rule aci_norm :args ((= (or @t197 (or @t435 @t516)) @t3171)))
1.93/2.12	(step @p4453 :rule bool-impl-elim :args (@t6 @t516))
1.93/2.12	(step @p4454 :rule nary_cong :premises (@p3155 @p4453) :args ((or @t197 @t517)))
1.93/2.12	(step @p4455 :rule trans :premises (@p4454 @p4452))
1.93/2.12	(step @p4456 :rule bool-impl-elim :args (@t7 @t517))
1.93/2.12	(step @p4457 :rule trans :premises (@p4456 @p4455))
1.93/2.12	(step @p4458 :rule cong :premises (@p4457) :args (@t518))
1.93/2.12	(step @p4459 :rule trans :premises (@p4458 @p4451))
1.93/2.12	(step @p4460 :rule refl :args (tptp.binintersectI))
1.93/2.12	(step @p4461 :rule cong :premises (@p4460 @p4459) :args (@t519))
1.93/2.12	(step @p4462 :rule eq_resolve :premises (@p106 @p4461))
1.93/2.12	(step @p4463 :rule cong :premises (@p4462 @p4449) :args (@t3172))
1.93/2.12	(step @p4464 :rule refl :args ((tptp.subset @t1 @t492)))
1.93/2.12	(step @p4465 :rule cong :premises (@p1104 @p3492) :args (@t1677))
1.93/2.12	(step @p4466 :rule trans :premises (@p4465 @p4464))
1.93/2.12	(step @p4467 :rule refl :args (@t424))
1.93/2.12	(step @p4468 :rule ho_cong :premises (@p4467 @p3492))
1.93/2.12	(step @p4469 :rule cong :premises (@p4468 @p4466) :args ((= (_ @t424 @t1564) @t1677)))
1.93/2.12	(step @p4470 :rule symm :premises (@p4469))
1.93/2.12	(step @p4471 :rule refl :args (@t511))
1.93/2.12	(step @p4472 :rule eq_resolve :premises (@p4471 @p4470))
1.93/2.12	(step @p4473 :rule ho_cong :premises (@p4467 @p3518))
1.93/2.12	(step @p4474 :rule trans :premises (@p4473 @p4472))
1.93/2.12	(step @p4475 :rule cong :premises (@p4474) :args (@t512))
1.93/2.12	(step @p4476 :rule refl :args (tptp.binunionRsub))
1.93/2.12	(step @p4477 :rule cong :premises (@p4476 @p4475) :args (@t513))
1.93/2.12	(step @p4478 :rule eq_resolve :premises (@p105 @p4477))
1.93/2.12	(step @p4479 :rule cong :premises (@p4478 @p4463) :args (@t3173))
1.93/2.12	(step @p4480 :rule refl :args ((tptp.subset @t2 @t492)))
1.93/2.12	(step @p4481 :rule cong :premises (@p1162 @p3492) :args (@t1679))
1.93/2.12	(step @p4482 :rule trans :premises (@p4481 @p4480))
1.93/2.12	(step @p4483 :rule ho_cong :premises (@p3290 @p3492))
1.93/2.12	(step @p4484 :rule cong :premises (@p4483 @p4482) :args ((= (_ @t419 @t1564) @t1679)))
1.93/2.12	(step @p4485 :rule symm :premises (@p4484))
1.93/2.12	(step @p4486 :rule refl :args (@t508))
1.93/2.12	(step @p4487 :rule eq_resolve :premises (@p4486 @p4485))
1.93/2.12	(step @p4488 :rule ho_cong :premises (@p3290 @p3518))
1.93/2.12	(step @p4489 :rule trans :premises (@p4488 @p4487))
1.93/2.12	(step @p4490 :rule cong :premises (@p4489) :args (@t509))
1.93/2.12	(step @p4491 :rule refl :args (tptp.binunionLsub))
1.93/2.12	(step @p4492 :rule cong :premises (@p4491 @p4490) :args (@t510))
1.93/2.12	(step @p4493 :rule eq_resolve :premises (@p104 @p4492))
1.93/2.12	(step @p4494 :rule cong :premises (@p4493 @p4479) :args (@t3174))
1.93/2.12	(step @p4495 :rule refl :args ((tptp.in @t4 @t492)))
1.93/2.12	(step @p4496 :rule cong :premises (@p1183 @p3492) :args (@t1681))
1.93/2.12	(step @p4497 :rule trans :premises (@p4496 @p4495))
1.93/2.12	(step @p4498 :rule ho_cong :premises (@p3336 @p3492))
1.93/2.12	(step @p4499 :rule cong :premises (@p4498 @p4497) :args ((= (_ @t5 @t1564) @t1681)))
1.93/2.12	(step @p4500 :rule symm :premises (@p4499))
1.93/2.12	(step @p4501 :rule refl :args (@t493))
1.93/2.12	(step @p4502 :rule eq_resolve :premises (@p4501 @p4500))
1.93/2.12	(step @p4503 :rule ho_cong :premises (@p3336 @p3518))
1.93/2.12	(step @p4504 :rule trans :premises (@p4503 @p4502))
1.93/2.12	(step @p4505 :rule cong :premises (@p4504) :args (@t3175))
1.93/2.12	(step @p4506 :rule nary_cong :premises (@p4505 @p737 @p3915) :args (@t3176))
1.93/2.12	(step @p4507 :rule cong :premises (@p4506) :args ((forall @t245 @t3176)))
1.93/2.12	(step @p4508 :rule aci_norm :args ((= (or @t3175 @t505) @t3176)))
1.93/2.12	(step @p4509 :rule bool-impl-elim :args (@t493 @t505))
1.93/2.12	(step @p4510 :rule trans :premises (@p4509 @p4508))
1.93/2.12	(step @p4511 :rule cong :premises (@p4510) :args (@t506))
1.93/2.12	(step @p4512 :rule trans :premises (@p4511 @p4507))
1.93/2.12	(step @p4513 :rule refl :args (tptp.binunionE))
1.93/2.12	(step @p4514 :rule cong :premises (@p4513 @p4512) :args (@t507))
1.93/2.12	(step @p4515 :rule eq_resolve :premises (@p103 @p4514))
1.93/2.12	(step @p4516 :rule cong :premises (@p4515 @p4494) :args (@t3177))
1.93/2.12	(step @p4517 :rule aci_norm :args ((= (and @t1621 true) @t1621)))
1.93/2.12	(step @p4518 :rule nary_cong :premises (@p3997 @p3996) :args (@t3178))
1.93/2.12	(step @p4519 :rule trans :premises (@p4518 @p4517))
1.93/2.12	(step @p4520 :rule aci_norm :args ((= (and @t1240 true) @t1240)))
1.93/2.12	(step @p4521 :rule nary_cong :premises (@p2172 @p3996) :args (@t3179))
1.93/2.12	(step @p4522 :rule trans :premises (@p4521 @p4520))
1.93/2.12	(step @p4523 :rule refl :args (@t1682))
1.93/2.12	(step @p4524 :rule nary_cong :premises (@p4523 @p4522 @p4519) :args (@t3180))
1.93/2.12	(step @p4525 :rule aci_norm :args ((= @t3181 @t3180)))
1.93/2.12	(step @p4526 :rule trans :premises (@p4525 @p4524))
1.93/2.12	(step @p4527 :rule cong :premises (@p4526) :args ((forall @t245 @t3181)))
1.93/2.12	(step @p4528 :rule quant-var-elim-eq :args ((= (forall @t179 (or @t3106 @t1682 @t3183 @t3182 @t173)) @t3181)))
1.93/2.12	(step @p4529 :rule refl :args (@t3182))
1.93/2.12	(step @p4530 :rule refl :args (@t3183))
1.93/2.12	(step @p4531 :rule refl :args (@t1682))
1.93/2.12	(step @p4532 :rule nary_cong :premises (@p4016 @p4531 @p4530 @p4529 @p4008) :args (@t3184))
1.93/2.12	(step @p4533 :rule aci_norm :args ((= @t3185 @t3184)))
1.93/2.12	(step @p4534 :rule trans :premises (@p4533 @p4532))
1.93/2.12	(step @p4535 :rule cong :premises (@p4534) :args (@t3186))
1.93/2.12	(step @p4536 :rule trans :premises (@p4535 @p4528))
1.93/2.12	(step @p4537 :rule cong :premises (@p4536) :args (@t3187))
1.93/2.12	(step @p4538 :rule quant-merge-prenex :args ((= @t3187 (forall @t502 @t3185))))
1.93/2.12	(step @p4539 :rule symm :premises (@p4538))
1.93/2.12	(step @p4540 :rule trans :premises (@p4539 @p4537))
1.93/2.12	(step @p4541 :rule trans :premises (@p4540 @p4527))
1.93/2.12	(step @p4542 :rule nary_cong :premises (@p3915 @p4023) :args (@t3112))
1.93/2.12	(step @p4543 :rule nary_cong :premises (@p737 @p4023) :args (@t3188))
1.93/2.12	(step @p4544 :rule nary_cong :premises (@p4505 @p4543 @p4542 @p4008) :args (@t3189))
1.93/2.12	(step @p4545 :rule cong :premises (@p4544) :args ((forall @t502 @t3189)))
1.93/2.12	(step @p4546 :rule trans :premises (@p4545 @p4541))
1.93/2.12	(step @p4547 :rule aci_norm :args ((= (or @t3175 @t3190) @t3189)))
1.93/2.12	(step @p4548 :rule aci_norm :args ((= (or @t3188 (or @t3112 @t173)) @t3190)))
1.93/2.12	(step @p4549 :rule nary_cong :premises (@p4031 @p4008) :args ((or @t3113 @t173)))
1.93/2.12	(step @p4550 :rule bool-impl-elim :args (@t498 @t173))
1.93/2.12	(step @p4551 :rule trans :premises (@p4550 @p4549))
1.93/2.12	(step @p4552 :rule bool-implies-de-morgan :args (@t7 @t173))
1.93/2.12	(step @p4553 :rule nary_cong :premises (@p4552 @p4551) :args ((or (not @t500) @t499)))
1.93/2.12	(step @p4554 :rule trans :premises (@p4553 @p4548))
1.93/2.12	(step @p4555 :rule bool-impl-elim :args (@t500 @t499))
1.93/2.12	(step @p4556 :rule trans :premises (@p4555 @p4554))
1.93/2.12	(step @p4557 :rule refl :args (@t3175))
1.93/2.12	(step @p4558 :rule nary_cong :premises (@p4557 @p4556) :args ((or @t3175 @t501)))
1.93/2.12	(step @p4559 :rule trans :premises (@p4558 @p4547))
1.93/2.12	(step @p4560 :rule bool-impl-elim :args (@t493 @t501))
1.93/2.12	(step @p4561 :rule trans :premises (@p4560 @p4559))
1.93/2.12	(step @p4562 :rule cong :premises (@p4561) :args (@t503))
1.93/2.12	(step @p4563 :rule trans :premises (@p4562 @p4546))
1.93/2.12	(step @p4564 :rule refl :args (tptp.binunionEcases))
1.93/2.12	(step @p4565 :rule cong :premises (@p4564 @p4563) :args (@t504))
1.93/2.12	(step @p4566 :rule eq_resolve :premises (@p102 @p4565))
1.93/2.12	(step @p4567 :rule cong :premises (@p4566 @p4516) :args (@t3191))
1.93/2.12	(step @p4568 :rule nary_cong :premises (@p3938 @p4504) :args (@t3192))
1.93/2.12	(step @p4569 :rule cong :premises (@p4568) :args ((forall @t245 @t3192)))
1.93/2.12	(step @p4570 :rule bool-impl-elim :args (@t6 @t493))
1.93/2.12	(step @p4571 :rule cong :premises (@p4570) :args (@t496))
1.93/2.12	(step @p4572 :rule trans :premises (@p4571 @p4569))
1.93/2.12	(step @p4573 :rule refl :args (tptp.binunionIR))
1.93/2.12	(step @p4574 :rule cong :premises (@p4573 @p4572) :args (@t497))
1.93/2.12	(step @p4575 :rule eq_resolve :premises (@p101 @p4574))
1.93/2.12	(step @p4576 :rule cong :premises (@p4575 @p4567) :args (@t3193))
1.93/2.12	(step @p4577 :rule eq-symm :args (@t1617 tptp.upairset2IR))
1.93/2.12	(step @p4578 :rule refl :args (tptp.upairset2IR))
1.93/2.12	(step @p4579 :rule cong :premises (@p3888 @p4578) :args ((= @t302 tptp.upairset2IR)))
1.93/2.12	(step @p4580 :rule trans :premises (@p4579 @p4577))
1.93/2.12	(step @p4581 :rule eq-symm :args (tptp.upairset2IR @t302))
1.93/2.12	(step @p4582 :rule trans :premises (@p4581 @p4580))
1.93/2.12	(step @p4583 :rule eq_resolve :premises (@p100 @p4582))
1.93/2.12	(step @p4584 :rule cong :premises (@p4583 @p4576) :args (@t3194))
1.93/2.12	(step @p4585 :rule nary_cong :premises (@p738 @p4504) :args (@t3195))
1.93/2.12	(step @p4586 :rule cong :premises (@p4585) :args ((forall @t245 @t3195)))
1.93/2.12	(step @p4587 :rule bool-impl-elim :args (@t7 @t493))
1.93/2.12	(step @p4588 :rule cong :premises (@p4587) :args (@t494))
1.93/2.12	(step @p4589 :rule trans :premises (@p4588 @p4586))
1.93/2.12	(step @p4590 :rule refl :args (tptp.binunionIL))
1.93/2.12	(step @p4591 :rule cong :premises (@p4590 @p4589) :args (@t495))
1.93/2.12	(step @p4592 :rule eq_resolve :premises (@p99 @p4591))
1.93/2.12	(step @p4593 :rule cong :premises (@p4592 @p4584) :args (@t3196))
1.93/2.12	(step @p4594 :rule lambda-elim :args ((= @t2380 @t143)))
1.93/2.12	(step @p4595 :rule cong :premises (@p818 @p4594) :args (@t3197))
1.93/2.12	(step @p4596 :rule cong :premises (@p4595 @p818) :args (@t3198))
1.93/2.12	(step @p4597 :rule cong :premises (@p4596) :args ((forall @t309 @t3198)))
1.93/2.12	(step @p4598 :rule refl :args ((tptp.subset @t304 @t2)))
1.93/2.12	(step @p4599 :rule refl :args (@t2471))
1.93/2.12	(step @p4600 :rule cong :premises (@p1172) :args (@t2380))
1.93/2.12	(step @p4601 :rule cong :premises (@p1162 @p4600) :args (@t3197))
1.93/2.12	(step @p4602 :rule trans :premises (@p4601 @p4599))
1.93/2.12	(step @p4603 :rule cong :premises (@p4602 @p1162) :args (@t3198))
1.93/2.12	(step @p4604 :rule trans :premises (@p4603 @p4598))
1.93/2.12	(step @p4605 :rule ho_cong :premises (@p1710 @p4602))
1.93/2.12	(step @p4606 :rule ho_cong :premises (@p4605 @p1162))
1.93/2.12	(step @p4607 :rule cong :premises (@p4606 @p4604) :args ((= (_ (_ tptp.subset @t3197) @t2) @t3198)))
1.93/2.12	(step @p4608 :rule symm :premises (@p4607))
1.93/2.12	(step @p4609 :rule refl :args (@t489))
1.93/2.12	(step @p4610 :rule eq_resolve :premises (@p4609 @p4608))
1.93/2.12	(step @p4611 :rule ho_cong :premises (@p1165 @p4600))
1.93/2.12	(step @p4612 :rule cong :premises (@p4611 @p4602) :args ((= (_ @t155 @t2380) @t3197)))
1.93/2.12	(step @p4613 :rule symm :premises (@p4612))
1.93/2.12	(step @p4614 :rule refl :args (@t304))
1.93/2.12	(step @p4615 :rule eq_resolve :premises (@p4614 @p4613))
1.93/2.12	(step @p4616 :rule ho_cong :premises (@p1165 @p1177))
1.93/2.12	(step @p4617 :rule trans :premises (@p4616 @p4615))
1.93/2.12	(step @p4618 :rule ho_cong :premises (@p1710 @p4617))
1.93/2.12	(step @p4619 :rule ho_cong :premises (@p4618 @p1162))
1.93/2.12	(step @p4620 :rule trans :premises (@p4619 @p4610))
1.93/2.12	(step @p4621 :rule cong :premises (@p4620) :args (@t490))
1.93/2.12	(step @p4622 :rule trans :premises (@p4621 @p4597))
1.93/2.12	(step @p4623 :rule refl :args (tptp.sepSubset))
1.93/2.12	(step @p4624 :rule cong :premises (@p4623 @p4622) :args (@t491))
1.93/2.12	(step @p4625 :rule eq_resolve :premises (@p98 @p4624))
1.93/2.12	(step @p4626 :rule cong :premises (@p4625 @p4593) :args (@t3199))
1.93/2.12	(step @p4627 :rule refl :args (@t1602))
1.93/2.12	(step @p4628 :rule cong :premises (@p4595 @p4627) :args (@t3200))
1.93/2.12	(step @p4629 :rule cong :premises (@p4628) :args ((forall @t309 @t3200)))
1.93/2.12	(step @p4630 :rule refl :args ((tptp.in @t304 @t33)))
1.93/2.12	(step @p4631 :rule cong :premises (@p4602 @p3760) :args (@t3200))
1.93/2.12	(step @p4632 :rule trans :premises (@p4631 @p4630))
1.93/2.12	(step @p4633 :rule ho_cong :premises (@p749 @p4602))
1.93/2.12	(step @p4634 :rule ho_cong :premises (@p4633 @p3760))
1.93/2.12	(step @p4635 :rule cong :premises (@p4634 @p4632) :args ((= (_ (_ tptp.in @t3197) @t1602) @t3200)))
1.93/2.12	(step @p4636 :rule symm :premises (@p4635))
1.93/2.12	(step @p4637 :rule refl :args (@t486))
1.93/2.12	(step @p4638 :rule eq_resolve :premises (@p4637 @p4636))
1.93/2.12	(step @p4639 :rule ho_cong :premises (@p749 @p4617))
1.93/2.12	(step @p4640 :rule ho_cong :premises (@p4639 @p3771))
1.93/2.12	(step @p4641 :rule trans :premises (@p4640 @p4638))
1.93/2.12	(step @p4642 :rule cong :premises (@p4641) :args (@t487))
1.93/2.12	(step @p4643 :rule trans :premises (@p4642 @p4629))
1.93/2.12	(step @p4644 :rule refl :args (tptp.sepInPowerset))
1.93/2.12	(step @p4645 :rule cong :premises (@p4644 @p4643) :args (@t488))
1.93/2.12	(step @p4646 :rule eq_resolve :premises (@p97 @p4645))
1.93/2.12	(step @p4647 :rule cong :premises (@p4646 @p4626) :args (@t3201))
1.93/2.12	(step @p4648 :rule refl :args ((tptp.subset @t33 @t391)))
1.93/2.12	(step @p4649 :rule refl :args (@t1688))
1.93/2.12	(step @p4650 :rule cong :premises (@p3760 @p4649) :args (@t1689))
1.93/2.12	(step @p4651 :rule trans :premises (@p4650 @p4648))
1.93/2.12	(step @p4652 :rule ho_cong :premises (@p1710 @p3760))
1.93/2.12	(step @p4653 :rule ho_cong :premises (@p4652 @p4649))
1.93/2.12	(step @p4654 :rule cong :premises (@p4653 @p4651) :args ((= (_ (_ tptp.subset @t1602) @t1688) @t1689)))
1.93/2.12	(step @p4655 :rule symm :premises (@p4654))
1.93/2.12	(step @p4656 :rule refl :args (@t483))
1.93/2.12	(step @p4657 :rule eq_resolve :premises (@p4656 @p4655))
1.93/2.12	(step @p4658 :rule refl :args (@t391))
1.93/2.12	(step @p4659 :rule cong :premises (@p4658 @p4649) :args ((= @t391 @t1688)))
1.93/2.12	(step @p4660 :rule symm :premises (@p4659))
1.93/2.12	(step @p4661 :rule eq_resolve :premises (@p4658 @p4660))
1.93/2.12	(step @p4662 :rule ho_cong :premises (@p1710 @p3771))
1.93/2.12	(step @p4663 :rule ho_cong :premises (@p4662 @p4661))
1.93/2.12	(step @p4664 :rule trans :premises (@p4663 @p4657))
1.93/2.12	(step @p4665 :rule nary_cong :premises (@p4171 @p4664) :args (@t3202))
1.93/2.12	(step @p4666 :rule cong :premises (@p4665) :args ((forall @t12 @t3202)))
1.93/2.12	(step @p4667 :rule bool-impl-elim :args (@t420 @t483))
1.93/2.12	(step @p4668 :rule cong :premises (@p4667) :args (@t484))
1.93/2.12	(step @p4669 :rule trans :premises (@p4668 @p4666))
1.93/2.12	(step @p4670 :rule refl :args (tptp.powersetsubset))
1.93/2.12	(step @p4671 :rule cong :premises (@p4670 @p4669) :args (@t485))
1.93/2.12	(step @p4672 :rule eq_resolve :premises (@p96 @p4671))
1.93/2.12	(step @p4673 :rule cong :premises (@p4672 @p4647) :args (@t3203))
1.93/2.12	(step @p4674 :rule refl :args ((tptp.in @t2 @t33)))
1.93/2.12	(step @p4675 :rule cong :premises (@p1162 @p3760) :args (@t1691))
1.93/2.12	(step @p4676 :rule trans :premises (@p4675 @p4674))
1.93/2.12	(step @p4677 :rule refl :args (@t466))
1.93/2.12	(step @p4678 :rule ho_cong :premises (@p4677 @p3760))
1.93/2.12	(step @p4679 :rule cong :premises (@p4678 @p4676) :args ((= (_ @t466 @t1602) @t1691)))
1.93/2.12	(step @p4680 :rule symm :premises (@p4679))
1.93/2.12	(step @p4681 :rule refl :args (@t480))
1.93/2.12	(step @p4682 :rule eq_resolve :premises (@p4681 @p4680))
1.93/2.12	(step @p4683 :rule ho_cong :premises (@p4677 @p3771))
1.93/2.12	(step @p4684 :rule trans :premises (@p4683 @p4682))
1.93/2.12	(step @p4685 :rule cong :premises (@p4684) :args (@t481))
1.93/2.12	(step @p4686 :rule refl :args (tptp.inPowerset))
1.93/2.12	(step @p4687 :rule cong :premises (@p4686 @p4685) :args (@t482))
1.93/2.12	(step @p4688 :rule eq_resolve :premises (@p95 @p4687))
1.93/2.12	(step @p4689 :rule cong :premises (@p4688 @p4673) :args (@t3204))
1.93/2.12	(step @p4690 :rule refl :args ((tptp.in @t1 @t33)))
1.93/2.12	(step @p4691 :rule cong :premises (@p1104 @p3760) :args (@t1693))
1.93/2.12	(step @p4692 :rule trans :premises (@p4691 @p4690))
1.93/2.12	(step @p4693 :rule refl :args (@t34))
1.93/2.12	(step @p4694 :rule ho_cong :premises (@p4693 @p3760))
1.93/2.12	(step @p4695 :rule cong :premises (@p4694 @p4692) :args ((= (_ @t34 @t1602) @t1693)))
1.93/2.12	(step @p4696 :rule symm :premises (@p4695))
1.93/2.12	(step @p4697 :rule refl :args (@t35))
1.93/2.12	(step @p4698 :rule eq_resolve :premises (@p4697 @p4696))
1.93/2.12	(step @p4699 :rule ho_cong :premises (@p4693 @p3771))
1.93/2.12	(step @p4700 :rule trans :premises (@p4699 @p4698))
1.93/2.12	(step @p4701 :rule cong :premises (@p4700) :args (@t3205))
1.93/2.12	(step @p4702 :rule nary_cong :premises (@p4701 @p4283) :args (@t3206))
1.93/2.12	(step @p4703 :rule cong :premises (@p4702) :args ((forall @t12 @t3206)))
1.93/2.12	(step @p4704 :rule bool-impl-elim :args (@t35 @t425))
1.93/2.12	(step @p4705 :rule cong :premises (@p4704) :args (@t478))
1.93/2.12	(step @p4706 :rule trans :premises (@p4705 @p4703))
1.93/2.12	(step @p4707 :rule refl :args (tptp.powersetE1))
1.93/2.12	(step @p4708 :rule cong :premises (@p4707 @p4706) :args (@t479))
1.93/2.12	(step @p4709 :rule eq_resolve :premises (@p94 @p4708))
1.93/2.12	(step @p4710 :rule cong :premises (@p4709 @p4689) :args (@t3207))
1.93/2.12	(step @p4711 :rule nary_cong :premises (@p4284 @p4700) :args (@t3208))
1.93/2.12	(step @p4712 :rule cong :premises (@p4711) :args ((forall @t12 @t3208)))
1.93/2.12	(step @p4713 :rule bool-impl-elim :args (@t425 @t35))
1.93/2.12	(step @p4714 :rule cong :premises (@p4713) :args (@t476))
1.93/2.12	(step @p4715 :rule trans :premises (@p4714 @p4712))
1.93/2.12	(step @p4716 :rule refl :args (tptp.powersetI1))
1.93/2.12	(step @p4717 :rule cong :premises (@p4716 @p4715) :args (@t477))
1.93/2.12	(step @p4718 :rule eq_resolve :premises (@p93 @p4717))
1.93/2.12	(step @p4719 :rule cong :premises (@p4718 @p4710) :args (@t3209))
1.93/2.12	(step @p4720 :rule refl :args (@t196))
1.93/2.12	(step @p4721 :rule refl :args (@t1697))
1.93/2.12	(step @p4722 :rule refl :args (@t473))
1.93/2.12	(step @p4723 :rule cong :premises (@p4722 @p4721) :args ((= @t473 @t1697)))
1.93/2.12	(step @p4724 :rule symm :premises (@p4723))
1.93/2.12	(step @p4725 :rule eq_resolve :premises (@p4722 @p4724))
1.93/2.12	(step @p4726 :rule cong :premises (@p4725) :args (@t3210))
1.93/2.12	(step @p4727 :rule nary_cong :premises (@p4726 @p4720) :args (@t3211))
1.93/2.12	(step @p4728 :rule cong :premises (@p4727) :args ((forall @t64 @t3211)))
1.93/2.12	(step @p4729 :rule bool-impl-elim :args (@t473 @t196))
1.93/2.12	(step @p4730 :rule cong :premises (@p4729) :args (@t474))
1.93/2.12	(step @p4731 :rule trans :premises (@p4730 @p4728))
1.93/2.12	(step @p4732 :rule refl :args (tptp.subsetemptysetimpeq))
1.93/2.12	(step @p4733 :rule cong :premises (@p4732 @p4731) :args (@t475))
1.93/2.12	(step @p4734 :rule eq_resolve :premises (@p92 @p4733))
1.93/2.12	(step @p4735 :rule cong :premises (@p4734 @p4719) :args (@t3212))
1.93/2.12	(step @p4736 :rule refl :args (@t3))
1.93/2.12	(step @p4737 :rule nary_cong :premises (@p4171 @p4284 @p4736) :args (@t3213))
1.93/2.12	(step @p4738 :rule cong :premises (@p4737) :args ((forall @t12 @t3213)))
1.93/2.12	(step @p4739 :rule aci_norm :args ((= (or @t439 (or @t3145 @t3)) @t3213)))
1.93/2.12	(step @p4740 :rule bool-impl-elim :args (@t425 @t3))
1.93/2.12	(step @p4741 :rule refl :args (@t439))
1.93/2.12	(step @p4742 :rule nary_cong :premises (@p4741 @p4740) :args ((or @t439 @t470)))
1.93/2.12	(step @p4743 :rule trans :premises (@p4742 @p4739))
1.93/2.12	(step @p4744 :rule bool-impl-elim :args (@t420 @t470))
1.93/2.12	(step @p4745 :rule trans :premises (@p4744 @p4743))
1.93/2.12	(step @p4746 :rule cong :premises (@p4745) :args (@t471))
1.93/2.12	(step @p4747 :rule trans :premises (@p4746 @p4738))
1.93/2.12	(step @p4748 :rule refl :args (tptp.setextsub))
1.93/2.12	(step @p4749 :rule cong :premises (@p4748 @p4747) :args (@t472))
1.93/2.12	(step @p4750 :rule eq_resolve :premises (@p91 @p4749))
1.93/2.12	(step @p4751 :rule cong :premises (@p4750 @p4735) :args (@t3214))
1.93/2.12	(step @p4752 :rule refl :args ((tptp.in @t2 @t391)))
1.93/2.12	(step @p4753 :rule cong :premises (@p1162 @p4649) :args (@t1700))
1.93/2.12	(step @p4754 :rule trans :premises (@p4753 @p4752))
1.93/2.12	(step @p4755 :rule ho_cong :premises (@p4677 @p4649))
1.93/2.12	(step @p4756 :rule cong :premises (@p4755 @p4754) :args ((= (_ @t466 @t1688) @t1700)))
1.93/2.12	(step @p4757 :rule symm :premises (@p4756))
1.93/2.12	(step @p4758 :rule refl :args (@t467))
1.93/2.12	(step @p4759 :rule eq_resolve :premises (@p4758 @p4757))
1.93/2.12	(step @p4760 :rule ho_cong :premises (@p4677 @p4661))
1.93/2.12	(step @p4761 :rule trans :premises (@p4760 @p4759))
1.93/2.12	(step @p4762 :rule nary_cong :premises (@p4171 @p4761) :args (@t3215))
1.93/2.12	(step @p4763 :rule cong :premises (@p4762) :args ((forall @t12 @t3215)))
1.93/2.12	(step @p4764 :rule bool-impl-elim :args (@t420 @t467))
1.93/2.12	(step @p4765 :rule cong :premises (@p4764) :args (@t468))
1.93/2.12	(step @p4766 :rule trans :premises (@p4765 @p4763))
1.93/2.12	(step @p4767 :rule refl :args (tptp.subset2powerset))
1.93/2.12	(step @p4768 :rule cong :premises (@p4767 @p4766) :args (@t469))
1.93/2.12	(step @p4769 :rule eq_resolve :premises (@p90 @p4768))
1.93/2.12	(step @p4770 :rule cong :premises (@p4769 @p4751) :args (@t3216))
1.93/2.12	(step @p4771 :rule refl :args ((tptp.subset @t2 @t462)))
1.93/2.12	(step @p4772 :rule refl :args (@t1702))
1.93/2.12	(step @p4773 :rule cong :premises (@p1162 @p4772) :args (@t1703))
1.93/2.12	(step @p4774 :rule trans :premises (@p4773 @p4771))
1.93/2.12	(step @p4775 :rule ho_cong :premises (@p3290 @p4772))
1.93/2.12	(step @p4776 :rule cong :premises (@p4775 @p4774) :args ((= (_ @t419 @t1702) @t1703)))
1.93/2.12	(step @p4777 :rule symm :premises (@p4776))
1.93/2.12	(step @p4778 :rule refl :args (@t463))
1.93/2.12	(step @p4779 :rule eq_resolve :premises (@p4778 @p4777))
1.93/2.12	(step @p4780 :rule refl :args (@t462))
1.93/2.12	(step @p4781 :rule cong :premises (@p4780 @p4772) :args ((= @t462 @t1702)))
1.93/2.12	(step @p4782 :rule symm :premises (@p4781))
1.93/2.12	(step @p4783 :rule eq_resolve :premises (@p4780 @p4782))
1.93/2.12	(step @p4784 :rule ho_cong :premises (@p3290 @p4783))
1.93/2.12	(step @p4785 :rule trans :premises (@p4784 @p4779))
1.93/2.12	(step @p4786 :rule nary_cong :premises (@p4171 @p4785) :args (@t3217))
1.93/2.12	(step @p4787 :rule cong :premises (@p4786) :args ((forall @t249 @t3217)))
1.93/2.12	(step @p4788 :rule bool-impl-elim :args (@t420 @t463))
1.93/2.12	(step @p4789 :rule cong :premises (@p4788) :args (@t464))
1.93/2.12	(step @p4790 :rule trans :premises (@p4789 @p4787))
1.93/2.12	(step @p4791 :rule refl :args (tptp.setadjoinSub2))
1.93/2.12	(step @p4792 :rule cong :premises (@p4791 @p4790) :args (@t465))
1.93/2.12	(step @p4793 :rule eq_resolve :premises (@p89 @p4792))
1.93/2.12	(step @p4794 :rule cong :premises (@p4793 @p4770) :args (@t3218))
1.93/2.12	(step @p4795 :rule refl :args ((tptp.subset @t2 @t25)))
1.93/2.12	(step @p4796 :rule refl :args (@t1705))
1.93/2.12	(step @p4797 :rule cong :premises (@p1162 @p4796) :args (@t1706))
1.93/2.12	(step @p4798 :rule trans :premises (@p4797 @p4795))
1.93/2.12	(step @p4799 :rule ho_cong :premises (@p3290 @p4796))
1.93/2.12	(step @p4800 :rule cong :premises (@p4799 @p4798) :args ((= (_ @t419 @t1705) @t1706)))
1.93/2.12	(step @p4801 :rule symm :premises (@p4800))
1.93/2.12	(step @p4802 :rule refl :args (@t458))
1.93/2.12	(step @p4803 :rule eq_resolve :premises (@p4802 @p4801))
1.93/2.12	(step @p4804 :rule refl :args (@t25))
1.93/2.12	(step @p4805 :rule cong :premises (@p4804 @p4796) :args ((= @t25 @t1705)))
1.93/2.12	(step @p4806 :rule symm :premises (@p4805))
1.93/2.12	(step @p4807 :rule eq_resolve :premises (@p4804 @p4806))
1.93/2.12	(step @p4808 :rule ho_cong :premises (@p3290 @p4807))
1.93/2.12	(step @p4809 :rule trans :premises (@p4808 @p4803))
1.93/2.12	(step @p4810 :rule cong :premises (@p4809) :args (@t460))
1.93/2.12	(step @p4811 :rule refl :args (tptp.setadjoinSub))
1.93/2.12	(step @p4812 :rule cong :premises (@p4811 @p4810) :args (@t461))
1.93/2.12	(step @p4813 :rule eq_resolve :premises (@p88 @p4812))
1.93/2.12	(step @p4814 :rule cong :premises (@p4813 @p4794) :args (@t3219))
1.93/2.12	(step @p4815 :rule refl :args (@t1708))
1.93/2.12	(step @p4816 :rule refl :args (@t452))
1.93/2.12	(step @p4817 :rule cong :premises (@p4816 @p4815) :args ((= @t452 @t1708)))
1.93/2.12	(step @p4818 :rule symm :premises (@p4817))
1.93/2.12	(step @p4819 :rule eq_resolve :premises (@p4816 @p4818))
1.93/2.12	(step @p4820 :rule refl :args (@t1709))
1.93/2.12	(step @p4821 :rule refl :args (@t453))
1.93/2.12	(step @p4822 :rule cong :premises (@p4821 @p4820) :args ((= @t453 @t1709)))
1.93/2.12	(step @p4823 :rule symm :premises (@p4822))
1.93/2.12	(step @p4824 :rule eq_resolve :premises (@p4821 @p4823))
1.93/2.12	(step @p4825 :rule cong :premises (@p4824) :args (@t3220))
1.93/2.12	(step @p4826 :rule nary_cong :premises (@p4171 @p4825 @p4819) :args (@t3221))
1.93/2.12	(step @p4827 :rule cong :premises (@p4826) :args ((forall @t455 @t3221)))
1.93/2.12	(step @p4828 :rule aci_norm :args ((= (or @t439 (or @t3220 @t452)) @t3221)))
1.93/2.12	(step @p4829 :rule bool-impl-elim :args (@t453 @t452))
1.93/2.12	(step @p4830 :rule nary_cong :premises (@p4741 @p4829) :args ((or @t439 @t454)))
1.93/2.12	(step @p4831 :rule trans :premises (@p4830 @p4828))
1.93/2.12	(step @p4832 :rule bool-impl-elim :args (@t420 @t454))
1.93/2.12	(step @p4833 :rule trans :premises (@p4832 @p4831))
1.93/2.12	(step @p4834 :rule cong :premises (@p4833) :args (@t456))
1.93/2.12	(step @p4835 :rule trans :premises (@p4834 @p4827))
1.93/2.12	(step @p4836 :rule refl :args (tptp.subsetTrans))
1.93/2.12	(step @p4837 :rule cong :premises (@p4836 @p4835) :args (@t457))
1.93/2.12	(step @p4838 :rule eq_resolve :premises (@p87 @p4837))
1.93/2.12	(step @p4839 :rule cong :premises (@p4838 @p4814) :args (@t3222))
1.93/2.12	(step @p4840 :rule refl :args (@t1711))
1.93/2.12	(step @p4841 :rule refl :args (@t449))
1.93/2.12	(step @p4842 :rule cong :premises (@p4841 @p4840) :args ((= @t449 @t1711)))
1.93/2.12	(step @p4843 :rule symm :premises (@p4842))
1.93/2.12	(step @p4844 :rule eq_resolve :premises (@p4841 @p4843))
1.93/2.12	(step @p4845 :rule cong :premises (@p4844) :args (@t450))
1.93/2.12	(step @p4846 :rule refl :args (tptp.subsetRefl))
1.93/2.12	(step @p4847 :rule cong :premises (@p4846 @p4845) :args (@t451))
1.93/2.12	(step @p4848 :rule eq_resolve :premises (@p86 @p4847))
1.93/2.12	(step @p4849 :rule cong :premises (@p4848 @p4839) :args (@t3223))
1.93/2.12	(step @p4850 :rule bool-eq-true :args (tptp.notequalI2))
1.93/2.12	(step @p4851 :rule symm :premises (@p4850))
1.93/2.12	(step @p4852 :rule quant-unused-vars :args ((= (forall @t3224 true) true)))
1.93/2.12	(step @p4853 :rule bool-or-taut2 :args (false @t1621 false false))
1.93/2.12	(step @p4854 :rule cong :premises (@p4853) :args ((forall @t3224 @t3225)))
1.93/2.12	(step @p4855 :rule trans :premises (@p4854 @p4852))
1.93/2.12	(step @p4856 :rule aci_norm :args ((= (or @t1623 @t1621 false) @t3225)))
1.93/2.12	(step @p4857 :rule eq-refl :args (@t1))
1.93/2.12	(step @p4858 :rule cong :premises (@p4857) :args (@t3226))
1.93/2.12	(step @p4859 :rule trans :premises (@p4858 @p2752))
1.93/2.12	(step @p4860 :rule nary_cong :premises (@p4001 @p3997 @p4859) :args (@t3227))
1.93/2.12	(step @p4861 :rule trans :premises (@p4860 @p4856))
1.93/2.12	(step @p4862 :rule cong :premises (@p4861) :args ((forall @t3224 @t3227)))
1.93/2.12	(step @p4863 :rule trans :premises (@p4862 @p4855))
1.93/2.12	(step @p4864 :rule quant-var-elim-eq :args ((= (forall @t64 @t3228) @t3227)))
1.93/2.12	(step @p4865 :rule aci_norm :args ((= @t3229 @t3228)))
1.93/2.12	(step @p4866 :rule cong :premises (@p4865) :args (@t3230))
1.93/2.12	(step @p4867 :rule trans :premises (@p4866 @p4864))
1.93/2.12	(step @p4868 :rule cong :premises (@p4867) :args (@t3231))
1.93/2.12	(step @p4869 :rule quant-merge-prenex :args ((= @t3231 @t3232)))
1.93/2.12	(step @p4870 :rule symm :premises (@p4869))
1.93/2.12	(step @p4871 :rule quant_var_reordering :args ((= (forall @t245 @t3229) @t3232)))
1.93/2.12	(step @p4872 :rule trans :premises (@p4871 @p4870 @p4868))
1.93/2.12	(step @p4873 :rule trans :premises (@p4872 @p4863))
1.93/2.12	(step @p4874 :rule refl :args (@t443))
1.93/2.12	(step @p4875 :rule nary_cong :premises (@p738 @p3915 @p4874) :args (@t3233))
1.93/2.12	(step @p4876 :rule cong :premises (@p4875) :args ((forall @t245 @t3233)))
1.93/2.12	(step @p4877 :rule trans :premises (@p4876 @p4873))
1.93/2.12	(step @p4878 :rule aci_norm :args ((= (or @t197 (or @t6 @t443)) @t3233)))
1.93/2.12	(step @p4879 :rule nary_cong :premises (@p3920 @p4874) :args ((or @t3087 @t443)))
1.93/2.12	(step @p4880 :rule bool-impl-elim :args (@t435 @t443))
1.93/2.12	(step @p4881 :rule trans :premises (@p4880 @p4879))
1.93/2.12	(step @p4882 :rule nary_cong :premises (@p3155 @p4881) :args ((or @t197 @t446)))
1.93/2.12	(step @p4883 :rule trans :premises (@p4882 @p4878))
1.93/2.12	(step @p4884 :rule bool-impl-elim :args (@t7 @t446))
1.93/2.12	(step @p4885 :rule trans :premises (@p4884 @p4883))
1.93/2.12	(step @p4886 :rule cong :premises (@p4885) :args (@t447))
1.93/2.12	(step @p4887 :rule trans :premises (@p4886 @p4877))
1.93/2.12	(step @p4888 :rule refl :args (tptp.notequalI2))
1.93/2.12	(step @p4889 :rule cong :premises (@p4888 @p4887) :args (@t448))
1.93/2.12	(step @p4890 :rule trans :premises (@p4889 @p4850))
1.93/2.12	(step @p4891 :rule eq_resolve :premises (@p85 @p4890))
1.93/2.12	(step @p4892 :rule eq_resolve :premises (@p4891 @p4851))
1.93/2.12	(step @p4893 :rule cong :premises (@p4892 @p4849) :args (@t3234))
1.93/2.12	(step @p4894 :rule aci_norm :args ((= (or @t1713 false) @t1713)))
1.93/2.12	(step @p4895 :rule refl :args (@t1713))
1.93/2.12	(step @p4896 :rule nary_cong :premises (@p4895 @p4859) :args (@t3235))
1.93/2.12	(step @p4897 :rule trans :premises (@p4896 @p4894))
1.93/2.12	(step @p4898 :rule cong :premises (@p4897) :args ((forall @t41 @t3235)))
1.93/2.12	(step @p4899 :rule quant-var-elim-eq :args ((= (forall @t64 @t3236) @t3235)))
1.93/2.12	(step @p4900 :rule aci_norm :args ((= @t3237 @t3236)))
1.93/2.12	(step @p4901 :rule cong :premises (@p4900) :args (@t3238))
1.93/2.12	(step @p4902 :rule trans :premises (@p4901 @p4899))
1.93/2.12	(step @p4903 :rule cong :premises (@p4902) :args (@t3239))
1.93/2.12	(step @p4904 :rule quant-merge-prenex :args ((= @t3239 @t3241)))
1.93/2.12	(step @p4905 :rule symm :premises (@p4904))
1.93/2.12	(step @p4906 :rule quant_var_reordering :args ((= (forall @t12 @t3237) @t3241)))
1.93/2.12	(step @p4907 :rule trans :premises (@p4906 @p4905 @p4903))
1.93/2.12	(step @p4908 :rule trans :premises (@p4907 @p4898))
1.93/2.12	(step @p4909 :rule nary_cong :premises (@p4063 @p4874) :args (@t3242))
1.93/2.12	(step @p4910 :rule cong :premises (@p4909) :args ((forall @t12 @t3242)))
1.93/2.12	(step @p4911 :rule trans :premises (@p4910 @p4908))
1.93/2.12	(step @p4912 :rule bool-double-not-elim :args (@t420))
1.93/2.12	(step @p4913 :rule nary_cong :premises (@p4912 @p4874) :args ((or (not @t439) @t443)))
1.93/2.12	(step @p4914 :rule bool-impl-elim :args (@t439 @t443))
1.93/2.12	(step @p4915 :rule trans :premises (@p4914 @p4913))
1.93/2.12	(step @p4916 :rule cong :premises (@p4915) :args (@t444))
1.93/2.12	(step @p4917 :rule trans :premises (@p4916 @p4911))
1.93/2.12	(step @p4918 :rule refl :args (tptp.notequalI1))
1.93/2.12	(step @p4919 :rule cong :premises (@p4918 @p4917) :args (@t445))
1.93/2.12	(step @p4920 :rule eq_resolve :premises (@p84 @p4919))
1.93/2.12	(step @p4921 :rule cong :premises (@p4920 @p4893) :args (@t3243))
1.93/2.12	(step @p4922 :rule nary_cong :premises (@p738 @p3915 @p4171) :args (@t3244))
1.93/2.12	(step @p4923 :rule cong :premises (@p4922) :args ((forall @t245 @t3244)))
1.93/2.12	(step @p4924 :rule aci_norm :args ((= (or @t197 (or @t6 @t439)) @t3244)))
1.93/2.12	(step @p4925 :rule nary_cong :premises (@p3920 @p4741) :args ((or @t3087 @t439)))
1.93/2.12	(step @p4926 :rule bool-impl-elim :args (@t435 @t439))
1.93/2.12	(step @p4927 :rule trans :premises (@p4926 @p4925))
1.93/2.12	(step @p4928 :rule nary_cong :premises (@p3155 @p4927) :args ((or @t197 @t440)))
1.93/2.12	(step @p4929 :rule trans :premises (@p4928 @p4924))
1.93/2.12	(step @p4930 :rule bool-impl-elim :args (@t7 @t440))
1.93/2.12	(step @p4931 :rule trans :premises (@p4930 @p4929))
1.93/2.12	(step @p4932 :rule cong :premises (@p4931) :args (@t441))
1.93/2.12	(step @p4933 :rule trans :premises (@p4932 @p4923))
1.93/2.12	(step @p4934 :rule refl :args (tptp.notsubsetI))
1.93/2.12	(step @p4935 :rule cong :premises (@p4934 @p4933) :args (@t442))
1.93/2.12	(step @p4936 :rule eq_resolve :premises (@p83 @p4935))
1.93/2.12	(step @p4937 :rule cong :premises (@p4936 @p4921) :args (@t3245))
1.93/2.12	(step @p4938 :rule nary_cong :premises (@p4171 @p3915 @p738) :args (@t3246))
1.93/2.12	(step @p4939 :rule cong :premises (@p4938) :args ((forall @t245 @t3246)))
1.93/2.12	(step @p4940 :rule aci_norm :args ((= (or @t439 @t3125) @t3246)))
1.93/2.12	(step @p4941 :rule nary_cong :premises (@p4741 @p4139) :args ((or @t439 @t436)))
1.93/2.12	(step @p4942 :rule trans :premises (@p4941 @p4940))
1.93/2.12	(step @p4943 :rule bool-impl-elim :args (@t420 @t436))
1.93/2.12	(step @p4944 :rule trans :premises (@p4943 @p4942))
1.93/2.12	(step @p4945 :rule cong :premises (@p4944) :args (@t437))
1.93/2.12	(step @p4946 :rule trans :premises (@p4945 @p4939))
1.93/2.12	(step @p4947 :rule refl :args (tptp.subsetE2))
1.93/2.12	(step @p4948 :rule cong :premises (@p4947 @p4946) :args (@t438))
1.93/2.12	(step @p4949 :rule eq_resolve :premises (@p82 @p4948))
1.93/2.12	(step @p4950 :rule cong :premises (@p4949 @p4937) :args (@t3247))
1.93/2.12	(step @p4951 :rule nary_cong :premises (@p4171 @p738 @p3915) :args (@t3248))
1.93/2.12	(step @p4952 :rule cong :premises (@p4951) :args ((forall @t245 @t3248)))
1.93/2.12	(step @p4953 :rule aci_norm :args ((= (or @t439 @t3129) @t3248)))
1.93/2.12	(step @p4954 :rule nary_cong :premises (@p4741 @p4157) :args ((or @t439 @t191)))
1.93/2.12	(step @p4955 :rule trans :premises (@p4954 @p4953))
1.93/2.12	(step @p4956 :rule bool-impl-elim :args (@t420 @t191))
1.93/2.12	(step @p4957 :rule trans :premises (@p4956 @p4955))
1.93/2.12	(step @p4958 :rule cong :premises (@p4957) :args (@t433))
1.93/2.12	(step @p4959 :rule trans :premises (@p4958 @p4952))
1.93/2.12	(step @p4960 :rule refl :args (tptp.subsetE))
1.93/2.12	(step @p4961 :rule cong :premises (@p4960 @p4959) :args (@t434))
1.93/2.12	(step @p4962 :rule eq_resolve :premises (@p81 @p4961))
1.93/2.12	(step @p4963 :rule cong :premises (@p4962 @p4950) :args (@t3249))
1.93/2.12	(step @p4964 :rule refl :args (@t1718))
1.93/2.12	(step @p4965 :rule refl :args (@t430))
1.93/2.12	(step @p4966 :rule cong :premises (@p4965 @p4964) :args ((= @t430 @t1718)))
1.93/2.12	(step @p4967 :rule symm :premises (@p4966))
1.93/2.12	(step @p4968 :rule eq_resolve :premises (@p4965 @p4967))
1.93/2.12	(step @p4969 :rule cong :premises (@p4968) :args (@t431))
1.93/2.12	(step @p4970 :rule refl :args (tptp.emptysetsubset))
1.93/2.12	(step @p4971 :rule cong :premises (@p4970 @p4969) :args (@t432))
1.93/2.12	(step @p4972 :rule eq_resolve :premises (@p80 @p4971))
1.93/2.12	(step @p4973 :rule cong :premises (@p4972 @p4963) :args (@t3250))
1.93/2.12	(step @p4974 :rule eq-symm :args (@t1722 tptp.subsetI2))
1.93/2.12	(step @p4975 :rule refl :args (tptp.subsetI2))
1.93/2.12	(step @p4976 :rule refl :args (@t1721))
1.93/2.12	(step @p4977 :rule nary_cong :premises (@p4976 @p4063) :args (@t3251))
1.93/2.12	(step @p4978 :rule cong :premises (@p4977) :args ((forall @t12 @t3251)))
1.93/2.12	(step @p4979 :rule bool-impl-elim :args (@t1720 @t420))
1.93/2.12	(step @p4980 :rule cong :premises (@p4979) :args ((forall @t12 (=> @t1720 @t420))))
1.93/2.12	(step @p4981 :rule trans :premises (@p4980 @p4978))
1.93/2.12	(step @p4982 :rule nary_cong :premises (@p738 @p3915) :args (@t3129))
1.93/2.12	(step @p4983 :rule cong :premises (@p4982) :args ((forall @t9 @t3129)))
1.93/2.12	(step @p4984 :rule cong :premises (@p4157) :args (@t192))
1.93/2.12	(step @p4985 :rule trans :premises (@p4984 @p4983))
1.93/2.12	(step @p4986 :rule cong :premises (@p4985 @p4076) :args (@t421))
1.93/2.12	(step @p4987 :rule cong :premises (@p4986) :args (@t422))
1.93/2.12	(step @p4988 :rule trans :premises (@p4987 @p4981))
1.93/2.12	(step @p4989 :rule cong :premises (@p4988 @p4975) :args ((= @t422 tptp.subsetI2)))
1.93/2.12	(step @p4990 :rule trans :premises (@p4989 @p4974))
1.93/2.12	(step @p4991 :rule eq-symm :args (tptp.subsetI2 @t422))
1.93/2.12	(step @p4992 :rule trans :premises (@p4991 @p4990))
1.93/2.12	(step @p4993 :rule eq_resolve :premises (@p79 @p4992))
1.93/2.12	(step @p4994 :rule cong :premises (@p4993 @p4973) :args (@t3252))
1.93/2.12	(step @p4995 :rule aci_norm :args ((= (or false @t1713) @t1713)))
1.93/2.12	(step @p4996 :rule nary_cong :premises (@p4859 @p4895) :args (@t3253))
1.93/2.12	(step @p4997 :rule trans :premises (@p4996 @p4995))
1.93/2.12	(step @p4998 :rule cong :premises (@p4997) :args ((forall @t41 @t3253)))
1.93/2.12	(step @p4999 :rule quant-var-elim-eq :args ((= (forall @t64 @t3254) @t3253)))
1.93/2.12	(step @p5000 :rule aci_norm :args ((= @t3255 @t3254)))
1.93/2.12	(step @p5001 :rule cong :premises (@p5000) :args (@t3256))
1.93/2.12	(step @p5002 :rule trans :premises (@p5001 @p4999))
1.93/2.12	(step @p5003 :rule cong :premises (@p5002) :args (@t3257))
1.93/2.12	(step @p5004 :rule quant-merge-prenex :args ((= @t3257 @t3258)))
1.93/2.12	(step @p5005 :rule symm :premises (@p5004))
1.93/2.12	(step @p5006 :rule quant_var_reordering :args ((= (forall @t12 @t3255) @t3258)))
1.93/2.12	(step @p5007 :rule trans :premises (@p5006 @p5005 @p5003))
1.93/2.12	(step @p5008 :rule trans :premises (@p5007 @p4998))
1.93/2.12	(step @p5009 :rule nary_cong :premises (@p4874 @p4063) :args (@t3259))
1.93/2.12	(step @p5010 :rule cong :premises (@p5009) :args ((forall @t12 @t3259)))
1.93/2.12	(step @p5011 :rule trans :premises (@p5010 @p5008))
1.93/2.12	(step @p5012 :rule bool-impl-elim :args (@t3 @t420))
1.93/2.12	(step @p5013 :rule cong :premises (@p5012) :args (@t428))
1.93/2.12	(step @p5014 :rule trans :premises (@p5013 @p5011))
1.93/2.12	(step @p5015 :rule refl :args (tptp.eqimpsubset1))
1.93/2.12	(step @p5016 :rule cong :premises (@p5015 @p5014) :args (@t429))
1.93/2.12	(step @p5017 :rule eq_resolve :premises (@p78 @p5016))
1.93/2.12	(step @p5018 :rule cong :premises (@p5017 @p4994) :args (@t3260))
1.93/2.12	(step @p5019 :rule quant-var-elim-eq :args ((= (forall @t64 @t3261) @t3253)))
1.93/2.12	(step @p5020 :rule aci_norm :args ((= @t3262 @t3261)))
1.93/2.12	(step @p5021 :rule cong :premises (@p5020) :args (@t3263))
1.93/2.12	(step @p5022 :rule trans :premises (@p5021 @p5019))
1.93/2.12	(step @p5023 :rule cong :premises (@p5022) :args (@t3264))
1.93/2.12	(step @p5024 :rule quant-merge-prenex :args ((= @t3264 @t3265)))
1.93/2.12	(step @p5025 :rule symm :premises (@p5024))
1.93/2.12	(step @p5026 :rule quant_var_reordering :args ((= (forall @t12 @t3262) @t3265)))
1.93/2.12	(step @p5027 :rule trans :premises (@p5026 @p5025 @p5023))
1.93/2.12	(step @p5028 :rule trans :premises (@p5027 @p4998))
1.93/2.12	(step @p5029 :rule nary_cong :premises (@p4874 @p4283) :args (@t3266))
1.93/2.12	(step @p5030 :rule cong :premises (@p5029) :args ((forall @t12 @t3266)))
1.93/2.12	(step @p5031 :rule trans :premises (@p5030 @p5028))
1.93/2.12	(step @p5032 :rule bool-impl-elim :args (@t3 @t425))
1.93/2.12	(step @p5033 :rule cong :premises (@p5032) :args (@t426))
1.93/2.12	(step @p5034 :rule trans :premises (@p5033 @p5031))
1.93/2.12	(step @p5035 :rule refl :args (tptp.eqimpsubset2))
1.93/2.12	(step @p5036 :rule cong :premises (@p5035 @p5034) :args (@t427))
1.93/2.12	(step @p5037 :rule eq_resolve :premises (@p77 @p5036))
1.93/2.12	(step @p5038 :rule cong :premises (@p5037 @p5018) :args (@t3267))
1.93/2.12	(step @p5039 :rule refl :args (tptp.subsetI1))
1.93/2.12	(step @p5040 :rule cong :premises (@p5039 @p4988) :args (@t423))
1.93/2.12	(step @p5041 :rule eq_resolve :premises (@p76 @p5040))
1.93/2.12	(step @p5042 :rule cong :premises (@p5041 @p5038) :args (@t3268))
1.93/2.12	(step @p5043 :rule aci_norm :args ((= (or false @t1730 @t1727) @t1731)))
1.93/2.12	(step @p5044 :rule eq-symm :args (@t1724 @t1726))
1.93/2.12	(step @p5045 :rule aci_norm :args ((= @t3269 @t1729)))
1.93/2.12	(step @p5046 :rule cong :premises (@p5045) :args (@t3270))
1.93/2.12	(step @p5047 :rule cong :premises (@p5046) :args (@t3271))
1.93/2.12	(step @p5048 :rule nary_cong :premises (@p4859 @p5047 @p5044) :args (@t3272))
1.93/2.12	(step @p5049 :rule trans :premises (@p5048 @p5043))
1.93/2.12	(step @p5050 :rule cong :premises (@p5049) :args ((forall @t1732 @t3272)))
1.93/2.12	(step @p5051 :rule quant-var-elim-eq :args ((= (forall @t64 @t3275) @t3272)))
1.93/2.12	(step @p5052 :rule aci_norm :args ((= @t3276 @t3275)))
1.93/2.12	(step @p5053 :rule cong :premises (@p5052) :args (@t3277))
1.93/2.12	(step @p5054 :rule trans :premises (@p5053 @p5051))
1.93/2.12	(step @p5055 :rule cong :premises (@p5054) :args (@t3278))
1.93/2.12	(step @p5056 :rule quant-merge-prenex :args ((= @t3278 @t3279)))
1.93/2.12	(step @p5057 :rule symm :premises (@p5056))
1.93/2.12	(step @p5058 :rule quant_var_reordering :args ((= (forall @t3280 @t3276) @t3279)))
1.93/2.12	(step @p5059 :rule trans :premises (@p5058 @p5057 @p5055))
1.93/2.12	(step @p5060 :rule trans :premises (@p5059 @p5050))
1.93/2.12	(step @p5061 :rule aci_norm :args ((= @t3282 @t3276)))
1.93/2.12	(step @p5062 :rule cong :premises (@p5061) :args (@t3283))
1.93/2.12	(step @p5063 :rule trans :premises (@p5062 @p5060))
1.93/2.12	(step @p5064 :rule quant-merge-prenex :args ((= (forall @t12 @t3285) @t3283)))
1.93/2.12	(step @p5065 :rule alpha_equiv :args (@t3286 (@list @t1723 @t1725) (@list @t143 @t366)))
1.93/2.12	(step @p5066 :rule nary_cong :premises (@p4874 @p5065) :args (@t3287))
1.93/2.12	(step @p5067 :rule quant-miniscope-or :args ((= @t3285 @t3287)))
1.93/2.12	(step @p5068 :rule trans :premises (@p5067 @p5066))
1.93/2.12	(step @p5069 :rule symm :premises (@p5068))
1.93/2.12	(step @p5070 :rule cong :premises (@p5069) :args ((forall @t12 (or @t443 @t3291))))
1.93/2.12	(step @p5071 :rule trans :premises (@p5070 @p5064))
1.93/2.12	(step @p5072 :rule trans :premises (@p5071 @p5063))
1.93/2.12	(step @p5073 :rule bool-impl-elim :args (@t3 @t3291))
1.93/2.12	(step @p5074 :rule cong :premises (@p5073) :args ((forall @t12 (=> @t3 @t3291))))
1.93/2.12	(step @p5075 :rule trans :premises (@p5074 @p5072))
1.93/2.12	(step @p5076 :rule lambda-elim :args ((= @t3292 @t366)))
1.93/2.12	(step @p5077 :rule cong :premises (@p799 @p5076) :args (@t3293))
1.93/2.12	(step @p5078 :rule cong :premises (@p4595 @p5077) :args (@t3294))
1.93/2.12	(step @p5079 :rule refl :args (@t3290))
1.93/2.12	(step @p5080 :rule nary_cong :premises (@p5079 @p5078) :args (@t3295))
1.93/2.12	(step @p5081 :rule cong :premises (@p5080) :args ((forall @t376 @t3295)))
1.93/2.12	(step @p5082 :rule refl :args ((tptp.dsetconstr @t1 @t368)))
1.93/2.12	(step @p5083 :rule refl :args (@t1757))
1.93/2.12	(step @p5084 :rule cong :premises (@p5083) :args (@t3292))
1.93/2.12	(step @p5085 :rule cong :premises (@p1104 @p5084) :args (@t3293))
1.93/2.12	(step @p5086 :rule trans :premises (@p5085 @p5082))
1.93/2.12	(step @p5087 :rule ho_cong :premises (@p2007 @p5084))
1.93/2.12	(step @p5088 :rule cong :premises (@p5087 @p5086) :args ((= (_ @t408 @t3292) @t3293)))
1.93/2.12	(step @p5089 :rule symm :premises (@p5088))
1.93/2.12	(step @p5090 :rule refl :args (@t409))
1.93/2.12	(step @p5091 :rule eq_resolve :premises (@p5090 @p5089))
1.93/2.12	(step @p5092 :rule refl :args (@t367))
1.93/2.12	(step @p5093 :rule cong :premises (@p5092 @p5083) :args ((= @t367 @t1757)))
1.93/2.12	(step @p5094 :rule symm :premises (@p5093))
1.93/2.12	(step @p5095 :rule eq_resolve :premises (@p5092 @p5094))
1.93/2.12	(step @p5096 :rule cong :premises (@p5095) :args (@t368))
1.93/2.12	(step @p5097 :rule ho_cong :premises (@p2007 @p5096))
1.93/2.12	(step @p5098 :rule trans :premises (@p5097 @p5091))
1.93/2.12	(step @p5099 :rule cong :premises (@p4617 @p5098) :args (@t410))
1.93/2.12	(step @p5100 :rule refl :args (@t3290))
1.93/2.12	(step @p5101 :rule nary_cong :premises (@p5100 @p5099) :args (@t3296))
1.93/2.12	(step @p5102 :rule cong :premises (@p5101) :args ((forall @t376 @t3296)))
1.93/2.12	(step @p5103 :rule trans :premises (@p5102 @p5081))
1.93/2.12	(step @p5104 :rule bool-impl-elim :args (@t3289 @t410))
1.93/2.12	(step @p5105 :rule cong :premises (@p5104) :args ((forall @t376 (=> @t3289 @t410))))
1.93/2.12	(step @p5106 :rule trans :premises (@p5105 @p5103))
1.93/2.12	(step @p5107 :rule refl :args (@t410))
1.93/2.12	(step @p5108 :rule refl :args (@t3288))
1.93/2.12	(step @p5109 :rule refl :args (@t1623))
1.93/2.12	(step @p5110 :rule nary_cong :premises (@p738 @p5109 @p5108) :args (@t3297))
1.93/2.12	(step @p5111 :rule cong :premises (@p5110) :args ((forall @t9 @t3297)))
1.93/2.12	(step @p5112 :rule aci_norm :args ((= (or @t197 @t3298) @t3297)))
1.93/2.12	(step @p5113 :rule bool-impl-elim :args (@t7 @t3298))
1.93/2.12	(step @p5114 :rule trans :premises (@p5113 @p5112))
1.93/2.12	(step @p5115 :rule cong :premises (@p5114) :args ((forall @t9 (=> @t7 @t3298))))
1.93/2.12	(step @p5116 :rule trans :premises (@p5115 @p5111))
1.93/2.12	(step @p5117 :rule aci_norm :args ((= (or @t1623 false @t3288) @t3298)))
1.93/2.12	(step @p5118 :rule refl :args (@t3288))
1.93/2.12	(step @p5119 :rule eq-refl :args (@t4))
1.93/2.12	(step @p5120 :rule cong :premises (@p5119) :args (@t3299))
1.93/2.12	(step @p5121 :rule trans :premises (@p5120 @p2752))
1.93/2.12	(step @p5122 :rule nary_cong :premises (@p4001 @p5121 @p5118) :args (@t3300))
1.93/2.12	(step @p5123 :rule trans :premises (@p5122 @p5117))
1.93/2.12	(step @p5124 :rule quant-var-elim-eq :args ((= (forall @t70 (or (not @t22) @t2215 @t282 @t3301)) @t3300)))
1.93/2.12	(step @p5125 :rule refl :args (@t3301))
1.93/2.12	(step @p5126 :rule refl :args (@t2215))
1.93/2.12	(step @p5127 :rule eq-symm :args (@t4 @t19))
1.93/2.12	(step @p5128 :rule cong :premises (@p5127) :args (@t282))
1.93/2.12	(step @p5129 :rule nary_cong :premises (@p5128 @p5126 @p2816 @p5125) :args (@t3302))
1.93/2.12	(step @p5130 :rule aci_norm :args ((= @t3303 @t3302)))
1.93/2.12	(step @p5131 :rule trans :premises (@p5130 @p5129))
1.93/2.12	(step @p5132 :rule cong :premises (@p5131) :args ((forall @t70 @t3303)))
1.93/2.12	(step @p5133 :rule trans :premises (@p5132 @p5124))
1.93/2.12	(step @p5134 :rule trans :premises (@p5133 @p5123))
1.93/2.12	(step @p5135 :rule refl :args (@t1735))
1.93/2.12	(step @p5136 :rule refl :args (@t371))
1.93/2.12	(step @p5137 :rule cong :premises (@p5136 @p5135) :args ((= @t371 @t1735)))
1.93/2.12	(step @p5138 :rule symm :premises (@p5137))
1.93/2.12	(step @p5139 :rule eq_resolve :premises (@p5136 @p5138))
1.93/2.12	(step @p5140 :rule cong :premises (@p1176 @p5139) :args (@t372))
1.93/2.12	(step @p5141 :rule nary_cong :premises (@p779 @p2816 @p5140) :args (@t3304))
1.93/2.12	(step @p5142 :rule cong :premises (@p5141) :args ((forall @t70 @t3304)))
1.93/2.12	(step @p5143 :rule trans :premises (@p5142 @p5134))
1.93/2.12	(step @p5144 :rule aci_norm :args ((= (or @t2220 @t3305) @t3304)))
1.93/2.12	(step @p5145 :rule bool-impl-elim :args (@t129 @t372))
1.93/2.12	(step @p5146 :rule nary_cong :premises (@p784 @p5145) :args ((or @t2220 @t373)))
1.93/2.12	(step @p5147 :rule trans :premises (@p5146 @p5144))
1.93/2.12	(step @p5148 :rule bool-impl-elim :args (@t352 @t373))
1.93/2.12	(step @p5149 :rule trans :premises (@p5148 @p5147))
1.93/2.12	(step @p5150 :rule cong :premises (@p5149) :args (@t411))
1.93/2.12	(step @p5151 :rule trans :premises (@p5150 @p5143))
1.93/2.12	(step @p5152 :rule cong :premises (@p791 @p5151) :args (@t412))
1.93/2.12	(step @p5153 :rule cong :premises (@p5152) :args (@t413))
1.93/2.12	(step @p5154 :rule trans :premises (@p5153 @p5116))
1.93/2.12	(step @p5155 :rule cong :premises (@p5154 @p5107) :args (@t414))
1.93/2.12	(step @p5156 :rule cong :premises (@p5155) :args (@t415))
1.93/2.12	(step @p5157 :rule trans :premises (@p5156 @p5106))
1.93/2.12	(step @p5158 :rule refl :args (@t3))
1.93/2.12	(step @p5159 :rule cong :premises (@p5158 @p5157) :args (@t416))
1.93/2.12	(step @p5160 :rule cong :premises (@p5159) :args (@t417))
1.93/2.12	(step @p5161 :rule trans :premises (@p5160 @p5075))
1.93/2.12	(step @p5162 :rule refl :args (tptp.dsetconstr__Cong))
1.93/2.12	(step @p5163 :rule cong :premises (@p5162 @p5161) :args (@t418))
1.93/2.12	(step @p5164 :rule eq_resolve :premises (@p75 @p5163))
1.93/2.12	(step @p5165 :rule cong :premises (@p5164 @p5042) :args (@t3306))
1.93/2.12	(step @p5166 :rule eq-symm :args (@t1734 @t19))
1.93/2.12	(step @p5167 :rule refl :args (@t1736))
1.93/2.12	(step @p5168 :rule nary_cong :premises (@p5167 @p5166) :args (@t3307))
1.93/2.12	(step @p5169 :rule cong :premises (@p5168) :args (@t3308))
1.93/2.12	(step @p5170 :rule cong :premises (@p5169) :args (@t3309))
1.93/2.12	(step @p5171 :rule refl :args (@t1737))
1.93/2.12	(step @p5172 :rule eq-symm :args (@t1738 @t19))
1.93/2.12	(step @p5173 :rule refl :args (@t1521))
1.93/2.12	(step @p5174 :rule nary_cong :premises (@p5173 @p5172) :args (@t3310))
1.93/2.12	(step @p5175 :rule cong :premises (@p5174) :args (@t3311))
1.93/2.12	(step @p5176 :rule cong :premises (@p5175) :args (@t3312))
1.93/2.12	(step @p5177 :rule refl :args (@t1739))
1.93/2.12	(step @p5178 :rule refl :args (@t1741))
1.93/2.12	(step @p5179 :rule refl :args (@t1744))
1.93/2.12	(step @p5180 :rule nary_cong :premises (@p5179 @p5178 @p5177 @p5176 @p5171 @p5170) :args (@t3313))
1.93/2.12	(step @p5181 :rule aci_norm :args ((= @t3316 @t3313)))
1.93/2.12	(step @p5182 :rule trans :premises (@p5181 @p5180))
1.93/2.12	(step @p5183 :rule cong :premises (@p5182) :args (@t3317))
1.93/2.12	(step @p5184 :rule quant-merge-prenex :args ((= (forall @t376 @t3318) @t3317)))
1.93/2.12	(step @p5185 :rule refl :args (@t1741))
1.93/2.12	(step @p5186 :rule alpha_equiv :args (@t3319 (@list @t1734) @t2362))
1.93/2.12	(step @p5187 :rule alpha_equiv :args (@t3320 (@list @t1738) @t2362))
1.93/2.12	(step @p5188 :rule refl :args (@t1744))
1.93/2.12	(step @p5189 :rule nary_cong :premises (@p5188 @p5187 @p5186 @p5185) :args (@t3321))
1.93/2.12	(step @p5190 :rule quant-miniscope-or :args ((= @t3318 @t3321)))
1.93/2.12	(step @p5191 :rule trans :premises (@p5190 @p5189))
1.93/2.12	(step @p5192 :rule symm :premises (@p5191))
1.93/2.12	(step @p5193 :rule cong :premises (@p5192) :args ((forall @t376 (or @t1744 @t1762 @t1758 @t1741))))
1.93/2.12	(step @p5194 :rule trans :premises (@p5193 @p5184))
1.93/2.12	(step @p5195 :rule trans :premises (@p5194 @p5183))
1.93/2.12	(step @p5196 :rule cong :premises (@p5076) :args (@t3322))
1.93/2.12	(step @p5197 :rule cong :premises (@p4594) :args (@t3323))
1.93/2.12	(step @p5198 :rule cong :premises (@p5197 @p5196) :args (@t3324))
1.93/2.12	(step @p5199 :rule refl :args (@t1758))
1.93/2.12	(step @p5200 :rule refl :args (@t1762))
1.93/2.12	(step @p5201 :rule nary_cong :premises (@p5179 @p5200 @p5199 @p5198) :args (@t3325))
1.93/2.12	(step @p5202 :rule cong :premises (@p5201) :args ((forall @t376 @t3325)))
1.93/2.12	(step @p5203 :rule trans :premises (@p5202 @p5195))
1.93/2.12	(step @p5204 :rule refl :args ((tptp.descr @t368)))
1.93/2.12	(step @p5205 :rule cong :premises (@p5084) :args (@t3322))
1.93/2.12	(step @p5206 :rule trans :premises (@p5205 @p5204))
1.93/2.12	(step @p5207 :rule refl :args (tptp.descr))
1.93/2.12	(step @p5208 :rule ho_cong :premises (@p5207 @p5084))
1.93/2.12	(step @p5209 :rule cong :premises (@p5208 @p5206) :args ((= (_ tptp.descr @t3292) @t3322)))
1.93/2.12	(step @p5210 :rule symm :premises (@p5209))
1.93/2.12	(step @p5211 :rule refl :args (@t401))
1.93/2.12	(step @p5212 :rule eq_resolve :premises (@p5211 @p5210))
1.93/2.12	(step @p5213 :rule ho_cong :premises (@p5207 @p5096))
1.93/2.12	(step @p5214 :rule trans :premises (@p5213 @p5212))
1.93/2.12	(step @p5215 :rule refl :args ((tptp.descr @t145)))
1.93/2.12	(step @p5216 :rule cong :premises (@p4600) :args (@t3323))
1.93/2.12	(step @p5217 :rule trans :premises (@p5216 @p5215))
1.93/2.12	(step @p5218 :rule ho_cong :premises (@p5207 @p4600))
1.93/2.12	(step @p5219 :rule cong :premises (@p5218 @p5217) :args ((= (_ tptp.descr @t2380) @t3323)))
1.93/2.12	(step @p5220 :rule symm :premises (@p5219))
1.93/2.12	(step @p5221 :rule refl :args (@t146))
1.93/2.12	(step @p5222 :rule eq_resolve :premises (@p5221 @p5220))
1.93/2.12	(step @p5223 :rule ho_cong :premises (@p5207 @p1177))
1.93/2.12	(step @p5224 :rule trans :premises (@p5223 @p5222))
1.93/2.12	(step @p5225 :rule cong :premises (@p5224 @p5214) :args (@t402))
1.93/2.12	(step @p5226 :rule refl :args (@t1758))
1.93/2.12	(step @p5227 :rule refl :args (@t1762))
1.93/2.12	(step @p5228 :rule nary_cong :premises (@p5188 @p5227 @p5226 @p5225) :args (@t3326))
1.93/2.12	(step @p5229 :rule cong :premises (@p5228) :args ((forall @t376 @t3326)))
1.93/2.12	(step @p5230 :rule trans :premises (@p5229 @p5203))
1.93/2.12	(step @p5231 :rule aci_norm :args ((= (or @t1744 @t3327) @t3326)))
1.93/2.12	(step @p5232 :rule aci_norm :args ((= (or @t1762 (or @t1758 @t402)) @t3327)))
1.93/2.12	(step @p5233 :rule refl :args (@t402))
1.93/2.12	(step @p5234 :rule bool-double-not-elim :args (@t1758))
1.93/2.12	(step @p5235 :rule nary_cong :premises (@p5234 @p5233) :args ((or (not @t1759) @t402)))
1.93/2.12	(step @p5236 :rule bool-impl-elim :args (@t1759 @t402))
1.93/2.12	(step @p5237 :rule trans :premises (@p5236 @p5235))
1.93/2.12	(step @p5238 :rule nary_cong :premises (@p5227 @p5237) :args ((or @t1762 @t3328)))
1.93/2.12	(step @p5239 :rule trans :premises (@p5238 @p5232))
1.93/2.12	(step @p5240 :rule refl :args (@t3328))
1.93/2.12	(step @p5241 :rule bool-double-not-elim :args (@t1762))
1.93/2.12	(step @p5242 :rule nary_cong :premises (@p5241 @p5240) :args ((or @t3329 @t3328)))
1.93/2.12	(step @p5243 :rule bool-impl-elim :args (@t1763 @t3328))
1.93/2.12	(step @p5244 :rule trans :premises (@p5243 @p5242))
1.93/2.12	(step @p5245 :rule trans :premises (@p5244 @p5239))
1.93/2.12	(step @p5246 :rule nary_cong :premises (@p5188 @p5245) :args ((or @t1744 @t3330)))
1.93/2.12	(step @p5247 :rule trans :premises (@p5246 @p5231))
1.93/2.12	(step @p5248 :rule bool-impl-elim :args (@t1743 @t3330))
1.93/2.12	(step @p5249 :rule trans :premises (@p5248 @p5247))
1.93/2.12	(step @p5250 :rule cong :premises (@p5249) :args ((forall @t376 (=> @t1743 @t3330))))
1.93/2.12	(step @p5251 :rule trans :premises (@p5250 @p5230))
1.93/2.12	(step @p5252 :rule refl :args (@t402))
1.93/2.12	(step @p5253 :rule refl :args (@t1756))
1.93/2.12	(step @p5254 :rule cong :premises (@p5095) :args (@t3331))
1.93/2.12	(step @p5255 :rule nary_cong :premises (@p5254 @p5253) :args (@t3332))
1.93/2.12	(step @p5256 :rule cong :premises (@p5255) :args ((forall @t9 @t3332)))
1.93/2.12	(step @p5257 :rule cong :premises (@p5139) :args (@t3333))
1.93/2.12	(step @p5258 :rule nary_cong :premises (@p5257 @p1412) :args (@t3334))
1.93/2.12	(step @p5259 :rule cong :premises (@p5258) :args ((forall @t70 @t3334)))
1.93/2.12	(step @p5260 :rule beta-reduce :args ((= @t3335 @t371)))
1.93/2.12	(step @p5261 :rule cong :premises (@p5260) :args (@t3336))
1.93/2.12	(step @p5262 :rule nary_cong :premises (@p5261 @p2850) :args (@t3337))
1.93/2.12	(step @p5263 :rule cong :premises (@p5262) :args (@t3338))
1.93/2.12	(step @p5264 :rule trans :premises (@p5263 @p5259))
1.93/2.12	(step @p5265 :rule cong :premises (@p5264) :args (@t3339))
1.93/2.12	(step @p5266 :rule beta-reduce :args ((= @t3340 @t367)))
1.93/2.12	(step @p5267 :rule cong :premises (@p5266) :args (@t3341))
1.93/2.12	(step @p5268 :rule nary_cong :premises (@p5267 @p5265) :args (@t3342))
1.93/2.12	(step @p5269 :rule cong :premises (@p5268) :args (@t3343))
1.93/2.12	(step @p5270 :rule trans :premises (@p5269 @p5256))
1.93/2.12	(step @p5271 :rule cong :premises (@p5270) :args (@t3344))
1.93/2.12	(step @p5272 :rule beta-reduce :args ((= @t3346 @t3344)))
1.93/2.12	(step @p5273 :rule trans :premises (@p5272 @p5271))
1.93/2.12	(step @p5274 :rule cong :premises (@p5273 @p5252) :args (@t3347))
1.93/2.12	(step @p5275 :rule refl :args (@t1761))
1.93/2.12	(step @p5276 :rule nary_cong :premises (@p1403 @p5275) :args (@t3348))
1.93/2.12	(step @p5277 :rule cong :premises (@p5276) :args ((forall @t9 @t3348)))
1.93/2.12	(step @p5278 :rule nary_cong :premises (@p1418 @p1412) :args (@t2462))
1.93/2.12	(step @p5279 :rule cong :premises (@p5278) :args ((forall @t70 @t2462)))
1.93/2.12	(step @p5280 :rule beta-reduce :args ((= @t3349 @t153)))
1.93/2.12	(step @p5281 :rule cong :premises (@p5280) :args (@t3350))
1.93/2.12	(step @p5282 :rule nary_cong :premises (@p5281 @p2850) :args (@t3351))
1.93/2.12	(step @p5283 :rule cong :premises (@p5282) :args (@t3352))
1.93/2.12	(step @p5284 :rule trans :premises (@p5283 @p5279))
1.93/2.12	(step @p5285 :rule cong :premises (@p5284) :args (@t3353))
1.93/2.12	(step @p5286 :rule beta-reduce :args ((= @t3354 @t144)))
1.93/2.12	(step @p5287 :rule cong :premises (@p5286) :args (@t3355))
1.93/2.12	(step @p5288 :rule nary_cong :premises (@p5287 @p5285) :args (@t3356))
1.93/2.12	(step @p5289 :rule cong :premises (@p5288) :args (@t3357))
1.93/2.12	(step @p5290 :rule trans :premises (@p5289 @p5277))
1.93/2.12	(step @p5291 :rule cong :premises (@p5290) :args (@t3358))
1.93/2.12	(step @p5292 :rule beta-reduce :args ((= @t3359 @t3358)))
1.93/2.12	(step @p5293 :rule trans :premises (@p5292 @p5291))
1.93/2.12	(step @p5294 :rule cong :premises (@p5293 @p5274) :args (@t3360))
1.93/2.12	(step @p5295 :rule aci_norm :args ((= (or false @t1742) @t1742)))
1.93/2.12	(step @p5296 :rule refl :args (@t1742))
1.93/2.12	(step @p5297 :rule nary_cong :premises (@p2791 @p5296) :args (@t3361))
1.93/2.12	(step @p5298 :rule trans :premises (@p5297 @p5295))
1.93/2.12	(step @p5299 :rule cong :premises (@p5298) :args ((forall @t70 @t3361)))
1.93/2.12	(step @p5300 :rule quant-var-elim-eq :args ((= (forall @t9 @t3362) @t3361)))
1.93/2.12	(step @p5301 :rule aci_norm :args ((= @t3363 @t3362)))
1.93/2.12	(step @p5302 :rule cong :premises (@p5301) :args (@t3364))
1.93/2.12	(step @p5303 :rule trans :premises (@p5302 @p5300))
1.93/2.12	(step @p5304 :rule cong :premises (@p5303) :args (@t3365))
1.93/2.12	(step @p5305 :rule quant-merge-prenex :args ((= @t3365 @t3366)))
1.93/2.12	(step @p5306 :rule symm :premises (@p5305))
1.93/2.12	(step @p5307 :rule quant_var_reordering :args ((= (forall @t135 @t3363) @t3366)))
1.93/2.12	(step @p5308 :rule trans :premises (@p5307 @p5306 @p5304))
1.93/2.12	(step @p5309 :rule trans :premises (@p5308 @p5299))
1.93/2.12	(step @p5310 :rule nary_cong :premises (@p2816 @p5140) :args (@t3305))
1.93/2.12	(step @p5311 :rule cong :premises (@p5310) :args ((forall @t135 @t3305)))
1.93/2.12	(step @p5312 :rule trans :premises (@p5311 @p5309))
1.93/2.12	(step @p5313 :rule cong :premises (@p5145) :args (@t374))
1.93/2.12	(step @p5314 :rule trans :premises (@p5313 @p5312))
1.93/2.12	(step @p5315 :rule cong :premises (@p5314 @p5294) :args (@t3367))
1.93/2.12	(step @p5316 :rule cong :premises (@p5315) :args (@t3368))
1.93/2.12	(step @p5317 :rule trans :premises (@p5316 @p5251))
1.93/2.12	(step @p5318 :rule refl :args (tptp.descr__Cong))
1.93/2.12	(step @p5319 :rule cong :premises (@p5318 @p5317) :args ((= tptp.descr__Cong @t3368)))
1.93/2.12	(step @p5320 :rule refl :args (@t368))
1.93/2.12	(step @p5321 :rule bool-and-de-morgan :args (@t144 @t1760 true))
1.93/2.12	(step @p5322 :rule cong :premises (@p5321) :args (@t3370))
1.93/2.12	(step @p5323 :rule trans :premises (@p5322 @p5277))
1.93/2.12	(step @p5324 :rule cong :premises (@p5323) :args (@t3371))
1.93/2.12	(step @p5325 :rule exists-elim :args ((= (exists @t9 @t3369) @t3371)))
1.93/2.12	(step @p5326 :rule trans :premises (@p5325 @p5324))
1.93/2.12	(step @p5327 :rule cong :premises (@p1436) :args (@t167))
1.93/2.12	(step @p5328 :rule trans :premises (@p5327 @p5279))
1.93/2.12	(step @p5329 :rule nary_cong :premises (@p3200 @p5328) :args (@t168))
1.93/2.12	(step @p5330 :rule cong :premises (@p5329) :args (@t169))
1.93/2.12	(step @p5331 :rule trans :premises (@p5330 @p5326))
1.93/2.12	(step @p5332 :rule cong :premises (@p5331) :args (@t1219))
1.93/2.12	(step @p5333 :rule trans :premises (@p209 @p5332))
1.93/2.12	(step @p5334 :rule ho_cong :premises (@p5333 @p5320))
1.93/2.12	(step @p5335 :rule cong :premises (@p5334 @p5252) :args (@t403))
1.93/2.12	(step @p5336 :rule ho_cong :premises (@p5333 @p1473))
1.93/2.12	(step @p5337 :rule cong :premises (@p5336 @p5335) :args (@t404))
1.93/2.12	(step @p5338 :rule refl :args (@t374))
1.93/2.12	(step @p5339 :rule cong :premises (@p5338 @p5337) :args (@t405))
1.93/2.12	(step @p5340 :rule cong :premises (@p5339) :args (@t406))
1.93/2.12	(step @p5341 :rule cong :premises (@p5318 @p5340) :args (@t407))
1.93/2.12	(step @p5342 :rule trans :premises (@p5341 @p5319))
1.93/2.12	(step @p5343 :rule eq_resolve :premises (@p74 @p5342))
1.93/2.12	(step @p5344 :rule cong :premises (@p5343 @p5165) :args (@t3372))
1.93/2.12	(step @p5345 :rule refl :args (@t1749))
1.93/2.12	(step @p5346 :rule refl :args (@t1750))
1.93/2.12	(step @p5347 :rule refl :args (@t1751))
1.93/2.12	(step @p5348 :rule eq-symm :args (@t1752 @t19))
1.93/2.12	(step @p5349 :rule nary_cong :premises (@p5173 @p5348) :args (@t3373))
1.93/2.12	(step @p5350 :rule cong :premises (@p5349) :args (@t3374))
1.93/2.12	(step @p5351 :rule cong :premises (@p5350) :args (@t3375))
1.93/2.12	(step @p5352 :rule refl :args (@t1753))
1.93/2.12	(step @p5353 :rule nary_cong :premises (@p5352 @p5351 @p5347 @p5346 @p5345) :args (@t3376))
1.93/2.12	(step @p5354 :rule aci_norm :args ((= @t3379 @t3376)))
1.93/2.12	(step @p5355 :rule trans :premises (@p5354 @p5353))
1.93/2.12	(step @p5356 :rule cong :premises (@p5355) :args (@t3380))
1.93/2.12	(step @p5357 :rule quant-merge-prenex :args ((= (forall @t150 @t3381) @t3380)))
1.93/2.12	(step @p5358 :rule alpha_equiv :args (@t3382 (@list @t1748 @t1747) (@list @t4 @t19)))
1.93/2.12	(step @p5359 :rule alpha_equiv :args (@t3383 (@list @t1752) @t2362))
1.93/2.12	(step @p5360 :rule nary_cong :premises (@p5359 @p5358) :args (@t3384))
1.93/2.12	(step @p5361 :rule quant-miniscope-or :args ((= @t3381 @t3384)))
1.93/2.12	(step @p5362 :rule trans :premises (@p5361 @p5360))
1.93/2.12	(step @p5363 :rule symm :premises (@p5362))
1.93/2.12	(step @p5364 :rule cong :premises (@p5363) :args ((forall @t150 (or @t1762 @t1769))))
1.93/2.12	(step @p5365 :rule trans :premises (@p5364 @p5357))
1.93/2.12	(step @p5366 :rule trans :premises (@p5365 @p5356))
1.93/2.12	(step @p5367 :rule refl :args (@t1769))
1.93/2.12	(step @p5368 :rule nary_cong :premises (@p5241 @p5367) :args ((or @t3329 @t1769)))
1.93/2.12	(step @p5369 :rule bool-impl-elim :args (@t1763 @t1769))
1.93/2.12	(step @p5370 :rule trans :premises (@p5369 @p5368))
1.93/2.12	(step @p5371 :rule cong :premises (@p5370) :args ((forall @t150 (=> @t1763 @t1769))))
1.93/2.12	(step @p5372 :rule trans :premises (@p5371 @p5366))
1.93/2.12	(step @p5373 :rule nary_cong :premises (@p1403 @p1418 @p1412) :args (@t2461))
1.93/2.12	(step @p5374 :rule cong :premises (@p5373) :args ((forall @t135 @t2461)))
1.93/2.12	(step @p5375 :rule cong :premises (@p1441) :args (@t344))
1.93/2.12	(step @p5376 :rule trans :premises (@p5375 @p5374))
1.93/2.12	(step @p5377 :rule cong :premises (@p5293 @p5376) :args (@t3385))
1.93/2.12	(step @p5378 :rule cong :premises (@p5377) :args (@t3386))
1.93/2.12	(step @p5379 :rule trans :premises (@p5378 @p5372))
1.93/2.12	(step @p5380 :rule refl :args (tptp.exuEu))
1.93/2.12	(step @p5381 :rule cong :premises (@p5380 @p5379) :args ((= tptp.exuEu @t3386)))
1.93/2.12	(step @p5382 :rule refl :args (@t344))
1.93/2.12	(step @p5383 :rule cong :premises (@p5336 @p5382) :args (@t363))
1.93/2.12	(step @p5384 :rule cong :premises (@p5383) :args (@t364))
1.93/2.12	(step @p5385 :rule cong :premises (@p5380 @p5384) :args (@t400))
1.93/2.12	(step @p5386 :rule trans :premises (@p5385 @p5381))
1.93/2.12	(step @p5387 :rule eq_resolve :premises (@p73 @p5386))
1.93/2.12	(step @p5388 :rule cong :premises (@p5387 @p5344) :args (@t3387))
1.93/2.12	(step @p5389 :rule bool-eq-true :args (tptp.omega__Cong))
1.93/2.12	(step @p5390 :rule symm :premises (@p5389))
1.93/2.12	(step @p5391 :rule eq-refl :args (tptp.omega))
1.93/2.12	(step @p5392 :rule refl :args (tptp.omega__Cong))
1.93/2.12	(step @p5393 :rule cong :premises (@p5392 @p5391) :args (@t399))
1.93/2.12	(step @p5394 :rule trans :premises (@p5393 @p5389))
1.93/2.12	(step @p5395 :rule eq_resolve :premises (@p72 @p5394))
1.93/2.12	(step @p5396 :rule eq_resolve :premises (@p5395 @p5390))
1.93/2.12	(step @p5397 :rule cong :premises (@p5396 @p5388) :args (@t3388))
1.93/2.12	(step @p5398 :rule bool-eq-true :args (tptp.setunion__Cong))
1.93/2.12	(step @p5399 :rule symm :premises (@p5398))
1.93/2.12	(step @p5400 :rule quant-unused-vars :args ((= (forall @t41 true) true)))
1.93/2.12	(step @p5401 :rule evaluate :args ((or false true)))
1.93/2.12	(step @p5402 :rule eq-refl :args (@t3389))
1.93/2.12	(step @p5403 :rule nary_cong :premises (@p4859 @p5402) :args (@t3390))
1.93/2.12	(step @p5404 :rule trans :premises (@p5403 @p5401))
1.93/2.12	(step @p5405 :rule cong :premises (@p5404) :args ((forall @t41 @t3390)))
1.93/2.12	(step @p5406 :rule trans :premises (@p5405 @p5400))
1.93/2.12	(step @p5407 :rule quant-var-elim-eq :args ((= (forall @t64 @t3392) @t3390)))
1.93/2.12	(step @p5408 :rule aci_norm :args ((= @t3393 @t3392)))
1.93/2.12	(step @p5409 :rule cong :premises (@p5408) :args (@t3394))
1.93/2.12	(step @p5410 :rule trans :premises (@p5409 @p5407))
1.93/2.12	(step @p5411 :rule cong :premises (@p5410) :args (@t3395))
1.93/2.12	(step @p5412 :rule quant-merge-prenex :args ((= @t3395 @t3396)))
1.93/2.12	(step @p5413 :rule symm :premises (@p5412))
1.93/2.12	(step @p5414 :rule quant_var_reordering :args ((= (forall @t12 @t3393) @t3396)))
1.93/2.12	(step @p5415 :rule trans :premises (@p5414 @p5413 @p5411))
1.93/2.12	(step @p5416 :rule trans :premises (@p5415 @p5406))
1.93/2.12	(step @p5417 :rule refl :args (@t3389))
1.93/2.12	(step @p5418 :rule refl :args (@t395))
1.93/2.12	(step @p5419 :rule cong :premises (@p5418 @p5417) :args ((= @t395 @t3389)))
1.93/2.12	(step @p5420 :rule symm :premises (@p5419))
1.93/2.12	(step @p5421 :rule eq_resolve :premises (@p5418 @p5420))
1.93/2.12	(step @p5422 :rule cong :premises (@p3345 @p5421) :args (@t396))
1.93/2.12	(step @p5423 :rule nary_cong :premises (@p4874 @p5422) :args (@t3397))
1.93/2.12	(step @p5424 :rule cong :premises (@p5423) :args ((forall @t12 @t3397)))
1.93/2.12	(step @p5425 :rule trans :premises (@p5424 @p5416))
1.93/2.12	(step @p5426 :rule bool-impl-elim :args (@t3 @t396))
1.93/2.12	(step @p5427 :rule cong :premises (@p5426) :args (@t397))
1.93/2.12	(step @p5428 :rule trans :premises (@p5427 @p5425))
1.93/2.12	(step @p5429 :rule refl :args (tptp.setunion__Cong))
1.93/2.12	(step @p5430 :rule cong :premises (@p5429 @p5428) :args (@t398))
1.93/2.12	(step @p5431 :rule trans :premises (@p5430 @p5398))
1.93/2.12	(step @p5432 :rule eq_resolve :premises (@p71 @p5431))
1.93/2.12	(step @p5433 :rule eq_resolve :premises (@p5432 @p5399))
1.93/2.12	(step @p5434 :rule cong :premises (@p5433 @p5397) :args (@t3398))
1.93/2.12	(step @p5435 :rule bool-eq-true :args (tptp.powerset__Cong))
1.93/2.12	(step @p5436 :rule symm :premises (@p5435))
1.93/2.12	(step @p5437 :rule eq-refl :args (@t1688))
1.93/2.12	(step @p5438 :rule nary_cong :premises (@p4859 @p5437) :args (@t3399))
1.93/2.12	(step @p5439 :rule trans :premises (@p5438 @p5401))
1.93/2.12	(step @p5440 :rule cong :premises (@p5439) :args ((forall @t41 @t3399)))
1.93/2.12	(step @p5441 :rule trans :premises (@p5440 @p5400))
1.93/2.12	(step @p5442 :rule quant-var-elim-eq :args ((= (forall @t64 @t3401) @t3399)))
1.93/2.12	(step @p5443 :rule aci_norm :args ((= @t3402 @t3401)))
1.93/2.12	(step @p5444 :rule cong :premises (@p5443) :args (@t3403))
1.93/2.12	(step @p5445 :rule trans :premises (@p5444 @p5442))
1.93/2.12	(step @p5446 :rule cong :premises (@p5445) :args (@t3404))
1.93/2.12	(step @p5447 :rule quant-merge-prenex :args ((= @t3404 @t3405)))
1.93/2.12	(step @p5448 :rule symm :premises (@p5447))
1.93/2.12	(step @p5449 :rule quant_var_reordering :args ((= (forall @t12 @t3402) @t3405)))
1.93/2.12	(step @p5450 :rule trans :premises (@p5449 @p5448 @p5446))
1.93/2.12	(step @p5451 :rule trans :premises (@p5450 @p5441))
1.93/2.12	(step @p5452 :rule cong :premises (@p3771 @p4661) :args (@t392))
1.93/2.12	(step @p5453 :rule nary_cong :premises (@p4874 @p5452) :args (@t3406))
1.93/2.12	(step @p5454 :rule cong :premises (@p5453) :args ((forall @t12 @t3406)))
1.93/2.12	(step @p5455 :rule trans :premises (@p5454 @p5451))
1.93/2.12	(step @p5456 :rule bool-impl-elim :args (@t3 @t392))
1.93/2.12	(step @p5457 :rule cong :premises (@p5456) :args (@t393))
1.93/2.12	(step @p5458 :rule trans :premises (@p5457 @p5455))
1.93/2.12	(step @p5459 :rule refl :args (tptp.powerset__Cong))
1.93/2.12	(step @p5460 :rule cong :premises (@p5459 @p5458) :args (@t394))
1.93/2.12	(step @p5461 :rule trans :premises (@p5460 @p5435))
1.93/2.12	(step @p5462 :rule eq_resolve :premises (@p70 @p5461))
1.93/2.12	(step @p5463 :rule eq_resolve :premises (@p5462 @p5436))
1.93/2.12	(step @p5464 :rule cong :premises (@p5463 @p5434) :args (@t3407))
1.93/2.12	(step @p5465 :rule bool-eq-true :args (tptp.setadjoin__Cong))
1.93/2.12	(step @p5466 :rule symm :premises (@p5465))
1.93/2.12	(step @p5467 :rule quant-unused-vars :args ((= (forall @t3409 true) true)))
1.93/2.12	(step @p5468 :rule eq-refl :args (@t3410))
1.93/2.12	(step @p5469 :rule nary_cong :premises (@p2791 @p5468) :args (@t3411))
1.93/2.13	(step @p5470 :rule trans :premises (@p5469 @p5401))
1.93/2.13	(step @p5471 :rule cong :premises (@p5470) :args ((forall @t3409 @t3411)))
1.93/2.13	(step @p5472 :rule trans :premises (@p5471 @p5467))
1.93/2.13	(step @p5473 :rule quant-var-elim-eq :args ((= (forall @t9 @t3413) @t3411)))
1.93/2.13	(step @p5474 :rule aci_norm :args ((= @t3414 @t3413)))
1.93/2.13	(step @p5475 :rule cong :premises (@p5474) :args (@t3415))
1.93/2.13	(step @p5476 :rule trans :premises (@p5475 @p5473))
1.93/2.13	(step @p5477 :rule cong :premises (@p5476) :args (@t3416))
1.93/2.13	(step @p5478 :rule quant-merge-prenex :args ((= @t3416 @t3417)))
1.93/2.13	(step @p5479 :rule symm :premises (@p5478))
1.93/2.13	(step @p5480 :rule quant_var_reordering :args ((= @t3418 @t3417)))
1.93/2.13	(step @p5481 :rule trans :premises (@p5480 @p5479 @p5477))
1.93/2.13	(step @p5482 :rule trans :premises (@p5481 @p5472))
1.93/2.13	(step @p5483 :rule quant-merge-prenex :args ((= (forall @t135 @t3420) @t3418)))
1.93/2.13	(step @p5484 :rule alpha_equiv :args (@t3421 (@list @t3408) (@list @t381)))
1.93/2.13	(step @p5485 :rule nary_cong :premises (@p2816 @p5484) :args (@t3422))
1.93/2.13	(step @p5486 :rule quant-miniscope-or :args ((= @t3420 @t3422)))
1.93/2.13	(step @p5487 :rule trans :premises (@p5486 @p5485))
1.93/2.13	(step @p5488 :rule symm :premises (@p5487))
1.93/2.13	(step @p5489 :rule cong :premises (@p5488) :args ((forall @t135 (or @t282 @t3426))))
1.93/2.13	(step @p5490 :rule trans :premises (@p5489 @p5483))
1.93/2.13	(step @p5491 :rule trans :premises (@p5490 @p5482))
1.93/2.13	(step @p5492 :rule bool-impl-elim :args (@t129 @t3426))
1.93/2.13	(step @p5493 :rule cong :premises (@p5492) :args ((forall @t135 (=> @t129 @t3426))))
1.93/2.13	(step @p5494 :rule trans :premises (@p5493 @p5491))
1.93/2.13	(step @p5495 :rule aci_norm :args ((= (or false @t3425) @t3425)))
1.93/2.13	(step @p5496 :rule eq-symm :args (@t3423 @t3424))
1.93/2.13	(step @p5497 :rule nary_cong :premises (@p2755 @p5496) :args (@t3427))
1.93/2.13	(step @p5498 :rule trans :premises (@p5497 @p5495))
1.93/2.13	(step @p5499 :rule cong :premises (@p5498) :args ((forall @t752 @t3427)))
1.93/2.13	(step @p5500 :rule quant-var-elim-eq :args ((= (forall @t2817 @t3430) @t3427)))
1.93/2.13	(step @p5501 :rule aci_norm :args ((= @t3431 @t3430)))
1.93/2.13	(step @p5502 :rule cong :premises (@p5501) :args (@t3432))
1.93/2.13	(step @p5503 :rule trans :premises (@p5502 @p5500))
1.93/2.13	(step @p5504 :rule cong :premises (@p5503) :args (@t3433))
1.93/2.13	(step @p5505 :rule quant-merge-prenex :args ((= @t3433 @t3434)))
1.93/2.13	(step @p5506 :rule symm :premises (@p5505))
1.93/2.13	(step @p5507 :rule quant_var_reordering :args ((= (forall @t386 @t3431) @t3434)))
1.93/2.13	(step @p5508 :rule trans :premises (@p5507 @p5506 @p5504))
1.93/2.13	(step @p5509 :rule trans :premises (@p5508 @p5499))
1.93/2.13	(step @p5510 :rule refl :args (@t3424))
1.93/2.13	(step @p5511 :rule refl :args (@t382))
1.93/2.13	(step @p5512 :rule cong :premises (@p5511 @p5510) :args ((= @t382 @t3424)))
1.93/2.13	(step @p5513 :rule symm :premises (@p5512))
1.93/2.13	(step @p5514 :rule eq_resolve :premises (@p5511 @p5513))
1.93/2.13	(step @p5515 :rule refl :args (@t3428))
1.93/2.13	(step @p5516 :rule refl :args (@t383))
1.93/2.13	(step @p5517 :rule cong :premises (@p5516 @p5515) :args ((= @t383 @t3428)))
1.93/2.13	(step @p5518 :rule symm :premises (@p5517))
1.93/2.13	(step @p5519 :rule eq_resolve :premises (@p5516 @p5518))
1.93/2.13	(step @p5520 :rule cong :premises (@p5519 @p5514) :args (@t384))
1.93/2.13	(step @p5521 :rule nary_cong :premises (@p2770 @p5520) :args (@t3435))
1.93/2.13	(step @p5522 :rule cong :premises (@p5521) :args ((forall @t386 @t3435)))
1.93/2.13	(step @p5523 :rule trans :premises (@p5522 @p5509))
1.93/2.13	(step @p5524 :rule bool-impl-elim :args (@t385 @t384))
1.93/2.13	(step @p5525 :rule cong :premises (@p5524) :args (@t387))
1.93/2.13	(step @p5526 :rule trans :premises (@p5525 @p5523))
1.93/2.13	(step @p5527 :rule cong :premises (@p2850 @p5526) :args (@t388))
1.93/2.13	(step @p5528 :rule cong :premises (@p5527) :args (@t389))
1.93/2.13	(step @p5529 :rule trans :premises (@p5528 @p5494))
1.93/2.13	(step @p5530 :rule refl :args (tptp.setadjoin__Cong))
1.93/2.13	(step @p5531 :rule cong :premises (@p5530 @p5529) :args (@t390))
1.93/2.13	(step @p5532 :rule trans :premises (@p5531 @p5465))
1.93/2.13	(step @p5533 :rule eq_resolve :premises (@p69 @p5532))
1.93/2.13	(step @p5534 :rule eq_resolve :premises (@p5533 @p5466))
1.93/2.13	(step @p5535 :rule cong :premises (@p5534 @p5464) :args (@t3436))
1.93/2.13	(step @p5536 :rule bool-eq-true :args (tptp.emptyset__Cong))
1.93/2.13	(step @p5537 :rule symm :premises (@p5536))
1.93/2.13	(step @p5538 :rule eq-refl :args (tptp.emptyset))
1.93/2.13	(step @p5539 :rule refl :args (tptp.emptyset__Cong))
1.93/2.13	(step @p5540 :rule cong :premises (@p5539 @p5538) :args (@t380))
1.93/2.13	(step @p5541 :rule trans :premises (@p5540 @p5536))
1.93/2.13	(step @p5542 :rule eq_resolve :premises (@p68 @p5541))
1.93/2.13	(step @p5543 :rule eq_resolve :premises (@p5542 @p5537))
1.93/2.13	(step @p5544 :rule cong :premises (@p5543 @p5535) :args (@t3437))
1.93/2.13	(step @p5545 :rule bool-impl-elim :args (@t1743 @t1764))
1.93/2.13	(step @p5546 :rule cong :premises (@p5545) :args ((forall @t376 (=> @t1743 @t1764))))
1.93/2.13	(step @p5547 :rule cong :premises (@p5293 @p5273) :args (@t3438))
1.93/2.13	(step @p5548 :rule cong :premises (@p5314 @p5547) :args (@t3439))
1.93/2.13	(step @p5549 :rule cong :premises (@p5548) :args (@t3440))
1.93/2.13	(step @p5550 :rule trans :premises (@p5549 @p5546))
1.93/2.13	(step @p5551 :rule refl :args (tptp.exu__Cong))
1.93/2.13	(step @p5552 :rule cong :premises (@p5551 @p5550) :args ((= tptp.exu__Cong @t3440)))
1.93/2.13	(step @p5553 :rule cong :premises (@p5336 @p5334) :args (@t370))
1.93/2.13	(step @p5554 :rule cong :premises (@p5338 @p5553) :args (@t375))
1.93/2.13	(step @p5555 :rule cong :premises (@p5554) :args (@t377))
1.93/2.13	(step @p5556 :rule cong :premises (@p5551 @p5555) :args (@t378))
1.93/2.13	(step @p5557 :rule trans :premises (@p5556 @p5552))
1.93/2.13	(step @p5558 :rule eq_resolve :premises (@p67 @p5557))
1.93/2.13	(step @p5559 :rule cong :premises (@p5558 @p5544) :args (@t3441))
1.93/2.13	(step @p5560 :rule refl :args (tptp.exuE3u))
1.93/2.13	(step @p5561 :rule cong :premises (@p5560 @p5379) :args ((= tptp.exuE3u @t3386)))
1.93/2.13	(step @p5562 :rule cong :premises (@p5560 @p5384) :args (@t365))
1.93/2.13	(step @p5563 :rule trans :premises (@p5562 @p5561))
1.93/2.13	(step @p5564 :rule eq_resolve :premises (@p66 @p5563))
1.93/2.13	(step @p5565 :rule cong :premises (@p5564 @p5559) :args (@t3442))
1.93/2.13	(step @p5566 :rule bool-eq-true :args (tptp.in__Cong))
1.93/2.13	(step @p5567 :rule symm :premises (@p5566))
1.93/2.13	(step @p5568 :rule quant-unused-vars :args ((= (forall @t3444 true) true)))
1.93/2.13	(step @p5569 :rule eq-refl :args (@t3445))
1.93/2.13	(step @p5570 :rule nary_cong :premises (@p4859 @p5569) :args (@t3446))
1.93/2.13	(step @p5571 :rule trans :premises (@p5570 @p5401))
1.93/2.13	(step @p5572 :rule cong :premises (@p5571) :args ((forall @t3444 @t3446)))
1.93/2.13	(step @p5573 :rule trans :premises (@p5572 @p5568))
1.93/2.13	(step @p5574 :rule quant-var-elim-eq :args ((= (forall @t64 @t3448) @t3446)))
1.93/2.13	(step @p5575 :rule aci_norm :args ((= @t3449 @t3448)))
1.93/2.13	(step @p5576 :rule cong :premises (@p5575) :args (@t3450))
1.93/2.13	(step @p5577 :rule trans :premises (@p5576 @p5574))
1.93/2.13	(step @p5578 :rule cong :premises (@p5577) :args (@t3451))
1.93/2.13	(step @p5579 :rule quant-merge-prenex :args ((= @t3451 @t3452)))
1.93/2.13	(step @p5580 :rule symm :premises (@p5579))
1.93/2.13	(step @p5581 :rule quant_var_reordering :args ((= @t3453 @t3452)))
1.93/2.13	(step @p5582 :rule trans :premises (@p5581 @p5580 @p5578))
1.93/2.13	(step @p5583 :rule trans :premises (@p5582 @p5573))
1.93/2.13	(step @p5584 :rule quant-merge-prenex :args ((= (forall @t12 @t3455) @t3453)))
1.93/2.13	(step @p5585 :rule alpha_equiv :args (@t3456 (@list @t3443) @t2210))
1.93/2.13	(step @p5586 :rule nary_cong :premises (@p4874 @p5585) :args (@t3457))
1.93/2.13	(step @p5587 :rule quant-miniscope-or :args ((= @t3455 @t3457)))
1.93/2.13	(step @p5588 :rule trans :premises (@p5587 @p5586))
1.93/2.13	(step @p5589 :rule symm :premises (@p5588))
1.93/2.13	(step @p5590 :rule cong :premises (@p5589) :args ((forall @t12 (or @t443 @t3459))))
1.93/2.13	(step @p5591 :rule trans :premises (@p5590 @p5584))
1.93/2.13	(step @p5592 :rule trans :premises (@p5591 @p5583))
1.93/2.13	(step @p5593 :rule bool-impl-elim :args (@t3 @t3459))
1.93/2.13	(step @p5594 :rule cong :premises (@p5593) :args ((forall @t12 (=> @t3 @t3459))))
1.93/2.13	(step @p5595 :rule trans :premises (@p5594 @p5592))
1.93/2.13	(step @p5596 :rule aci_norm :args ((= (or false @t3458) @t3458)))
1.93/2.13	(step @p5597 :rule refl :args (@t3458))
1.93/2.13	(step @p5598 :rule nary_cong :premises (@p2791 @p5597) :args (@t3460))
1.93/2.13	(step @p5599 :rule trans :premises (@p5598 @p5596))
1.93/2.13	(step @p5600 :rule cong :premises (@p5599) :args ((forall @t70 @t3460)))
1.93/2.13	(step @p5601 :rule quant-var-elim-eq :args ((= (forall @t9 @t3462) @t3460)))
1.93/2.13	(step @p5602 :rule aci_norm :args ((= @t3463 @t3462)))
1.93/2.13	(step @p5603 :rule cong :premises (@p5602) :args (@t3464))
1.93/2.13	(step @p5604 :rule trans :premises (@p5603 @p5601))
1.93/2.13	(step @p5605 :rule cong :premises (@p5604) :args (@t3465))
1.93/2.13	(step @p5606 :rule quant-merge-prenex :args ((= @t3465 @t3466)))
1.93/2.13	(step @p5607 :rule symm :premises (@p5606))
1.93/2.13	(step @p5608 :rule quant_var_reordering :args ((= (forall @t135 @t3463) @t3466)))
1.93/2.13	(step @p5609 :rule trans :premises (@p5608 @p5607 @p5605))
1.93/2.13	(step @p5610 :rule trans :premises (@p5609 @p5600))
1.93/2.13	(step @p5611 :rule cong :premises (@p737 @p778) :args (@t358))
1.93/2.13	(step @p5612 :rule nary_cong :premises (@p2816 @p5611) :args (@t3467))
1.93/2.13	(step @p5613 :rule cong :premises (@p5612) :args ((forall @t135 @t3467)))
1.93/2.13	(step @p5614 :rule trans :premises (@p5613 @p5610))
1.93/2.13	(step @p5615 :rule bool-impl-elim :args (@t129 @t358))
1.93/2.13	(step @p5616 :rule cong :premises (@p5615) :args (@t359))
1.93/2.13	(step @p5617 :rule trans :premises (@p5616 @p5614))
1.93/2.13	(step @p5618 :rule cong :premises (@p5158 @p5617) :args (@t360))
1.93/2.13	(step @p5619 :rule cong :premises (@p5618) :args (@t361))
1.93/2.13	(step @p5620 :rule trans :premises (@p5619 @p5595))
1.93/2.13	(step @p5621 :rule refl :args (tptp.in__Cong))
1.93/2.13	(step @p5622 :rule cong :premises (@p5621 @p5620) :args (@t362))
1.93/2.13	(step @p5623 :rule trans :premises (@p5622 @p5566))
1.93/2.13	(step @p5624 :rule eq_resolve :premises (@p65 @p5623))
1.93/2.13	(step @p5625 :rule eq_resolve :premises (@p5624 @p5567))
1.93/2.13	(step @p5626 :rule cong :premises (@p5625 @p5565) :args (@t3468))
1.93/2.13	(step @p5627 :rule bool-eq-true :args (tptp.inCongP))
1.93/2.13	(step @p5628 :rule symm :premises (@p5627))
1.93/2.13	(step @p5629 :rule quant-unused-vars :args ((= (forall @t3470 true) true)))
1.93/2.13	(step @p5630 :rule bool-or-taut2 :args (false @t3471 false false))
1.93/2.13	(step @p5631 :rule cong :premises (@p5630) :args ((forall @t3470 @t3473)))
1.93/2.13	(step @p5632 :rule trans :premises (@p5631 @p5629))
1.93/2.13	(step @p5633 :rule aci_norm :args ((= (or false @t3472 @t3471) @t3473)))
1.93/2.13	(step @p5634 :rule refl :args (@t3471))
1.93/2.13	(step @p5635 :rule refl :args (@t3472))
1.93/2.13	(step @p5636 :rule nary_cong :premises (@p4859 @p5635 @p5634) :args (@t3474))
1.93/2.13	(step @p5637 :rule trans :premises (@p5636 @p5633))
1.93/2.13	(step @p5638 :rule cong :premises (@p5637) :args ((forall @t3470 @t3474)))
1.93/2.13	(step @p5639 :rule trans :premises (@p5638 @p5632))
1.93/2.13	(step @p5640 :rule quant-var-elim-eq :args ((= (forall @t64 @t3476) @t3474)))
1.93/2.13	(step @p5641 :rule aci_norm :args ((= @t3477 @t3476)))
1.93/2.13	(step @p5642 :rule cong :premises (@p5641) :args (@t3478))
1.93/2.13	(step @p5643 :rule trans :premises (@p5642 @p5640))
1.93/2.13	(step @p5644 :rule cong :premises (@p5643) :args (@t3479))
1.93/2.13	(step @p5645 :rule quant-merge-prenex :args ((= @t3479 @t3480)))
1.93/2.13	(step @p5646 :rule symm :premises (@p5645))
1.93/2.13	(step @p5647 :rule quant_var_reordering :args ((= (forall @t3481 @t3477) @t3480)))
1.93/2.13	(step @p5648 :rule trans :premises (@p5647 @p5646 @p5644))
1.93/2.13	(step @p5649 :rule trans :premises (@p5648 @p5639))
1.93/2.13	(step @p5650 :rule aci_norm :args ((= @t3483 @t3477)))
1.93/2.13	(step @p5651 :rule cong :premises (@p5650) :args (@t3484))
1.93/2.13	(step @p5652 :rule trans :premises (@p5651 @p5649))
1.93/2.13	(step @p5653 :rule quant-merge-prenex :args ((= (forall @t12 @t3486) @t3484)))
1.93/2.13	(step @p5654 :rule alpha_equiv :args (@t3487 (@list @t3469) @t2210))
1.93/2.13	(step @p5655 :rule nary_cong :premises (@p4874 @p5654) :args (@t3488))
1.93/2.13	(step @p5656 :rule quant-miniscope-or :args ((= @t3486 @t3488)))
1.93/2.13	(step @p5657 :rule trans :premises (@p5656 @p5655))
1.93/2.13	(step @p5658 :rule symm :premises (@p5657))
1.93/2.13	(step @p5659 :rule cong :premises (@p5658) :args ((forall @t12 (or @t443 @t3490))))
1.93/2.13	(step @p5660 :rule trans :premises (@p5659 @p5653))
1.93/2.13	(step @p5661 :rule trans :premises (@p5660 @p5652))
1.93/2.13	(step @p5662 :rule bool-impl-elim :args (@t3 @t3490))
1.93/2.13	(step @p5663 :rule cong :premises (@p5662) :args ((forall @t12 (=> @t3 @t3490))))
1.93/2.13	(step @p5664 :rule trans :premises (@p5663 @p5661))
1.93/2.13	(step @p5665 :rule aci_norm :args ((= (or false @t1523 @t1394) @t3489)))
1.93/2.13	(step @p5666 :rule refl :args (@t1523))
1.93/2.13	(step @p5667 :rule nary_cong :premises (@p2791 @p5666 @p2159) :args (@t3491))
1.93/2.13	(step @p5668 :rule trans :premises (@p5667 @p5665))
1.93/2.13	(step @p5669 :rule cong :premises (@p5668) :args ((forall @t70 @t3491)))
1.93/2.13	(step @p5670 :rule quant-var-elim-eq :args ((= (forall @t9 @t3492) @t3491)))
1.93/2.13	(step @p5671 :rule aci_norm :args ((= @t3493 @t3492)))
1.93/2.13	(step @p5672 :rule cong :premises (@p5671) :args (@t3494))
1.93/2.13	(step @p5673 :rule trans :premises (@p5672 @p5670))
1.93/2.13	(step @p5674 :rule cong :premises (@p5673) :args (@t3495))
1.93/2.13	(step @p5675 :rule quant-merge-prenex :args ((= @t3495 @t3496)))
1.93/2.13	(step @p5676 :rule symm :premises (@p5675))
1.93/2.13	(step @p5677 :rule quant_var_reordering :args ((= (forall @t135 @t3493) @t3496)))
1.93/2.13	(step @p5678 :rule trans :premises (@p5677 @p5676 @p5674))
1.93/2.13	(step @p5679 :rule trans :premises (@p5678 @p5669))
1.93/2.13	(step @p5680 :rule nary_cong :premises (@p2816 @p738 @p778) :args (@t3497))
1.93/2.13	(step @p5681 :rule cong :premises (@p5680) :args ((forall @t135 @t3497)))
1.93/2.13	(step @p5682 :rule trans :premises (@p5681 @p5679))
1.93/2.13	(step @p5683 :rule aci_norm :args ((= (or @t282 (or @t197 @t352)) @t3497)))
1.93/2.13	(step @p5684 :rule bool-impl-elim :args (@t7 @t352))
1.93/2.13	(step @p5685 :rule nary_cong :premises (@p2816 @p5684) :args ((or @t282 @t353)))
1.93/2.13	(step @p5686 :rule trans :premises (@p5685 @p5683))
1.93/2.13	(step @p5687 :rule bool-impl-elim :args (@t129 @t353))
1.93/2.13	(step @p5688 :rule trans :premises (@p5687 @p5686))
1.93/2.13	(step @p5689 :rule cong :premises (@p5688) :args (@t354))
1.93/2.13	(step @p5690 :rule trans :premises (@p5689 @p5682))
1.93/2.13	(step @p5691 :rule cong :premises (@p5158 @p5690) :args (@t355))
1.93/2.13	(step @p5692 :rule cong :premises (@p5691) :args (@t356))
1.93/2.13	(step @p5693 :rule trans :premises (@p5692 @p5664))
1.93/2.13	(step @p5694 :rule refl :args (tptp.inCongP))
1.93/2.13	(step @p5695 :rule cong :premises (@p5694 @p5693) :args (@t357))
1.93/2.13	(step @p5696 :rule trans :premises (@p5695 @p5627))
1.93/2.13	(step @p5697 :rule eq_resolve :premises (@p64 @p5696))
1.93/2.13	(step @p5698 :rule eq_resolve :premises (@p5697 @p5628))
1.93/2.13	(step @p5699 :rule cong :premises (@p5698 @p5626) :args (@t3498))
1.93/2.13	(step @p5700 :rule refl :args (@t1763))
1.93/2.13	(step @p5701 :rule eq-symm :args (@t1766 @t19))
1.93/2.13	(step @p5702 :rule refl :args (@t1520))
1.93/2.13	(step @p5703 :rule cong :premises (@p5702 @p5701) :args ((= @t1520 @t3499)))
1.93/2.13	(step @p5704 :rule eq-symm :args (@t3499 @t1520))
1.93/2.13	(step @p5705 :rule trans :premises (@p5704 @p5703))
1.93/2.13	(step @p5706 :rule cong :premises (@p5705) :args (@t3500))
1.93/2.13	(step @p5707 :rule cong :premises (@p5706) :args (@t3501))
1.93/2.13	(step @p5708 :rule nary_cong :premises (@p5707 @p5700) :args (@t3502))
1.93/2.13	(step @p5709 :rule cong :premises (@p5708) :args (@t3503))
1.93/2.13	(step @p5710 :rule quant-merge-prenex :args ((= (forall @t150 @t3505) @t3503)))
1.93/2.13	(step @p5711 :rule refl :args (@t1763))
1.93/2.13	(step @p5712 :rule alpha_equiv :args (@t3506 (@list @t1766) @t2362))
1.93/2.13	(step @p5713 :rule nary_cong :premises (@p5712 @p5711) :args (@t3507))
1.93/2.13	(step @p5714 :rule quant-miniscope-or :args ((= @t3505 @t3507)))
1.93/2.13	(step @p5715 :rule trans :premises (@p5714 @p5713))
1.93/2.13	(step @p5716 :rule symm :premises (@p5715))
1.93/2.13	(step @p5717 :rule cong :premises (@p5716) :args ((forall @t150 (or @t1817 @t1763))))
1.93/2.13	(step @p5718 :rule trans :premises (@p5717 @p5710))
1.93/2.13	(step @p5719 :rule trans :premises (@p5718 @p5709))
1.93/2.13	(step @p5720 :rule bool-double-not-elim :args (@t1817))
1.93/2.13	(step @p5721 :rule nary_cong :premises (@p5720 @p5711) :args ((or (not @t1818) @t1763)))
1.93/2.13	(step @p5722 :rule bool-impl-elim :args (@t1818 @t1763))
1.93/2.13	(step @p5723 :rule trans :premises (@p5722 @p5721))
1.93/2.13	(step @p5724 :rule cong :premises (@p5723) :args ((forall @t150 (=> @t1818 @t1763))))
1.93/2.13	(step @p5725 :rule trans :premises (@p5724 @p5719))
1.93/2.13	(step @p5726 :rule exists-elim :args ((= (exists @t9 @t1816) @t1818)))
1.93/2.13	(step @p5727 :rule eq-symm :args (@t1520 @t129))
1.93/2.13	(step @p5728 :rule cong :premises (@p5727) :args ((forall @t70 (= @t1520 @t129))))
1.93/2.13	(step @p5729 :rule cong :premises (@p1417 @p1412) :args (@t3508))
1.93/2.13	(step @p5730 :rule cong :premises (@p5729) :args ((forall @t70 @t3508)))
1.93/2.13	(step @p5731 :rule trans :premises (@p5730 @p5728))
1.93/2.13	(step @p5732 :rule cong :premises (@p3193 @p3192) :args (@t263))
1.93/2.13	(step @p5733 :rule cong :premises (@p5732) :args (@t264))
1.93/2.13	(step @p5734 :rule trans :premises (@p5733 @p5731))
1.93/2.13	(step @p5735 :rule cong :premises (@p5734) :args (@t265))
1.93/2.13	(step @p5736 :rule trans :premises (@p5735 @p5726))
1.93/2.13	(step @p5737 :rule cong :premises (@p5736 @p5293) :args (@t3509))
1.93/2.13	(step @p5738 :rule cong :premises (@p5737) :args (@t3510))
1.93/2.13	(step @p5739 :rule trans :premises (@p5738 @p5725))
1.93/2.13	(step @p5740 :rule refl :args (tptp.exuI2))
1.93/2.13	(step @p5741 :rule cong :premises (@p5740 @p5739) :args ((= tptp.exuI2 @t3510)))
1.93/2.13	(step @p5742 :rule refl :args (@t265))
1.93/2.13	(step @p5743 :rule cong :premises (@p5742 @p5336) :args (@t349))
1.93/2.13	(step @p5744 :rule cong :premises (@p5743) :args (@t350))
1.93/2.13	(step @p5745 :rule cong :premises (@p5740 @p5744) :args (@t351))
1.93/2.13	(step @p5746 :rule trans :premises (@p5745 @p5741))
1.93/2.13	(step @p5747 :rule eq_resolve :premises (@p63 @p5746))
1.93/2.13	(step @p5748 :rule cong :premises (@p5747 @p5699) :args (@t3511))
1.93/2.13	(step @p5749 :rule quant-merge-prenex :args ((= (forall @t150 @t3513) @t1774)))
1.93/2.13	(step @p5750 :rule refl :args (@t1770))
1.93/2.13	(step @p5751 :rule alpha_equiv :args (@t3514 (@list @t1771) @t2362))
1.93/2.13	(step @p5752 :rule nary_cong :premises (@p5751 @p5750 @p5711) :args (@t3515))
1.93/2.13	(step @p5753 :rule quant-miniscope-or :args ((= @t3513 @t3515)))
1.93/2.13	(step @p5754 :rule trans :premises (@p5753 @p5752))
1.93/2.13	(step @p5755 :rule symm :premises (@p5754))
1.93/2.13	(step @p5756 :rule cong :premises (@p5755) :args ((forall @t150 @t3516)))
1.93/2.13	(step @p5757 :rule trans :premises (@p5756 @p5749))
1.93/2.13	(step @p5758 :rule aci_norm :args ((= (or @t1880 (or @t1770 @t1763)) @t3516)))
1.93/2.13	(step @p5759 :rule bool-impl-elim :args (@t1769 @t1763))
1.93/2.13	(step @p5760 :rule refl :args (@t1880))
1.93/2.13	(step @p5761 :rule nary_cong :premises (@p5760 @p5759) :args ((or @t1880 @t3517)))
1.93/2.13	(step @p5762 :rule trans :premises (@p5761 @p5758))
1.93/2.13	(step @p5763 :rule refl :args (@t3517))
1.93/2.13	(step @p5764 :rule bool-double-not-elim :args (@t1880))
1.93/2.13	(step @p5765 :rule nary_cong :premises (@p5764 @p5763) :args ((or (not @t1881) @t3517)))
1.93/2.13	(step @p5766 :rule bool-impl-elim :args (@t1881 @t3517))
1.93/2.13	(step @p5767 :rule trans :premises (@p5766 @p5765))
1.93/2.13	(step @p5768 :rule trans :premises (@p5767 @p5762))
1.93/2.13	(step @p5769 :rule cong :premises (@p5768) :args ((forall @t150 (=> @t1881 @t3517))))
1.93/2.13	(step @p5770 :rule trans :premises (@p5769 @p5757))
1.93/2.13	(step @p5771 :rule cong :premises (@p5376 @p5293) :args (@t3518))
1.93/2.13	(step @p5772 :rule cong :premises (@p1403) :args (@t3519))
1.93/2.13	(step @p5773 :rule cong :premises (@p5772) :args (@t3520))
1.93/2.13	(step @p5774 :rule exists-elim :args ((= @t186 @t3520)))
1.93/2.13	(step @p5775 :rule trans :premises (@p5774 @p5773))
1.93/2.13	(step @p5776 :rule cong :premises (@p5775 @p5771) :args (@t3521))
1.93/2.13	(step @p5777 :rule cong :premises (@p5776) :args (@t3522))
1.93/2.13	(step @p5778 :rule trans :premises (@p5777 @p5770))
1.93/2.13	(step @p5779 :rule refl :args (tptp.exuI3))
1.93/2.13	(step @p5780 :rule cong :premises (@p5779 @p5778) :args ((= tptp.exuI3 @t3522)))
1.93/2.13	(step @p5781 :rule cong :premises (@p5382 @p5336) :args (@t345))
1.93/2.13	(step @p5782 :rule refl :args (@t186))
1.93/2.13	(step @p5783 :rule cong :premises (@p5782 @p5781) :args (@t346))
1.93/2.13	(step @p5784 :rule cong :premises (@p5783) :args (@t347))
1.93/2.13	(step @p5785 :rule cong :premises (@p5779 @p5784) :args (@t348))
1.93/2.13	(step @p5786 :rule trans :premises (@p5785 @p5780))
1.93/2.13	(step @p5787 :rule eq_resolve :premises (@p62 @p5786))
1.93/2.13	(step @p5788 :rule cong :premises (@p5787 @p5748) :args (@t3523))
1.93/2.13	(step @p5789 :rule bool-eq-true :args (tptp.exuI1))
1.93/2.13	(step @p5790 :rule symm :premises (@p5789))
1.93/2.13	(step @p5791 :rule quant-unused-vars :args ((= (forall @t150 true) true)))
1.93/2.13	(step @p5792 :rule bool-or-taut :args (false @t1762 false false))
1.93/2.13	(step @p5793 :rule nary_cong :premises (@p5241 @p5711) :args ((or @t3329 @t1763)))
1.93/2.13	(step @p5794 :rule bool-impl-elim :args (@t1763 @t1763))
1.93/2.13	(step @p5795 :rule trans :premises (@p5794 @p5793))
1.93/2.13	(step @p5796 :rule trans :premises (@p5795 @p5792))
1.93/2.13	(step @p5797 :rule cong :premises (@p5796) :args ((forall @t150 (=> @t1763 @t1763))))
1.93/2.13	(step @p5798 :rule trans :premises (@p5797 @p5791))
1.93/2.13	(step @p5799 :rule cong :premises (@p5331 @p5293) :args (@t3524))
1.93/2.13	(step @p5800 :rule cong :premises (@p5799) :args (@t3525))
1.93/2.13	(step @p5801 :rule trans :premises (@p5800 @p5798))
1.93/2.13	(step @p5802 :rule refl :args (tptp.exuI1))
1.93/2.13	(step @p5803 :rule cong :premises (@p5802 @p5801) :args ((= tptp.exuI1 @t3525)))
1.93/2.13	(step @p5804 :rule trans :premises (@p5803 @p5789))
1.93/2.13	(step @p5805 :rule refl :args (@t169))
1.93/2.13	(step @p5806 :rule cong :premises (@p5805 @p5336) :args (@t340))
1.93/2.13	(step @p5807 :rule cong :premises (@p5806) :args (@t341))
1.93/2.13	(step @p5808 :rule cong :premises (@p5802 @p5807) :args (@t342))
1.93/2.13	(step @p5809 :rule trans :premises (@p5808 @p5804))
1.93/2.13	(step @p5810 :rule eq_resolve :premises (@p61 @p5809))
1.93/2.13	(step @p5811 :rule eq_resolve :premises (@p5810 @p5790))
1.93/2.13	(step @p5812 :rule cong :premises (@p5811 @p5788) :args (@t3526))
1.93/2.13	(step @p5813 :rule bool-eq-true :args (tptp.notdallE))
1.93/2.13	(step @p5814 :rule symm :premises (@p5813))
1.93/2.13	(step @p5815 :rule bool-eq-true :args (tptp.notdallE))
1.93/2.13	(step @p5816 :rule eq-symm :args (true tptp.notdallE))
1.93/2.13	(step @p5817 :rule trans :premises (@p5816 @p5815))
1.93/2.13	(step @p5818 :rule refl :args (tptp.notdallE))
1.93/2.13	(step @p5819 :rule quant-unused-vars :args ((= (forall @t309 true) true)))
1.93/2.13	(step @p5820 :rule bool-or-taut :args (false @t3527 false false))
1.93/2.13	(step @p5821 :rule refl :args (@t3528))
1.93/2.13	(step @p5822 :rule bool-double-not-elim :args (@t3527))
1.93/2.13	(step @p5823 :rule nary_cong :premises (@p5822 @p5821) :args ((or (not @t3528) @t3528)))
1.93/2.13	(step @p5824 :rule bool-impl-elim :args (@t3528 @t3528))
1.93/2.13	(step @p5825 :rule trans :premises (@p5824 @p5823))
1.93/2.13	(step @p5826 :rule trans :premises (@p5825 @p5820))
1.93/2.13	(step @p5827 :rule cong :premises (@p5826) :args ((forall @t309 (=> @t3528 @t3528))))
1.93/2.13	(step @p5828 :rule trans :premises (@p5827 @p5819))
1.93/2.13	(step @p5829 :rule nary_cong :premises (@p738 @p1176) :args (@t3529))
1.93/2.13	(step @p5830 :rule cong :premises (@p5829) :args ((forall @t9 @t3529)))
1.93/2.13	(step @p5831 :rule bool-double-not-elim :args (@t144))
1.93/2.13	(step @p5832 :rule nary_cong :premises (@p3155 @p5831) :args ((or @t197 (not @t315))))
1.93/2.13	(step @p5833 :rule bool-and-de-morgan :args (@t7 @t315 true))
1.93/2.13	(step @p5834 :rule trans :premises (@p5833 @p5832))
1.93/2.13	(step @p5835 :rule cong :premises (@p5834) :args (@t3530))
1.93/2.13	(step @p5836 :rule trans :premises (@p5835 @p5830))
1.93/2.13	(step @p5837 :rule cong :premises (@p5836) :args (@t3531))
1.93/2.13	(step @p5838 :rule exists-elim :args ((= @t317 @t3531)))
1.93/2.13	(step @p5839 :rule trans :premises (@p5838 @p5837))
1.93/2.13	(step @p5840 :rule bool-impl-elim :args (@t7 @t144))
1.93/2.13	(step @p5841 :rule cong :premises (@p5840) :args (@t318))
1.93/2.13	(step @p5842 :rule trans :premises (@p5841 @p5830))
1.93/2.13	(step @p5843 :rule cong :premises (@p5842) :args (@t319))
1.93/2.13	(step @p5844 :rule cong :premises (@p5843 @p5839) :args (@t320))
1.93/2.13	(step @p5845 :rule cong :premises (@p5844) :args (@t321))
1.93/2.13	(step @p5846 :rule trans :premises (@p5845 @p5828))
1.93/2.13	(step @p5847 :rule cong :premises (@p5846 @p5818) :args ((= @t321 tptp.notdallE)))
1.93/2.13	(step @p5848 :rule trans :premises (@p5847 @p5817))
1.93/2.13	(step @p5849 :rule eq-symm :args (tptp.notdallE @t321))
1.93/2.13	(step @p5850 :rule trans :premises (@p5849 @p5848))
1.93/2.13	(step @p5851 :rule eq_resolve :premises (@p60 @p5850))
1.93/2.13	(step @p5852 :rule eq_resolve :premises (@p5851 @p5814))
1.93/2.13	(step @p5853 :rule cong :premises (@p5852 @p5812) :args (@t3532))
1.93/2.13	(step @p5854 :rule bool-eq-true :args (tptp.notdexE))
1.93/2.13	(step @p5855 :rule symm :premises (@p5854))
1.93/2.13	(step @p5856 :rule bool-eq-true :args (tptp.notdexE))
1.93/2.13	(step @p5857 :rule eq-symm :args (true tptp.notdexE))
1.93/2.13	(step @p5858 :rule trans :premises (@p5857 @p5856))
1.93/2.13	(step @p5859 :rule refl :args (tptp.notdexE))
1.93/2.13	(step @p5860 :rule bool-or-taut2 :args (false @t1530 false false))
1.93/2.13	(step @p5861 :rule bool-impl-elim :args (@t1530 @t1530))
1.93/2.13	(step @p5862 :rule trans :premises (@p5861 @p5860))
1.93/2.13	(step @p5863 :rule cong :premises (@p5862) :args ((forall @t309 (=> @t1530 @t1530))))
1.93/2.13	(step @p5864 :rule trans :premises (@p5863 @p5819))
1.93/2.13	(step @p5865 :rule bool-impl-elim :args (@t7 @t315))
1.93/2.13	(step @p5866 :rule cong :premises (@p5865) :args (@t324))
1.93/2.13	(step @p5867 :rule trans :premises (@p5866 @p3111))
1.93/2.13	(step @p5868 :rule bool-double-not-elim :args (@t1530))
1.93/2.13	(step @p5869 :rule cong :premises (@p3117) :args (@t323))
1.93/2.13	(step @p5870 :rule trans :premises (@p5869 @p5868))
1.93/2.13	(step @p5871 :rule cong :premises (@p5870 @p5867) :args (@t328))
1.93/2.13	(step @p5872 :rule cong :premises (@p5871) :args (@t329))
1.93/2.13	(step @p5873 :rule trans :premises (@p5872 @p5864))
1.93/2.13	(step @p5874 :rule cong :premises (@p5873 @p5859) :args ((= @t329 tptp.notdexE)))
1.93/2.13	(step @p5875 :rule trans :premises (@p5874 @p5858))
1.93/2.13	(step @p5876 :rule eq-symm :args (tptp.notdexE @t329))
1.93/2.13	(step @p5877 :rule trans :premises (@p5876 @p5875))
1.93/2.13	(step @p5878 :rule eq_resolve :premises (@p59 @p5877))
1.93/2.13	(step @p5879 :rule eq_resolve :premises (@p5878 @p5855))
1.93/2.13	(step @p5880 :rule cong :premises (@p5879 @p5853) :args (@t3533))
1.93/2.13	(step @p5881 :rule aci_norm :args ((= (or false @t1777) @t1777)))
1.93/2.13	(step @p5882 :rule nary_cong :premises (@p2752 @p580) :args (@t3534))
1.93/2.13	(step @p5883 :rule trans :premises (@p5882 @p5881))
1.93/2.13	(step @p5884 :rule quant-var-elim-eq :args ((= (forall @t179 (or @t3537 @t3103 @t3536)) @t3534)))
1.93/2.13	(step @p5885 :rule refl :args (@t3536))
1.93/2.13	(step @p5886 :rule bool-eq-true :args (@t173))
1.93/2.13	(step @p5887 :rule symm :premises (@p5886))
1.93/2.13	(step @p5888 :rule cong :premises (@p5887) :args (@t3103))
1.93/2.13	(step @p5889 :rule nary_cong :premises (@p5888 @p4023 @p5885) :args (@t3538))
1.93/2.13	(step @p5890 :rule aci_norm :args ((= @t3539 @t3538)))
1.93/2.13	(step @p5891 :rule trans :premises (@p5890 @p5889))
1.93/2.13	(step @p5892 :rule cong :premises (@p5891) :args ((forall @t179 @t3539)))
1.93/2.13	(step @p5893 :rule trans :premises (@p5892 @p5884))
1.93/2.13	(step @p5894 :rule trans :premises (@p5893 @p5883))
1.93/2.13	(step @p5895 :rule refl :args ((tptp.set2prop @t174)))
1.93/2.13	(step @p5896 :rule refl :args (@t3535))
1.93/2.13	(step @p5897 :rule cong :premises (@p5896) :args (@t3536))
1.93/2.13	(step @p5898 :rule trans :premises (@p5897 @p5895))
1.93/2.13	(step @p5899 :rule refl :args (tptp.set2prop))
1.93/2.13	(step @p5900 :rule ho_cong :premises (@p5899 @p5896))
1.93/2.13	(step @p5901 :rule cong :premises (@p5900 @p5898) :args ((= (_ tptp.set2prop @t3535) @t3536)))
1.93/2.13	(step @p5902 :rule symm :premises (@p5901))
1.93/2.13	(step @p5903 :rule refl :args (@t337))
1.93/2.13	(step @p5904 :rule eq_resolve :premises (@p5903 @p5902))
1.93/2.13	(step @p5905 :rule refl :args (@t174))
1.93/2.13	(step @p5906 :rule cong :premises (@p5905 @p5896) :args ((= @t174 @t3535)))
1.93/2.13	(step @p5907 :rule symm :premises (@p5906))
1.93/2.13	(step @p5908 :rule eq_resolve :premises (@p5905 @p5907))
1.93/2.13	(step @p5909 :rule ho_cong :premises (@p5899 @p5908))
1.93/2.13	(step @p5910 :rule trans :premises (@p5909 @p5904))
1.93/2.13	(step @p5911 :rule nary_cong :premises (@p4023 @p5910) :args (@t3540))
1.93/2.13	(step @p5912 :rule cong :premises (@p5911) :args ((forall @t179 @t3540)))
1.93/2.13	(step @p5913 :rule trans :premises (@p5912 @p5894))
1.93/2.13	(step @p5914 :rule bool-impl-elim :args (@t173 @t337))
1.93/2.13	(step @p5915 :rule cong :premises (@p5914) :args (@t338))
1.93/2.13	(step @p5916 :rule trans :premises (@p5915 @p5913))
1.93/2.13	(step @p5917 :rule refl :args (tptp.prop2set2propI))
1.93/2.13	(step @p5918 :rule cong :premises (@p5917 @p5916) :args (@t339))
1.93/2.13	(step @p5919 :rule eq_resolve :premises (@p58 @p5918))
1.93/2.13	(step @p5920 :rule cong :premises (@p5919 @p5880) :args (@t3541))
1.93/2.13	(step @p5921 :rule aci_norm :args ((= (or false @t1779) @t1779)))
1.93/2.13	(step @p5922 :rule nary_cong :premises (@p2752 @p582) :args (@t3542))
1.93/2.13	(step @p5923 :rule trans :premises (@p5922 @p5921))
1.93/2.13	(step @p5924 :rule quant-var-elim-eq :args ((= (forall @t179 (or @t3537 @t3103 @t3543)) @t3542)))
1.93/2.13	(step @p5925 :rule refl :args (@t3543))
1.93/2.13	(step @p5926 :rule nary_cong :premises (@p5888 @p4023 @p5925) :args (@t3544))
1.93/2.13	(step @p5927 :rule aci_norm :args ((= @t3545 @t3544)))
1.93/2.13	(step @p5928 :rule trans :premises (@p5927 @p5926))
1.93/2.13	(step @p5929 :rule cong :premises (@p5928) :args ((forall @t179 @t3545)))
1.93/2.13	(step @p5930 :rule trans :premises (@p5929 @p5924))
1.93/2.13	(step @p5931 :rule trans :premises (@p5930 @p5923))
1.93/2.13	(step @p5932 :rule refl :args ((tptp.in tptp.emptyset @t174)))
1.93/2.13	(step @p5933 :rule cong :premises (@p269 @p5896) :args (@t3543))
1.93/2.13	(step @p5934 :rule trans :premises (@p5933 @p5932))
1.93/2.13	(step @p5935 :rule ho_cong :premises (@p272 @p5896))
1.93/2.13	(step @p5936 :rule cong :premises (@p5935 @p5934) :args ((= (_ @t49 @t3535) @t3543)))
1.93/2.13	(step @p5937 :rule symm :premises (@p5936))
1.93/2.13	(step @p5938 :rule refl :args (@t334))
1.93/2.13	(step @p5939 :rule eq_resolve :premises (@p5938 @p5937))
1.93/2.13	(step @p5940 :rule ho_cong :premises (@p272 @p5908))
1.93/2.13	(step @p5941 :rule trans :premises (@p5940 @p5939))
1.93/2.13	(step @p5942 :rule nary_cong :premises (@p4023 @p5941) :args (@t3546))
1.93/2.13	(step @p5943 :rule cong :premises (@p5942) :args ((forall @t179 @t3546)))
1.93/2.13	(step @p5944 :rule trans :premises (@p5943 @p5931))
1.93/2.13	(step @p5945 :rule bool-impl-elim :args (@t173 @t334))
1.93/2.13	(step @p5946 :rule cong :premises (@p5945) :args (@t335))
1.93/2.13	(step @p5947 :rule trans :premises (@p5946 @p5944))
1.93/2.13	(step @p5948 :rule refl :args (tptp.prop2setI))
1.93/2.13	(step @p5949 :rule cong :premises (@p5948 @p5947) :args (@t336))
1.93/2.13	(step @p5950 :rule eq_resolve :premises (@p57 @p5949))
1.93/2.13	(step @p5951 :rule cong :premises (@p5950 @p5920) :args (@t3547))
1.93/2.13	(step @p5952 :rule bool-eq-true :args (tptp.quantDeMorgan4))
1.93/2.13	(step @p5953 :rule symm :premises (@p5952))
1.93/2.13	(step @p5954 :rule cong :premises (@p5839 @p5843) :args (@t331))
1.93/2.13	(step @p5955 :rule cong :premises (@p5954) :args (@t332))
1.93/2.13	(step @p5956 :rule trans :premises (@p5955 @p5828))
1.93/2.13	(step @p5957 :rule refl :args (tptp.quantDeMorgan4))
1.93/2.13	(step @p5958 :rule cong :premises (@p5957 @p5956) :args (@t333))
1.93/2.13	(step @p5959 :rule trans :premises (@p5958 @p5952))
1.93/2.13	(step @p5960 :rule eq_resolve :premises (@p56 @p5959))
1.93/2.13	(step @p5961 :rule eq_resolve :premises (@p5960 @p5953))
1.93/2.13	(step @p5962 :rule cong :premises (@p5961 @p5951) :args (@t3548))
1.93/2.13	(step @p5963 :rule bool-eq-true :args (tptp.quantDeMorgan3))
1.93/2.13	(step @p5964 :rule symm :premises (@p5963))
1.93/2.13	(step @p5965 :rule refl :args (tptp.quantDeMorgan3))
1.93/2.13	(step @p5966 :rule cong :premises (@p5965 @p5873) :args (@t330))
1.93/2.13	(step @p5967 :rule trans :premises (@p5966 @p5963))
1.93/2.13	(step @p5968 :rule eq_resolve :premises (@p55 @p5967))
1.93/2.13	(step @p5969 :rule eq_resolve :premises (@p5968 @p5964))
1.93/2.13	(step @p5970 :rule cong :premises (@p5969 @p5962) :args (@t3549))
1.93/2.13	(step @p5971 :rule bool-eq-true :args (tptp.quantDeMorgan2))
1.93/2.13	(step @p5972 :rule symm :premises (@p5971))
1.93/2.13	(step @p5973 :rule cong :premises (@p5867 @p5870) :args (@t325))
1.93/2.13	(step @p5974 :rule cong :premises (@p5973) :args (@t326))
1.93/2.13	(step @p5975 :rule trans :premises (@p5974 @p5864))
1.93/2.13	(step @p5976 :rule refl :args (tptp.quantDeMorgan2))
1.93/2.13	(step @p5977 :rule cong :premises (@p5976 @p5975) :args (@t327))
1.93/2.13	(step @p5978 :rule trans :premises (@p5977 @p5971))
1.93/2.13	(step @p5979 :rule eq_resolve :premises (@p54 @p5978))
1.93/2.13	(step @p5980 :rule eq_resolve :premises (@p5979 @p5972))
1.93/2.13	(step @p5981 :rule cong :premises (@p5980 @p5970) :args (@t3550))
1.93/2.13	(step @p5982 :rule bool-eq-true :args (tptp.quantDeMorgan1))
1.93/2.13	(step @p5983 :rule symm :premises (@p5982))
1.93/2.13	(step @p5984 :rule refl :args (tptp.quantDeMorgan1))
1.93/2.13	(step @p5985 :rule cong :premises (@p5984 @p5846) :args (@t322))
1.93/2.13	(step @p5986 :rule trans :premises (@p5985 @p5982))
1.93/2.13	(step @p5987 :rule eq_resolve :premises (@p53 @p5986))
1.93/2.13	(step @p5988 :rule eq_resolve :premises (@p5987 @p5983))
1.93/2.13	(step @p5989 :rule cong :premises (@p5988 @p5981) :args (@t3551))
1.93/2.13	(step @p5990 :rule refl :args (@t1781))
1.93/2.13	(step @p5991 :rule refl :args (@t15))
1.93/2.13	(step @p5992 :rule cong :premises (@p5991 @p5990) :args ((= @t15 @t1781)))
1.93/2.13	(step @p5993 :rule symm :premises (@p5992))
1.93/2.13	(step @p5994 :rule eq_resolve :premises (@p5991 @p5993))
1.93/2.13	(step @p5995 :rule cong :premises (@p5994) :args (@t16))
1.93/2.13	(step @p5996 :rule nary_cong :premises (@p5995 @p1176) :args (@t3552))
1.93/2.13	(step @p5997 :rule cong :premises (@p5996) :args ((forall @t312 @t3552)))
1.93/2.13	(step @p5998 :rule bool-impl-elim :args (@t15 @t144))
1.93/2.13	(step @p5999 :rule cong :premises (@p5998) :args (@t313))
1.93/2.13	(step @p6000 :rule trans :premises (@p5999 @p5997))
1.93/2.13	(step @p6001 :rule refl :args (tptp.vacuousDall))
1.93/2.13	(step @p6002 :rule cong :premises (@p6001 @p6000) :args (@t314))
1.93/2.13	(step @p6003 :rule eq_resolve :premises (@p52 @p6002))
1.93/2.13	(step @p6004 :rule cong :premises (@p6003 @p5989) :args (@t3553))
1.93/2.13	(step @p6005 :rule aci_norm :args ((= @t3555 @t1789)))
1.93/2.13	(step @p6006 :rule cong :premises (@p6005) :args (@t3556))
1.93/2.13	(step @p6007 :rule quant-merge-prenex :args ((= (forall @t309 @t3558) @t3556)))
1.93/2.13	(step @p6008 :rule refl :args (@t1788))
1.93/2.13	(step @p6009 :rule alpha_equiv :args (@t3559 (@list @t1785) @t2362))
1.93/2.13	(step @p6010 :rule nary_cong :premises (@p6009 @p6008) :args (@t3560))
1.93/2.13	(step @p6011 :rule quant-miniscope-or :args ((= @t3558 @t3560)))
1.93/2.13	(step @p6012 :rule trans :premises (@p6011 @p6010))
1.93/2.13	(step @p6013 :rule symm :premises (@p6012))
1.93/2.13	(step @p6014 :rule cong :premises (@p6013) :args ((forall @t309 (or @t1530 @t1788))))
1.93/2.13	(step @p6015 :rule trans :premises (@p6014 @p6007))
1.93/2.13	(step @p6016 :rule trans :premises (@p6015 @p6006))
1.93/2.13	(step @p6017 :rule cong :premises (@p222 @p4595) :args (@t3561))
1.93/2.13	(step @p6018 :rule cong :premises (@p6017) :args (@t3562))
1.93/2.13	(step @p6019 :rule refl :args (@t1530))
1.93/2.13	(step @p6020 :rule nary_cong :premises (@p6019 @p6018) :args (@t3563))
1.93/2.13	(step @p6021 :rule cong :premises (@p6020) :args ((forall @t309 @t3563)))
1.93/2.13	(step @p6022 :rule trans :premises (@p6021 @p6016))
1.93/2.13	(step @p6023 :rule cong :premises (@p269 @p4617) :args (@t3564))
1.93/2.13	(step @p6024 :rule cong :premises (@p6023) :args (@t3565))
1.93/2.13	(step @p6025 :rule refl :args (@t1530))
1.93/2.13	(step @p6026 :rule nary_cong :premises (@p6025 @p6024) :args (@t3566))
1.93/2.13	(step @p6027 :rule cong :premises (@p6026) :args ((forall @t309 @t3566)))
1.93/2.13	(step @p6028 :rule trans :premises (@p6027 @p6022))
1.93/2.13	(step @p6029 :rule refl :args (@t3565))
1.93/2.13	(step @p6030 :rule nary_cong :premises (@p3100 @p6029) :args ((or @t2913 @t3565)))
1.93/2.13	(step @p6031 :rule bool-impl-elim :args (@t1531 @t3565))
1.93/2.13	(step @p6032 :rule trans :premises (@p6031 @p6030))
1.93/2.13	(step @p6033 :rule cong :premises (@p6032) :args ((forall @t309 (=> @t1531 @t3565))))
1.93/2.13	(step @p6034 :rule trans :premises (@p6033 @p6028))
1.93/2.13	(step @p6035 :rule eq-symm :args (@t304 tptp.emptyset))
1.93/2.13	(step @p6036 :rule cong :premises (@p6035) :args ((not @t305)))
1.93/2.13	(step @p6037 :rule bool-impl-false1 :args (@t305))
1.93/2.13	(step @p6038 :rule trans :premises (@p6037 @p6036))
1.93/2.13	(step @p6039 :rule cong :premises (@p3117 @p6038) :args (@t308))
1.93/2.13	(step @p6040 :rule cong :premises (@p6039) :args (@t310))
1.93/2.13	(step @p6041 :rule trans :premises (@p6040 @p6034))
1.93/2.13	(step @p6042 :rule refl :args (tptp.emptyE1))
1.93/2.13	(step @p6043 :rule cong :premises (@p6042 @p6041) :args (@t311))
1.93/2.13	(step @p6044 :rule eq_resolve :premises (@p51 @p6043))
1.93/2.13	(step @p6045 :rule cong :premises (@p6044 @p6004) :args (@t3567))
1.93/2.13	(step @p6046 :rule refl :args (tptp.upairsetIR))
1.93/2.13	(step @p6047 :rule cong :premises (@p6046 @p3888) :args (@t303))
1.93/2.13	(step @p6048 :rule eq_resolve :premises (@p50 @p6047))
1.93/2.13	(step @p6049 :rule cong :premises (@p6048 @p6045) :args (@t3568))
1.93/2.13	(step @p6050 :rule refl :args ((tptp.in @t4 @t291)))
1.93/2.13	(step @p6051 :rule cong :premises (@p1183 @p2693) :args (@t1794))
1.93/2.13	(step @p6052 :rule trans :premises (@p6051 @p6050))
1.93/2.13	(step @p6053 :rule ho_cong :premises (@p3336 @p2693))
1.93/2.13	(step @p6054 :rule cong :premises (@p6053 @p6052) :args ((= (_ @t5 @t1456) @t1794)))
1.93/2.13	(step @p6055 :rule symm :premises (@p6054))
1.93/2.13	(step @p6056 :rule refl :args (@t298))
1.93/2.13	(step @p6057 :rule eq_resolve :premises (@p6056 @p6055))
1.93/2.13	(step @p6058 :rule ho_cong :premises (@p3336 @p2721))
1.93/2.13	(step @p6059 :rule trans :premises (@p6058 @p6057))
1.93/2.13	(step @p6060 :rule cong :premises (@p6059) :args (@t299))
1.93/2.13	(step @p6061 :rule refl :args (tptp.upairsetIL))
1.93/2.13	(step @p6062 :rule cong :premises (@p6061 @p6060) :args (@t300))
1.93/2.13	(step @p6063 :rule eq_resolve :premises (@p49 @p6062))
1.93/2.13	(step @p6064 :rule cong :premises (@p6063 @p6049) :args (@t3569))
1.93/2.13	(step @p6065 :rule refl :args (tptp.upairsetE))
1.93/2.13	(step @p6066 :rule cong :premises (@p6065 @p3733) :args (@t297))
1.93/2.13	(step @p6067 :rule eq_resolve :premises (@p48 @p6066))
1.93/2.13	(step @p6068 :rule cong :premises (@p6067 @p6064) :args (@t3570))
1.93/2.13	(step @p6069 :rule refl :args ((tptp.in @t19 @t279)))
1.93/2.13	(step @p6070 :rule cong :premises (@p904 @p1193) :args (@t1798))
1.93/2.13	(step @p6071 :rule trans :premises (@p6070 @p6069))
1.93/2.13	(step @p6072 :rule ho_cong :premises (@p3841 @p1193))
1.93/2.13	(step @p6073 :rule cong :premises (@p6072 @p6071) :args ((= (_ @t20 @t1444) @t1798)))
1.93/2.13	(step @p6074 :rule symm :premises (@p6073))
1.93/2.13	(step @p6075 :rule refl :args (@t280))
1.93/2.13	(step @p6076 :rule eq_resolve :premises (@p6075 @p6074))
1.93/2.13	(step @p6077 :rule ho_cong :premises (@p3841 @p1197))
1.93/2.13	(step @p6078 :rule trans :premises (@p6077 @p6076))
1.93/2.13	(step @p6079 :rule refl :args ((tptp.in @t4 @t275)))
1.93/2.13	(step @p6080 :rule cong :premises (@p1183 @p2691) :args (@t1799))
1.93/2.13	(step @p6081 :rule trans :premises (@p6080 @p6079))
1.93/2.13	(step @p6082 :rule ho_cong :premises (@p3336 @p2691))
1.93/2.13	(step @p6083 :rule cong :premises (@p6082 @p6081) :args ((= (_ @t5 @t1455) @t1799)))
1.93/2.13	(step @p6084 :rule symm :premises (@p6083))
1.93/2.13	(step @p6085 :rule refl :args (@t276))
1.93/2.13	(step @p6086 :rule eq_resolve :premises (@p6085 @p6084))
1.93/2.13	(step @p6087 :rule ho_cong :premises (@p3336 @p2719))
1.93/2.13	(step @p6088 :rule trans :premises (@p6087 @p6086))
1.93/2.13	(step @p6089 :rule cong :premises (@p6088) :args (@t3571))
1.93/2.13	(step @p6090 :rule nary_cong :premises (@p6089 @p6078) :args (@t3572))
1.93/2.13	(step @p6091 :rule cong :premises (@p6090) :args ((forall @t135 @t3572)))
1.93/2.13	(step @p6092 :rule bool-impl-elim :args (@t276 @t280))
1.93/2.13	(step @p6093 :rule cong :premises (@p6092) :args (@t287))
1.93/2.13	(step @p6094 :rule trans :premises (@p6093 @p6091))
1.93/2.13	(step @p6095 :rule refl :args (tptp.singletonsswitch))
1.93/2.13	(step @p6096 :rule cong :premises (@p6095 @p6094) :args (@t288))
1.93/2.13	(step @p6097 :rule eq_resolve :premises (@p47 @p6096))
1.93/2.13	(step @p6098 :rule cong :premises (@p6097 @p6068) :args (@t3573))
1.93/2.13	(step @p6099 :rule aci_norm :args ((= (or false @t1803) @t1803)))
1.93/2.13	(step @p6100 :rule refl :args (@t1803))
1.93/2.13	(step @p6101 :rule nary_cong :premises (@p2791 @p6100) :args (@t3574))
1.93/2.13	(step @p6102 :rule trans :premises (@p6101 @p6099))
1.93/2.13	(step @p6103 :rule cong :premises (@p6102) :args ((forall @t70 @t3574)))
1.93/2.13	(step @p6104 :rule quant-var-elim-eq :args ((= (forall @t9 @t3575) @t3574)))
1.93/2.13	(step @p6105 :rule aci_norm :args ((= @t3576 @t3575)))
1.93/2.13	(step @p6106 :rule cong :premises (@p6105) :args (@t3577))
1.93/2.13	(step @p6107 :rule trans :premises (@p6106 @p6104))
1.93/2.13	(step @p6108 :rule cong :premises (@p6107) :args (@t3578))
1.93/2.13	(step @p6109 :rule quant-merge-prenex :args ((= @t3578 @t3579)))
1.93/2.13	(step @p6110 :rule symm :premises (@p6109))
1.93/2.13	(step @p6111 :rule quant_var_reordering :args ((= (forall @t135 @t3576) @t3579)))
1.93/2.13	(step @p6112 :rule trans :premises (@p6111 @p6110 @p6108))
1.93/2.13	(step @p6113 :rule trans :premises (@p6112 @p6103))
1.93/2.13	(step @p6114 :rule nary_cong :premises (@p2816 @p6088) :args (@t3580))
1.93/2.13	(step @p6115 :rule cong :premises (@p6114) :args ((forall @t135 @t3580)))
1.93/2.13	(step @p6116 :rule trans :premises (@p6115 @p6113))
1.93/2.13	(step @p6117 :rule bool-impl-elim :args (@t129 @t276))
1.93/2.13	(step @p6118 :rule cong :premises (@p6117) :args (@t285))
1.93/2.13	(step @p6119 :rule trans :premises (@p6118 @p6116))
1.93/2.13	(step @p6120 :rule refl :args (tptp.eqinunit))
1.93/2.13	(step @p6121 :rule cong :premises (@p6120 @p6119) :args (@t286))
1.93/2.13	(step @p6122 :rule eq_resolve :premises (@p46 @p6121))
1.93/2.13	(step @p6123 :rule cong :premises (@p6122 @p6098) :args (@t3581))
1.93/2.13	(step @p6124 :rule cong :premises (@p6078) :args (@t281))
1.93/2.13	(step @p6125 :rule nary_cong :premises (@p1412 @p6124) :args (@t3582))
1.93/2.13	(step @p6126 :rule cong :premises (@p6125) :args ((forall @t135 @t3582)))
1.93/2.13	(step @p6127 :rule refl :args (@t281))
1.93/2.13	(step @p6128 :rule bool-double-not-elim :args (@t129))
1.93/2.13	(step @p6129 :rule nary_cong :premises (@p6128 @p6127) :args ((or (not @t282) @t281)))
1.93/2.13	(step @p6130 :rule bool-impl-elim :args (@t282 @t281))
1.93/2.13	(step @p6131 :rule trans :premises (@p6130 @p6129))
1.93/2.13	(step @p6132 :rule cong :premises (@p6131) :args (@t283))
1.93/2.13	(step @p6133 :rule trans :premises (@p6132 @p6126))
1.93/2.13	(step @p6134 :rule refl :args (tptp.notinsingleton))
1.93/2.13	(step @p6135 :rule cong :premises (@p6134 @p6133) :args (@t284))
1.93/2.13	(step @p6136 :rule eq_resolve :premises (@p45 @p6135))
1.93/2.13	(step @p6137 :rule cong :premises (@p6136 @p6123) :args (@t3583))
1.93/2.13	(step @p6138 :rule nary_cong :premises (@p6089 @p1412) :args (@t3584))
1.93/2.13	(step @p6139 :rule cong :premises (@p6138) :args ((forall @t135 @t3584)))
1.93/2.13	(step @p6140 :rule bool-impl-elim :args (@t276 @t129))
1.93/2.13	(step @p6141 :rule cong :premises (@p6140) :args (@t277))
1.93/2.13	(step @p6142 :rule trans :premises (@p6141 @p6139))
1.93/2.13	(step @p6143 :rule refl :args (tptp.uniqinunit))
1.93/2.13	(step @p6144 :rule cong :premises (@p6143 @p6142) :args (@t278))
1.93/2.13	(step @p6145 :rule eq_resolve :premises (@p44 @p6144))
1.93/2.13	(step @p6146 :rule cong :premises (@p6145 @p6137) :args (@t3585))
1.93/2.13	(step @p6147 :rule refl :args (@t1811))
1.93/2.13	(step @p6148 :rule bool-double-not-elim :args (@t196))
1.93/2.13	(step @p6149 :rule nary_cong :premises (@p6148 @p6147) :args ((or (not @t3586) @t1811)))
1.93/2.13	(step @p6150 :rule bool-impl-elim :args (@t3586 @t1811))
1.93/2.13	(step @p6151 :rule trans :premises (@p6150 @p6149))
1.93/2.13	(step @p6152 :rule cong :premises (@p6151) :args ((forall @t64 (=> @t3586 @t1811))))
1.93/2.13	(step @p6153 :rule cong :premises (@p738) :args (@t198))
1.93/2.13	(step @p6154 :rule cong :premises (@p6153) :args (@t3587))
1.93/2.13	(step @p6155 :rule exists-elim :args ((= @t89 @t3587)))
1.93/2.13	(step @p6156 :rule trans :premises (@p6155 @p6154))
1.93/2.13	(step @p6157 :rule aci_norm :args ((= @t269 @t7)))
1.93/2.13	(step @p6158 :rule cong :premises (@p6157) :args (@t270))
1.93/2.13	(step @p6159 :rule trans :premises (@p6158 @p6156))
1.93/2.13	(step @p6160 :rule beta-reduce :args ((= @t3588 @t3586)))
1.93/2.13	(step @p6161 :rule cong :premises (@p6160 @p6159) :args (@t3589))
1.93/2.13	(step @p6162 :rule cong :premises (@p6161) :args (@t3590))
1.93/2.13	(step @p6163 :rule trans :premises (@p6162 @p6152))
1.93/2.13	(step @p6164 :rule refl :args (tptp.nonemptyImpWitness))
1.93/2.13	(step @p6165 :rule cong :premises (@p6164 @p6163) :args ((= tptp.nonemptyImpWitness @t3590)))
1.93/2.13	(step @p6166 :rule refl :args (@t270))
1.93/2.13	(step @p6167 :rule ho_cong :premises (@p210 @p818))
1.93/2.13	(step @p6168 :rule cong :premises (@p6167 @p6166) :args (@t271))
1.93/2.13	(step @p6169 :rule cong :premises (@p6168) :args (@t272))
1.93/2.13	(step @p6170 :rule cong :premises (@p6164 @p6169) :args (@t273))
1.93/2.13	(step @p6171 :rule trans :premises (@p6170 @p6165))
1.93/2.13	(step @p6172 :rule eq_resolve :premises (@p43 @p6171))
1.93/2.13	(step @p6173 :rule cong :premises (@p6172 @p6146) :args (@t3591))
1.93/2.13	(step @p6174 :rule eq-symm :args (@t1814 @t19))
1.93/2.13	(step @p6175 :rule nary_cong :premises (@p5173 @p6174) :args (@t3592))
1.93/2.13	(step @p6176 :rule cong :premises (@p6175) :args (@t3593))
1.93/2.13	(step @p6177 :rule cong :premises (@p6176) :args (@t3594))
1.93/2.13	(step @p6178 :rule refl :args (@t1815))
1.93/2.13	(step @p6179 :rule refl :args (@t1818))
1.93/2.13	(step @p6180 :rule nary_cong :premises (@p6179 @p6178 @p6177) :args (@t3595))
1.93/2.13	(step @p6181 :rule aci_norm :args ((= @t3597 @t3595)))
1.93/2.13	(step @p6182 :rule trans :premises (@p6181 @p6180))
1.93/2.13	(step @p6183 :rule cong :premises (@p6182) :args (@t3598))
1.93/2.13	(step @p6184 :rule quant-merge-prenex :args ((= (forall @t150 @t3600) @t3598)))
1.93/2.13	(step @p6185 :rule refl :args (@t1818))
1.93/2.13	(step @p6186 :rule alpha_equiv :args (@t3601 (@list @t1814) @t2362))
1.93/2.13	(step @p6187 :rule nary_cong :premises (@p6186 @p6185) :args (@t3602))
1.93/2.13	(step @p6188 :rule quant-miniscope-or :args ((= @t3600 @t3602)))
1.93/2.13	(step @p6189 :rule trans :premises (@p6188 @p6187))
1.93/2.13	(step @p6190 :rule symm :premises (@p6189))
1.93/2.13	(step @p6191 :rule cong :premises (@p6190) :args ((forall @t150 (or @t1762 @t1818))))
1.93/2.13	(step @p6192 :rule trans :premises (@p6191 @p6184))
1.93/2.13	(step @p6193 :rule trans :premises (@p6192 @p6183))
1.93/2.13	(step @p6194 :rule nary_cong :premises (@p5241 @p6185) :args ((or @t3329 @t1818)))
1.93/2.13	(step @p6195 :rule bool-impl-elim :args (@t1763 @t1818))
1.93/2.13	(step @p6196 :rule trans :premises (@p6195 @p6194))
1.93/2.13	(step @p6197 :rule cong :premises (@p6196) :args ((forall @t150 (=> @t1763 @t1818))))
1.93/2.13	(step @p6198 :rule trans :premises (@p6197 @p6193))
1.93/2.13	(step @p6199 :rule cong :premises (@p5293 @p5736) :args (@t3603))
1.93/2.13	(step @p6200 :rule cong :premises (@p6199) :args (@t3604))
1.93/2.13	(step @p6201 :rule trans :premises (@p6200 @p6198))
1.93/2.13	(step @p6202 :rule refl :args (tptp.exuE2))
1.93/2.13	(step @p6203 :rule cong :premises (@p6202 @p6201) :args ((= tptp.exuE2 @t3604)))
1.93/2.13	(step @p6204 :rule cong :premises (@p5336 @p5742) :args (@t266))
1.93/2.13	(step @p6205 :rule cong :premises (@p6204) :args (@t267))
1.93/2.13	(step @p6206 :rule cong :premises (@p6202 @p6205) :args (@t268))
1.93/2.13	(step @p6207 :rule trans :premises (@p6206 @p6203))
1.93/2.13	(step @p6208 :rule eq_resolve :premises (@p42 @p6207))
1.93/2.13	(step @p6209 :rule cong :premises (@p6208 @p6173) :args (@t3605))
1.93/2.13	(step @p6210 :rule refl :args ((tptp.in @t4 @t259)))
1.93/2.13	(step @p6211 :rule refl :args ((tptp.powerset @t43)))
1.93/2.13	(step @p6212 :rule cong :premises (@p3333) :args (@t1822))
1.93/2.13	(step @p6213 :rule trans :premises (@p6212 @p6211))
1.93/2.13	(step @p6214 :rule cong :premises (@p1183 @p6213) :args (@t1823))
1.93/2.13	(step @p6215 :rule trans :premises (@p6214 @p6210))
1.93/2.13	(step @p6216 :rule ho_cong :premises (@p3336 @p6213))
1.93/2.13	(step @p6217 :rule cong :premises (@p6216 @p6215) :args ((= (_ @t5 @t1822) @t1823)))
1.93/2.13	(step @p6218 :rule symm :premises (@p6217))
1.93/2.13	(step @p6219 :rule refl :args (@t260))
1.93/2.13	(step @p6220 :rule eq_resolve :premises (@p6219 @p6218))
1.93/2.13	(step @p6221 :rule ho_cong :premises (@p3504 @p3333))
1.93/2.13	(step @p6222 :rule cong :premises (@p6221 @p6213) :args ((= (_ tptp.powerset @t1546) @t1822)))
1.93/2.13	(step @p6223 :rule symm :premises (@p6222))
1.93/2.13	(step @p6224 :rule refl :args (@t259))
1.93/2.13	(step @p6225 :rule eq_resolve :premises (@p6224 @p6223))
1.93/2.13	(step @p6226 :rule ho_cong :premises (@p3504 @p3345))
1.93/2.13	(step @p6227 :rule trans :premises (@p6226 @p6225))
1.93/2.13	(step @p6228 :rule ho_cong :premises (@p3336 @p6227))
1.93/2.13	(step @p6229 :rule trans :premises (@p6228 @p6220))
1.93/2.13	(step @p6230 :rule nary_cong :premises (@p738 @p6229) :args (@t3606))
1.93/2.13	(step @p6231 :rule cong :premises (@p6230) :args ((forall @t46 @t3606)))
1.93/2.13	(step @p6232 :rule bool-impl-elim :args (@t7 @t260))
1.93/2.13	(step @p6233 :rule cong :premises (@p6232) :args (@t261))
1.93/2.13	(step @p6234 :rule trans :premises (@p6233 @p6231))
1.93/2.13	(step @p6235 :rule refl :args (tptp.subPowSU))
1.93/2.13	(step @p6236 :rule cong :premises (@p6235 @p6234) :args (@t262))
1.93/2.13	(step @p6237 :rule eq_resolve :premises (@p41 @p6236))
1.93/2.13	(step @p6238 :rule cong :premises (@p6237 @p6209) :args (@t3607))
1.93/2.13	(step @p6239 :rule refl :args (@t1829))
1.93/2.13	(step @p6240 :rule nary_cong :premises (@p3348 @p6239) :args (@t3608))
1.93/2.13	(step @p6241 :rule cong :premises (@p6240) :args ((forall @t46 @t3608)))
1.93/2.13	(step @p6242 :rule bool-impl-elim :args (@t44 @t1829))
1.93/2.13	(step @p6243 :rule cong :premises (@p6242) :args ((forall @t46 (=> @t44 @t1829))))
1.93/2.13	(step @p6244 :rule trans :premises (@p6243 @p6241))
1.93/2.13	(step @p6245 :rule aci_norm :args ((= (and true @t1829) @t1829)))
1.93/2.13	(step @p6246 :rule refl :args (@t1829))
1.93/2.13	(step @p6247 :rule nary_cong :premises (@p3996 @p6246) :args (@t3609))
1.93/2.13	(step @p6248 :rule trans :premises (@p6247 @p6245))
1.93/2.13	(step @p6249 :rule aci_norm :args ((= @t3610 @t3609)))
1.93/2.13	(step @p6250 :rule trans :premises (@p6249 @p6248))
1.93/2.13	(step @p6251 :rule quant-var-elim-eq :args ((= (forall @t179 (or @t3106 @t3611 @t173)) @t3610)))
1.93/2.13	(step @p6252 :rule refl :args (@t3611))
1.93/2.13	(step @p6253 :rule nary_cong :premises (@p4016 @p6252 @p4008) :args (@t3612))
1.93/2.13	(step @p6254 :rule aci_norm :args ((= @t3613 @t3612)))
1.93/2.13	(step @p6255 :rule trans :premises (@p6254 @p6253))
1.93/2.13	(step @p6256 :rule cong :premises (@p6255) :args ((forall @t179 @t3613)))
1.93/2.13	(step @p6257 :rule trans :premises (@p6256 @p6251))
1.93/2.13	(step @p6258 :rule trans :premises (@p6257 @p6250))
1.93/2.13	(step @p6259 :rule bool-or-de-morgan :args (@t173 @t1828 false))
1.93/2.13	(step @p6260 :rule nary_cong :premises (@p6259 @p4008) :args ((or (not @t3614) @t173)))
1.93/2.13	(step @p6261 :rule bool-impl-elim :args (@t3614 @t173))
1.93/2.13	(step @p6262 :rule trans :premises (@p6261 @p6260))
1.93/2.13	(step @p6263 :rule cong :premises (@p6262) :args ((forall @t179 (=> @t3614 @t173))))
1.93/2.13	(step @p6264 :rule trans :premises (@p6263 @p6258))
1.93/2.13	(step @p6265 :rule refl :args (@t173))
1.93/2.13	(step @p6266 :rule refl :args (@t1826))
1.93/2.13	(step @p6267 :rule refl :args (@t39))
1.93/2.13	(step @p6268 :rule cong :premises (@p6267 @p6266) :args ((= @t39 @t1826)))
1.93/2.13	(step @p6269 :rule symm :premises (@p6268))
1.93/2.13	(step @p6270 :rule eq_resolve :premises (@p6267 @p6269))
1.93/2.13	(step @p6271 :rule cong :premises (@p6270) :args (@t3615))
1.93/2.13	(step @p6272 :rule nary_cong :premises (@p3938 @p6271) :args (@t3616))
1.93/2.13	(step @p6273 :rule cong :premises (@p6272) :args (@t3617))
1.93/2.13	(step @p6274 :rule nary_cong :premises (@p6265 @p6273) :args (@t3618))
1.93/2.13	(step @p6275 :rule quant-miniscope-or :args ((= (forall @t41 @t3619) @t3618)))
1.93/2.13	(step @p6276 :rule aci_norm :args ((= @t3620 @t3619)))
1.93/2.13	(step @p6277 :rule cong :premises (@p6276) :args ((forall @t41 @t3620)))
1.93/2.13	(step @p6278 :rule trans :premises (@p6277 @p6275))
1.93/2.13	(step @p6279 :rule trans :premises (@p6278 @p6274))
1.93/2.13	(step @p6280 :rule aci_norm :args ((= (or @t435 (or @t3615 @t173)) @t3620)))
1.93/2.13	(step @p6281 :rule bool-impl-elim :args (@t39 @t173))
1.93/2.13	(step @p6282 :rule refl :args (@t435))
1.93/2.13	(step @p6283 :rule nary_cong :premises (@p6282 @p6281) :args ((or @t435 @t252)))
1.93/2.13	(step @p6284 :rule trans :premises (@p6283 @p6280))
1.93/2.13	(step @p6285 :rule bool-impl-elim :args (@t6 @t252))
1.93/2.13	(step @p6286 :rule trans :premises (@p6285 @p6284))
1.93/2.13	(step @p6287 :rule cong :premises (@p6286) :args (@t253))
1.93/2.13	(step @p6288 :rule trans :premises (@p6287 @p6279))
1.93/2.13	(step @p6289 :rule cong :premises (@p6288 @p6265) :args (@t254))
1.93/2.13	(step @p6290 :rule cong :premises (@p6289) :args (@t255))
1.93/2.13	(step @p6291 :rule trans :premises (@p6290 @p6264))
1.93/2.13	(step @p6292 :rule cong :premises (@p3374 @p6291) :args (@t256))
1.93/2.13	(step @p6293 :rule cong :premises (@p6292) :args (@t257))
1.93/2.13	(step @p6294 :rule trans :premises (@p6293 @p6244))
1.93/2.13	(step @p6295 :rule refl :args (tptp.setunionE))
1.93/2.13	(step @p6296 :rule cong :premises (@p6295 @p6294) :args (@t258))
1.93/2.13	(step @p6297 :rule eq_resolve :premises (@p40 @p6296))
1.93/2.13	(step @p6298 :rule cong :premises (@p6297 @p6238) :args (@t3621))
1.93/2.13	(step @p6299 :rule nary_cong :premises (@p3938 @p6271 @p3347) :args (@t3622))
1.93/2.13	(step @p6300 :rule cong :premises (@p6299) :args ((forall @t249 @t3622)))
1.93/2.13	(step @p6301 :rule aci_norm :args ((= (or @t435 (or @t3615 @t44)) @t3622)))
1.93/2.13	(step @p6302 :rule bool-impl-elim :args (@t39 @t44))
1.93/2.13	(step @p6303 :rule nary_cong :premises (@p6282 @p6302) :args ((or @t435 @t248)))
1.93/2.13	(step @p6304 :rule trans :premises (@p6303 @p6301))
1.93/2.13	(step @p6305 :rule bool-impl-elim :args (@t6 @t248))
1.93/2.13	(step @p6306 :rule trans :premises (@p6305 @p6304))
1.93/2.13	(step @p6307 :rule cong :premises (@p6306) :args (@t250))
1.93/2.13	(step @p6308 :rule trans :premises (@p6307 @p6300))
1.93/2.13	(step @p6309 :rule refl :args (tptp.setunionI))
1.93/2.13	(step @p6310 :rule cong :premises (@p6309 @p6308) :args (@t251))
1.93/2.13	(step @p6311 :rule eq_resolve :premises (@p39 @p6310))
1.93/2.13	(step @p6312 :rule cong :premises (@p6311 @p6298) :args (@t3623))
1.93/2.13	(step @p6313 :rule nary_cong :premises (@p4701 @p3938 @p737) :args (@t3624))
1.93/2.13	(step @p6314 :rule cong :premises (@p6313) :args ((forall @t245 @t3624)))
1.93/2.13	(step @p6315 :rule aci_norm :args ((= (or @t3205 @t3625) @t3624)))
1.93/2.13	(step @p6316 :rule bool-impl-elim :args (@t6 @t7))
1.93/2.13	(step @p6317 :rule refl :args (@t3205))
1.93/2.13	(step @p6318 :rule nary_cong :premises (@p6317 @p6316) :args ((or @t3205 @t31)))
1.93/2.13	(step @p6319 :rule trans :premises (@p6318 @p6315))
1.93/2.13	(step @p6320 :rule bool-impl-elim :args (@t35 @t31))
1.93/2.13	(step @p6321 :rule trans :premises (@p6320 @p6319))
1.93/2.13	(step @p6322 :rule cong :premises (@p6321) :args (@t246))
1.93/2.13	(step @p6323 :rule trans :premises (@p6322 @p6314))
1.93/2.13	(step @p6324 :rule refl :args (tptp.powersetE))
1.93/2.13	(step @p6325 :rule cong :premises (@p6324 @p6323) :args (@t247))
1.93/2.13	(step @p6326 :rule eq_resolve :premises (@p38 @p6325))
1.93/2.13	(step @p6327 :rule cong :premises (@p6326 @p6312) :args (@t3626))
1.93/2.13	(step @p6328 :rule eq-symm :args (@t1837 tptp.emptyInPowerset))
1.93/2.13	(step @p6329 :rule refl :args (tptp.emptyInPowerset))
1.93/2.13	(step @p6330 :rule refl :args ((tptp.in tptp.emptyset @t33)))
1.93/2.13	(step @p6331 :rule cong :premises (@p269 @p3760) :args (@t1836))
1.93/2.13	(step @p6332 :rule trans :premises (@p6331 @p6330))
1.93/2.13	(step @p6333 :rule ho_cong :premises (@p272 @p3760))
1.93/2.13	(step @p6334 :rule cong :premises (@p6333 @p6332) :args ((= (_ @t49 @t1602) @t1836)))
1.93/2.13	(step @p6335 :rule symm :premises (@p6334))
1.93/2.13	(step @p6336 :rule refl :args (@t242))
1.93/2.13	(step @p6337 :rule eq_resolve :premises (@p6336 @p6335))
1.93/2.13	(step @p6338 :rule ho_cong :premises (@p272 @p3771))
1.93/2.13	(step @p6339 :rule trans :premises (@p6338 @p6337))
1.93/2.13	(step @p6340 :rule cong :premises (@p6339) :args (@t243))
1.93/2.13	(step @p6341 :rule cong :premises (@p6340 @p6329) :args ((= @t243 tptp.emptyInPowerset)))
1.93/2.13	(step @p6342 :rule trans :premises (@p6341 @p6328))
1.93/2.13	(step @p6343 :rule eq-symm :args (tptp.emptyInPowerset @t243))
1.93/2.13	(step @p6344 :rule trans :premises (@p6343 @p6342))
1.93/2.13	(step @p6345 :rule eq_resolve :premises (@p37 @p6344))
1.93/2.13	(step @p6346 :rule cong :premises (@p6345 @p6327) :args (@t3627))
1.93/2.13	(step @p6347 :rule refl :args (tptp.emptyinPowerset))
1.93/2.13	(step @p6348 :rule cong :premises (@p6347 @p6340) :args (@t244))
1.93/2.13	(step @p6349 :rule eq_resolve :premises (@p36 @p6348))
1.93/2.13	(step @p6350 :rule cong :premises (@p6349 @p6346) :args (@t3628))
1.93/2.13	(step @p6351 :rule refl :args (@t1841))
1.93/2.13	(step @p6352 :rule nary_cong :premises (@p6351 @p4700) :args (@t3629))
1.93/2.13	(step @p6353 :rule cong :premises (@p6352) :args ((forall @t12 @t3629)))
1.93/2.13	(step @p6354 :rule bool-impl-elim :args (@t1840 @t35))
1.93/2.13	(step @p6355 :rule cong :premises (@p6354) :args ((forall @t12 (=> @t1840 @t35))))
1.93/2.13	(step @p6356 :rule trans :premises (@p6355 @p6353))
1.93/2.13	(step @p6357 :rule refl :args (@t35))
1.93/2.13	(step @p6358 :rule nary_cong :premises (@p3938 @p737) :args (@t3625))
1.93/2.13	(step @p6359 :rule cong :premises (@p6358) :args ((forall @t9 @t3625)))
1.93/2.13	(step @p6360 :rule cong :premises (@p6316) :args (@t32))
1.93/2.13	(step @p6361 :rule trans :premises (@p6360 @p6359))
1.93/2.13	(step @p6362 :rule cong :premises (@p6361 @p6357) :args (@t239))
1.93/2.13	(step @p6363 :rule cong :premises (@p6362) :args (@t240))
1.93/2.13	(step @p6364 :rule trans :premises (@p6363 @p6356))
1.93/2.13	(step @p6365 :rule refl :args (tptp.powersetI))
1.93/2.13	(step @p6366 :rule cong :premises (@p6365 @p6364) :args (@t241))
1.93/2.13	(step @p6367 :rule eq_resolve :premises (@p35 @p6366))
1.93/2.13	(step @p6368 :rule cong :premises (@p6367 @p6350) :args (@t3630))
1.93/2.13	(step @p6369 :rule refl :args (@t1846))
1.93/2.13	(step @p6370 :rule refl :args (@t1845))
1.93/2.13	(step @p6371 :rule cong :premises (@p1162 @p6370) :args (@t1846))
1.93/2.13	(step @p6372 :rule trans :premises (@p6371 @p6369))
1.93/2.13	(step @p6373 :rule ho_cong :premises (@p1165 @p6370))
1.93/2.13	(step @p6374 :rule cong :premises (@p6373 @p6372) :args ((= @t3631 @t1846)))
1.93/2.13	(step @p6375 :rule symm :premises (@p6374))
1.93/2.13	(step @p6376 :rule refl :args ((_ @t155 @t1845)))
1.93/2.13	(step @p6377 :rule eq_resolve :premises (@p6376 @p6375))
1.93/2.13	(step @p6378 :rule cong :premises (@p1162 @p6377) :args (@t3632))
1.93/2.13	(step @p6379 :rule cong :premises (@p6378) :args ((forall @t64 @t3632)))
1.93/2.13	(step @p6380 :rule eq-symm :args (@t3631 @t2))
1.93/2.13	(step @p6381 :rule symm :premises (@p6370))
1.93/2.13	(step @p6382 :rule alpha_equiv :args (@t235 @t2362 (@list @t1844)))
1.93/2.13	(step @p6383 :rule trans :premises (@p6382 @p6381))
1.93/2.13	(step @p6384 :rule refl :args (@t155))
1.93/2.13	(step @p6385 :rule ho_cong :premises (@p6384 @p6383))
1.93/2.13	(step @p6386 :rule cong :premises (@p6385 @p818) :args (@t236))
1.93/2.13	(step @p6387 :rule trans :premises (@p6386 @p6380))
1.93/2.13	(step @p6388 :rule cong :premises (@p6387) :args (@t237))
1.93/2.13	(step @p6389 :rule trans :premises (@p6388 @p6379))
1.93/2.13	(step @p6390 :rule refl :args (tptp.setoftrueEq))
1.93/2.13	(step @p6391 :rule cong :premises (@p6390 @p6389) :args (@t238))
1.93/2.13	(step @p6392 :rule eq_resolve :premises (@p34 @p6391))
1.93/2.13	(step @p6393 :rule cong :premises (@p6392 @p6368) :args (@t3633))
1.93/2.13	(step @p6394 :rule refl :args ((tptp.in @t19 @t25)))
1.93/2.13	(step @p6395 :rule cong :premises (@p904 @p4796) :args (@t1849))
1.93/2.13	(step @p6396 :rule trans :premises (@p6395 @p6394))
1.93/2.13	(step @p6397 :rule ho_cong :premises (@p3841 @p4796))
1.93/2.13	(step @p6398 :rule cong :premises (@p6397 @p6396) :args ((= (_ @t20 @t1705) @t1849)))
1.93/2.13	(step @p6399 :rule symm :premises (@p6398))
1.93/2.13	(step @p6400 :rule refl :args (@t26))
1.93/2.13	(step @p6401 :rule eq_resolve :premises (@p6400 @p6399))
1.93/2.13	(step @p6402 :rule ho_cong :premises (@p3841 @p4807))
1.93/2.13	(step @p6403 :rule trans :premises (@p6402 @p6401))
1.93/2.13	(step @p6404 :rule cong :premises (@p6403) :args (@t3634))
1.93/2.13	(step @p6405 :rule nary_cong :premises (@p6404 @p1412 @p1423) :args (@t3635))
1.93/2.13	(step @p6406 :rule cong :premises (@p6405) :args ((forall @t28 @t3635)))
1.93/2.13	(step @p6407 :rule aci_norm :args ((= (or @t3634 @t3636) @t3635)))
1.93/2.13	(step @p6408 :rule bool-impl-elim :args (@t26 @t3636))
1.93/2.13	(step @p6409 :rule trans :premises (@p6408 @p6407))
1.93/2.13	(step @p6410 :rule cong :premises (@p6409) :args ((forall @t28 (=> @t26 @t3636))))
1.93/2.13	(step @p6411 :rule trans :premises (@p6410 @p6406))
1.93/2.13	(step @p6412 :rule nary_cong :premises (@p3192 @p3195) :args (@t23))
1.93/2.13	(step @p6413 :rule refl :args (@t26))
1.93/2.13	(step @p6414 :rule cong :premises (@p6413 @p6412) :args (@t232))
1.93/2.13	(step @p6415 :rule cong :premises (@p6414) :args (@t233))
1.93/2.13	(step @p6416 :rule trans :premises (@p6415 @p6411))
1.93/2.13	(step @p6417 :rule refl :args (tptp.setadjoinOr))
1.93/2.13	(step @p6418 :rule cong :premises (@p6417 @p6416) :args (@t234))
1.93/2.13	(step @p6419 :rule eq_resolve :premises (@p33 @p6418))
1.93/2.13	(step @p6420 :rule cong :premises (@p6419 @p6393) :args (@t3637))
1.93/2.13	(step @p6421 :rule refl :args (@t1522))
1.93/2.13	(step @p6422 :rule nary_cong :premises (@p6404 @p1412 @p6421) :args (@t3638))
1.93/2.13	(step @p6423 :rule cong :premises (@p6422) :args ((forall @t28 @t3638)))
1.93/2.13	(step @p6424 :rule aci_norm :args ((= (or @t3634 @t2002) @t3638)))
1.93/2.13	(step @p6425 :rule bool-impl-elim :args (@t26 @t2002))
1.93/2.13	(step @p6426 :rule trans :premises (@p6425 @p6424))
1.93/2.13	(step @p6427 :rule cong :premises (@p6426) :args ((forall @t28 (=> @t26 @t2002))))
1.93/2.13	(step @p6428 :rule trans :premises (@p6427 @p6423))
1.93/2.13	(step @p6429 :rule aci_norm :args ((= (and @t1522 true) @t1522)))
1.93/2.13	(step @p6430 :rule refl :args (@t1522))
1.93/2.13	(step @p6431 :rule nary_cong :premises (@p6430 @p3996) :args (@t3639))
1.93/2.13	(step @p6432 :rule trans :premises (@p6431 @p6429))
1.93/2.13	(step @p6433 :rule aci_norm :args ((= (and @t129 true) @t129)))
1.93/2.13	(step @p6434 :rule nary_cong :premises (@p2850 @p3996) :args (@t3640))
1.93/2.13	(step @p6435 :rule trans :premises (@p6434 @p6433))
1.93/2.13	(step @p6436 :rule nary_cong :premises (@p6435 @p6432) :args (@t3641))
1.93/2.13	(step @p6437 :rule aci_norm :args ((= @t3642 @t3641)))
1.93/2.13	(step @p6438 :rule trans :premises (@p6437 @p6436))
1.93/2.13	(step @p6439 :rule quant-var-elim-eq :args ((= (forall @t179 (or @t3106 @t3644 @t3643 @t173)) @t3642)))
1.93/2.13	(step @p6440 :rule refl :args (@t3643))
1.93/2.13	(step @p6441 :rule refl :args (@t3644))
1.93/2.13	(step @p6442 :rule nary_cong :premises (@p4016 @p6441 @p6440 @p4008) :args (@t3645))
1.93/2.13	(step @p6443 :rule aci_norm :args ((= @t3646 @t3645)))
1.93/2.13	(step @p6444 :rule trans :premises (@p6443 @p6442))
1.93/2.13	(step @p6445 :rule cong :premises (@p6444) :args ((forall @t179 @t3646)))
1.93/2.13	(step @p6446 :rule trans :premises (@p6445 @p6439))
1.93/2.13	(step @p6447 :rule trans :premises (@p6446 @p6438))
1.93/2.13	(step @p6448 :rule nary_cong :premises (@p1423 @p4023) :args (@t3647))
1.93/2.13	(step @p6449 :rule nary_cong :premises (@p6441 @p6448 @p4008) :args (@t3648))
1.93/2.13	(step @p6450 :rule cong :premises (@p6449) :args ((forall @t179 @t3648)))
1.93/2.13	(step @p6451 :rule trans :premises (@p6450 @p6447))
1.93/2.13	(step @p6452 :rule aci_norm :args ((= (or @t3644 (or @t3647 @t173)) @t3648)))
1.93/2.13	(step @p6453 :rule bool-implies-de-morgan :args (@t21 @t173))
1.93/2.13	(step @p6454 :rule nary_cong :premises (@p6453 @p4008) :args ((or (not @t224) @t173)))
1.93/2.13	(step @p6455 :rule bool-impl-elim :args (@t224 @t173))
1.93/2.13	(step @p6456 :rule trans :premises (@p6455 @p6454))
1.93/2.13	(step @p6457 :rule bool-implies-de-morgan :args (@t129 @t173))
1.93/2.13	(step @p6458 :rule nary_cong :premises (@p6457 @p6456) :args ((or (not @t3649) @t225)))
1.93/2.13	(step @p6459 :rule trans :premises (@p6458 @p6452))
1.93/2.13	(step @p6460 :rule bool-impl-elim :args (@t3649 @t225))
1.93/2.13	(step @p6461 :rule trans :premises (@p6460 @p6459))
1.93/2.13	(step @p6462 :rule cong :premises (@p6461) :args ((forall @t179 (=> @t3649 @t225))))
1.93/2.13	(step @p6463 :rule trans :premises (@p6462 @p6451))
1.93/2.13	(step @p6464 :rule refl :args (@t225))
1.93/2.13	(step @p6465 :rule cong :premises (@p3192 @p6265) :args (@t226))
1.93/2.13	(step @p6466 :rule cong :premises (@p6465 @p6464) :args (@t227))
1.93/2.13	(step @p6467 :rule cong :premises (@p6466) :args (@t228))
1.93/2.13	(step @p6468 :rule trans :premises (@p6467 @p6463))
1.93/2.13	(step @p6469 :rule cong :premises (@p6413 @p6468) :args (@t229))
1.93/2.13	(step @p6470 :rule cong :premises (@p6469) :args (@t230))
1.93/2.13	(step @p6471 :rule trans :premises (@p6470 @p6428))
1.93/2.13	(step @p6472 :rule refl :args (tptp.setadjoinE))
1.93/2.13	(step @p6473 :rule cong :premises (@p6472 @p6471) :args (@t231))
1.93/2.13	(step @p6474 :rule eq_resolve :premises (@p32 @p6473))
1.93/2.13	(step @p6475 :rule cong :premises (@p6474 @p6420) :args (@t3650))
1.93/2.13	(step @p6476 :rule nary_cong :premises (@p1424 @p6403) :args (@t3651))
1.93/2.13	(step @p6477 :rule cong :premises (@p6476) :args ((forall @t28 @t3651)))
1.93/2.13	(step @p6478 :rule bool-impl-elim :args (@t21 @t26))
1.93/2.13	(step @p6479 :rule cong :premises (@p6478) :args (@t222))
1.93/2.13	(step @p6480 :rule trans :premises (@p6479 @p6477))
1.93/2.13	(step @p6481 :rule refl :args (tptp.setadjoinIR))
1.93/2.13	(step @p6482 :rule cong :premises (@p6481 @p6480) :args (@t223))
1.93/2.13	(step @p6483 :rule eq_resolve :premises (@p31 @p6482))
1.93/2.13	(step @p6484 :rule cong :premises (@p6483 @p6475) :args (@t3652))
1.93/2.13	(step @p6485 :rule cong :premises (@p30 @p6484) :args (@t3653))
1.93/2.13	(step @p6486 :rule refl :args ((tptp.in @t4 @t216)))
1.93/2.13	(step @p6487 :rule refl :args (@t1858))
1.93/2.13	(step @p6488 :rule cong :premises (@p1183 @p6487) :args (@t1859))
1.93/2.13	(step @p6489 :rule trans :premises (@p6488 @p6486))
1.93/2.13	(step @p6490 :rule ho_cong :premises (@p3336 @p6487))
1.93/2.13	(step @p6491 :rule cong :premises (@p6490 @p6489) :args ((= (_ @t5 @t1858) @t1859)))
1.93/2.13	(step @p6492 :rule symm :premises (@p6491))
1.93/2.13	(step @p6493 :rule refl :args (@t217))
1.93/2.13	(step @p6494 :rule eq_resolve :premises (@p6493 @p6492))
1.93/2.13	(step @p6495 :rule refl :args (@t216))
1.93/2.13	(step @p6496 :rule cong :premises (@p6495 @p6487) :args ((= @t216 @t1858)))
1.93/2.13	(step @p6497 :rule symm :premises (@p6496))
1.93/2.13	(step @p6498 :rule eq_resolve :premises (@p6495 @p6497))
1.93/2.13	(step @p6499 :rule ho_cong :premises (@p3336 @p6498))
1.93/2.13	(step @p6500 :rule trans :premises (@p6499 @p6494))
1.93/2.13	(step @p6501 :rule cong :premises (@p6500) :args (@t218))
1.93/2.13	(step @p6502 :rule refl :args (tptp.setadjoinIL))
1.93/2.13	(step @p6503 :rule cong :premises (@p6502 @p6501) :args (@t219))
1.93/2.13	(step @p6504 :rule eq_resolve :premises (@p29 @p6503))
1.93/2.13	(step @p6505 :rule cong :premises (@p6504 @p6485) :args (@t3654))
1.93/2.13	(step @p6506 :rule aci_norm :args ((= (or @t1863 false) @t1863)))
1.93/2.13	(step @p6507 :rule cong :premises (@p5538) :args (@t3655))
1.93/2.13	(step @p6508 :rule trans :premises (@p6507 @p2752))
1.93/2.13	(step @p6509 :rule refl :args (@t1863))
1.93/2.13	(step @p6510 :rule nary_cong :premises (@p6509 @p6508) :args (@t3656))
1.93/2.13	(step @p6511 :rule trans :premises (@p6510 @p6506))
1.93/2.13	(step @p6512 :rule cong :premises (@p6511) :args ((forall @t1864 @t3656)))
1.93/2.13	(step @p6513 :rule quant-var-elim-eq :args ((= (forall @t64 @t3658) @t3656)))
1.93/2.13	(step @p6514 :rule aci_norm :args ((= @t3659 @t3658)))
1.93/2.13	(step @p6515 :rule cong :premises (@p6514) :args (@t3660))
1.93/2.13	(step @p6516 :rule trans :premises (@p6515 @p6513))
1.93/2.13	(step @p6517 :rule cong :premises (@p6516) :args (@t3661))
1.93/2.13	(step @p6518 :rule quant-merge-prenex :args ((= @t3661 @t3662)))
1.93/2.13	(step @p6519 :rule symm :premises (@p6518))
1.93/2.13	(step @p6520 :rule quant_var_reordering :args ((= @t3663 @t3662)))
1.93/2.13	(step @p6521 :rule trans :premises (@p6520 @p6519 @p6517))
1.93/2.13	(step @p6522 :rule trans :premises (@p6521 @p6512))
1.93/2.13	(step @p6523 :rule quant-merge-prenex :args ((= (forall @t64 @t3664) @t3663)))
1.93/2.13	(step @p6524 :rule refl :args (@t3586))
1.93/2.13	(step @p6525 :rule alpha_equiv :args (@t3665 (@list @t1862) @t2362))
1.93/2.13	(step @p6526 :rule nary_cong :premises (@p6525 @p6524) :args (@t3666))
1.93/2.13	(step @p6527 :rule quant-miniscope-or :args ((= @t3664 @t3666)))
1.93/2.13	(step @p6528 :rule trans :premises (@p6527 @p6526))
1.93/2.13	(step @p6529 :rule symm :premises (@p6528))
1.93/2.13	(step @p6530 :rule cong :premises (@p6529) :args ((forall @t64 (or @t1810 @t3586))))
1.93/2.13	(step @p6531 :rule trans :premises (@p6530 @p6523))
1.93/2.13	(step @p6532 :rule trans :premises (@p6531 @p6522))
1.93/2.13	(step @p6533 :rule bool-double-not-elim :args (@t1810))
1.93/2.13	(step @p6534 :rule nary_cong :premises (@p6533 @p6524) :args ((or @t3667 @t3586)))
1.93/2.13	(step @p6535 :rule bool-impl-elim :args (@t1811 @t3586))
1.93/2.13	(step @p6536 :rule trans :premises (@p6535 @p6534))
1.93/2.13	(step @p6537 :rule cong :premises (@p6536) :args ((forall @t64 (=> @t1811 @t3586))))
1.93/2.13	(step @p6538 :rule trans :premises (@p6537 @p6532))
1.93/2.13	(step @p6539 :rule cong :premises (@p6156 @p6160) :args (@t3668))
1.93/2.13	(step @p6540 :rule cong :premises (@p6539) :args (@t3669))
1.93/2.13	(step @p6541 :rule trans :premises (@p6540 @p6538))
1.93/2.13	(step @p6542 :rule refl :args (tptp.nonemptyI1))
1.93/2.13	(step @p6543 :rule cong :premises (@p6542 @p6541) :args ((= tptp.nonemptyI1 @t3669)))
1.93/2.13	(step @p6544 :rule refl :args (@t89))
1.93/2.13	(step @p6545 :rule cong :premises (@p6544 @p6167) :args (@t213))
1.93/2.13	(step @p6546 :rule cong :premises (@p6545) :args (@t214))
1.93/2.13	(step @p6547 :rule cong :premises (@p6542 @p6546) :args (@t215))
1.93/2.13	(step @p6548 :rule trans :premises (@p6547 @p6543))
1.93/2.13	(step @p6549 :rule eq_resolve :premises (@p28 @p6548))
1.93/2.13	(step @p6550 :rule cong :premises (@p6549 @p6505) :args (@t3670))
1.93/2.13	(step @p6551 :rule cong :premises (@p222 @p3163) :args (@t3671))
1.93/2.13	(step @p6552 :rule cong :premises (@p6551) :args (@t3672))
1.93/2.13	(step @p6553 :rule nary_cong :premises (@p878 @p3139 @p6552) :args (@t3673))
1.93/2.13	(step @p6554 :rule cong :premises (@p6553) :args ((forall @t159 @t3673)))
1.93/2.13	(step @p6555 :rule refl :args (@t2938))
1.93/2.13	(step @p6556 :rule cong :premises (@p1413) :args (@t2931))
1.93/2.13	(step @p6557 :rule cong :premises (@p1162 @p6556) :args (@t2932))
1.93/2.13	(step @p6558 :rule trans :premises (@p6557 @p6555))
1.93/2.13	(step @p6559 :rule ho_cong :premises (@p1165 @p6556))
1.93/2.13	(step @p6560 :rule cong :premises (@p6559 @p6558) :args ((= (_ @t155 @t2931) @t2932)))
1.93/2.13	(step @p6561 :rule symm :premises (@p6560))
1.93/2.13	(step @p6562 :rule refl :args (@t156))
1.93/2.13	(step @p6563 :rule eq_resolve :premises (@p6562 @p6561))
1.93/2.13	(step @p6564 :rule ho_cong :premises (@p1165 @p3170))
1.93/2.13	(step @p6565 :rule trans :premises (@p6564 @p6563))
1.93/2.13	(step @p6566 :rule cong :premises (@p269 @p6565) :args (@t3674))
1.93/2.13	(step @p6567 :rule cong :premises (@p6566) :args (@t3675))
1.93/2.13	(step @p6568 :rule nary_cong :premises (@p738 @p1403 @p6567) :args (@t3676))
1.93/2.13	(step @p6569 :rule cong :premises (@p6568) :args ((forall @t159 @t3676)))
1.93/2.13	(step @p6570 :rule trans :premises (@p6569 @p6554))
1.93/2.13	(step @p6571 :rule aci_norm :args ((= (or @t197 (or @t315 @t3675)) @t3676)))
1.93/2.13	(step @p6572 :rule bool-impl-elim :args (@t144 @t3675))
1.93/2.13	(step @p6573 :rule nary_cong :premises (@p3155 @p6572) :args ((or @t197 @t3677)))
1.93/2.13	(step @p6574 :rule trans :premises (@p6573 @p6571))
1.93/2.13	(step @p6575 :rule bool-impl-elim :args (@t7 @t3677))
1.93/2.13	(step @p6576 :rule trans :premises (@p6575 @p6574))
1.93/2.13	(step @p6577 :rule cong :premises (@p6576) :args ((forall @t159 (=> @t7 @t3677))))
1.93/2.13	(step @p6578 :rule trans :premises (@p6577 @p6570))
1.93/2.13	(step @p6579 :rule eq-symm :args (@t156 tptp.emptyset))
1.93/2.13	(step @p6580 :rule cong :premises (@p6579) :args (@t3678))
1.93/2.13	(step @p6581 :rule beta-reduce :args ((= @t3679 @t3678)))
1.93/2.13	(step @p6582 :rule trans :premises (@p6581 @p6580))
1.93/2.13	(step @p6583 :rule cong :premises (@p3200 @p6582) :args (@t3680))
1.93/2.13	(step @p6584 :rule cong :premises (@p791 @p6583) :args (@t3681))
1.93/2.13	(step @p6585 :rule cong :premises (@p6584) :args (@t3682))
1.93/2.13	(step @p6586 :rule trans :premises (@p6585 @p6578))
1.93/2.13	(step @p6587 :rule refl :args (tptp.nonemptyI))
1.93/2.13	(step @p6588 :rule cong :premises (@p6587 @p6586) :args ((= tptp.nonemptyI @t3682)))
1.93/2.13	(step @p6589 :rule refl :args (@t156))
1.93/2.13	(step @p6590 :rule ho_cong :premises (@p210 @p6589))
1.93/2.13	(step @p6591 :rule cong :premises (@p3200 @p6590) :args (@t209))
1.93/2.13	(step @p6592 :rule cong :premises (@p791 @p6591) :args (@t210))
1.93/2.13	(step @p6593 :rule cong :premises (@p6592) :args (@t211))
1.93/2.13	(step @p6594 :rule cong :premises (@p6587 @p6593) :args (@t212))
1.93/2.13	(step @p6595 :rule trans :premises (@p6594 @p6588))
1.93/2.13	(step @p6596 :rule eq_resolve :premises (@p27 @p6595))
1.93/2.13	(step @p6597 :rule cong :premises (@p6596 @p6550) :args (@t3683))
1.93/2.13	(step @p6598 :rule cong :premises (@p6160 @p6156) :args (@t3684))
1.93/2.13	(step @p6599 :rule cong :premises (@p6598) :args (@t3685))
1.93/2.13	(step @p6600 :rule trans :premises (@p6599 @p6152))
1.93/2.13	(step @p6601 :rule refl :args (tptp.nonemptyE1))
1.93/2.13	(step @p6602 :rule cong :premises (@p6601 @p6600) :args ((= tptp.nonemptyE1 @t3685)))
1.93/2.13	(step @p6603 :rule cong :premises (@p6167 @p6544) :args (@t206))
1.93/2.13	(step @p6604 :rule cong :premises (@p6603) :args (@t207))
1.93/2.13	(step @p6605 :rule cong :premises (@p6601 @p6604) :args (@t208))
1.93/2.13	(step @p6606 :rule trans :premises (@p6605 @p6602))
1.93/2.13	(step @p6607 :rule eq_resolve :premises (@p26 @p6606))
1.93/2.13	(step @p6608 :rule cong :premises (@p6607 @p6597) :args (@t3686))
1.93/2.13	(step @p6609 :rule refl :args (@t1507))
1.93/2.13	(step @p6610 :rule cong :premises (@p6609 @p3166) :args (@t3687))
1.93/2.13	(step @p6611 :rule nary_cong :premises (@p878 @p6610) :args (@t3688))
1.93/2.13	(step @p6612 :rule cong :premises (@p6611) :args ((forall @t159 @t3688)))
1.93/2.13	(step @p6613 :rule refl :args ((tptp.in @t4 @t156)))
1.93/2.13	(step @p6614 :rule cong :premises (@p1183 @p6558) :args (@t2935))
1.93/2.13	(step @p6615 :rule trans :premises (@p6614 @p6613))
1.93/2.13	(step @p6616 :rule ho_cong :premises (@p3336 @p6558))
1.93/2.13	(step @p6617 :rule cong :premises (@p6616 @p6615) :args ((= (_ @t5 @t2932) @t2935)))
1.93/2.13	(step @p6618 :rule symm :premises (@p6617))
1.93/2.13	(step @p6619 :rule refl :args (@t157))
1.93/2.13	(step @p6620 :rule eq_resolve :premises (@p6619 @p6618))
1.93/2.13	(step @p6621 :rule ho_cong :premises (@p3336 @p6565))
1.93/2.13	(step @p6622 :rule trans :premises (@p6621 @p6620))
1.93/2.13	(step @p6623 :rule cong :premises (@p1176 @p6622) :args (@t3689))
1.93/2.13	(step @p6624 :rule nary_cong :premises (@p738 @p6623) :args (@t3690))
1.93/2.13	(step @p6625 :rule cong :premises (@p6624) :args ((forall @t159 @t3690)))
1.93/2.13	(step @p6626 :rule trans :premises (@p6625 @p6612))
1.93/2.13	(step @p6627 :rule bool-impl-elim :args (@t7 @t3689))
1.93/2.13	(step @p6628 :rule cong :premises (@p6627) :args ((forall @t159 (=> @t7 @t3689))))
1.93/2.13	(step @p6629 :rule trans :premises (@p6628 @p6626))
1.93/2.13	(step @p6630 :rule eq-symm :args (@t157 @t144))
1.93/2.13	(step @p6631 :rule cong :premises (@p791 @p6630) :args (@t202))
1.93/2.13	(step @p6632 :rule cong :premises (@p6631) :args (@t203))
1.93/2.13	(step @p6633 :rule trans :premises (@p6632 @p6629))
1.93/2.13	(step @p6634 :rule refl :args (tptp.setbeta))
1.93/2.13	(step @p6635 :rule cong :premises (@p6634 @p6633) :args (@t204))
1.93/2.13	(step @p6636 :rule eq_resolve :premises (@p25 @p6635))
1.93/2.13	(step @p6637 :rule cong :premises (@p6636 @p6608) :args (@t3691))
1.93/2.13	(step @p6638 :rule eq-symm :args (@t1872 tptp.noeltsimpempty))
1.93/2.13	(step @p6639 :rule refl :args (tptp.noeltsimpempty))
1.93/2.13	(step @p6640 :rule bool-impl-elim :args (@t1810 @t196))
1.93/2.13	(step @p6641 :rule cong :premises (@p6640) :args ((forall @t64 (=> @t1810 @t196))))
1.93/2.13	(step @p6642 :rule refl :args (@t196))
1.93/2.13	(step @p6643 :rule cong :premises (@p6153 @p6642) :args (@t199))
1.93/2.13	(step @p6644 :rule cong :premises (@p6643) :args (@t200))
1.93/2.13	(step @p6645 :rule trans :premises (@p6644 @p6641))
1.93/2.13	(step @p6646 :rule cong :premises (@p6645 @p6639) :args ((= @t200 tptp.noeltsimpempty)))
1.93/2.13	(step @p6647 :rule trans :premises (@p6646 @p6638))
1.93/2.13	(step @p6648 :rule eq-symm :args (tptp.noeltsimpempty @t200))
1.93/2.13	(step @p6649 :rule trans :premises (@p6648 @p6647))
1.93/2.13	(step @p6650 :rule eq_resolve :premises (@p24 @p6649))
1.93/2.13	(step @p6651 :rule cong :premises (@p6650 @p6637) :args (@t3692))
1.93/2.13	(step @p6652 :rule refl :args (tptp.emptyI))
1.93/2.13	(step @p6653 :rule cong :premises (@p6652 @p6645) :args (@t201))
1.93/2.13	(step @p6654 :rule eq_resolve :premises (@p23 @p6653))
1.93/2.13	(step @p6655 :rule cong :premises (@p6654 @p6651) :args (@t3693))
1.93/2.13	(step @p6656 :rule aci_norm :args ((= (or @t1721 (or @t1841 @t3)) @t1875)))
1.93/2.13	(step @p6657 :rule bool-impl-elim :args (@t1840 @t3))
1.93/2.13	(step @p6658 :rule nary_cong :premises (@p4976 @p6657) :args ((or @t1721 @t3694)))
1.93/2.13	(step @p6659 :rule trans :premises (@p6658 @p6656))
1.93/2.13	(step @p6660 :rule bool-impl-elim :args (@t1720 @t3694))
1.93/2.13	(step @p6661 :rule trans :premises (@p6660 @p6659))
1.93/2.13	(step @p6662 :rule cong :premises (@p6661) :args ((forall @t12 (=> @t1720 @t3694))))
1.93/2.13	(step @p6663 :rule cong :premises (@p6361 @p5158) :args (@t190))
1.93/2.13	(step @p6664 :rule cong :premises (@p4985 @p6663) :args (@t193))
1.93/2.13	(step @p6665 :rule cong :premises (@p6664) :args (@t194))
1.93/2.13	(step @p6666 :rule trans :premises (@p6665 @p6662))
1.93/2.13	(step @p6667 :rule refl :args (tptp.setext))
1.93/2.13	(step @p6668 :rule cong :premises (@p6667 @p6666) :args (@t195))
1.93/2.13	(step @p6669 :rule eq_resolve :premises (@p22 @p6668))
1.93/2.13	(step @p6670 :rule cong :premises (@p6669 @p6655) :args (@t3695))
1.93/2.13	(step @p6671 :rule eq-symm :args (@t1878 @t19))
1.93/2.13	(step @p6672 :rule nary_cong :premises (@p5173 @p6671) :args (@t3696))
1.93/2.13	(step @p6673 :rule cong :premises (@p6672) :args (@t3697))
1.93/2.13	(step @p6674 :rule cong :premises (@p6673) :args (@t3698))
1.93/2.13	(step @p6675 :rule refl :args (@t1879))
1.93/2.13	(step @p6676 :rule refl :args (@t1881))
1.93/2.13	(step @p6677 :rule nary_cong :premises (@p6676 @p6675 @p6674) :args (@t3699))
1.93/2.13	(step @p6678 :rule aci_norm :args ((= @t3701 @t3699)))
1.93/2.13	(step @p6679 :rule trans :premises (@p6678 @p6677))
1.93/2.13	(step @p6680 :rule cong :premises (@p6679) :args (@t3702))
1.93/2.13	(step @p6681 :rule quant-merge-prenex :args ((= (forall @t150 @t3704) @t3702)))
1.93/2.13	(step @p6682 :rule refl :args (@t1881))
1.93/2.13	(step @p6683 :rule alpha_equiv :args (@t3705 (@list @t1878) @t2362))
1.93/2.13	(step @p6684 :rule nary_cong :premises (@p6683 @p6682) :args (@t3706))
1.93/2.13	(step @p6685 :rule quant-miniscope-or :args ((= @t3704 @t3706)))
1.93/2.13	(step @p6686 :rule trans :premises (@p6685 @p6684))
1.93/2.13	(step @p6687 :rule symm :premises (@p6686))
1.93/2.13	(step @p6688 :rule cong :premises (@p6687) :args ((forall @t150 (or @t1762 @t1881))))
1.93/2.13	(step @p6689 :rule trans :premises (@p6688 @p6681))
1.93/2.13	(step @p6690 :rule trans :premises (@p6689 @p6680))
1.93/2.13	(step @p6691 :rule nary_cong :premises (@p5241 @p6682) :args ((or @t3329 @t1881)))
1.93/2.13	(step @p6692 :rule bool-impl-elim :args (@t1763 @t1881))
1.93/2.13	(step @p6693 :rule trans :premises (@p6692 @p6691))
1.93/2.13	(step @p6694 :rule cong :premises (@p6693) :args ((forall @t150 (=> @t1763 @t1881))))
1.93/2.13	(step @p6695 :rule trans :premises (@p6694 @p6690))
1.93/2.13	(step @p6696 :rule cong :premises (@p5293 @p5775) :args (@t3707))
1.93/2.13	(step @p6697 :rule cong :premises (@p6696) :args (@t3708))
1.93/2.13	(step @p6698 :rule trans :premises (@p6697 @p6695))
1.93/2.13	(step @p6699 :rule refl :args (tptp.exuE3e))
1.93/2.13	(step @p6700 :rule cong :premises (@p6699 @p6698) :args ((= tptp.exuE3e @t3708)))
1.93/2.13	(step @p6701 :rule cong :premises (@p5336 @p5782) :args (@t187))
1.93/2.13	(step @p6702 :rule cong :premises (@p6701) :args (@t188))
1.93/2.13	(step @p6703 :rule cong :premises (@p6699 @p6702) :args (@t189))
1.93/2.13	(step @p6704 :rule trans :premises (@p6703 @p6700))
1.93/2.13	(step @p6705 :rule eq_resolve :premises (@p21 @p6704))
1.93/2.13	(step @p6706 :rule cong :premises (@p6705 @p6670) :args (@t3709))
1.93/2.13	(step @p6707 :rule eq-symm :args (@t1885 tptp.notinemptyset))
1.93/2.13	(step @p6708 :rule refl :args (tptp.notinemptyset))
1.93/2.13	(step @p6709 :rule cong :premises (@p5995) :args (@t17))
1.93/2.13	(step @p6710 :rule cong :premises (@p6709 @p6708) :args ((= @t17 tptp.notinemptyset)))
1.93/2.13	(step @p6711 :rule trans :premises (@p6710 @p6707))
1.93/2.13	(step @p6712 :rule eq-symm :args (tptp.notinemptyset @t17))
1.93/2.13	(step @p6713 :rule trans :premises (@p6712 @p6711))
1.93/2.13	(step @p6714 :rule eq_resolve :premises (@p20 @p6713))
1.93/2.13	(step @p6715 :rule cong :premises (@p6714 @p6706) :args (@t3710))
1.93/2.13	(step @p6716 :rule bool-impl-false1 :args (@t15))
1.93/2.13	(step @p6717 :rule cong :premises (@p6716) :args (@t184))
1.93/2.13	(step @p6718 :rule trans :premises (@p6717 @p6709))
1.93/2.13	(step @p6719 :rule refl :args (tptp.emptysetimpfalse))
1.93/2.13	(step @p6720 :rule cong :premises (@p6719 @p6718) :args (@t185))
1.93/2.13	(step @p6721 :rule eq_resolve :premises (@p19 @p6720))
1.93/2.13	(step @p6722 :rule cong :premises (@p6721 @p6715) :args (@t3711))
1.93/2.13	(step @p6723 :rule quant-var-elim-eq :args ((= (forall @t179 (or @t3106 @t173)) false)))
1.93/2.13	(step @p6724 :rule nary_cong :premises (@p4016 @p4008) :args (@t3712))
1.93/2.13	(step @p6725 :rule aci_norm :args ((= @t173 @t3712)))
1.93/2.13	(step @p6726 :rule trans :premises (@p6725 @p6724))
1.93/2.13	(step @p6727 :rule cong :premises (@p6726) :args (@t180))
1.93/2.13	(step @p6728 :rule trans :premises (@p6727 @p6723))
1.93/2.13	(step @p6729 :rule refl :args (@t15))
1.93/2.13	(step @p6730 :rule cong :premises (@p6729 @p6728) :args (@t181))
1.93/2.13	(step @p6731 :rule trans :premises (@p6730 @p6716))
1.93/2.13	(step @p6732 :rule cong :premises (@p6731) :args (@t182))
1.93/2.13	(step @p6733 :rule trans :premises (@p6732 @p6709))
1.93/2.13	(step @p6734 :rule refl :args (tptp.emptysetE))
1.93/2.13	(step @p6735 :rule cong :premises (@p6734 @p6733) :args (@t183))
1.93/2.13	(step @p6736 :rule eq_resolve :premises (@p18 @p6735))
1.93/2.13	(step @p6737 :rule cong :premises (@p6736 @p6722) :args (@t3713))
1.93/2.13	(step @p6738 :rule aci_norm :args ((= @t3714 @t1889)))
1.93/2.13	(step @p6739 :rule cong :premises (@p6738) :args ((forall @t9 @t3714)))
1.93/2.13	(step @p6740 :rule quant-var-elim-eq :args ((= (forall @t179 (or @t3106 @t3716 @t173)) @t3714)))
1.93/2.13	(step @p6741 :rule refl :args (@t3716))
1.93/2.13	(step @p6742 :rule nary_cong :premises (@p4016 @p6741 @p4008) :args (@t3717))
1.93/2.13	(step @p6743 :rule aci_norm :args ((= @t3718 @t3717)))
1.93/2.13	(step @p6744 :rule trans :premises (@p6743 @p6742))
1.93/2.13	(step @p6745 :rule cong :premises (@p6744) :args (@t3719))
1.93/2.13	(step @p6746 :rule trans :premises (@p6745 @p6740))
1.93/2.13	(step @p6747 :rule cong :premises (@p6746) :args (@t3720))
1.93/2.13	(step @p6748 :rule quant-merge-prenex :args ((= @t3720 @t3721)))
1.93/2.13	(step @p6749 :rule symm :premises (@p6748))
1.93/2.13	(step @p6750 :rule quant_var_reordering :args ((= (forall @t176 @t3718) @t3721)))
1.93/2.13	(step @p6751 :rule trans :premises (@p6750 @p6749 @p6747))
1.93/2.13	(step @p6752 :rule trans :premises (@p6751 @p6739))
1.93/2.13	(step @p6753 :rule refl :args ((tptp.in @t4 @t174)))
1.93/2.13	(step @p6754 :rule cong :premises (@p1183 @p5896) :args (@t3715))
1.93/2.13	(step @p6755 :rule trans :premises (@p6754 @p6753))
1.93/2.13	(step @p6756 :rule ho_cong :premises (@p3336 @p5896))
1.93/2.13	(step @p6757 :rule cong :premises (@p6756 @p6755) :args ((= (_ @t5 @t3535) @t3715)))
1.93/2.13	(step @p6758 :rule symm :premises (@p6757))
1.93/2.13	(step @p6759 :rule refl :args (@t175))
1.93/2.13	(step @p6760 :rule eq_resolve :premises (@p6759 @p6758))
1.93/2.13	(step @p6761 :rule ho_cong :premises (@p3336 @p5908))
1.93/2.13	(step @p6762 :rule trans :premises (@p6761 @p6760))
1.93/2.13	(step @p6763 :rule cong :premises (@p6762) :args (@t3722))
1.93/2.13	(step @p6764 :rule nary_cong :premises (@p6763 @p4008) :args (@t3723))
1.93/2.13	(step @p6765 :rule cong :premises (@p6764) :args ((forall @t176 @t3723)))
1.93/2.13	(step @p6766 :rule trans :premises (@p6765 @p6752))
1.93/2.13	(step @p6767 :rule bool-impl-elim :args (@t175 @t173))
1.93/2.13	(step @p6768 :rule cong :premises (@p6767) :args (@t177))
1.93/2.13	(step @p6769 :rule trans :premises (@p6768 @p6766))
1.93/2.13	(step @p6770 :rule refl :args (tptp.prop2setE))
1.93/2.13	(step @p6771 :rule cong :premises (@p6770 @p6769) :args (@t178))
1.93/2.13	(step @p6772 :rule eq_resolve :premises (@p17 @p6771))
1.93/2.13	(step @p6773 :rule cong :premises (@p6772 @p6737) :args (@t3724))
1.93/2.13	(step @p6774 :rule bool-eq-true :args (tptp.exuE1))
1.93/2.13	(step @p6775 :rule symm :premises (@p6774))
1.93/2.13	(step @p6776 :rule cong :premises (@p5293 @p5331) :args (@t3725))
1.93/2.13	(step @p6777 :rule cong :premises (@p6776) :args (@t3726))
1.93/2.13	(step @p6778 :rule trans :premises (@p6777 @p5798))
1.93/2.13	(step @p6779 :rule refl :args (tptp.exuE1))
1.93/2.13	(step @p6780 :rule cong :premises (@p6779 @p6778) :args ((= tptp.exuE1 @t3726)))
1.93/2.13	(step @p6781 :rule trans :premises (@p6780 @p6774))
1.93/2.13	(step @p6782 :rule cong :premises (@p5336 @p5805) :args (@t170))
1.93/2.13	(step @p6783 :rule cong :premises (@p6782) :args (@t171))
1.93/2.13	(step @p6784 :rule cong :premises (@p6779 @p6783) :args (@t172))
1.93/2.13	(step @p6785 :rule trans :premises (@p6784 @p6781))
1.93/2.13	(step @p6786 :rule eq_resolve :premises (@p16 @p6785))
1.93/2.13	(step @p6787 :rule eq_resolve :premises (@p6786 @p6775))
1.93/2.13	(step @p6788 :rule cong :premises (@p6787 @p6773) :args (@t3727))
1.93/2.13	(step @p6789 :rule nary_cong :premises (@p3167 @p6609) :args (@t3728))
1.93/2.13	(step @p6790 :rule cong :premises (@p6789) :args ((forall @t159 @t3728)))
1.93/2.13	(step @p6791 :rule cong :premises (@p6622) :args (@t3729))
1.93/2.13	(step @p6792 :rule nary_cong :premises (@p6791 @p1176) :args (@t3730))
1.93/2.13	(step @p6793 :rule cong :premises (@p6792) :args ((forall @t159 @t3730)))
1.93/2.13	(step @p6794 :rule trans :premises (@p6793 @p6790))
1.93/2.13	(step @p6795 :rule bool-impl-elim :args (@t157 @t144))
1.93/2.13	(step @p6796 :rule cong :premises (@p6795) :args (@t164))
1.93/2.13	(step @p6797 :rule trans :premises (@p6796 @p6794))
1.93/2.13	(step @p6798 :rule refl :args (tptp.dsetconstrER))
1.93/2.13	(step @p6799 :rule cong :premises (@p6798 @p6797) :args (@t165))
1.93/2.13	(step @p6800 :rule eq_resolve :premises (@p15 @p6799))
1.93/2.13	(step @p6801 :rule cong :premises (@p6800 @p6788) :args (@t3731))
1.93/2.13	(step @p6802 :rule nary_cong :premises (@p3167 @p2172) :args (@t3732))
1.93/2.13	(step @p6803 :rule cong :premises (@p6802) :args ((forall @t159 @t3732)))
1.93/2.13	(step @p6804 :rule nary_cong :premises (@p6791 @p737) :args (@t3733))
1.93/2.13	(step @p6805 :rule cong :premises (@p6804) :args ((forall @t159 @t3733)))
1.93/2.13	(step @p6806 :rule trans :premises (@p6805 @p6803))
1.93/2.13	(step @p6807 :rule bool-impl-elim :args (@t157 @t7))
1.93/2.13	(step @p6808 :rule cong :premises (@p6807) :args (@t162))
1.93/2.13	(step @p6809 :rule trans :premises (@p6808 @p6806))
1.93/2.13	(step @p6810 :rule refl :args (tptp.dsetconstrEL))
1.93/2.13	(step @p6811 :rule cong :premises (@p6810 @p6809) :args (@t163))
1.93/2.13	(step @p6812 :rule eq_resolve :premises (@p14 @p6811))
1.93/2.13	(step @p6813 :rule cong :premises (@p6812 @p6801) :args (@t3734))
1.93/2.13	(step @p6814 :rule nary_cong :premises (@p878 @p3139 @p3166) :args (@t3735))
1.93/2.13	(step @p6815 :rule cong :premises (@p6814) :args ((forall @t159 @t3735)))
1.93/2.13	(step @p6816 :rule nary_cong :premises (@p738 @p1403 @p6622) :args (@t3736))
1.93/2.13	(step @p6817 :rule cong :premises (@p6816) :args ((forall @t159 @t3736)))
1.93/2.13	(step @p6818 :rule trans :premises (@p6817 @p6815))
1.93/2.13	(step @p6819 :rule aci_norm :args ((= (or @t197 (or @t315 @t157)) @t3736)))
1.93/2.13	(step @p6820 :rule bool-impl-elim :args (@t144 @t157))
1.93/2.13	(step @p6821 :rule nary_cong :premises (@p3155 @p6820) :args ((or @t197 @t158)))
1.93/2.13	(step @p6822 :rule trans :premises (@p6821 @p6819))
1.93/2.13	(step @p6823 :rule bool-impl-elim :args (@t7 @t158))
1.93/2.13	(step @p6824 :rule trans :premises (@p6823 @p6822))
1.93/2.13	(step @p6825 :rule cong :premises (@p6824) :args (@t160))
1.93/2.13	(step @p6826 :rule trans :premises (@p6825 @p6818))
1.93/2.13	(step @p6827 :rule refl :args (tptp.dsetconstrI))
1.93/2.13	(step @p6828 :rule cong :premises (@p6827 @p6826) :args (@t161))
1.93/2.13	(step @p6829 :rule eq_resolve :premises (@p13 @p6828))
1.93/2.13	(step @p6830 :rule cong :premises (@p6829 @p6813) :args (@t3737))
1.93/2.13	(step @p6831 :rule eq-symm :args (@t1898 @t19))
1.93/2.13	(step @p6832 :rule nary_cong :premises (@p5173 @p6831) :args (@t3738))
1.93/2.13	(step @p6833 :rule cong :premises (@p6832) :args (@t3739))
1.93/2.13	(step @p6834 :rule cong :premises (@p6833) :args (@t3740))
1.93/2.13	(step @p6835 :rule refl :args (@t1899))
1.93/2.13	(step @p6836 :rule refl :args (@t1900))
1.93/2.13	(step @p6837 :rule nary_cong :premises (@p6836 @p6835 @p6834) :args (@t3741))
1.93/2.13	(step @p6838 :rule aci_norm :args ((= @t3743 @t3741)))
1.93/2.13	(step @p6839 :rule trans :premises (@p6838 @p6837))
1.93/2.13	(step @p6840 :rule cong :premises (@p6839) :args (@t3744))
1.93/2.13	(step @p6841 :rule quant-merge-prenex :args ((= (forall @t150 @t3746) @t3744)))
1.93/2.13	(step @p6842 :rule refl :args (@t1900))
1.93/2.13	(step @p6843 :rule alpha_equiv :args (@t3747 (@list @t1898) @t2362))
1.93/2.13	(step @p6844 :rule nary_cong :premises (@p6843 @p6842) :args (@t3748))
1.93/2.13	(step @p6845 :rule quant-miniscope-or :args ((= @t3746 @t3748)))
1.93/2.13	(step @p6846 :rule trans :premises (@p6845 @p6844))
1.93/2.13	(step @p6847 :rule symm :premises (@p6846))
1.93/2.13	(step @p6848 :rule cong :premises (@p6847) :args ((forall @t150 (or @t1762 @t1900))))
1.93/2.13	(step @p6849 :rule trans :premises (@p6848 @p6841))
1.93/2.13	(step @p6850 :rule trans :premises (@p6849 @p6840))
1.93/2.13	(step @p6851 :rule cong :premises (@p5197) :args (@t3749))
1.93/2.13	(step @p6852 :rule nary_cong :premises (@p5200 @p6851) :args (@t3750))
1.93/2.13	(step @p6853 :rule cong :premises (@p6852) :args ((forall @t150 @t3750)))
1.93/2.13	(step @p6854 :rule trans :premises (@p6853 @p6850))
1.93/2.13	(step @p6855 :rule refl :args ((_ @t143 @t146)))
1.93/2.13	(step @p6856 :rule cong :premises (@p5217) :args (@t3749))
1.93/2.13	(step @p6857 :rule trans :premises (@p6856 @p6855))
1.93/2.13	(step @p6858 :rule ho_cong :premises (@p1556 @p5217))
1.93/2.13	(step @p6859 :rule cong :premises (@p6858 @p6857) :args ((= (_ @t143 @t3323) @t3749)))
1.93/2.13	(step @p6860 :rule symm :premises (@p6859))
1.93/2.13	(step @p6861 :rule refl :args (@t147))
1.93/2.13	(step @p6862 :rule eq_resolve :premises (@p6861 @p6860))
1.93/2.13	(step @p6863 :rule ho_cong :premises (@p1556 @p5224))
1.93/2.13	(step @p6864 :rule trans :premises (@p6863 @p6862))
1.93/2.13	(step @p6865 :rule nary_cong :premises (@p5227 @p6864) :args (@t3751))
1.93/2.13	(step @p6866 :rule cong :premises (@p6865) :args ((forall @t150 @t3751)))
1.93/2.13	(step @p6867 :rule trans :premises (@p6866 @p6854))
1.93/2.13	(step @p6868 :rule nary_cong :premises (@p5241 @p6861) :args ((or @t3329 @t147)))
1.93/2.13	(step @p6869 :rule bool-impl-elim :args (@t1763 @t147))
1.93/2.13	(step @p6870 :rule trans :premises (@p6869 @p6868))
1.93/2.13	(step @p6871 :rule cong :premises (@p6870) :args ((forall @t150 (=> @t1763 @t147))))
1.93/2.13	(step @p6872 :rule trans :premises (@p6871 @p6867))
1.93/2.13	(step @p6873 :rule refl :args (@t147))
1.93/2.13	(step @p6874 :rule cong :premises (@p5293 @p6873) :args (@t3752))
1.93/2.13	(step @p6875 :rule cong :premises (@p6874) :args (@t3753))
1.93/2.13	(step @p6876 :rule trans :premises (@p6875 @p6872))
1.93/2.13	(step @p6877 :rule refl :args (tptp.descrp))
1.93/2.13	(step @p6878 :rule cong :premises (@p6877 @p6876) :args ((= tptp.descrp @t3753)))
1.93/2.13	(step @p6879 :rule cong :premises (@p5336 @p6873) :args (@t149))
1.93/2.13	(step @p6880 :rule cong :premises (@p6879) :args (@t151))
1.93/2.13	(step @p6881 :rule cong :premises (@p6877 @p6880) :args (@t152))
1.93/2.13	(step @p6882 :rule trans :premises (@p6881 @p6878))
1.93/2.13	(step @p6883 :rule eq_resolve :premises (@p12 @p6882))
1.93/2.13	(step @p6884 :rule cong :premises (@p6883 @p6830) :args (@t3754))
1.93/2.13	(step @p6885 :rule aci_norm :args ((= (or @t1952 (or @t1945 (or @t1941 @t1929))) @t1953)))
1.93/2.13	(step @p6886 :rule bool-and-de-morgan :args (@t1940 @t1928 true))
1.93/2.13	(step @p6887 :rule refl :args (@t1945))
1.93/2.13	(step @p6888 :rule nary_cong :premises (@p6887 @p6886) :args ((or @t1945 (not (and @t1940 @t1928)))))
1.93/2.13	(step @p6889 :rule bool-and-de-morgan :args (@t1944 @t1940 (and @t1928)))
1.93/2.13	(step @p6890 :rule trans :premises (@p6889 @p6888))
1.93/2.13	(step @p6891 :rule refl :args (@t1952))
1.93/2.13	(step @p6892 :rule nary_cong :premises (@p6891 @p6890) :args ((or @t1952 (not (and @t1944 @t1940 @t1928)))))
1.93/2.13	(step @p6893 :rule bool-and-de-morgan :args (@t1951 @t1944 (and @t1940 @t1928)))
1.93/2.13	(step @p6894 :rule trans :premises (@p6893 @p6892))
1.93/2.13	(step @p6895 :rule trans :premises (@p6894 @p6885))
1.93/2.13	(step @p6896 :rule cong :premises (@p6895) :args (@t3756))
1.93/2.13	(step @p6897 :rule cong :premises (@p6896) :args (@t3757))
1.93/2.13	(step @p6898 :rule exists-elim :args ((= (exists @t41 @t3755) @t3757)))
1.93/2.13	(step @p6899 :rule trans :premises (@p6898 @p6897))
1.93/2.13	(step @p6900 :rule quant-merge-prenex :args ((= (forall @t118 @t3759) @t1928)))
1.93/2.13	(step @p6901 :rule refl :args (@t1922))
1.93/2.13	(step @p6902 :rule alpha_equiv :args (@t3760 (@list @t1923) @t2362))
1.93/2.13	(step @p6903 :rule refl :args (@t1926))
1.93/2.13	(step @p6904 :rule nary_cong :premises (@p6903 @p6902 @p6901) :args (@t3761))
1.93/2.13	(step @p6905 :rule quant-miniscope-or :args ((= @t3759 @t3761)))
1.93/2.13	(step @p6906 :rule trans :premises (@p6905 @p6904))
1.93/2.13	(step @p6907 :rule symm :premises (@p6906))
1.93/2.13	(step @p6908 :rule cong :premises (@p6907) :args ((forall @t118 @t3763)))
1.93/2.13	(step @p6909 :rule trans :premises (@p6908 @p6900))
1.93/2.13	(step @p6910 :rule aci_norm :args ((= (or (or @t1926 @t3762) @t1922) @t3763)))
1.93/2.13	(step @p6911 :rule bool-double-not-elim :args (@t3762))
1.93/2.13	(step @p6912 :rule nary_cong :premises (@p6903 @p6911) :args ((or @t1926 (not @t3764))))
1.93/2.13	(step @p6913 :rule bool-and-de-morgan :args (@t1925 @t3764 true))
1.93/2.13	(step @p6914 :rule trans :premises (@p6913 @p6912))
1.93/2.13	(step @p6915 :rule nary_cong :premises (@p6914 @p6901) :args ((or (not @t3765) @t1922)))
1.93/2.13	(step @p6916 :rule trans :premises (@p6915 @p6910))
1.93/2.13	(step @p6917 :rule bool-impl-elim :args (@t3765 @t1922))
1.93/2.13	(step @p6918 :rule trans :premises (@p6917 @p6916))
1.93/2.13	(step @p6919 :rule cong :premises (@p6918) :args ((forall @t118 (=> @t3765 @t1922))))
1.93/2.13	(step @p6920 :rule trans :premises (@p6919 @p6909))
1.93/2.13	(step @p6921 :rule refl :args (@t1913))
1.93/2.13	(step @p6922 :rule refl :args (@t1917))
1.93/2.13	(step @p6923 :rule refl :args (@t1918))
1.93/2.13	(step @p6924 :rule refl :args (@t109))
1.93/2.13	(step @p6925 :rule cong :premises (@p6924 @p6923) :args ((= @t109 @t1918)))
1.93/2.13	(step @p6926 :rule symm :premises (@p6925))
1.93/2.13	(step @p6927 :rule eq_resolve :premises (@p6924 @p6926))
1.93/2.13	(step @p6928 :rule cong :premises (@p6927) :args (@t3766))
1.93/2.13	(step @p6929 :rule refl :args (@t1920))
1.93/2.13	(step @p6930 :rule refl :args (@t110))
1.93/2.13	(step @p6931 :rule cong :premises (@p6930 @p6929) :args ((= @t110 @t1920)))
1.93/2.13	(step @p6932 :rule symm :premises (@p6931))
1.93/2.13	(step @p6933 :rule eq_resolve :premises (@p6930 @p6932))
1.93/2.13	(step @p6934 :rule cong :premises (@p6933) :args (@t3767))
1.93/2.13	(step @p6935 :rule nary_cong :premises (@p6934 @p6928 @p6922 @p6921) :args (@t3768))
1.93/2.13	(step @p6936 :rule cong :premises (@p6935) :args ((forall @t112 @t3768)))
1.93/2.13	(step @p6937 :rule aci_norm :args ((= (or @t3767 (or @t3766 (or @t1917 @t1913))) @t3768)))
1.93/2.13	(step @p6938 :rule bool-and-de-morgan :args (@t1916 @t1912 true))
1.93/2.13	(step @p6939 :rule refl :args (@t3766))
1.93/2.13	(step @p6940 :rule nary_cong :premises (@p6939 @p6938) :args ((or @t3766 (not (and @t1916 @t1912)))))
1.93/2.13	(step @p6941 :rule bool-and-de-morgan :args (@t109 @t1916 (and @t1912)))
1.93/2.13	(step @p6942 :rule trans :premises (@p6941 @p6940))
1.93/2.13	(step @p6943 :rule refl :args (@t3767))
1.93/2.13	(step @p6944 :rule nary_cong :premises (@p6943 @p6942) :args ((or @t3767 (not (and @t109 @t1916 @t1912)))))
1.93/2.13	(step @p6945 :rule bool-and-de-morgan :args (@t110 @t109 (and @t1916 @t1912)))
1.93/2.13	(step @p6946 :rule trans :premises (@p6945 @p6944))
1.93/2.13	(step @p6947 :rule trans :premises (@p6946 @p6937))
1.93/2.13	(step @p6948 :rule cong :premises (@p6947) :args (@t3770))
1.93/2.13	(step @p6949 :rule trans :premises (@p6948 @p6936))
1.93/2.13	(step @p6950 :rule cong :premises (@p6949) :args (@t3771))
1.93/2.13	(step @p6951 :rule exists-elim :args ((= (exists @t112 @t3769) @t3771)))
1.93/2.13	(step @p6952 :rule trans :premises (@p6951 @p6950))
1.93/2.13	(step @p6953 :rule aci_norm :args ((= @t3773 @t1910)))
1.93/2.13	(step @p6954 :rule cong :premises (@p6953) :args (@t3774))
1.93/2.13	(step @p6955 :rule quant-merge-prenex :args ((= (forall @t102 @t3776) @t3774)))
1.93/2.13	(step @p6956 :rule refl :args (@t1907))
1.93/2.13	(step @p6957 :rule alpha_equiv :args (@t3777 (@list @t1904) @t2210))
1.93/2.13	(step @p6958 :rule refl :args (@t1909))
1.93/2.13	(step @p6959 :rule nary_cong :premises (@p6958 @p6957 @p6956) :args (@t3778))
1.93/2.13	(step @p6960 :rule quant-miniscope-or :args ((= @t3776 @t3778)))
1.93/2.13	(step @p6961 :rule trans :premises (@p6960 @p6959))
1.93/2.13	(step @p6962 :rule symm :premises (@p6961))
1.93/2.13	(step @p6963 :rule cong :premises (@p6962) :args ((forall @t102 (or @t1909 @t3780 @t1907))))
1.93/2.13	(step @p6964 :rule trans :premises (@p6963 @p6955))
1.93/2.13	(step @p6965 :rule trans :premises (@p6964 @p6954))
1.93/2.13	(step @p6966 :rule refl :args (@t1907))
1.93/2.13	(step @p6967 :rule refl :args (@t94))
1.93/2.13	(step @p6968 :rule cong :premises (@p6967 @p6966) :args ((= @t94 @t1907)))
1.93/2.13	(step @p6969 :rule symm :premises (@p6968))
1.93/2.13	(step @p6970 :rule eq_resolve :premises (@p6967 @p6969))
1.93/2.13	(step @p6971 :rule refl :args (@t3780))
1.93/2.13	(step @p6972 :rule refl :args (@t1908))
1.93/2.13	(step @p6973 :rule refl :args (@t100))
1.93/2.13	(step @p6974 :rule cong :premises (@p6973 @p6972) :args ((= @t100 @t1908)))
1.93/2.13	(step @p6975 :rule symm :premises (@p6974))
1.93/2.13	(step @p6976 :rule eq_resolve :premises (@p6973 @p6975))
1.93/2.13	(step @p6977 :rule cong :premises (@p6976) :args (@t3781))
1.93/2.13	(step @p6978 :rule nary_cong :premises (@p6977 @p6971 @p6970) :args (@t3782))
1.93/2.13	(step @p6979 :rule cong :premises (@p6978) :args ((forall @t102 @t3782)))
1.93/2.13	(step @p6980 :rule trans :premises (@p6979 @p6965))
1.93/2.13	(step @p6981 :rule aci_norm :args ((= (or @t3781 @t3783) @t3782)))
1.93/2.13	(step @p6982 :rule bool-impl-elim :args (@t100 @t3783))
1.93/2.13	(step @p6983 :rule trans :premises (@p6982 @p6981))
1.93/2.13	(step @p6984 :rule cong :premises (@p6983) :args ((forall @t102 (=> @t100 @t3783))))
1.93/2.13	(step @p6985 :rule trans :premises (@p6984 @p6980))
1.93/2.13	(step @p6986 :rule refl :args (@t94))
1.93/2.13	(step @p6987 :rule refl :args (@t1915))
1.93/2.13	(step @p6988 :rule refl :args (@t96))
1.93/2.13	(step @p6989 :rule cong :premises (@p6988 @p6987) :args ((= @t96 @t1915)))
1.93/2.13	(step @p6990 :rule symm :premises (@p6989))
1.93/2.13	(step @p6991 :rule eq_resolve :premises (@p6988 @p6990))
1.93/2.13	(step @p6992 :rule refl :args (@t3779))
1.93/2.13	(step @p6993 :rule refl :args (@t97))
1.93/2.13	(step @p6994 :rule cong :premises (@p6993 @p6992) :args ((= @t97 @t3779)))
1.93/2.13	(step @p6995 :rule symm :premises (@p6994))
1.93/2.13	(step @p6996 :rule eq_resolve :premises (@p6993 @p6995))
1.93/2.13	(step @p6997 :rule cong :premises (@p6996) :args (@t3784))
1.93/2.13	(step @p6998 :rule nary_cong :premises (@p6997 @p6991) :args (@t3785))
1.93/2.13	(step @p6999 :rule cong :premises (@p6998) :args ((forall @t70 @t3785)))
1.93/2.13	(step @p7000 :rule bool-impl-elim :args (@t97 @t96))
1.93/2.13	(step @p7001 :rule cong :premises (@p7000) :args (@t98))
1.93/2.13	(step @p7002 :rule trans :premises (@p7001 @p6999))
1.93/2.13	(step @p7003 :rule nary_cong :premises (@p7002 @p6986) :args (@t99))
1.93/2.13	(step @p7004 :rule refl :args (@t100))
1.93/2.13	(step @p7005 :rule cong :premises (@p7004 @p7003) :args (@t101))
1.93/2.13	(step @p7006 :rule cong :premises (@p7005) :args (@t103))
1.93/2.13	(step @p7007 :rule trans :premises (@p7006 @p6985))
1.93/2.13	(step @p7008 :rule bool-double-not-elim :args (@t1916))
1.93/2.13	(step @p7009 :rule refl :args (@t1914))
1.93/2.13	(step @p7010 :rule refl :args (@t105))
1.93/2.13	(step @p7011 :rule cong :premises (@p7010 @p7009) :args ((= @t105 @t1914)))
1.93/2.13	(step @p7012 :rule symm :premises (@p7011))
1.93/2.13	(step @p7013 :rule eq_resolve :premises (@p7010 @p7012))
1.93/2.13	(step @p7014 :rule cong :premises (@p7013) :args (@t3786))
1.93/2.13	(step @p7015 :rule cong :premises (@p6991) :args (@t3787))
1.93/2.13	(step @p7016 :rule nary_cong :premises (@p7015 @p7014) :args (@t3788))
1.93/2.13	(step @p7017 :rule cong :premises (@p7016) :args ((forall @t70 @t3788)))
1.93/2.13	(step @p7018 :rule bool-and-de-morgan :args (@t96 @t105 true))
1.93/2.13	(step @p7019 :rule cong :premises (@p7018) :args (@t3789))
1.93/2.13	(step @p7020 :rule trans :premises (@p7019 @p7017))
1.93/2.13	(step @p7021 :rule cong :premises (@p7020) :args (@t3790))
1.93/2.13	(step @p7022 :rule exists-elim :args ((= @t107 @t3790)))
1.93/2.13	(step @p7023 :rule trans :premises (@p7022 @p7021))
1.93/2.13	(step @p7024 :rule cong :premises (@p7023) :args (@t108))
1.93/2.13	(step @p7025 :rule trans :premises (@p7024 @p7008))
1.93/2.13	(step @p7026 :rule refl :args (@t109))
1.93/2.13	(step @p7027 :rule refl :args (@t110))
1.93/2.13	(step @p7028 :rule nary_cong :premises (@p7027 @p7026 @p7025 @p7007) :args (@t111))
1.93/2.13	(step @p7029 :rule cong :premises (@p7028) :args (@t113))
1.93/2.13	(step @p7030 :rule trans :premises (@p7029 @p6952))
1.93/2.13	(step @p7031 :rule cong :premises (@p6928) :args (@t3791))
1.93/2.13	(step @p7032 :rule cong :premises (@p7031) :args (@t3792))
1.93/2.13	(step @p7033 :rule exists-elim :args ((= @t114 @t3792)))
1.93/2.13	(step @p7034 :rule trans :premises (@p7033 @p7032))
1.93/2.13	(step @p7035 :rule nary_cong :premises (@p6928 @p737) :args (@t3793))
1.93/2.13	(step @p7036 :rule cong :premises (@p7035) :args ((forall @t9 @t3793)))
1.93/2.13	(step @p7037 :rule bool-impl-elim :args (@t109 @t7))
1.93/2.13	(step @p7038 :rule cong :premises (@p7037) :args (@t115))
1.93/2.13	(step @p7039 :rule trans :premises (@p7038 @p7036))
1.93/2.13	(step @p7040 :rule nary_cong :premises (@p7039 @p7034) :args (@t116))
1.93/2.13	(step @p7041 :rule cong :premises (@p7040 @p7030) :args (@t117))
1.93/2.13	(step @p7042 :rule cong :premises (@p7041) :args (@t119))
1.93/2.13	(step @p7043 :rule trans :premises (@p7042 @p6920))
1.93/2.13	(step @p7044 :rule aci_norm :args ((= @t3796 @t1938)))
1.93/2.13	(step @p7045 :rule cong :premises (@p7044) :args (@t3797))
1.93/2.13	(step @p7046 :rule quant-merge-prenex :args ((= (forall @t127 @t3798) @t3797)))
1.93/2.13	(step @p7047 :rule alpha_equiv :args (@t3799 (@list @t1930) @t2362))
1.93/2.13	(step @p7048 :rule alpha_equiv :args (@t3800 (@list @t1933) @t2362))
1.93/2.13	(step @p7049 :rule refl :args (@t1921))
1.93/2.13	(step @p7050 :rule refl :args (@t1937))
1.93/2.13	(step @p7051 :rule nary_cong :premises (@p7050 @p7049 @p7048 @p7047) :args (@t3801))
1.93/2.13	(step @p7052 :rule quant-miniscope-or :args ((= @t3798 @t3801)))
1.93/2.13	(step @p7053 :rule trans :premises (@p7052 @p7051))
1.93/2.13	(step @p7054 :rule symm :premises (@p7053))
1.93/2.13	(step @p7055 :rule cong :premises (@p7054) :args ((forall @t127 (or @t1937 @t1921 @t3804 @t3803))))
1.93/2.13	(step @p7056 :rule trans :premises (@p7055 @p7046))
1.93/2.13	(step @p7057 :rule trans :premises (@p7056 @p7045))
1.93/2.13	(step @p7058 :rule refl :args (@t3803))
1.93/2.13	(step @p7059 :rule refl :args (@t3804))
1.93/2.13	(step @p7060 :rule refl :args (@t1936))
1.93/2.13	(step @p7061 :rule refl :args (@t124))
1.93/2.13	(step @p7062 :rule cong :premises (@p7061 @p7060) :args ((= @t124 @t1936)))
1.93/2.13	(step @p7063 :rule symm :premises (@p7062))
1.93/2.13	(step @p7064 :rule eq_resolve :premises (@p7061 @p7063))
1.93/2.13	(step @p7065 :rule cong :premises (@p7064) :args (@t3805))
1.93/2.13	(step @p7066 :rule nary_cong :premises (@p7065 @p6934 @p7059 @p7058) :args (@t3806))
1.93/2.13	(step @p7067 :rule cong :premises (@p7066) :args ((forall @t127 @t3806)))
1.93/2.13	(step @p7068 :rule trans :premises (@p7067 @p7057))
1.93/2.13	(step @p7069 :rule aci_norm :args ((= (or (or @t3805 @t3767) @t3807) @t3806)))
1.93/2.13	(step @p7070 :rule refl :args (@t3807))
1.93/2.13	(step @p7071 :rule bool-and-de-morgan :args (@t124 @t110 true))
1.93/2.13	(step @p7072 :rule nary_cong :premises (@p7071 @p7070) :args ((or (not @t125) @t3807)))
1.93/2.13	(step @p7073 :rule trans :premises (@p7072 @p7069))
1.93/2.13	(step @p7074 :rule bool-impl-elim :args (@t125 @t3807))
1.93/2.13	(step @p7075 :rule trans :premises (@p7074 @p7073))
1.93/2.13	(step @p7076 :rule cong :premises (@p7075) :args ((forall @t127 (=> @t125 @t3807))))
1.93/2.13	(step @p7077 :rule trans :premises (@p7076 @p7068))
1.93/2.13	(step @p7078 :rule refl :args (@t3802))
1.93/2.13	(step @p7079 :rule refl :args (@t120))
1.93/2.13	(step @p7080 :rule cong :premises (@p7079 @p7078) :args ((= @t120 @t3802)))
1.93/2.13	(step @p7081 :rule symm :premises (@p7080))
1.93/2.13	(step @p7082 :rule eq_resolve :premises (@p7079 @p7081))
1.93/2.13	(step @p7083 :rule cong :premises (@p7082) :args (@t3808))
1.93/2.13	(step @p7084 :rule nary_cong :premises (@p7083 @p6927) :args (@t3809))
1.93/2.13	(step @p7085 :rule cong :premises (@p7084) :args ((forall @t9 @t3809)))
1.93/2.13	(step @p7086 :rule bool-impl-elim :args (@t120 @t109))
1.93/2.13	(step @p7087 :rule cong :premises (@p7086) :args (@t121))
1.93/2.13	(step @p7088 :rule trans :premises (@p7087 @p7085))
1.93/2.13	(step @p7089 :rule nary_cong :premises (@p6928 @p7082) :args (@t3810))
1.93/2.13	(step @p7090 :rule cong :premises (@p7089) :args ((forall @t9 @t3810)))
1.93/2.13	(step @p7091 :rule bool-impl-elim :args (@t109 @t120))
1.93/2.13	(step @p7092 :rule cong :premises (@p7091) :args (@t122))
1.93/2.13	(step @p7093 :rule trans :premises (@p7092 @p7090))
1.93/2.13	(step @p7094 :rule nary_cong :premises (@p7093 @p7088) :args (@t123))
1.93/2.13	(step @p7095 :rule refl :args (@t125))
1.93/2.13	(step @p7096 :rule cong :premises (@p7095 @p7094) :args (@t126))
1.93/2.13	(step @p7097 :rule cong :premises (@p7096) :args (@t128))
1.93/2.13	(step @p7098 :rule trans :premises (@p7097 @p7077))
1.93/2.13	(step @p7099 :rule refl :args (@t1943))
1.93/2.13	(step @p7100 :rule nary_cong :premises (@p738 @p1424 @p7099 @p1412) :args (@t3811))
1.93/2.13	(step @p7101 :rule cong :premises (@p7100) :args ((forall @t135 @t3811)))
1.93/2.13	(step @p7102 :rule aci_norm :args ((= (or (or @t197 @t2455) (or @t1943 @t129)) @t3811)))
1.93/2.13	(step @p7103 :rule bool-impl-elim :args (@t1942 @t129))
1.93/2.13	(step @p7104 :rule bool-and-de-morgan :args (@t7 @t21 true))
1.93/2.13	(step @p7105 :rule nary_cong :premises (@p7104 @p7103) :args ((or (not @t133) @t3812)))
1.93/2.13	(step @p7106 :rule trans :premises (@p7105 @p7102))
1.93/2.13	(step @p7107 :rule bool-impl-elim :args (@t133 @t3812))
1.93/2.13	(step @p7108 :rule trans :premises (@p7107 @p7106))
1.93/2.13	(step @p7109 :rule cong :premises (@p7108) :args ((forall @t135 (=> @t133 @t3812))))
1.93/2.13	(step @p7110 :rule trans :premises (@p7109 @p7101))
1.93/2.13	(step @p7111 :rule cong :premises (@p6927 @p7013) :args (@t130))
1.93/2.13	(step @p7112 :rule nary_cong :premises (@p7065 @p7111) :args (@t3813))
1.93/2.13	(step @p7113 :rule cong :premises (@p7112) :args ((forall @t118 @t3813)))
1.93/2.13	(step @p7114 :rule bool-impl-elim :args (@t124 @t130))
1.93/2.13	(step @p7115 :rule cong :premises (@p7114) :args (@t131))
1.93/2.13	(step @p7116 :rule trans :premises (@p7115 @p7113))
1.93/2.13	(step @p7117 :rule cong :premises (@p7116 @p2850) :args (@t132))
1.93/2.13	(step @p7118 :rule refl :args (@t133))
1.93/2.13	(step @p7119 :rule cong :premises (@p7118 @p7117) :args (@t134))
1.93/2.13	(step @p7120 :rule cong :premises (@p7119) :args (@t136))
1.93/2.13	(step @p7121 :rule trans :premises (@p7120 @p7110))
1.93/2.13	(step @p7122 :rule aci_norm :args ((= @t3815 @t1949)))
1.93/2.13	(step @p7123 :rule cong :premises (@p7122) :args (@t3816))
1.93/2.13	(step @p7124 :rule quant-merge-prenex :args ((= (forall @t118 @t3818) @t3816)))
1.93/2.13	(step @p7125 :rule alpha_equiv :args (@t3819 (@list @t1946) @t2362))
1.93/2.13	(step @p7126 :rule nary_cong :premises (@p7050 @p7125) :args (@t3820))
1.93/2.13	(step @p7127 :rule quant-miniscope-or :args ((= @t3818 @t3820)))
1.93/2.13	(step @p7128 :rule trans :premises (@p7127 @p7126))
1.93/2.13	(step @p7129 :rule symm :premises (@p7128))
1.93/2.13	(step @p7130 :rule cong :premises (@p7129) :args ((forall @t118 (or @t1937 @t1925))))
1.93/2.13	(step @p7131 :rule trans :premises (@p7130 @p7124))
1.93/2.13	(step @p7132 :rule trans :premises (@p7131 @p7123))
1.93/2.13	(step @p7133 :rule refl :args (@t1925))
1.93/2.13	(step @p7134 :rule nary_cong :premises (@p7065 @p7133) :args (@t3821))
1.93/2.13	(step @p7135 :rule cong :premises (@p7134) :args ((forall @t118 @t3821)))
1.93/2.13	(step @p7136 :rule trans :premises (@p7135 @p7132))
1.93/2.13	(step @p7137 :rule bool-impl-elim :args (@t124 @t1925))
1.93/2.13	(step @p7138 :rule cong :premises (@p7137) :args ((forall @t118 (=> @t124 @t1925))))
1.93/2.13	(step @p7139 :rule trans :premises (@p7138 @p7136))
1.93/2.13	(step @p7140 :rule refl :args (@t124))
1.93/2.13	(step @p7141 :rule cong :premises (@p7140 @p7039) :args (@t137))
1.93/2.13	(step @p7142 :rule cong :premises (@p7141) :args (@t138))
1.93/2.13	(step @p7143 :rule trans :premises (@p7142 @p7139))
1.93/2.13	(step @p7144 :rule nary_cong :premises (@p7143 @p7121 @p7098 @p7043) :args (@t139))
1.93/2.13	(step @p7145 :rule cong :premises (@p7144) :args (@t140))
1.93/2.13	(step @p7146 :rule trans :premises (@p7145 @p6899))
1.93/2.13	(step @p7147 :rule cong :premises (@p7146) :args (@t141))
1.93/2.13	(step @p7148 :rule refl :args (tptp.wellorderingAx))
1.93/2.13	(step @p7149 :rule cong :premises (@p7148 @p7147) :args (@t142))
1.93/2.13	(step @p7150 :rule eq_resolve :premises (@p11 @p7149))
1.93/2.13	(step @p7151 :rule cong :premises (@p7150 @p6884) :args (@t3822))
1.93/2.13	(step @p7152 :rule quant-merge-prenex :args ((= (forall @t64 @t3824) @t1962)))
1.93/2.13	(step @p7153 :rule refl :args (@t1958))
1.93/2.13	(step @p7154 :rule alpha_equiv :args (@t3825 (@list @t1959) @t2362))
1.93/2.13	(step @p7155 :rule nary_cong :premises (@p7154 @p7153) :args (@t3826))
1.93/2.13	(step @p7156 :rule quant-miniscope-or :args ((= @t3824 @t3826)))
1.93/2.13	(step @p7157 :rule trans :premises (@p7156 @p7155))
1.93/2.13	(step @p7158 :rule symm :premises (@p7157))
1.93/2.13	(step @p7159 :rule cong :premises (@p7158) :args ((forall @t64 (or @t1810 @t1958))))
1.93/2.13	(step @p7160 :rule trans :premises (@p7159 @p7152))
1.93/2.13	(step @p7161 :rule nary_cong :premises (@p6533 @p7153) :args ((or @t3667 @t1958)))
1.93/2.13	(step @p7162 :rule bool-impl-elim :args (@t1811 @t1958))
1.93/2.13	(step @p7163 :rule trans :premises (@p7162 @p7161))
1.93/2.13	(step @p7164 :rule cong :premises (@p7163) :args ((forall @t64 (=> @t1811 @t1958))))
1.93/2.13	(step @p7165 :rule trans :premises (@p7164 @p7160))
1.93/2.13	(step @p7166 :rule refl :args (@t1957))
1.93/2.13	(step @p7167 :rule nary_cong :premises (@p6271 @p7166) :args (@t3827))
1.93/2.13	(step @p7168 :rule cong :premises (@p7167) :args ((forall @t41 @t3827)))
1.93/2.13	(step @p7169 :rule bool-and-de-morgan :args (@t39 @t1956 true))
1.93/2.13	(step @p7170 :rule cong :premises (@p7169) :args (@t3829))
1.93/2.13	(step @p7171 :rule trans :premises (@p7170 @p7168))
1.93/2.13	(step @p7172 :rule cong :premises (@p7171) :args (@t3830))
1.93/2.13	(step @p7173 :rule exists-elim :args ((= (exists @t41 @t3828) @t3830)))
1.93/2.13	(step @p7174 :rule trans :premises (@p7173 @p7172))
1.93/2.13	(step @p7175 :rule bool-double-not-elim :args (@t1956))
1.93/2.13	(step @p7176 :rule nary_cong :premises (@p3938 @p738) :args (@t3831))
1.93/2.13	(step @p7177 :rule cong :premises (@p7176) :args ((forall @t9 @t3831)))
1.93/2.13	(step @p7178 :rule bool-and-de-morgan :args (@t6 @t7 true))
1.93/2.13	(step @p7179 :rule cong :premises (@p7178) :args (@t3832))
1.93/2.13	(step @p7180 :rule trans :premises (@p7179 @p7177))
1.93/2.13	(step @p7181 :rule cong :premises (@p7180) :args (@t3833))
1.93/2.13	(step @p7182 :rule exists-elim :args ((= @t85 @t3833)))
1.93/2.13	(step @p7183 :rule trans :premises (@p7182 @p7181))
1.93/2.13	(step @p7184 :rule cong :premises (@p7183) :args (@t86))
1.93/2.13	(step @p7185 :rule trans :premises (@p7184 @p7175))
1.93/2.13	(step @p7186 :rule refl :args (@t39))
1.93/2.13	(step @p7187 :rule nary_cong :premises (@p7186 @p7185) :args (@t87))
1.93/2.13	(step @p7188 :rule cong :premises (@p7187) :args (@t88))
1.93/2.13	(step @p7189 :rule trans :premises (@p7188 @p7174))
1.93/2.13	(step @p7190 :rule cong :premises (@p6156 @p7189) :args (@t90))
1.93/2.13	(step @p7191 :rule cong :premises (@p7190) :args (@t91))
1.93/2.13	(step @p7192 :rule trans :premises (@p7191 @p7165))
1.93/2.13	(step @p7193 :rule refl :args (tptp.foundationAx))
1.93/2.13	(step @p7194 :rule cong :premises (@p7193 @p7192) :args (@t92))
1.93/2.13	(step @p7195 :rule eq_resolve :premises (@p10 @p7194))
1.93/2.13	(step @p7196 :rule cong :premises (@p7195 @p7151) :args (@t3834))
1.93/2.13	(step @p7197 :rule bool-impl-elim :args (@t1975 @t1967))
1.93/2.13	(step @p7198 :rule cong :premises (@p7197) :args ((forall @t81 (=> @t1975 @t1967))))
1.93/2.13	(step @p7199 :rule exists-elim :args ((= (exists @t41 @t1966) @t1967)))
1.93/2.13	(step @p7200 :rule refl :args (@t1965))
1.93/2.13	(step @p7201 :rule cong :premises (@p3915 @p7200) :args (@t3835))
1.93/2.13	(step @p7202 :rule cong :premises (@p7201) :args ((forall @t9 @t3835)))
1.93/2.13	(step @p7203 :rule refl :args (@t1964))
1.93/2.13	(step @p7204 :rule refl :args (@t68))
1.93/2.13	(step @p7205 :rule cong :premises (@p7204 @p7203) :args ((= @t68 @t1964)))
1.93/2.13	(step @p7206 :rule symm :premises (@p7205))
1.93/2.13	(step @p7207 :rule eq_resolve :premises (@p7204 @p7206))
1.93/2.13	(step @p7208 :rule cong :premises (@p7207) :args (@t3836))
1.93/2.13	(step @p7209 :rule nary_cong :premises (@p1424 @p7208) :args (@t3837))
1.93/2.13	(step @p7210 :rule cong :premises (@p7209) :args ((forall @t70 @t3837)))
1.93/2.13	(step @p7211 :rule bool-and-de-morgan :args (@t21 @t68 true))
1.93/2.13	(step @p7212 :rule cong :premises (@p7211) :args (@t3838))
1.93/2.13	(step @p7213 :rule trans :premises (@p7212 @p7210))
1.93/2.13	(step @p7214 :rule cong :premises (@p7213) :args (@t3839))
1.93/2.13	(step @p7215 :rule exists-elim :args ((= @t71 @t3839)))
1.93/2.13	(step @p7216 :rule trans :premises (@p7215 @p7214))
1.93/2.13	(step @p7217 :rule refl :args (@t6))
1.93/2.13	(step @p7218 :rule cong :premises (@p7217 @p7216) :args (@t72))
1.93/2.13	(step @p7219 :rule cong :premises (@p7218) :args (@t73))
1.93/2.13	(step @p7220 :rule trans :premises (@p7219 @p7202))
1.93/2.13	(step @p7221 :rule cong :premises (@p7220) :args (@t74))
1.93/2.13	(step @p7222 :rule trans :premises (@p7221 @p7199))
1.93/2.13	(step @p7223 :rule refl :args (@t1974))
1.93/2.13	(step @p7224 :rule nary_cong :premises (@p738 @p7223) :args (@t3840))
1.93/2.13	(step @p7225 :rule cong :premises (@p7224) :args ((forall @t9 @t3840)))
1.93/2.13	(step @p7226 :rule bool-impl-elim :args (@t7 @t1974))
1.93/2.13	(step @p7227 :rule cong :premises (@p7226) :args ((forall @t9 (=> @t7 @t1974))))
1.93/2.13	(step @p7228 :rule trans :premises (@p7227 @p7225))
1.93/2.13	(step @p7229 :rule refl :args (@t1971))
1.93/2.13	(step @p7230 :rule refl :args (@t1972))
1.93/2.13	(step @p7231 :rule refl :args (@t3841))
1.93/2.13	(step @p7232 :rule cong :premises (@p7231 @p7230) :args ((= @t3841 @t1972)))
1.93/2.13	(step @p7233 :rule symm :premises (@p7232))
1.93/2.13	(step @p7234 :rule eq_resolve :premises (@p7231 @p7233))
1.93/2.13	(step @p7235 :rule cong :premises (@p7234) :args (@t3842))
1.93/2.13	(step @p7236 :rule nary_cong :premises (@p7235 @p7229) :args (@t3843))
1.93/2.13	(step @p7237 :rule cong :premises (@p7236) :args ((forall @t1973 @t3843)))
1.93/2.13	(step @p7238 :rule refl :args (@t1969))
1.93/2.13	(step @p7239 :rule nary_cong :premises (@p2293 @p7238) :args (@t3844))
1.93/2.13	(step @p7240 :rule cong :premises (@p7239) :args ((forall @t70 @t3844)))
1.93/2.13	(step @p7241 :rule refl :args (@t1969))
1.93/2.13	(step @p7242 :rule beta-reduce :args ((= @t3845 @t76)))
1.93/2.13	(step @p7243 :rule cong :premises (@p7242) :args (@t3846))
1.93/2.13	(step @p7244 :rule nary_cong :premises (@p7243 @p7241) :args (@t3847))
1.93/2.13	(step @p7245 :rule cong :premises (@p7244) :args (@t3848))
1.93/2.13	(step @p7246 :rule trans :premises (@p7245 @p7240))
1.93/2.13	(step @p7247 :rule cong :premises (@p7246) :args (@t3849))
1.93/2.13	(step @p7248 :rule beta-reduce :args ((= @t3850 @t3841)))
1.93/2.13	(step @p7249 :rule cong :premises (@p7248) :args (@t3851))
1.93/2.13	(step @p7250 :rule nary_cong :premises (@p7249 @p7247) :args (@t3852))
1.93/2.13	(step @p7251 :rule cong :premises (@p7250) :args (@t3853))
1.93/2.13	(step @p7252 :rule trans :premises (@p7251 @p7237))
1.93/2.13	(step @p7253 :rule cong :premises (@p7252) :args (@t3854))
1.93/2.13	(step @p7254 :rule beta-reduce :args ((= (_ (lambda @t150 (not (forall @t1973 (or @t3855 (not (forall @t70 (or @t1521 @t1969))))))) @t77) @t3854)))
1.93/2.13	(step @p7255 :rule trans :premises (@p7254 @p7253))
1.93/2.13	(step @p7256 :rule refl :args (@t77))
1.93/2.13	(step @p7257 :rule eq-symm :args (@t1968 @t19))
1.93/2.13	(step @p7258 :rule nary_cong :premises (@p5173 @p7257) :args (@t3856))
1.93/2.13	(step @p7259 :rule cong :premises (@p7258) :args (@t3857))
1.93/2.13	(step @p7260 :rule cong :premises (@p7259) :args (@t3858))
1.93/2.13	(step @p7261 :rule refl :args (@t3855))
1.93/2.13	(step @p7262 :rule nary_cong :premises (@p7261 @p7260) :args (@t3859))
1.93/2.13	(step @p7263 :rule cong :premises (@p7262) :args (@t3860))
1.93/2.13	(step @p7264 :rule cong :premises (@p7263) :args (@t3861))
1.93/2.13	(step @p7265 :rule cong :premises (@p7264) :args ((lambda @t150 @t3861)))
1.93/2.13	(step @p7266 :rule ho_cong :premises (@p7265 @p7256))
1.93/2.13	(step @p7267 :rule trans :premises (@p7266 @p7255))
1.93/2.13	(step @p7268 :rule refl :args (@t77))
1.93/2.13	(step @p7269 :rule alpha_equiv :args (@t1762 @t2362 (@list @t1968)))
1.93/2.13	(step @p7270 :rule cong :premises (@p7269) :args (@t1763))
1.93/2.13	(step @p7271 :rule cong :premises (@p7270) :args (@t3345))
1.93/2.13	(step @p7272 :rule ho_cong :premises (@p7271 @p7268))
1.93/2.13	(step @p7273 :rule trans :premises (@p7272 @p7267))
1.93/2.13	(step @p7274 :rule cong :premises (@p791 @p7273) :args (@t3862))
1.93/2.13	(step @p7275 :rule cong :premises (@p7274) :args (@t3863))
1.93/2.13	(step @p7276 :rule trans :premises (@p7275 @p7228))
1.93/2.13	(step @p7277 :rule cong :premises (@p7276 @p7222) :args (@t3864))
1.93/2.13	(step @p7278 :rule cong :premises (@p7277) :args (@t3865))
1.93/2.13	(step @p7279 :rule trans :premises (@p7278 @p7198))
1.93/2.13	(step @p7280 :rule refl :args (tptp.replAx))
1.93/2.13	(step @p7281 :rule cong :premises (@p7280 @p7279) :args ((= tptp.replAx @t3865)))
1.93/2.13	(step @p7282 :rule refl :args (@t74))
1.93/2.13	(step @p7283 :rule ho_cong :premises (@p5333 @p7256))
1.93/2.13	(step @p7284 :rule cong :premises (@p791 @p7283) :args (@t78))
1.93/2.13	(step @p7285 :rule cong :premises (@p7284) :args (@t79))
1.93/2.13	(step @p7286 :rule cong :premises (@p7285 @p7282) :args (@t80))
1.93/2.13	(step @p7287 :rule cong :premises (@p7286) :args (@t82))
1.93/2.13	(step @p7288 :rule cong :premises (@p7280 @p7287) :args (@t83))
1.93/2.13	(step @p7289 :rule trans :premises (@p7288 @p7281))
1.93/2.13	(step @p7290 :rule eq_resolve :premises (@p9 @p7289))
1.93/2.13	(step @p7291 :rule cong :premises (@p7290 @p7196) :args (@t3866))
1.93/2.13	(step @p7292 :rule aci_norm :args ((= @t3868 @t1989)))
1.93/2.13	(step @p7293 :rule cong :premises (@p7292) :args (@t3869))
1.93/2.13	(step @p7294 :rule quant-merge-prenex :args ((= (forall @t64 @t3871) @t3869)))
1.93/2.13	(step @p7295 :rule alpha_equiv :args (@t3872 (@list @t1978) @t2362))
1.93/2.13	(step @p7296 :rule refl :args (@t1986))
1.93/2.13	(step @p7297 :rule refl :args (@t1988))
1.93/2.13	(step @p7298 :rule nary_cong :premises (@p7297 @p7296 @p7295) :args (@t3873))
1.93/2.13	(step @p7299 :rule quant-miniscope-or :args ((= @t3871 @t3873)))
1.93/2.13	(step @p7300 :rule trans :premises (@p7299 @p7298))
1.93/2.13	(step @p7301 :rule symm :premises (@p7300))
1.93/2.13	(step @p7302 :rule cong :premises (@p7301) :args ((forall @t64 (or @t1988 @t1986 @t3874))))
1.93/2.13	(step @p7303 :rule trans :premises (@p7302 @p7294))
1.93/2.13	(step @p7304 :rule trans :premises (@p7303 @p7293))
1.93/2.13	(step @p7305 :rule refl :args (@t3874))
1.93/2.13	(step @p7306 :rule refl :args (@t1987))
1.93/2.13	(step @p7307 :rule refl :args (@t61))
1.93/2.13	(step @p7308 :rule cong :premises (@p7307 @p7306) :args ((= @t61 @t1987)))
1.93/2.13	(step @p7309 :rule symm :premises (@p7308))
1.93/2.13	(step @p7310 :rule eq_resolve :premises (@p7307 @p7309))
1.93/2.13	(step @p7311 :rule cong :premises (@p7310) :args (@t3875))
1.93/2.13	(step @p7312 :rule nary_cong :premises (@p7311 @p7296 @p7305) :args (@t3876))
1.93/2.13	(step @p7313 :rule cong :premises (@p7312) :args ((forall @t64 @t3876)))
1.93/2.13	(step @p7314 :rule trans :premises (@p7313 @p7304))
1.93/2.13	(step @p7315 :rule aci_norm :args ((= (or (or @t3875 @t1986) @t3874) @t3876)))
1.93/2.13	(step @p7316 :rule bool-and-de-morgan :args (@t61 @t1985 true))
1.93/2.13	(step @p7317 :rule nary_cong :premises (@p7316 @p7305) :args ((or (not @t3877) @t3874)))
1.93/2.13	(step @p7318 :rule trans :premises (@p7317 @p7315))
1.93/2.13	(step @p7319 :rule bool-impl-elim :args (@t3877 @t3874))
1.93/2.13	(step @p7320 :rule trans :premises (@p7319 @p7318))
1.93/2.13	(step @p7321 :rule cong :premises (@p7320) :args ((forall @t64 (=> @t3877 @t3874))))
1.93/2.13	(step @p7322 :rule trans :premises (@p7321 @p7314))
1.93/2.13	(step @p7323 :rule refl :args (@t1983))
1.93/2.13	(step @p7324 :rule refl :args (@t54))
1.93/2.13	(step @p7325 :rule cong :premises (@p7324 @p7323) :args ((= @t54 @t1983)))
1.93/2.13	(step @p7326 :rule symm :premises (@p7325))
1.93/2.13	(step @p7327 :rule eq_resolve :premises (@p7324 @p7326))
1.93/2.13	(step @p7328 :rule cong :premises (@p7327) :args (@t3878))
1.93/2.13	(step @p7329 :rule nary_cong :premises (@p7328 @p737) :args (@t3879))
1.93/2.13	(step @p7330 :rule cong :premises (@p7329) :args ((forall @t9 @t3879)))
1.93/2.13	(step @p7331 :rule bool-impl-elim :args (@t54 @t7))
1.93/2.13	(step @p7332 :rule cong :premises (@p7331) :args (@t57))
1.93/2.13	(step @p7333 :rule trans :premises (@p7332 @p7330))
1.93/2.13	(step @p7334 :rule refl :args ((tptp.in @t51 @t2)))
1.93/2.13	(step @p7335 :rule refl :args (@t1981))
1.93/2.13	(step @p7336 :rule cong :premises (@p7335 @p1162) :args (@t1982))
1.93/2.13	(step @p7337 :rule trans :premises (@p7336 @p7334))
1.93/2.13	(step @p7338 :rule ho_cong :premises (@p749 @p7335))
1.93/2.13	(step @p7339 :rule ho_cong :premises (@p7338 @p1162))
1.93/2.13	(step @p7340 :rule cong :premises (@p7339 @p7337) :args ((= (_ @t3880 @t2) @t1982)))
1.93/2.13	(step @p7341 :rule symm :premises (@p7340))
1.93/2.13	(step @p7342 :rule refl :args (@t58))
1.93/2.13	(step @p7343 :rule eq_resolve :premises (@p7342 @p7341))
1.93/2.13	(step @p7344 :rule refl :args (@t51))
1.93/2.13	(step @p7345 :rule cong :premises (@p7344 @p7335) :args ((= @t51 @t1981)))
1.93/2.13	(step @p7346 :rule symm :premises (@p7345))
1.93/2.13	(step @p7347 :rule eq_resolve :premises (@p7344 @p7346))
1.93/2.13	(step @p7348 :rule ho_cong :premises (@p749 @p7347))
1.93/2.13	(step @p7349 :rule ho_cong :premises (@p7348 @p1162))
1.93/2.13	(step @p7350 :rule trans :premises (@p7349 @p7343))
1.93/2.13	(step @p7351 :rule nary_cong :premises (@p7328 @p738 @p7350) :args (@t3881))
1.93/2.13	(step @p7352 :rule cong :premises (@p7351) :args ((forall @t9 @t3881)))
1.93/2.13	(step @p7353 :rule aci_norm :args ((= (or (or @t3878 @t197) @t58) @t3881)))
1.93/2.13	(step @p7354 :rule bool-and-de-morgan :args (@t54 @t7 true))
1.93/2.13	(step @p7355 :rule nary_cong :premises (@p7354 @p7342) :args ((or (not @t59) @t58)))
1.93/2.13	(step @p7356 :rule trans :premises (@p7355 @p7353))
1.93/2.13	(step @p7357 :rule bool-impl-elim :args (@t59 @t58))
1.93/2.13	(step @p7358 :rule trans :premises (@p7357 @p7356))
1.93/2.13	(step @p7359 :rule cong :premises (@p7358) :args (@t60))
1.93/2.13	(step @p7360 :rule trans :premises (@p7359 @p7352))
1.93/2.13	(step @p7361 :rule refl :args (@t61))
1.93/2.13	(step @p7362 :rule nary_cong :premises (@p7361 @p7360) :args (@t62))
1.93/2.13	(step @p7363 :rule cong :premises (@p7362 @p7333) :args (@t63))
1.93/2.13	(step @p7364 :rule cong :premises (@p7363) :args (@t65))
1.93/2.13	(step @p7365 :rule trans :premises (@p7364 @p7322))
1.93/2.13	(step @p7366 :rule refl :args (tptp.omegaIndAx))
1.93/2.13	(step @p7367 :rule cong :premises (@p7366 @p7365) :args (@t66))
1.93/2.13	(step @p7368 :rule eq_resolve :premises (@p8 @p7367))
1.93/2.13	(step @p7369 :rule cong :premises (@p7368 @p7291) :args (@t3882))
1.93/2.13	(step @p7370 :rule refl :args ((tptp.in @t51 tptp.omega)))
1.93/2.13	(step @p7371 :rule refl :args (tptp.omega))
1.93/2.13	(step @p7372 :rule cong :premises (@p7335 @p7371) :args (@t1993))
1.93/2.13	(step @p7373 :rule trans :premises (@p7372 @p7370))
1.93/2.13	(step @p7374 :rule ho_cong :premises (@p7338 @p7371))
1.93/2.13	(step @p7375 :rule cong :premises (@p7374 @p7373) :args ((= (_ @t3880 tptp.omega) @t1993)))
1.93/2.13	(step @p7376 :rule symm :premises (@p7375))
1.93/2.13	(step @p7377 :rule refl :args (@t53))
1.93/2.13	(step @p7378 :rule eq_resolve :premises (@p7377 @p7376))
1.93/2.13	(step @p7379 :rule ho_cong :premises (@p7348 @p7371))
1.93/2.13	(step @p7380 :rule trans :premises (@p7379 @p7378))
1.93/2.13	(step @p7381 :rule nary_cong :premises (@p7328 @p7380) :args (@t3883))
1.93/2.13	(step @p7382 :rule cong :premises (@p7381) :args ((forall @t9 @t3883)))
1.93/2.13	(step @p7383 :rule bool-impl-elim :args (@t54 @t53))
1.93/2.13	(step @p7384 :rule cong :premises (@p7383) :args (@t55))
1.93/2.13	(step @p7385 :rule trans :premises (@p7384 @p7382))
1.93/2.13	(step @p7386 :rule refl :args (tptp.omegaSAx))
1.93/2.13	(step @p7387 :rule cong :premises (@p7386 @p7385) :args (@t56))
1.93/2.13	(step @p7388 :rule eq_resolve :premises (@p7 @p7387))
1.93/2.13	(step @p7389 :rule cong :premises (@p7388 @p7369) :args (@t3884))
1.93/2.13	(step @p7390 :rule cong :premises (@p6 @p7389) :args (@t3885))
1.93/2.13	(step @p7391 :rule eq-symm :args (@t1547 @t1829))
1.93/2.13	(step @p7392 :rule cong :premises (@p7391) :args ((forall @t46 (= @t1547 @t1829))))
1.93/2.13	(step @p7393 :rule cong :premises (@p3347 @p6239) :args (@t3886))
1.93/2.13	(step @p7394 :rule cong :premises (@p7393) :args ((forall @t46 @t3886)))
1.93/2.13	(step @p7395 :rule trans :premises (@p7394 @p7392))
1.93/2.13	(step @p7396 :rule bool-and-de-morgan :args (@t6 @t39 true))
1.93/2.13	(step @p7397 :rule cong :premises (@p7396) :args (@t3887))
1.93/2.13	(step @p7398 :rule trans :premises (@p7397 @p6273))
1.93/2.13	(step @p7399 :rule cong :premises (@p7398) :args (@t3888))
1.93/2.13	(step @p7400 :rule exists-elim :args ((= @t42 @t3888)))
1.93/2.13	(step @p7401 :rule trans :premises (@p7400 @p7399))
1.93/2.13	(step @p7402 :rule cong :premises (@p3374 @p7401) :args (@t45))
1.93/2.13	(step @p7403 :rule cong :premises (@p7402) :args (@t47))
1.93/2.13	(step @p7404 :rule trans :premises (@p7403 @p7395))
1.93/2.13	(step @p7405 :rule refl :args (tptp.setunionAx))
1.93/2.13	(step @p7406 :rule cong :premises (@p7405 @p7404) :args (@t48))
1.93/2.13	(step @p7407 :rule eq_resolve :premises (@p5 @p7406))
1.93/2.13	(step @p7408 :rule cong :premises (@p7407 @p7390) :args (@t3889))
1.93/2.13	(step @p7409 :rule eq-symm :args (@t1693 @t1840))
1.93/2.13	(step @p7410 :rule cong :premises (@p7409) :args ((forall @t12 (= @t1693 @t1840))))
1.93/2.13	(step @p7411 :rule refl :args (@t1840))
1.93/2.13	(step @p7412 :rule cong :premises (@p4700 @p7411) :args (@t3890))
1.93/2.13	(step @p7413 :rule cong :premises (@p7412) :args ((forall @t12 @t3890)))
1.93/2.13	(step @p7414 :rule trans :premises (@p7413 @p7410))
1.93/2.13	(step @p7415 :rule cong :premises (@p6357 @p6361) :args (@t36))
1.93/2.13	(step @p7416 :rule cong :premises (@p7415) :args (@t37))
1.93/2.13	(step @p7417 :rule trans :premises (@p7416 @p7414))
1.93/2.13	(step @p7418 :rule refl :args (tptp.powersetAx))
1.93/2.13	(step @p7419 :rule cong :premises (@p7418 @p7417) :args (@t38))
1.93/2.13	(step @p7420 :rule eq_resolve :premises (@p4 @p7419))
1.93/2.13	(step @p7421 :rule cong :premises (@p7420 @p7408) :args (@t3891))
1.93/2.13	(step @p7422 :rule nary_cong :premises (@p1412 @p1423) :args (@t3636))
1.93/2.13	(step @p7423 :rule cong :premises (@p6403 @p7422) :args (@t3892))
1.93/2.13	(step @p7424 :rule cong :premises (@p7423) :args ((forall @t28 @t3892)))
1.93/2.13	(step @p7425 :rule cong :premises (@p6413 @p6412) :args (@t27))
1.93/2.13	(step @p7426 :rule cong :premises (@p7425) :args (@t29))
1.93/2.13	(step @p7427 :rule trans :premises (@p7426 @p7424))
1.93/2.13	(step @p7428 :rule refl :args (tptp.setadjoinAx))
1.93/2.13	(step @p7429 :rule cong :premises (@p7428 @p7427) :args (@t30))
1.93/2.13	(step @p7430 :rule eq_resolve :premises (@p3 @p7429))
1.93/2.13	(step @p7431 :rule cong :premises (@p7430 @p7421) :args (@t3893))
1.93/2.13	(step @p7432 :rule refl :args (tptp.emptysetAx))
1.93/2.13	(step @p7433 :rule cong :premises (@p7432 @p6709) :args (@t18))
1.93/2.13	(step @p7434 :rule eq_resolve :premises (@p2 @p7433))
1.93/2.13	(step @p7435 :rule cong :premises (@p7434 @p7431) :args (@t3894))
1.93/2.13	(step @p7436 :rule bool-impl-elim :args (@t2006 @t3))
1.93/2.13	(step @p7437 :rule cong :premises (@p7436) :args ((forall @t12 (=> @t2006 @t3))))
1.93/2.13	(step @p7438 :rule cong :premises (@p737 @p3915) :args (@t8))
1.93/2.13	(step @p7439 :rule cong :premises (@p7438) :args (@t10))
1.93/2.13	(step @p7440 :rule cong :premises (@p7439 @p5158) :args (@t11))
1.93/2.13	(step @p7441 :rule cong :premises (@p7440) :args (@t13))
1.93/2.13	(step @p7442 :rule trans :premises (@p7441 @p7437))
1.93/2.13	(step @p7443 :rule refl :args (tptp.setextAx))
1.93/2.13	(step @p7444 :rule cong :premises (@p7443 @p7442) :args (@t14))
1.93/2.13	(step @p7445 :rule eq_resolve :premises (@p1 @p7444))
1.93/2.13	(step @p7446 :rule cong :premises (@p7445 @p7435) :args (@t3895))
1.93/2.13	(step @p7447 :rule cong :premises (@p7446) :args ((not @t3895)))
1.93/2.13	(step @p7448 :rule trans :premises (@p7447 @p650))
1.93/2.13	(step @p7449 :rule aci_norm :args ((= @t3897 @t1254)))
1.93/2.13	(step @p7450 :rule cong :premises (@p7449) :args (@t3898))
1.93/2.13	(step @p7451 :rule quant-merge-prenex :args ((= (forall @t942 @t3900) @t3898)))
1.93/2.13	(step @p7452 :rule alpha_equiv :args (@t3901 (@list @t1234) @t2186))
1.93/2.13	(step @p7453 :rule nary_cong :premises (@p656 @p7452) :args (@t3902))
1.93/2.13	(step @p7454 :rule quant-miniscope-or :args ((= @t3900 @t3902)))
1.93/2.13	(step @p7455 :rule trans :premises (@p7454 @p7453))
1.93/2.13	(step @p7456 :rule symm :premises (@p7455))
1.93/2.13	(step @p7457 :rule cong :premises (@p7456) :args ((forall @t942 (or @t1253 @t3907))))
1.93/2.13	(step @p7458 :rule trans :premises (@p7457 @p7451))
1.93/2.13	(step @p7459 :rule trans :premises (@p7458 @p7450))
1.93/2.13	(step @p7460 :rule refl :args (@t3907))
1.93/2.13	(step @p7461 :rule nary_cong :premises (@p682 @p7460) :args (@t3908))
1.93/2.13	(step @p7462 :rule cong :premises (@p7461) :args ((forall @t942 @t3908)))
1.93/2.13	(step @p7463 :rule trans :premises (@p7462 @p7459))
1.93/2.13	(step @p7464 :rule bool-impl-elim :args (@t2196 @t3907))
1.93/2.13	(step @p7465 :rule cong :premises (@p7464) :args ((forall @t942 (=> @t2196 @t3907))))
1.93/2.13	(step @p7466 :rule trans :premises (@p7465 @p7463))
1.93/2.13	(step @p7467 :rule refl :args (@t1001))
1.93/2.13	(step @p7468 :rule refl :args (@t3906))
1.93/2.13	(step @p7469 :rule nary_cong :premises (@p707 @p694 @p7468 @p7467) :args (@t3909))
1.93/2.13	(step @p7470 :rule cong :premises (@p7469) :args ((forall @t996 @t3909)))
1.93/2.13	(step @p7471 :rule aci_norm :args ((= (or @t2201 @t3910) @t3909)))
1.93/2.13	(step @p7472 :rule aci_norm :args ((= (or @t2192 (or @t3906 @t1001)) @t3910)))
1.93/2.13	(step @p7473 :rule bool-impl-elim :args (@t3905 @t1001))
1.93/2.13	(step @p7474 :rule nary_cong :premises (@p694 @p7473) :args ((or @t2192 @t3911)))
1.93/2.13	(step @p7475 :rule trans :premises (@p7474 @p7472))
1.93/2.13	(step @p7476 :rule bool-impl-elim :args (@t2191 @t3911))
1.93/2.13	(step @p7477 :rule trans :premises (@p7476 @p7475))
1.93/2.13	(step @p7478 :rule nary_cong :premises (@p712 @p7477) :args ((or @t2201 @t3912)))
1.93/2.13	(step @p7479 :rule trans :premises (@p7478 @p7471))
1.93/2.13	(step @p7480 :rule bool-impl-elim :args (@t2200 @t3912))
1.93/2.13	(step @p7481 :rule trans :premises (@p7480 @p7479))
1.93/2.13	(step @p7482 :rule cong :premises (@p7481) :args ((forall @t996 (=> @t2200 @t3912))))
1.93/2.13	(step @p7483 :rule trans :premises (@p7482 @p7470))
1.93/2.13	(step @p7484 :rule refl :args (@t1001))
1.93/2.13	(step @p7485 :rule aci_norm :args ((= @t3914 @t3904)))
1.93/2.13	(step @p7486 :rule cong :premises (@p7485) :args (@t3915))
1.93/2.13	(step @p7487 :rule quant-merge-prenex :args ((= (forall @t9 @t3917) @t3915)))
1.93/2.13	(step @p7488 :rule alpha_equiv :args (@t3918 (@list @t1236) @t2210))
1.93/2.13	(step @p7489 :rule nary_cong :premises (@p724 @p7488) :args (@t3919))
1.93/2.13	(step @p7490 :rule quant-miniscope-or :args ((= @t3917 @t3919)))
1.93/2.13	(step @p7491 :rule trans :premises (@p7490 @p7489))
1.93/2.13	(step @p7492 :rule symm :premises (@p7491))
1.93/2.13	(step @p7493 :rule cong :premises (@p7492) :args ((forall @t9 (or @t1241 @t3920))))
1.93/2.13	(step @p7494 :rule trans :premises (@p7493 @p7487))
1.93/2.13	(step @p7495 :rule trans :premises (@p7494 @p7486))
1.93/2.13	(step @p7496 :rule refl :args (@t3920))
1.93/2.13	(step @p7497 :rule nary_cong :premises (@p738 @p7496) :args (@t3921))
1.93/2.13	(step @p7498 :rule cong :premises (@p7497) :args ((forall @t9 @t3921)))
1.93/2.13	(step @p7499 :rule trans :premises (@p7498 @p7495))
1.93/2.13	(step @p7500 :rule bool-impl-elim :args (@t7 @t3920))
1.93/2.13	(step @p7501 :rule cong :premises (@p7500) :args ((forall @t9 (=> @t7 @t3920))))
1.93/2.13	(step @p7502 :rule trans :premises (@p7501 @p7499))
1.93/2.13	(step @p7503 :rule cong :premises (@p762) :args (@t3922))
1.93/2.13	(step @p7504 :rule nary_cong :premises (@p779 @p7503 @p772) :args (@t3923))
1.93/2.13	(step @p7505 :rule cong :premises (@p7504) :args ((forall @t70 @t3923)))
1.93/2.13	(step @p7506 :rule aci_norm :args ((= (or @t2220 (or @t3922 @t933)) @t3923)))
1.93/2.13	(step @p7507 :rule bool-impl-elim :args (@t988 @t933))
1.93/2.13	(step @p7508 :rule nary_cong :premises (@p784 @p7507) :args ((or @t2220 @t1002)))
1.93/2.13	(step @p7509 :rule trans :premises (@p7508 @p7506))
1.93/2.13	(step @p7510 :rule bool-impl-elim :args (@t352 @t1002))
1.93/2.13	(step @p7511 :rule trans :premises (@p7510 @p7509))
1.93/2.13	(step @p7512 :rule cong :premises (@p7511) :args (@t1003))
1.93/2.13	(step @p7513 :rule trans :premises (@p7512 @p7505))
1.93/2.13	(step @p7514 :rule cong :premises (@p791 @p7513) :args (@t1004))
1.93/2.13	(step @p7515 :rule cong :premises (@p7514) :args (@t1005))
1.93/2.13	(step @p7516 :rule trans :premises (@p7515 @p7502))
1.93/2.13	(step @p7517 :rule cong :premises (@p7516 @p7484) :args (@t1006))
1.93/2.13	(step @p7518 :rule cong :premises (@p794 @p7517) :args (@t1007))
1.93/2.13	(step @p7519 :rule cong :premises (@p804 @p7518) :args (@t3924))
1.93/2.13	(step @p7520 :rule cong :premises (@p7519) :args (@t3925))
1.93/2.13	(step @p7521 :rule trans :premises (@p7520 @p7483))
1.93/2.13	(step @p7522 :rule cong :premises (@p811 @p7521) :args (@t3926))
1.93/2.13	(step @p7523 :rule cong :premises (@p7522) :args (@t3927))
1.93/2.13	(step @p7524 :rule trans :premises (@p7523 @p7466))
1.93/2.13	(step @p7525 :rule cong :premises (@p815 @p7524) :args (@t3928))
1.93/2.13	(step @p7526 :rule cong :premises (@p941 @p7525) :args (@t3929))
1.93/2.13	(step @p7527 :rule cong :premises (@p1094 @p7526) :args (@t3930))
1.93/2.13	(step @p7528 :rule cong :premises (@p1266 @p7527) :args (@t3931))
1.93/2.13	(step @p7529 :rule cong :premises (@p1324 @p7528) :args (@t3932))
1.93/2.13	(step @p7530 :rule cong :premises (@p1352 @p7529) :args (@t3933))
1.93/2.13	(step @p7531 :rule cong :premises (@p1480 @p7530) :args (@t3934))
1.93/2.13	(step @p7532 :rule cong :premises (@p1583 @p7531) :args (@t3935))
1.93/2.13	(step @p7533 :rule cong :premises (@p1592 @p7532) :args (@t3936))
1.93/2.13	(step @p7534 :rule cong :premises (@p1675 @p7533) :args (@t3937))
1.93/2.13	(step @p7535 :rule cong :premises (@p1813 @p7534) :args (@t3938))
1.93/2.13	(step @p7536 :rule cong :premises (@p1827 @p7535) :args (@t3939))
1.93/2.13	(step @p7537 :rule cong :premises (@p1849 @p7536) :args (@t3940))
1.93/2.13	(step @p7538 :rule cong :premises (@p1895 @p7537) :args (@t3941))
1.93/2.13	(step @p7539 :rule cong :premises (@p1922 @p7538) :args (@t3942))
1.93/2.13	(step @p7540 :rule cong :premises (@p1954 @p7539) :args (@t3943))
1.93/2.13	(step @p7541 :rule cong :premises (@p2029 @p7540) :args (@t3944))
1.93/2.13	(step @p7542 :rule cong :premises (@p2097 @p7541) :args (@t3945))
1.93/2.13	(step @p7543 :rule cong :premises (@p2155 @p7542) :args (@t3946))
1.93/2.13	(step @p7544 :rule cong :premises (@p2168 @p7543) :args (@t3947))
1.93/2.13	(step @p7545 :rule cong :premises (@p2181 @p7544) :args (@t3948))
1.93/2.13	(step @p7546 :rule cong :premises (@p2219 @p7545) :args (@t3949))
1.93/2.13	(step @p7547 :rule cong :premises (@p2260 @p7546) :args (@t3950))
1.93/2.13	(step @p7548 :rule cong :premises (@p2268 @p7547) :args (@t3951))
1.93/2.13	(step @p7549 :rule cong :premises (@p2308 @p7548) :args (@t3952))
1.93/2.13	(step @p7550 :rule cong :premises (@p2359 @p7549) :args (@t3953))
1.93/2.13	(step @p7551 :rule cong :premises (@p2405 @p7550) :args (@t3954))
1.93/2.13	(step @p7552 :rule cong :premises (@p2451 @p7551) :args (@t3955))
1.93/2.13	(step @p7553 :rule cong :premises (@p2470 @p7552) :args (@t3956))
1.93/2.13	(step @p7554 :rule cong :premises (@p2492 @p7553) :args (@t3957))
1.93/2.13	(step @p7555 :rule cong :premises (@p2501 @p7554) :args (@t3958))
1.93/2.13	(step @p7556 :rule cong :premises (@p2522 @p7555) :args (@t3959))
1.93/2.13	(step @p7557 :rule cong :premises (@p2541 @p7556) :args (@t3960))
1.93/2.13	(step @p7558 :rule cong :premises (@p2548 @p7557) :args (@t3961))
1.93/2.13	(step @p7559 :rule cong :premises (@p2614 @p7558) :args (@t3962))
1.93/2.13	(step @p7560 :rule cong :premises (@p2637 @p7559) :args (@t3963))
1.93/2.13	(step @p7561 :rule cong :premises (@p2735 @p7560) :args (@t3964))
1.93/2.13	(step @p7562 :rule cong :premises (@p2746 @p7561) :args (@t3965))
1.93/2.13	(step @p7563 :rule cong :premises (@p2783 @p7562) :args (@t3966))
1.93/2.13	(step @p7564 :rule cong :premises (@p2823 @p7563) :args (@t3967))
1.93/2.13	(step @p7565 :rule cong :premises (@p2854 @p7564) :args (@t3968))
1.93/2.13	(step @p7566 :rule cong :premises (@p2864 @p7565) :args (@t3969))
1.93/2.13	(step @p7567 :rule cong :premises (@p2873 @p7566) :args (@t3970))
1.93/2.13	(step @p7568 :rule cong :premises (@p2894 @p7567) :args (@t3971))
1.93/2.13	(step @p7569 :rule cong :premises (@p2901 @p7568) :args (@t3972))
1.93/2.13	(step @p7570 :rule cong :premises (@p2970 @p7569) :args (@t3973))
1.93/2.13	(step @p7571 :rule cong :premises (@p3034 @p7570) :args (@t3974))
1.93/2.13	(step @p7572 :rule cong :premises (@p3062 @p7571) :args (@t3975))
1.93/2.13	(step @p7573 :rule cong :premises (@p3082 @p7572) :args (@t3976))
1.93/2.13	(step @p7574 :rule cong :premises (@p3122 @p7573) :args (@t3977))
1.93/2.13	(step @p7575 :rule cong :premises (@p3205 @p7574) :args (@t3978))
1.93/2.13	(step @p7576 :rule cong :premises (@p3243 @p7575) :args (@t3979))
1.93/2.13	(step @p7577 :rule cong :premises (@p3255 @p7576) :args (@t3980))
1.93/2.13	(step @p7578 :rule cong :premises (@p3279 @p7577) :args (@t3981))
1.93/2.13	(step @p7579 :rule cong :premises (@p3310 @p7578) :args (@t3982))
1.93/2.13	(step @p7580 :rule cong :premises (@p3327 @p7579) :args (@t3983))
1.93/2.13	(step @p7581 :rule cong :premises (@p3378 @p7580) :args (@t3984))
1.93/2.13	(step @p7582 :rule cong :premises (@p3387 @p7581) :args (@t3985))
1.93/2.13	(step @p7583 :rule cong :premises (@p3437 @p7582) :args (@t3986))
1.93/2.13	(step @p7584 :rule cong :premises (@p3467 @p7583) :args (@t3987))
1.93/2.13	(step @p7585 :rule cong :premises (@p3533 @p7584) :args (@t3988))
1.93/2.13	(step @p7586 :rule cong :premises (@p3575 @p7585) :args (@t3989))
1.93/2.13	(step @p7587 :rule cong :premises (@p3617 @p7586) :args (@t3990))
1.93/2.13	(step @p7588 :rule cong :premises (@p3659 @p7587) :args (@t3991))
1.93/2.13	(step @p7589 :rule cong :premises (@p3701 @p7588) :args (@t3992))
1.93/2.13	(step @p7590 :rule cong :premises (@p3706 @p7589) :args (@t3993))
1.93/2.13	(step @p7591 :rule cong :premises (@p3755 @p7590) :args (@t3994))
1.93/2.13	(step @p7592 :rule cong :premises (@p3779 @p7591) :args (@t3995))
1.93/2.13	(step @p7593 :rule cong :premises (@p3800 @p7592) :args (@t3996))
1.93/2.13	(step @p7594 :rule cong :premises (@p3816 @p7593) :args (@t3997))
1.93/2.13	(step @p7595 :rule cong :premises (@p3831 @p7594) :args (@t3998))
1.93/2.13	(step @p7596 :rule cong :premises (@p3857 @p7595) :args (@t3999))
1.93/2.13	(step @p7597 :rule cong :premises (@p3872 @p7596) :args (@t4000))
1.93/2.13	(step @p7598 :rule cong :premises (@p3877 @p7597) :args (@t4001))
1.93/2.13	(step @p7599 :rule cong :premises (@p3934 @p7598) :args (@t4002))
1.93/2.13	(step @p7600 :rule cong :premises (@p3949 @p7599) :args (@t4003))
1.93/2.13	(step @p7601 :rule cong :premises (@p3966 @p7600) :args (@t4004))
1.93/2.13	(step @p7602 :rule cong :premises (@p3982 @p7601) :args (@t4005))
1.93/2.13	(step @p7603 :rule cong :premises (@p4055 @p7602) :args (@t4006))
1.93/2.13	(step @p7604 :rule cong :premises (@p4081 @p7603) :args (@t4007))
1.93/2.13	(step @p7605 :rule cong :premises (@p4098 @p7604) :args (@t4008))
1.93/2.13	(step @p7606 :rule cong :premises (@p4118 @p7605) :args (@t4009))
1.93/2.13	(step @p7607 :rule cong :premises (@p4130 @p7606) :args (@t4010))
1.93/2.13	(step @p7608 :rule cong :premises (@p4150 @p7607) :args (@t4011))
1.93/2.13	(step @p7609 :rule cong :premises (@p4167 @p7608) :args (@t4012))
1.93/2.13	(step @p7610 :rule cong :premises (@p4180 @p7609) :args (@t4013))
1.93/2.13	(step @p7611 :rule cong :premises (@p4189 @p7610) :args (@t4014))
1.93/2.13	(step @p7612 :rule cong :premises (@p4198 @p7611) :args (@t4015))
1.93/2.13	(step @p7613 :rule cong :premises (@p4214 @p7612) :args (@t4016))
1.93/2.13	(step @p7614 :rule cong :premises (@p4259 @p7613) :args (@t4017))
1.93/2.13	(step @p7615 :rule cong :premises (@p4274 @p7614) :args (@t4018))
1.93/2.13	(step @p7616 :rule cong :premises (@p4295 @p7615) :args (@t4019))
1.93/2.13	(step @p7617 :rule cong :premises (@p4312 @p7616) :args (@t4020))
1.93/2.13	(step @p7618 :rule cong :premises (@p4338 @p7617) :args (@t4021))
1.93/2.13	(step @p7619 :rule cong :premises (@p4358 @p7618) :args (@t4022))
1.93/2.13	(step @p7620 :rule cong :premises (@p4371 @p7619) :args (@t4023))
1.93/2.13	(step @p7621 :rule cong :premises (@p4383 @p7620) :args (@t4024))
1.93/2.13	(step @p7622 :rule cong :premises (@p4398 @p7621) :args (@t4025))
1.93/2.13	(step @p7623 :rule cong :premises (@p4407 @p7622) :args (@t4026))
1.93/2.13	(step @p7624 :rule cong :premises (@p4446 @p7623) :args (@t4027))
1.93/2.13	(step @p7625 :rule cong :premises (@p4460 @p7624) :args (@t4028))
1.93/2.13	(step @p7626 :rule cong :premises (@p4476 @p7625) :args (@t4029))
1.93/2.13	(step @p7627 :rule cong :premises (@p4491 @p7626) :args (@t4030))
1.93/2.13	(step @p7628 :rule cong :premises (@p4513 @p7627) :args (@t4031))
1.93/2.13	(step @p7629 :rule cong :premises (@p4564 @p7628) :args (@t4032))
1.93/2.13	(step @p7630 :rule cong :premises (@p4573 @p7629) :args (@t4033))
1.93/2.13	(step @p7631 :rule cong :premises (@p4578 @p7630) :args (@t4034))
1.93/2.13	(step @p7632 :rule cong :premises (@p4590 @p7631) :args (@t4035))
1.93/2.13	(step @p7633 :rule cong :premises (@p4623 @p7632) :args (@t4036))
1.93/2.13	(step @p7634 :rule cong :premises (@p4644 @p7633) :args (@t4037))
1.93/2.13	(step @p7635 :rule cong :premises (@p4670 @p7634) :args (@t4038))
1.93/2.13	(step @p7636 :rule cong :premises (@p4686 @p7635) :args (@t4039))
1.93/2.13	(step @p7637 :rule cong :premises (@p4707 @p7636) :args (@t4040))
1.93/2.13	(step @p7638 :rule cong :premises (@p4716 @p7637) :args (@t4041))
1.93/2.13	(step @p7639 :rule cong :premises (@p4732 @p7638) :args (@t4042))
1.93/2.13	(step @p7640 :rule cong :premises (@p4748 @p7639) :args (@t4043))
1.93/2.13	(step @p7641 :rule cong :premises (@p4767 @p7640) :args (@t4044))
1.93/2.13	(step @p7642 :rule cong :premises (@p4791 @p7641) :args (@t4045))
1.93/2.13	(step @p7643 :rule cong :premises (@p4811 @p7642) :args (@t4046))
1.93/2.13	(step @p7644 :rule cong :premises (@p4836 @p7643) :args (@t4047))
1.93/2.13	(step @p7645 :rule cong :premises (@p4846 @p7644) :args (@t4048))
1.93/2.13	(step @p7646 :rule cong :premises (@p4888 @p7645) :args (@t4049))
1.93/2.13	(step @p7647 :rule cong :premises (@p4918 @p7646) :args (@t4050))
1.93/2.13	(step @p7648 :rule cong :premises (@p4934 @p7647) :args (@t4051))
1.93/2.13	(step @p7649 :rule cong :premises (@p4947 @p7648) :args (@t4052))
1.93/2.13	(step @p7650 :rule cong :premises (@p4960 @p7649) :args (@t4053))
1.93/2.13	(step @p7651 :rule cong :premises (@p4970 @p7650) :args (@t4054))
1.93/2.13	(step @p7652 :rule cong :premises (@p4975 @p7651) :args (@t4055))
1.93/2.13	(step @p7653 :rule cong :premises (@p5015 @p7652) :args (@t4056))
1.93/2.13	(step @p7654 :rule cong :premises (@p5035 @p7653) :args (@t4057))
1.93/2.13	(step @p7655 :rule cong :premises (@p5039 @p7654) :args (@t4058))
1.93/2.13	(step @p7656 :rule cong :premises (@p5162 @p7655) :args (@t4059))
1.93/2.13	(step @p7657 :rule cong :premises (@p5318 @p7656) :args (@t4060))
1.93/2.13	(step @p7658 :rule cong :premises (@p5380 @p7657) :args (@t4061))
1.93/2.13	(step @p7659 :rule cong :premises (@p5392 @p7658) :args (@t4062))
1.93/2.13	(step @p7660 :rule cong :premises (@p5429 @p7659) :args (@t4063))
1.93/2.13	(step @p7661 :rule cong :premises (@p5459 @p7660) :args (@t4064))
1.93/2.13	(step @p7662 :rule cong :premises (@p5530 @p7661) :args (@t4065))
1.93/2.13	(step @p7663 :rule cong :premises (@p5539 @p7662) :args (@t4066))
1.93/2.13	(step @p7664 :rule cong :premises (@p5551 @p7663) :args (@t4067))
1.93/2.13	(step @p7665 :rule cong :premises (@p5560 @p7664) :args (@t4068))
1.93/2.13	(step @p7666 :rule cong :premises (@p5621 @p7665) :args (@t4069))
1.93/2.13	(step @p7667 :rule cong :premises (@p5694 @p7666) :args (@t4070))
1.93/2.13	(step @p7668 :rule cong :premises (@p5740 @p7667) :args (@t4071))
1.93/2.13	(step @p7669 :rule cong :premises (@p5779 @p7668) :args (@t4072))
1.93/2.13	(step @p7670 :rule cong :premises (@p5802 @p7669) :args (@t4073))
1.93/2.13	(step @p7671 :rule cong :premises (@p5818 @p7670) :args (@t4074))
1.93/2.13	(step @p7672 :rule cong :premises (@p5859 @p7671) :args (@t4075))
1.93/2.13	(step @p7673 :rule cong :premises (@p5917 @p7672) :args (@t4076))
1.93/2.13	(step @p7674 :rule cong :premises (@p5948 @p7673) :args (@t4077))
1.93/2.13	(step @p7675 :rule cong :premises (@p5957 @p7674) :args (@t4078))
1.93/2.13	(step @p7676 :rule cong :premises (@p5965 @p7675) :args (@t4079))
1.93/2.13	(step @p7677 :rule cong :premises (@p5976 @p7676) :args (@t4080))
1.93/2.13	(step @p7678 :rule cong :premises (@p5984 @p7677) :args (@t4081))
1.93/2.13	(step @p7679 :rule cong :premises (@p6001 @p7678) :args (@t4082))
1.93/2.13	(step @p7680 :rule cong :premises (@p6042 @p7679) :args (@t4083))
1.93/2.13	(step @p7681 :rule cong :premises (@p6046 @p7680) :args (@t4084))
1.93/2.13	(step @p7682 :rule cong :premises (@p6061 @p7681) :args (@t4085))
1.93/2.13	(step @p7683 :rule cong :premises (@p6065 @p7682) :args (@t4086))
1.93/2.13	(step @p7684 :rule cong :premises (@p6095 @p7683) :args (@t4087))
1.93/2.13	(step @p7685 :rule cong :premises (@p6120 @p7684) :args (@t4088))
1.93/2.13	(step @p7686 :rule cong :premises (@p6134 @p7685) :args (@t4089))
1.93/2.13	(step @p7687 :rule cong :premises (@p6143 @p7686) :args (@t4090))
1.93/2.13	(step @p7688 :rule cong :premises (@p6164 @p7687) :args (@t4091))
1.93/2.13	(step @p7689 :rule cong :premises (@p6202 @p7688) :args (@t4092))
1.93/2.13	(step @p7690 :rule cong :premises (@p6235 @p7689) :args (@t4093))
1.93/2.13	(step @p7691 :rule cong :premises (@p6295 @p7690) :args (@t4094))
1.93/2.13	(step @p7692 :rule cong :premises (@p6309 @p7691) :args (@t4095))
1.93/2.13	(step @p7693 :rule cong :premises (@p6324 @p7692) :args (@t4096))
1.93/2.13	(step @p7694 :rule cong :premises (@p6329 @p7693) :args (@t4097))
1.93/2.13	(step @p7695 :rule cong :premises (@p6347 @p7694) :args (@t4098))
1.93/2.13	(step @p7696 :rule cong :premises (@p6365 @p7695) :args (@t4099))
1.93/2.13	(step @p7697 :rule cong :premises (@p6390 @p7696) :args (@t4100))
1.93/2.13	(step @p7698 :rule cong :premises (@p6417 @p7697) :args (@t4101))
1.93/2.13	(step @p7699 :rule cong :premises (@p6472 @p7698) :args (@t4102))
1.93/2.13	(step @p7700 :rule cong :premises (@p6481 @p7699) :args (@t4103))
1.93/2.13	(step @p7701 :rule refl :args (tptp.emptyinunitempty))
1.93/2.13	(step @p7702 :rule cong :premises (@p7701 @p7700) :args (@t4104))
1.93/2.13	(step @p7703 :rule cong :premises (@p6502 @p7702) :args (@t4105))
1.93/2.13	(step @p7704 :rule cong :premises (@p6542 @p7703) :args (@t4106))
1.93/2.13	(step @p7705 :rule cong :premises (@p6587 @p7704) :args (@t4107))
1.93/2.13	(step @p7706 :rule cong :premises (@p6601 @p7705) :args (@t4108))
1.93/2.13	(step @p7707 :rule cong :premises (@p6634 @p7706) :args (@t4109))
1.93/2.13	(step @p7708 :rule cong :premises (@p6639 @p7707) :args (@t4110))
1.93/2.13	(step @p7709 :rule cong :premises (@p6652 @p7708) :args (@t4111))
1.93/2.13	(step @p7710 :rule cong :premises (@p6667 @p7709) :args (@t4112))
1.93/2.13	(step @p7711 :rule cong :premises (@p6699 @p7710) :args (@t4113))
1.93/2.13	(step @p7712 :rule cong :premises (@p6708 @p7711) :args (@t4114))
1.93/2.13	(step @p7713 :rule cong :premises (@p6719 @p7712) :args (@t4115))
1.93/2.13	(step @p7714 :rule cong :premises (@p6734 @p7713) :args (@t4116))
1.93/2.13	(step @p7715 :rule cong :premises (@p6770 @p7714) :args (@t4117))
1.93/2.13	(step @p7716 :rule cong :premises (@p6779 @p7715) :args (@t4118))
1.93/2.13	(step @p7717 :rule cong :premises (@p6798 @p7716) :args (@t4119))
1.93/2.13	(step @p7718 :rule cong :premises (@p6810 @p7717) :args (@t4120))
1.93/2.13	(step @p7719 :rule cong :premises (@p6827 @p7718) :args (@t4121))
1.93/2.13	(step @p7720 :rule cong :premises (@p6877 @p7719) :args (@t4122))
1.93/2.13	(step @p7721 :rule cong :premises (@p7148 @p7720) :args (@t4123))
1.93/2.13	(step @p7722 :rule cong :premises (@p7193 @p7721) :args (@t4124))
1.93/2.13	(step @p7723 :rule cong :premises (@p7280 @p7722) :args (@t4125))
1.93/2.13	(step @p7724 :rule cong :premises (@p7366 @p7723) :args (@t4126))
1.93/2.13	(step @p7725 :rule cong :premises (@p7386 @p7724) :args (@t4127))
1.93/2.13	(step @p7726 :rule refl :args (tptp.omega0Ax))
1.93/2.13	(step @p7727 :rule cong :premises (@p7726 @p7725) :args (@t4128))
1.93/2.13	(step @p7728 :rule cong :premises (@p7405 @p7727) :args (@t4129))
1.93/2.13	(step @p7729 :rule cong :premises (@p7418 @p7728) :args (@t4130))
1.93/2.13	(step @p7730 :rule cong :premises (@p7428 @p7729) :args (@t4131))
1.93/2.13	(step @p7731 :rule cong :premises (@p7432 @p7730) :args (@t4132))
1.93/2.13	(step @p7732 :rule cong :premises (@p7443 @p7731) :args (@t4133))
1.93/2.13	(step @p7733 :rule cong :premises (@p7732) :args ((not @t4133)))
1.93/2.13	(step @p7734 :rule refl :args (@t1007))
1.93/2.13	(step @p7735 :rule cong :premises (@p821 @p7734) :args (@t1008))
1.93/2.13	(step @p7736 :rule cong :premises (@p7735) :args (@t1009))
1.93/2.13	(step @p7737 :rule cong :premises (@p824 @p7736) :args (@t1010))
1.93/2.13	(step @p7738 :rule cong :premises (@p7737) :args (@t1011))
1.93/2.13	(step @p7739 :rule cong :premises (@p815 @p7738) :args (@t1012))
1.93/2.13	(step @p7740 :rule cong :premises (@p941 @p7739) :args (@t1013))
1.93/2.13	(step @p7741 :rule cong :premises (@p1094 @p7740) :args (@t1014))
1.93/2.13	(step @p7742 :rule cong :premises (@p1266 @p7741) :args (@t1015))
1.93/2.13	(step @p7743 :rule cong :premises (@p1324 @p7742) :args (@t1016))
1.93/2.13	(step @p7744 :rule cong :premises (@p1352 @p7743) :args (@t1017))
1.93/2.13	(step @p7745 :rule cong :premises (@p1480 @p7744) :args (@t1018))
1.93/2.13	(step @p7746 :rule cong :premises (@p1583 @p7745) :args (@t1019))
1.93/2.13	(step @p7747 :rule cong :premises (@p1592 @p7746) :args (@t1020))
1.93/2.13	(step @p7748 :rule cong :premises (@p1675 @p7747) :args (@t1021))
1.93/2.13	(step @p7749 :rule cong :premises (@p1813 @p7748) :args (@t1022))
1.93/2.13	(step @p7750 :rule cong :premises (@p1827 @p7749) :args (@t1023))
1.93/2.13	(step @p7751 :rule cong :premises (@p1849 @p7750) :args (@t1024))
1.93/2.13	(step @p7752 :rule cong :premises (@p1895 @p7751) :args (@t1025))
1.93/2.13	(step @p7753 :rule cong :premises (@p1922 @p7752) :args (@t1026))
1.93/2.13	(step @p7754 :rule cong :premises (@p1954 @p7753) :args (@t1027))
1.93/2.13	(step @p7755 :rule cong :premises (@p2029 @p7754) :args (@t1028))
1.93/2.13	(step @p7756 :rule cong :premises (@p2097 @p7755) :args (@t1029))
1.93/2.13	(step @p7757 :rule cong :premises (@p2155 @p7756) :args (@t1030))
1.93/2.13	(step @p7758 :rule cong :premises (@p2168 @p7757) :args (@t1031))
1.93/2.13	(step @p7759 :rule cong :premises (@p2181 @p7758) :args (@t1032))
1.93/2.13	(step @p7760 :rule cong :premises (@p2219 @p7759) :args (@t1033))
1.93/2.13	(step @p7761 :rule cong :premises (@p2260 @p7760) :args (@t1034))
1.93/2.13	(step @p7762 :rule cong :premises (@p2268 @p7761) :args (@t1035))
1.93/2.13	(step @p7763 :rule cong :premises (@p2308 @p7762) :args (@t1036))
1.93/2.13	(step @p7764 :rule cong :premises (@p2359 @p7763) :args (@t1037))
1.93/2.13	(step @p7765 :rule cong :premises (@p2405 @p7764) :args (@t1038))
1.93/2.13	(step @p7766 :rule cong :premises (@p2451 @p7765) :args (@t1039))
1.93/2.13	(step @p7767 :rule cong :premises (@p2470 @p7766) :args (@t1040))
1.93/2.13	(step @p7768 :rule cong :premises (@p2492 @p7767) :args (@t1041))
1.93/2.13	(step @p7769 :rule cong :premises (@p2501 @p7768) :args (@t1042))
1.93/2.13	(step @p7770 :rule cong :premises (@p2522 @p7769) :args (@t1043))
1.93/2.13	(step @p7771 :rule cong :premises (@p2541 @p7770) :args (@t1044))
1.93/2.13	(step @p7772 :rule cong :premises (@p2548 @p7771) :args (@t1045))
1.93/2.13	(step @p7773 :rule cong :premises (@p2614 @p7772) :args (@t1046))
1.93/2.13	(step @p7774 :rule cong :premises (@p2637 @p7773) :args (@t1047))
1.93/2.13	(step @p7775 :rule cong :premises (@p2735 @p7774) :args (@t1048))
1.93/2.13	(step @p7776 :rule cong :premises (@p2746 @p7775) :args (@t1049))
1.93/2.13	(step @p7777 :rule cong :premises (@p2783 @p7776) :args (@t1050))
1.93/2.13	(step @p7778 :rule cong :premises (@p2823 @p7777) :args (@t1051))
1.93/2.13	(step @p7779 :rule cong :premises (@p2854 @p7778) :args (@t1052))
1.93/2.13	(step @p7780 :rule cong :premises (@p2864 @p7779) :args (@t1053))
1.93/2.13	(step @p7781 :rule cong :premises (@p2873 @p7780) :args (@t1054))
1.93/2.13	(step @p7782 :rule cong :premises (@p2894 @p7781) :args (@t1055))
1.93/2.13	(step @p7783 :rule cong :premises (@p2901 @p7782) :args (@t1056))
1.93/2.13	(step @p7784 :rule cong :premises (@p2970 @p7783) :args (@t1057))
1.93/2.13	(step @p7785 :rule cong :premises (@p3034 @p7784) :args (@t1058))
1.93/2.13	(step @p7786 :rule cong :premises (@p3062 @p7785) :args (@t1059))
1.93/2.13	(step @p7787 :rule cong :premises (@p3082 @p7786) :args (@t1060))
1.93/2.13	(step @p7788 :rule cong :premises (@p3122 @p7787) :args (@t1061))
1.93/2.13	(step @p7789 :rule cong :premises (@p3205 @p7788) :args (@t1062))
1.93/2.13	(step @p7790 :rule cong :premises (@p3243 @p7789) :args (@t1063))
1.93/2.13	(step @p7791 :rule cong :premises (@p3255 @p7790) :args (@t1064))
1.93/2.13	(step @p7792 :rule cong :premises (@p3279 @p7791) :args (@t1065))
1.93/2.13	(step @p7793 :rule cong :premises (@p3310 @p7792) :args (@t1066))
1.93/2.13	(step @p7794 :rule cong :premises (@p3327 @p7793) :args (@t1067))
1.93/2.13	(step @p7795 :rule cong :premises (@p3378 @p7794) :args (@t1068))
1.93/2.13	(step @p7796 :rule cong :premises (@p3387 @p7795) :args (@t1069))
1.93/2.13	(step @p7797 :rule cong :premises (@p3437 @p7796) :args (@t1070))
1.93/2.13	(step @p7798 :rule cong :premises (@p3467 @p7797) :args (@t1071))
1.93/2.13	(step @p7799 :rule cong :premises (@p3533 @p7798) :args (@t1072))
1.93/2.13	(step @p7800 :rule cong :premises (@p3575 @p7799) :args (@t1073))
1.93/2.13	(step @p7801 :rule cong :premises (@p3617 @p7800) :args (@t1074))
1.93/2.13	(step @p7802 :rule cong :premises (@p3659 @p7801) :args (@t1075))
1.93/2.13	(step @p7803 :rule cong :premises (@p3701 @p7802) :args (@t1076))
1.93/2.13	(step @p7804 :rule cong :premises (@p3706 @p7803) :args (@t1077))
1.93/2.13	(step @p7805 :rule cong :premises (@p3755 @p7804) :args (@t1078))
1.93/2.13	(step @p7806 :rule cong :premises (@p3779 @p7805) :args (@t1079))
1.93/2.13	(step @p7807 :rule cong :premises (@p3800 @p7806) :args (@t1080))
1.93/2.13	(step @p7808 :rule cong :premises (@p3816 @p7807) :args (@t1081))
1.93/2.13	(step @p7809 :rule cong :premises (@p3831 @p7808) :args (@t1082))
1.93/2.13	(step @p7810 :rule cong :premises (@p3857 @p7809) :args (@t1083))
1.93/2.13	(step @p7811 :rule cong :premises (@p3872 @p7810) :args (@t1084))
1.93/2.13	(step @p7812 :rule cong :premises (@p3877 @p7811) :args (@t1085))
1.93/2.13	(step @p7813 :rule cong :premises (@p3934 @p7812) :args (@t1086))
1.93/2.13	(step @p7814 :rule cong :premises (@p3949 @p7813) :args (@t1087))
1.93/2.13	(step @p7815 :rule cong :premises (@p3966 @p7814) :args (@t1088))
1.93/2.13	(step @p7816 :rule cong :premises (@p3982 @p7815) :args (@t1089))
1.93/2.13	(step @p7817 :rule cong :premises (@p4055 @p7816) :args (@t1090))
1.93/2.13	(step @p7818 :rule cong :premises (@p4081 @p7817) :args (@t1091))
1.93/2.13	(step @p7819 :rule cong :premises (@p4098 @p7818) :args (@t1092))
1.93/2.13	(step @p7820 :rule cong :premises (@p4118 @p7819) :args (@t1093))
1.93/2.13	(step @p7821 :rule cong :premises (@p4130 @p7820) :args (@t1094))
1.93/2.13	(step @p7822 :rule cong :premises (@p4150 @p7821) :args (@t1095))
1.93/2.13	(step @p7823 :rule cong :premises (@p4167 @p7822) :args (@t1096))
1.93/2.13	(step @p7824 :rule cong :premises (@p4180 @p7823) :args (@t1097))
1.93/2.13	(step @p7825 :rule cong :premises (@p4189 @p7824) :args (@t1098))
1.93/2.13	(step @p7826 :rule cong :premises (@p4198 @p7825) :args (@t1099))
1.93/2.13	(step @p7827 :rule cong :premises (@p4214 @p7826) :args (@t1100))
1.93/2.13	(step @p7828 :rule cong :premises (@p4259 @p7827) :args (@t1101))
1.93/2.13	(step @p7829 :rule cong :premises (@p4274 @p7828) :args (@t1102))
1.93/2.13	(step @p7830 :rule cong :premises (@p4295 @p7829) :args (@t1103))
1.93/2.13	(step @p7831 :rule cong :premises (@p4312 @p7830) :args (@t1104))
1.93/2.13	(step @p7832 :rule cong :premises (@p4338 @p7831) :args (@t1105))
1.93/2.13	(step @p7833 :rule cong :premises (@p4358 @p7832) :args (@t1106))
1.93/2.13	(step @p7834 :rule cong :premises (@p4371 @p7833) :args (@t1107))
1.93/2.13	(step @p7835 :rule cong :premises (@p4383 @p7834) :args (@t1108))
1.93/2.13	(step @p7836 :rule cong :premises (@p4398 @p7835) :args (@t1109))
1.93/2.13	(step @p7837 :rule cong :premises (@p4407 @p7836) :args (@t1110))
1.93/2.13	(step @p7838 :rule cong :premises (@p4446 @p7837) :args (@t1111))
1.93/2.13	(step @p7839 :rule cong :premises (@p4460 @p7838) :args (@t1112))
1.93/2.13	(step @p7840 :rule cong :premises (@p4476 @p7839) :args (@t1113))
1.93/2.13	(step @p7841 :rule cong :premises (@p4491 @p7840) :args (@t1114))
1.93/2.13	(step @p7842 :rule cong :premises (@p4513 @p7841) :args (@t1115))
1.93/2.13	(step @p7843 :rule cong :premises (@p4564 @p7842) :args (@t1116))
1.93/2.13	(step @p7844 :rule cong :premises (@p4573 @p7843) :args (@t1117))
1.93/2.13	(step @p7845 :rule cong :premises (@p4578 @p7844) :args (@t1118))
1.93/2.13	(step @p7846 :rule cong :premises (@p4590 @p7845) :args (@t1119))
1.93/2.13	(step @p7847 :rule cong :premises (@p4623 @p7846) :args (@t1120))
1.93/2.13	(step @p7848 :rule cong :premises (@p4644 @p7847) :args (@t1121))
1.93/2.13	(step @p7849 :rule cong :premises (@p4670 @p7848) :args (@t1122))
1.93/2.13	(step @p7850 :rule cong :premises (@p4686 @p7849) :args (@t1123))
1.93/2.13	(step @p7851 :rule cong :premises (@p4707 @p7850) :args (@t1124))
1.93/2.13	(step @p7852 :rule cong :premises (@p4716 @p7851) :args (@t1125))
1.93/2.13	(step @p7853 :rule cong :premises (@p4732 @p7852) :args (@t1126))
1.93/2.13	(step @p7854 :rule cong :premises (@p4748 @p7853) :args (@t1127))
1.93/2.13	(step @p7855 :rule cong :premises (@p4767 @p7854) :args (@t1128))
1.93/2.13	(step @p7856 :rule cong :premises (@p4791 @p7855) :args (@t1129))
1.93/2.13	(step @p7857 :rule cong :premises (@p4811 @p7856) :args (@t1130))
1.93/2.13	(step @p7858 :rule cong :premises (@p4836 @p7857) :args (@t1131))
1.93/2.13	(step @p7859 :rule cong :premises (@p4846 @p7858) :args (@t1132))
1.93/2.13	(step @p7860 :rule cong :premises (@p4888 @p7859) :args (@t1133))
1.93/2.13	(step @p7861 :rule cong :premises (@p4918 @p7860) :args (@t1134))
1.93/2.13	(step @p7862 :rule cong :premises (@p4934 @p7861) :args (@t1135))
1.93/2.13	(step @p7863 :rule cong :premises (@p4947 @p7862) :args (@t1136))
1.93/2.13	(step @p7864 :rule cong :premises (@p4960 @p7863) :args (@t1137))
1.93/2.13	(step @p7865 :rule cong :premises (@p4970 @p7864) :args (@t1138))
1.93/2.13	(step @p7866 :rule cong :premises (@p4975 @p7865) :args (@t1139))
1.93/2.13	(step @p7867 :rule cong :premises (@p5015 @p7866) :args (@t1140))
1.93/2.13	(step @p7868 :rule cong :premises (@p5035 @p7867) :args (@t1141))
1.93/2.13	(step @p7869 :rule cong :premises (@p5039 @p7868) :args (@t1142))
1.93/2.13	(step @p7870 :rule cong :premises (@p5162 @p7869) :args (@t1143))
1.93/2.13	(step @p7871 :rule cong :premises (@p5318 @p7870) :args (@t1144))
1.93/2.13	(step @p7872 :rule cong :premises (@p5380 @p7871) :args (@t1145))
1.93/2.13	(step @p7873 :rule cong :premises (@p5392 @p7872) :args (@t1146))
1.93/2.13	(step @p7874 :rule cong :premises (@p5429 @p7873) :args (@t1147))
1.93/2.13	(step @p7875 :rule cong :premises (@p5459 @p7874) :args (@t1148))
1.93/2.13	(step @p7876 :rule cong :premises (@p5530 @p7875) :args (@t1149))
1.93/2.13	(step @p7877 :rule cong :premises (@p5539 @p7876) :args (@t1150))
1.93/2.13	(step @p7878 :rule cong :premises (@p5551 @p7877) :args (@t1151))
1.93/2.13	(step @p7879 :rule cong :premises (@p5560 @p7878) :args (@t1152))
1.93/2.13	(step @p7880 :rule cong :premises (@p5621 @p7879) :args (@t1153))
1.93/2.13	(step @p7881 :rule cong :premises (@p5694 @p7880) :args (@t1154))
1.93/2.13	(step @p7882 :rule cong :premises (@p5740 @p7881) :args (@t1155))
1.93/2.13	(step @p7883 :rule cong :premises (@p5779 @p7882) :args (@t1156))
1.93/2.13	(step @p7884 :rule cong :premises (@p5802 @p7883) :args (@t1157))
1.93/2.13	(step @p7885 :rule cong :premises (@p5818 @p7884) :args (@t1158))
1.93/2.13	(step @p7886 :rule cong :premises (@p5859 @p7885) :args (@t1159))
1.93/2.13	(step @p7887 :rule cong :premises (@p5917 @p7886) :args (@t1160))
1.93/2.13	(step @p7888 :rule cong :premises (@p5948 @p7887) :args (@t1161))
1.93/2.13	(step @p7889 :rule cong :premises (@p5957 @p7888) :args (@t1162))
1.93/2.13	(step @p7890 :rule cong :premises (@p5965 @p7889) :args (@t1163))
1.93/2.13	(step @p7891 :rule cong :premises (@p5976 @p7890) :args (@t1164))
1.93/2.13	(step @p7892 :rule cong :premises (@p5984 @p7891) :args (@t1165))
1.93/2.13	(step @p7893 :rule cong :premises (@p6001 @p7892) :args (@t1166))
1.93/2.13	(step @p7894 :rule cong :premises (@p6042 @p7893) :args (@t1167))
1.93/2.13	(step @p7895 :rule cong :premises (@p6046 @p7894) :args (@t1168))
1.93/2.13	(step @p7896 :rule cong :premises (@p6061 @p7895) :args (@t1169))
1.93/2.13	(step @p7897 :rule cong :premises (@p6065 @p7896) :args (@t1170))
1.93/2.13	(step @p7898 :rule cong :premises (@p6095 @p7897) :args (@t1171))
1.93/2.13	(step @p7899 :rule cong :premises (@p6120 @p7898) :args (@t1172))
1.93/2.13	(step @p7900 :rule cong :premises (@p6134 @p7899) :args (@t1173))
1.93/2.13	(step @p7901 :rule cong :premises (@p6143 @p7900) :args (@t1174))
1.93/2.13	(step @p7902 :rule cong :premises (@p6164 @p7901) :args (@t1175))
1.93/2.13	(step @p7903 :rule cong :premises (@p6202 @p7902) :args (@t1176))
1.93/2.13	(step @p7904 :rule cong :premises (@p6235 @p7903) :args (@t1177))
1.93/2.13	(step @p7905 :rule cong :premises (@p6295 @p7904) :args (@t1178))
1.93/2.13	(step @p7906 :rule cong :premises (@p6309 @p7905) :args (@t1179))
1.93/2.13	(step @p7907 :rule cong :premises (@p6324 @p7906) :args (@t1180))
1.93/2.13	(step @p7908 :rule cong :premises (@p6329 @p7907) :args (@t1181))
1.93/2.13	(step @p7909 :rule cong :premises (@p6347 @p7908) :args (@t1182))
1.93/2.13	(step @p7910 :rule cong :premises (@p6365 @p7909) :args (@t1183))
1.93/2.13	(step @p7911 :rule cong :premises (@p6390 @p7910) :args (@t1184))
1.93/2.13	(step @p7912 :rule cong :premises (@p6417 @p7911) :args (@t1185))
1.93/2.13	(step @p7913 :rule cong :premises (@p6472 @p7912) :args (@t1186))
1.93/2.13	(step @p7914 :rule cong :premises (@p6481 @p7913) :args (@t1187))
1.93/2.13	(step @p7915 :rule cong :premises (@p7701 @p7914) :args (@t1188))
1.93/2.13	(step @p7916 :rule cong :premises (@p6502 @p7915) :args (@t1189))
1.93/2.13	(step @p7917 :rule cong :premises (@p6542 @p7916) :args (@t1190))
1.93/2.13	(step @p7918 :rule cong :premises (@p6587 @p7917) :args (@t1191))
1.93/2.13	(step @p7919 :rule cong :premises (@p6601 @p7918) :args (@t1192))
1.93/2.13	(step @p7920 :rule cong :premises (@p6634 @p7919) :args (@t1193))
1.93/2.13	(step @p7921 :rule cong :premises (@p6639 @p7920) :args (@t1194))
1.93/2.13	(step @p7922 :rule cong :premises (@p6652 @p7921) :args (@t1195))
1.93/2.13	(step @p7923 :rule cong :premises (@p6667 @p7922) :args (@t1196))
1.93/2.13	(step @p7924 :rule cong :premises (@p6699 @p7923) :args (@t1197))
1.93/2.13	(step @p7925 :rule cong :premises (@p6708 @p7924) :args (@t1198))
1.93/2.13	(step @p7926 :rule cong :premises (@p6719 @p7925) :args (@t1199))
1.93/2.13	(step @p7927 :rule cong :premises (@p6734 @p7926) :args (@t1200))
1.93/2.13	(step @p7928 :rule cong :premises (@p6770 @p7927) :args (@t1201))
1.93/2.13	(step @p7929 :rule cong :premises (@p6779 @p7928) :args (@t1202))
1.93/2.13	(step @p7930 :rule cong :premises (@p6798 @p7929) :args (@t1203))
1.93/2.13	(step @p7931 :rule cong :premises (@p6810 @p7930) :args (@t1204))
1.93/2.13	(step @p7932 :rule cong :premises (@p6827 @p7931) :args (@t1205))
1.93/2.13	(step @p7933 :rule cong :premises (@p6877 @p7932) :args (@t1206))
1.93/2.13	(step @p7934 :rule cong :premises (@p7148 @p7933) :args (@t1207))
1.93/2.13	(step @p7935 :rule cong :premises (@p7193 @p7934) :args (@t1208))
1.93/2.13	(step @p7936 :rule cong :premises (@p7280 @p7935) :args (@t1209))
1.93/2.13	(step @p7937 :rule cong :premises (@p7366 @p7936) :args (@t1210))
1.93/2.13	(step @p7938 :rule cong :premises (@p7386 @p7937) :args (@t1211))
1.93/2.13	(step @p7939 :rule cong :premises (@p7726 @p7938) :args (@t1212))
1.93/2.13	(step @p7940 :rule cong :premises (@p7405 @p7939) :args (@t1213))
1.93/2.13	(step @p7941 :rule cong :premises (@p7418 @p7940) :args (@t1214))
1.93/2.13	(step @p7942 :rule cong :premises (@p7428 @p7941) :args (@t1215))
1.93/2.13	(step @p7943 :rule cong :premises (@p7432 @p7942) :args (@t1216))
1.93/2.13	(step @p7944 :rule cong :premises (@p7443 @p7943) :args (@t1217))
1.93/2.13	(step @p7945 :rule cong :premises (@p7944) :args (@t1218))
1.93/2.13	(step @p7946 :rule trans :premises (@p7945 @p7733))
1.93/2.13	(step @p7947 :rule trans :premises (@p7946 @p7448 @p341))
1.93/2.13	(step @p7948 :rule eq_resolve :premises (@p207 @p7947))
1.93/2.13	(step @p7949 :rule not_implies_elim2 :premises (@p7948))
1.93/2.13	(step @p7950 :rule not_implies_elim2 :premises (@p7949))
1.93/2.13	(step @p7951 :rule not_implies_elim2 :premises (@p7950))
1.93/2.13	(step @p7952 :rule not_implies_elim2 :premises (@p7951))
1.93/2.13	(step @p7953 :rule not_implies_elim2 :premises (@p7952))
1.93/2.13	(step @p7954 :rule not_implies_elim2 :premises (@p7953))
1.93/2.13	(step @p7955 :rule not_implies_elim2 :premises (@p7954))
1.93/2.13	(step @p7956 :rule not_implies_elim2 :premises (@p7955))
1.93/2.13	(step @p7957 :rule not_implies_elim2 :premises (@p7956))
1.93/2.13	(step @p7958 :rule not_implies_elim2 :premises (@p7957))
1.93/2.13	(step @p7959 :rule not_implies_elim2 :premises (@p7958))
1.93/2.13	(step @p7960 :rule not_implies_elim2 :premises (@p7959))
1.93/2.13	(step @p7961 :rule not_implies_elim2 :premises (@p7960))
1.93/2.13	(step @p7962 :rule not_implies_elim2 :premises (@p7961))
1.93/2.13	(step @p7963 :rule not_implies_elim2 :premises (@p7962))
1.93/2.13	(step @p7964 :rule not_implies_elim2 :premises (@p7963))
1.93/2.13	(step @p7965 :rule not_implies_elim2 :premises (@p7964))
1.93/2.13	(step @p7966 :rule not_implies_elim2 :premises (@p7965))
1.93/2.13	(step @p7967 :rule not_implies_elim2 :premises (@p7966))
1.93/2.13	(step @p7968 :rule not_implies_elim2 :premises (@p7967))
1.93/2.13	(step @p7969 :rule not_implies_elim2 :premises (@p7968))
1.93/2.13	(step @p7970 :rule not_implies_elim2 :premises (@p7969))
1.93/2.13	(step @p7971 :rule not_implies_elim2 :premises (@p7970))
1.93/2.13	(step @p7972 :rule not_implies_elim2 :premises (@p7971))
1.93/2.13	(step @p7973 :rule not_implies_elim2 :premises (@p7972))
1.93/2.13	(step @p7974 :rule not_implies_elim2 :premises (@p7973))
1.93/2.13	(step @p7975 :rule not_implies_elim2 :premises (@p7974))
1.93/2.13	(step @p7976 :rule not_implies_elim2 :premises (@p7975))
1.93/2.13	(step @p7977 :rule not_implies_elim2 :premises (@p7976))
1.93/2.13	(step @p7978 :rule not_implies_elim2 :premises (@p7977))
1.93/2.13	(step @p7979 :rule not_implies_elim2 :premises (@p7978))
1.93/2.13	(step @p7980 :rule not_implies_elim2 :premises (@p7979))
1.93/2.13	(step @p7981 :rule not_implies_elim2 :premises (@p7980))
1.93/2.13	(step @p7982 :rule not_implies_elim2 :premises (@p7981))
1.93/2.13	(step @p7983 :rule not_implies_elim2 :premises (@p7982))
1.93/2.13	(step @p7984 :rule not_implies_elim2 :premises (@p7983))
1.93/2.13	(step @p7985 :rule not_implies_elim2 :premises (@p7984))
1.93/2.13	(step @p7986 :rule not_implies_elim2 :premises (@p7985))
1.93/2.13	(step @p7987 :rule not_implies_elim2 :premises (@p7986))
1.93/2.13	(step @p7988 :rule not_implies_elim2 :premises (@p7987))
1.93/2.13	(step @p7989 :rule not_implies_elim2 :premises (@p7988))
1.93/2.13	(step @p7990 :rule not_implies_elim2 :premises (@p7989))
1.93/2.13	(step @p7991 :rule not_implies_elim2 :premises (@p7990))
1.93/2.13	(step @p7992 :rule not_implies_elim2 :premises (@p7991))
1.93/2.13	(step @p7993 :rule not_implies_elim2 :premises (@p7992))
1.93/2.13	(step @p7994 :rule not_implies_elim2 :premises (@p7993))
1.93/2.13	(step @p7995 :rule not_implies_elim2 :premises (@p7994))
1.93/2.13	(step @p7996 :rule not_implies_elim2 :premises (@p7995))
1.93/2.13	(step @p7997 :rule not_implies_elim2 :premises (@p7996))
1.93/2.13	(step @p7998 :rule not_implies_elim2 :premises (@p7997))
1.93/2.13	(step @p7999 :rule not_implies_elim2 :premises (@p7998))
1.93/2.13	(step @p8000 :rule not_implies_elim2 :premises (@p7999))
1.93/2.13	(step @p8001 :rule not_implies_elim2 :premises (@p8000))
1.93/2.13	(step @p8002 :rule not_implies_elim2 :premises (@p8001))
1.93/2.13	(step @p8003 :rule not_implies_elim2 :premises (@p8002))
1.93/2.13	(step @p8004 :rule not_implies_elim2 :premises (@p8003))
1.93/2.13	(step @p8005 :rule not_implies_elim2 :premises (@p8004))
1.93/2.13	(step @p8006 :rule not_implies_elim2 :premises (@p8005))
1.93/2.13	(step @p8007 :rule not_implies_elim2 :premises (@p8006))
1.93/2.13	(step @p8008 :rule not_implies_elim2 :premises (@p8007))
1.93/2.13	(step @p8009 :rule not_implies_elim2 :premises (@p8008))
1.93/2.13	(step @p8010 :rule not_implies_elim2 :premises (@p8009))
1.93/2.13	(step @p8011 :rule not_implies_elim2 :premises (@p8010))
1.93/2.13	(step @p8012 :rule not_implies_elim2 :premises (@p8011))
1.93/2.13	(step @p8013 :rule not_implies_elim2 :premises (@p8012))
1.93/2.13	(step @p8014 :rule not_implies_elim2 :premises (@p8013))
1.93/2.13	(step @p8015 :rule not_implies_elim2 :premises (@p8014))
1.93/2.13	(step @p8016 :rule not_implies_elim2 :premises (@p8015))
1.93/2.13	(step @p8017 :rule not_implies_elim2 :premises (@p8016))
1.93/2.13	(step @p8018 :rule not_implies_elim2 :premises (@p8017))
1.93/2.13	(step @p8019 :rule not_implies_elim2 :premises (@p8018))
1.93/2.13	(step @p8020 :rule not_implies_elim2 :premises (@p8019))
1.93/2.13	(step @p8021 :rule not_implies_elim2 :premises (@p8020))
1.93/2.13	(step @p8022 :rule not_implies_elim2 :premises (@p8021))
1.93/2.13	(step @p8023 :rule not_implies_elim1 :premises (@p8022))
1.93/2.13	(step @p8024 :rule not_implies_elim2 :premises (@p8022))
1.93/2.13	(step @p8025 :rule not_implies_elim2 :premises (@p8024))
1.93/2.13	(step @p8026 :rule not_implies_elim2 :premises (@p8025))
1.93/2.13	(step @p8027 :rule not_implies_elim2 :premises (@p8026))
1.93/2.13	(step @p8028 :rule not_implies_elim2 :premises (@p8027))
1.93/2.13	(step @p8029 :rule not_implies_elim2 :premises (@p8028))
1.93/2.13	(step @p8030 :rule not_implies_elim2 :premises (@p8029))
1.93/2.13	(step @p8031 :rule not_implies_elim2 :premises (@p8030))
1.93/2.13	(step @p8032 :rule not_implies_elim2 :premises (@p8031))
1.93/2.13	(step @p8033 :rule not_implies_elim2 :premises (@p8032))
1.93/2.13	(step @p8034 :rule not_implies_elim2 :premises (@p8033))
1.93/2.13	(step @p8035 :rule not_implies_elim2 :premises (@p8034))
1.93/2.13	(step @p8036 :rule not_implies_elim2 :premises (@p8035))
1.93/2.13	(step @p8037 :rule not_implies_elim2 :premises (@p8036))
1.93/2.13	(step @p8038 :rule not_implies_elim2 :premises (@p8037))
1.93/2.13	(step @p8039 :rule not_implies_elim2 :premises (@p8038))
1.93/2.13	(step @p8040 :rule not_implies_elim2 :premises (@p8039))
1.93/2.13	(step @p8041 :rule not_implies_elim2 :premises (@p8040))
1.93/2.13	(step @p8042 :rule not_implies_elim2 :premises (@p8041))
1.93/2.13	(step @p8043 :rule not_implies_elim2 :premises (@p8042))
1.93/2.13	(step @p8044 :rule not_implies_elim2 :premises (@p8043))
1.93/2.13	(step @p8045 :rule not_implies_elim2 :premises (@p8044))
1.93/2.13	(step @p8046 :rule not_implies_elim2 :premises (@p8045))
1.93/2.13	(step @p8047 :rule not_implies_elim2 :premises (@p8046))
1.93/2.13	(step @p8048 :rule not_implies_elim2 :premises (@p8047))
1.93/2.13	(step @p8049 :rule not_implies_elim2 :premises (@p8048))
1.93/2.13	(step @p8050 :rule not_implies_elim2 :premises (@p8049))
1.93/2.13	(step @p8051 :rule not_implies_elim2 :premises (@p8050))
1.93/2.13	(step @p8052 :rule not_implies_elim2 :premises (@p8051))
1.93/2.13	(step @p8053 :rule not_implies_elim2 :premises (@p8052))
1.93/2.13	(step @p8054 :rule not_implies_elim2 :premises (@p8053))
1.93/2.13	(step @p8055 :rule not_implies_elim2 :premises (@p8054))
1.93/2.13	(step @p8056 :rule not_implies_elim2 :premises (@p8055))
1.93/2.13	(step @p8057 :rule not_implies_elim2 :premises (@p8056))
1.93/2.13	(step @p8058 :rule not_implies_elim2 :premises (@p8057))
1.93/2.13	(step @p8059 :rule not_implies_elim2 :premises (@p8058))
1.93/2.13	(step @p8060 :rule not_implies_elim2 :premises (@p8059))
1.93/2.13	(step @p8061 :rule not_implies_elim2 :premises (@p8060))
1.93/2.13	(step @p8062 :rule not_implies_elim2 :premises (@p8061))
1.93/2.13	(step @p8063 :rule not_implies_elim2 :premises (@p8062))
1.93/2.13	(step @p8064 :rule not_implies_elim2 :premises (@p8063))
1.93/2.13	(step @p8065 :rule not_implies_elim2 :premises (@p8064))
1.93/2.13	(step @p8066 :rule not_implies_elim2 :premises (@p8065))
1.93/2.13	(step @p8067 :rule not_implies_elim2 :premises (@p8066))
1.93/2.13	(step @p8068 :rule not_implies_elim2 :premises (@p8067))
1.93/2.13	(step @p8069 :rule not_implies_elim2 :premises (@p8068))
1.93/2.13	(step @p8070 :rule not_implies_elim2 :premises (@p8069))
1.93/2.13	(step @p8071 :rule not_implies_elim2 :premises (@p8070))
1.93/2.13	(step @p8072 :rule not_implies_elim2 :premises (@p8071))
1.93/2.13	(step @p8073 :rule not_implies_elim2 :premises (@p8072))
1.93/2.13	(step @p8074 :rule not_implies_elim2 :premises (@p8073))
1.93/2.13	(step @p8075 :rule not_implies_elim2 :premises (@p8074))
1.93/2.13	(step @p8076 :rule not_implies_elim2 :premises (@p8075))
1.93/2.13	(step @p8077 :rule not_implies_elim2 :premises (@p8076))
1.93/2.13	(step @p8078 :rule not_implies_elim2 :premises (@p8077))
1.93/2.13	(step @p8079 :rule not_implies_elim2 :premises (@p8078))
1.93/2.13	(step @p8080 :rule not_implies_elim2 :premises (@p8079))
1.93/2.13	(step @p8081 :rule not_implies_elim2 :premises (@p8080))
1.93/2.13	(step @p8082 :rule not_implies_elim2 :premises (@p8081))
1.93/2.13	(step @p8083 :rule not_implies_elim2 :premises (@p8082))
1.93/2.13	(step @p8084 :rule not_implies_elim2 :premises (@p8083))
1.93/2.13	(step @p8085 :rule not_implies_elim2 :premises (@p8084))
1.93/2.13	(step @p8086 :rule not_implies_elim2 :premises (@p8085))
1.93/2.13	(step @p8087 :rule not_implies_elim2 :premises (@p8086))
1.93/2.13	(step @p8088 :rule not_implies_elim2 :premises (@p8087))
1.93/2.13	(step @p8089 :rule not_implies_elim2 :premises (@p8088))
1.93/2.13	(step @p8090 :rule not_implies_elim2 :premises (@p8089))
1.93/2.13	(step @p8091 :rule not_implies_elim2 :premises (@p8090))
1.93/2.13	(step @p8092 :rule not_implies_elim2 :premises (@p8091))
1.93/2.13	(step @p8093 :rule not_implies_elim2 :premises (@p8092))
1.93/2.13	(step @p8094 :rule not_implies_elim2 :premises (@p8093))
1.93/2.13	(step @p8095 :rule not_implies_elim2 :premises (@p8094))
1.93/2.13	(step @p8096 :rule not_implies_elim2 :premises (@p8095))
1.93/2.13	(step @p8097 :rule not_implies_elim2 :premises (@p8096))
1.93/2.13	(step @p8098 :rule not_implies_elim2 :premises (@p8097))
1.93/2.13	(step @p8099 :rule not_implies_elim2 :premises (@p8098))
1.93/2.13	(step @p8100 :rule not_implies_elim2 :premises (@p8099))
1.93/2.13	(step @p8101 :rule not_implies_elim2 :premises (@p8100))
1.93/2.13	(step @p8102 :rule not_implies_elim2 :premises (@p8101))
1.93/2.13	(step @p8103 :rule not_implies_elim2 :premises (@p8102))
1.93/2.13	(step @p8104 :rule not_implies_elim2 :premises (@p8103))
1.93/2.13	(step @p8105 :rule not_implies_elim2 :premises (@p8104))
1.93/2.13	(step @p8106 :rule not_implies_elim2 :premises (@p8105))
1.93/2.13	(step @p8107 :rule not_implies_elim2 :premises (@p8106))
1.93/2.13	(step @p8108 :rule not_implies_elim2 :premises (@p8107))
1.93/2.13	(step @p8109 :rule not_implies_elim2 :premises (@p8108))
1.93/2.13	(step @p8110 :rule not_implies_elim2 :premises (@p8109))
1.93/2.13	(step @p8111 :rule not_implies_elim2 :premises (@p8110))
1.93/2.13	(step @p8112 :rule not_implies_elim2 :premises (@p8111))
1.93/2.13	(step @p8113 :rule not_implies_elim2 :premises (@p8112))
1.93/2.13	(step @p8114 :rule not_implies_elim2 :premises (@p8113))
1.93/2.13	(step @p8115 :rule not_implies_elim2 :premises (@p8114))
1.93/2.13	(step @p8116 :rule not_implies_elim2 :premises (@p8115))
1.93/2.13	(step @p8117 :rule not_implies_elim2 :premises (@p8116))
1.93/2.13	(step @p8118 :rule not_implies_elim2 :premises (@p8117))
1.93/2.13	(step @p8119 :rule not_implies_elim2 :premises (@p8118))
1.93/2.13	(step @p8120 :rule not_implies_elim2 :premises (@p8119))
1.93/2.13	(step @p8121 :rule not_implies_elim2 :premises (@p8120))
1.93/2.13	(step @p8122 :rule not_implies_elim2 :premises (@p8121))
1.93/2.13	(step @p8123 :rule not_implies_elim2 :premises (@p8122))
1.93/2.13	(step @p8124 :rule not_implies_elim2 :premises (@p8123))
1.93/2.13	(step @p8125 :rule not_implies_elim2 :premises (@p8124))
1.93/2.13	(step @p8126 :rule not_implies_elim2 :premises (@p8125))
1.93/2.13	(step @p8127 :rule not_implies_elim2 :premises (@p8126))
1.93/2.13	(step @p8128 :rule not_implies_elim2 :premises (@p8127))
1.93/2.13	(step @p8129 :rule not_implies_elim2 :premises (@p8128))
1.93/2.13	(step @p8130 :rule not_implies_elim2 :premises (@p8129))
1.93/2.13	(step @p8131 :rule not_implies_elim2 :premises (@p8130))
1.93/2.13	(step @p8132 :rule not_implies_elim2 :premises (@p8131))
1.93/2.13	(step @p8133 :rule not_implies_elim2 :premises (@p8132))
1.93/2.13	(step @p8134 :rule not_implies_elim2 :premises (@p8133))
1.93/2.13	(step @p8135 :rule not_implies_elim2 :premises (@p8134))
1.93/2.13	(step @p8136 :rule not_implies_elim2 :premises (@p8135))
1.93/2.13	(step @p8137 :rule not_implies_elim2 :premises (@p8136))
1.93/2.13	(step @p8138 :rule not_implies_elim1 :premises (@p8137))
1.93/2.13	(step @p8139 :rule instantiate :premises (@p8138) :args ((@list @t4137 @t4136 @t4135 @t4134)))
1.93/2.13	(step @p8140 :rule not_implies_elim2 :premises (@p8137))
1.93/2.13	(step @p8141 :rule skolemize :premises (@p8140))
1.93/2.13	(step @p8142 :rule bool-double-not-elim :args (@t4139))
1.93/2.13	(step @p8143 :rule refl :args (@t4152))
1.93/2.13	(step @p8144 :rule nary_cong :premises (@p8143 @p8142) :args ((or @t4152 (not @t4141))))
1.93/2.13	(step @p8145 :rule cnf_or_neg :args (@t4152 3))
1.93/2.13	(step @p8146 :rule eq_resolve :premises (@p8145 @p8144))
1.93/2.13	(step @p8147 :rule reordering :premises (@p8146) :args ((or @t4139 @t4152)))
1.93/2.13	(step @p8148 :rule chain_resolution :premises (@p8147 @p8141) :args (@t4153 @t4154))
1.93/2.13	(step @p8149 :rule alpha_equiv :args ((forall (@list @t4156 @t4155) (or (not (tptp.in @t4156 @t4137)) (not (tptp.in @t4155 @t4136)) (not (tptp.in @t4157 @t4135)) (tptp.in @t4157 @t4134))) @t4158 (@list @t4 @t1244)))
1.93/2.13	(step @p8150 :rule alpha_equiv :args (@t4139 (@list @t4 @t1236) @t4158))
1.93/2.13	(step @p8151 :rule trans :premises (@p8150 @p8149))
1.93/2.13	(step @p8152 :rule equiv_elim1 :premises (@p8151))
1.93/2.13	(step @p8153 :rule chain_resolution :premises (@p8152 @p8148) :args ((@list false) (@list @t4139)))
1.93/2.13	(step @p8154 :rule bool-double-not-elim :args (@t4148))
1.93/2.13	(step @p8155 :rule nary_cong :premises (@p8143 @p8154) :args ((or @t4152 (not @t4149))))
1.93/2.13	(step @p8156 :rule cnf_or_neg :args (@t4152 1))
1.93/2.13	(step @p8157 :rule eq_resolve :premises (@p8156 @p8155))
1.93/2.13	(step @p8158 :rule reordering :premises (@p8157) :args ((or @t4148 @t4152)))
1.93/2.13	(step @p8159 :rule chain_resolution :premises (@p8158 @p8141) :args (@t4153 @t4154))
1.93/2.13	(step @p8160 :rule bool-double-not-elim :args (@t4150))
1.93/2.13	(step @p8161 :rule nary_cong :premises (@p8143 @p8160) :args ((or @t4152 (not @t4151))))
1.93/2.13	(step @p8162 :rule cnf_or_neg :args (@t4152 0))
1.93/2.13	(step @p8163 :rule eq_resolve :premises (@p8162 @p8161))
1.93/2.13	(step @p8164 :rule reordering :premises (@p8163) :args ((or @t4150 @t4152)))
1.93/2.13	(step @p8165 :rule chain_resolution :premises (@p8164 @p8141) :args (@t4153 @t4154))
1.93/2.13	(step @p8166 :rule cnf_or_pos :args (@t4162))
1.93/2.13	(step @p8167 :rule reordering :premises (@p8166) :args ((or @t4151 @t4149 @t4161 @t4159 (not @t4162))))
1.93/2.13	(step @p8168 :rule chain_resolution :premises (@p8167 @p8165 @p8159 @p8153 @p8139) :args (@t4163 (@list @t4150 @t4148 @t4160 @t4162)))
1.93/2.13	(step @p8169 :rule instantiate :premises (@p8138) :args ((@list @t4137 @t4136 @t4134 @t4135)))
1.93/2.13	(step @p8170 :rule bool-double-not-elim :args (@t4145))
1.93/2.13	(step @p8171 :rule nary_cong :premises (@p8143 @p8170) :args ((or @t4152 (not @t4146))))
1.93/2.13	(step @p8172 :rule cnf_or_neg :args (@t4152 2))
1.93/2.13	(step @p8173 :rule eq_resolve :premises (@p8172 @p8171))
1.93/2.13	(step @p8174 :rule reordering :premises (@p8173) :args ((or @t4145 @t4152)))
1.93/2.13	(step @p8175 :rule chain_resolution :premises (@p8174 @p8141) :args (@t4153 @t4154))
1.93/2.13	(step @p8176 :rule cnf_or_pos :args (@t4165))
1.93/2.13	(step @p8177 :rule reordering :premises (@p8176) :args ((or @t4151 @t4149 @t4146 @t4164 (not @t4165))))
1.93/2.13	(step @p8178 :rule chain_resolution :premises (@p8177 @p8165 @p8159 @p8175 @p8169) :args (@t4163 (@list @t4150 @t4148 @t4145 @t4165)))
1.93/2.13	(step @p8179 :rule cnf_or_neg :args (@t4152 4))
1.93/2.13	(step @p8180 :rule chain_resolution :premises (@p8179 @p8141) :args (@t4153 @t4154))
1.93/2.13	(step @p8181 :rule cnf_or_pos :args (@t4168))
1.93/2.13	(step @p8182 :rule reordering :premises (@p8181) :args ((or @t4140 @t4167 @t4166 (not @t4168))))
1.93/2.13	(step @p8183 :rule chain_resolution :premises (@p8182 @p8180 @p8178 @p8168) :args ((@list true false false) (@list @t4140 @t4164 @t4159)))
1.93/2.13	(assume-push @p8190 @t1699)
1.93/2.13	(step @p8185 :rule instantiate :premises (@p8023) :args ((@list @t4134 @t4135)))
1.93/2.13	(step-pop @p8190 :rule scope :premises (@p8185))
1.93/2.13	(step @p8186 :rule process_scope :premises (@p8190) :args (@t4168))
1.93/2.13	(step @p8188 :rule implies_elim :premises (@p8186))
1.93/2.13	(step @p8189 false :rule chain_resolution :premises (@p8188 @p8183 @p8023) :args ((@list true false) (@list @t4168 @t1699)))
1.93/2.13	)
1.93/2.13	% SZS output end Proof
1.93/2.13	% cvc5 exiting
1.93/2.14	EOF