0.06/0.12	% Problem  : theBenchmark.p : TPTP v0.0.0. Released v0.0.0.
0.06/0.12	% Command  : /export/starexec/sandbox/solver/bin/do_cvc5 /export/starexec/sandbox/benchmark/theBenchmark.p 120 THM
0.12/0.33	% Computer : n029.cluster.edu
0.12/0.33	% Model    : x86_64 x86_64
0.12/0.33	% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
0.12/0.33	% Memory   : 8042.1875MB
0.12/0.33	% OS       : Linux 3.10.0-693.el7.x86_64
0.12/0.33	% CPULimit : 960
0.12/0.33	% WCLimit  : 120
0.12/0.33	% DateTime : Fri Sep  5 12:35:52 EDT 2025
0.12/0.34	% CPUTime  : 
0.37/0.56	%----Proving TF0_ARI
32.14/32.43	--- Run --finite-model-find --decision=internal at 18...
32.14/32.43	--- Run --decision=internal --simplification=none --no-inst-no-entail --no-cbqi --full-saturate-quant at 24...
32.14/32.43	% SZS status Theorem
32.14/32.43	% SZS output start Proof
32.14/32.43	(
32.14/32.43	(declare-type tptp.value_mngt_value ())
32.14/32.43	(declare-type tptp.bool ())
32.14/32.43	(declare-type tptp.tuple0 ())
32.14/32.43	(declare-type tptp.ty ())
32.14/32.43	(declare-type tptp.cont ())
32.14/32.43	(declare-type tptp.uni ())
32.14/32.43	(declare-type tptp.lprp_mngt_value ())
32.14/32.43	(declare-type tptp.expr ())
32.14/32.43	(declare-type tptp.value ())
32.14/32.43	(declare-type tptp.context ())
32.14/32.43	(declare-type tptp.int_mngt_value ())
32.14/32.43	(declare-type tptp.cont2 ())
32.14/32.43	(declare-const tptp.cte_proj_1 (-> tptp.expr Int))
32.14/32.43	(declare-const tptp.sub_proj_1 (-> tptp.expr tptp.expr))
32.14/32.43	(declare-const tptp.fc2 tptp.value_mngt_value)
32.14/32.43	(declare-const tptp.match_expr (-> tptp.ty tptp.expr tptp.uni tptp.uni tptp.uni))
32.14/32.43	(declare-const tptp.b_proj_1 (-> tptp.cont Int))
32.14/32.43	(declare-const tptp.a1_proj_2 (-> tptp.cont2 tptp.cont2))
32.14/32.43	(declare-const tptp.b_proj_2 (-> tptp.cont tptp.cont))
32.14/32.43	(declare-const tptp.a_proj_1 (-> tptp.cont tptp.expr))
32.14/32.43	(declare-const tptp.a1_proj_1 (-> tptp.cont2 tptp.expr))
32.14/32.43	(declare-const tptp.sub_proj_2 (-> tptp.expr tptp.expr))
32.14/32.43	(declare-const tptp.size_e (-> tptp.expr Int))
32.14/32.43	(declare-const tptp.a2_proj_2 (-> tptp.cont2 tptp.cont2))
32.14/32.43	(declare-const tptp.a2_proj_1 (-> tptp.cont2 Int))
32.14/32.43	(declare-const tptp.a_proj_2 (-> tptp.cont tptp.cont))
32.14/32.43	(declare-const tptp.tb2t1 (-> tptp.uni tptp.value_mngt_value))
32.14/32.43	(declare-const tptp.t2tb1 (-> tptp.value_mngt_value tptp.uni))
32.14/32.43	(declare-const tptp.size_c2 (-> tptp.context Int))
32.14/32.43	(declare-const tptp.fc1 (-> tptp.ty tptp.uni tptp.expr tptp.uni))
32.14/32.43	(declare-const tptp.eval_2a (-> tptp.ty tptp.expr tptp.uni tptp.uni tptp.uni))
32.14/32.43	(declare-const tptp.eval_1 (-> tptp.ty tptp.expr tptp.uni tptp.uni))
32.14/32.43	(declare-const tptp.t2tb (-> tptp.value tptp.uni))
32.14/32.43	(declare-const tptp.eval_2b (-> tptp.ty Int tptp.uni tptp.uni tptp.uni))
32.14/32.43	(declare-const tptp.int tptp.ty)
32.14/32.43	(declare-const tptp.i tptp.cont)
32.14/32.43	(declare-const tptp.underflow tptp.value)
32.14/32.43	(declare-const tptp.match_context (-> tptp.ty tptp.context tptp.uni tptp.uni tptp.uni tptp.uni))
32.14/32.43	(declare-const tptp.sub (-> tptp.expr tptp.expr tptp.expr))
32.14/32.43	(declare-const tptp.a1 (-> tptp.expr tptp.cont2 tptp.cont2))
32.14/32.43	(declare-const tptp.tb2t (-> tptp.uni tptp.value))
32.14/32.43	(declare-const tptp.infix_at (-> tptp.ty tptp.ty tptp.uni tptp.uni tptp.uni))
32.14/32.43	(declare-const tptp.size_e1 (-> tptp.expr Int))
32.14/32.43	(declare-const tptp.sort (-> tptp.ty tptp.uni Bool))
32.14/32.43	(declare-const tptp.eval_2 (-> tptp.ty tptp.expr tptp.uni tptp.uni tptp.uni))
32.14/32.43	(declare-const tptp.value1 tptp.ty)
32.14/32.43	(declare-const tptp.eval_3b (-> Int tptp.int_mngt_value tptp.int_mngt_value))
32.14/32.43	(declare-const tptp.t2tb2 (-> tptp.tuple0 tptp.uni))
32.14/32.43	(declare-const tptp.eval_0 (-> tptp.expr tptp.value))
32.14/32.43	(declare-const tptp.match_cont (-> tptp.ty tptp.cont tptp.uni tptp.uni tptp.uni tptp.uni))
32.14/32.43	(declare-const tptp.tb2t2 (-> tptp.uni tptp.tuple0))
32.14/32.43	(declare-const tptp.empty tptp.context)
32.14/32.43	(declare-const tptp.recompose (-> tptp.context tptp.expr tptp.expr))
32.14/32.43	(declare-const tptp.t2tb4 (-> tptp.int_mngt_value tptp.uni))
32.14/32.43	(declare-const tptp.right (-> Int tptp.context tptp.context))
32.14/32.43	(declare-const tptp.true tptp.bool)
32.14/32.43	(declare-const tptp.left (-> tptp.context tptp.expr tptp.context))
32.14/32.43	(declare-const tptp.eval_3 (-> tptp.expr tptp.int_mngt_value tptp.value))
32.14/32.43	(declare-const tptp.t2tb3 (-> Int tptp.uni))
32.14/32.43	(declare-const tptp.i1 tptp.cont2)
32.14/32.43	(declare-const tptp.eval_3a (-> tptp.expr tptp.int_mngt_value tptp.int_mngt_value))
32.14/32.43	(declare-const tptp.cte (-> Int tptp.expr))
32.14/32.43	(declare-const tptp.right_proj_2 (-> tptp.context tptp.context))
32.14/32.43	(declare-const tptp.tb2t4 (-> tptp.uni tptp.int_mngt_value))
32.14/32.43	(declare-const tptp.func (-> tptp.ty tptp.ty tptp.ty))
32.14/32.43	(declare-const tptp.b (-> Int tptp.cont tptp.cont))
32.14/32.43	(declare-const tptp.vnum_proj_1 (-> tptp.value Int))
32.14/32.43	(declare-const tptp.fc3 tptp.lprp_mngt_value)
32.14/32.43	(declare-const tptp.t2tb5 (-> tptp.lprp_mngt_value tptp.uni))
32.14/32.43	(declare-const tptp.vnum_closure tptp.int_mngt_value)
32.14/32.43	(declare-const tptp.tuple01 tptp.ty)
32.14/32.43	(declare-const tptp.left_proj_2 (-> tptp.context tptp.expr))
32.14/32.43	(declare-const tptp.tuple02 tptp.tuple0)
32.14/32.43	(declare-const tptp.left_proj_1 (-> tptp.context tptp.context))
32.14/32.43	(declare-const tptp.right_proj_1 (-> tptp.context Int))
32.14/32.43	(declare-const tptp.vnum (-> Int tptp.value))
32.14/32.43	(declare-const tptp.match_value (-> tptp.ty tptp.value tptp.uni tptp.uni tptp.uni))
32.14/32.43	(declare-const tptp.a (-> tptp.expr tptp.cont tptp.cont))
32.14/32.43	(declare-const tptp.fc (-> tptp.ty tptp.uni Int tptp.uni))
32.14/32.43	(declare-const tptp.eval_cont1 (-> tptp.cont2 Int Int Bool))
32.14/32.43	(declare-const tptp.false tptp.bool)
32.14/32.43	(declare-const tptp.eval_01 (-> tptp.expr Int))
32.14/32.43	(declare-const tptp.a2 (-> Int tptp.cont2 tptp.cont2))
32.14/32.43	(declare-const tptp.match_bool (-> tptp.ty tptp.bool tptp.uni tptp.uni tptp.uni))
32.14/32.43	(declare-const tptp.size_c (-> tptp.cont2 Int))
32.14/32.43	(declare-const tptp.eval_cont (-> tptp.cont tptp.value tptp.value Bool))
32.14/32.43	(declare-const tptp.match_cont1 (-> tptp.ty tptp.cont2 tptp.uni tptp.uni tptp.uni tptp.uni))
32.14/32.43	(declare-const tptp.witness (-> tptp.ty tptp.uni))
32.14/32.43	(declare-const tptp.size_c1 (-> tptp.cont Int))
32.14/32.43	(declare-const tptp.tb2t3 (-> tptp.uni Int))
32.14/32.43	(declare-const tptp.tb2t5 (-> tptp.uni tptp.lprp_mngt_value))
32.14/32.43	(define @t1 () (@var "I" tptp.tuple0))
32.14/32.43	(define @t2 () (@var "E" tptp.expr))
32.14/32.43	(define @t3 () (tptp.recompose tptp.empty @t2))
32.14/32.43	(define @t4 () (@var "X1" tptp.expr))
32.14/32.43	(define @t5 () (@var "X" tptp.context))
32.14/32.43	(define @t6 () (tptp.left @t5 @t4))
32.14/32.43	(define @t7 () (@list @t5 @t4))
32.14/32.43	(define @t8 () (forall @t7 (= (tptp.recompose @t6 @t2) (tptp.recompose @t5 (tptp.sub @t2 @t4)))))
32.14/32.43	(define @t9 () (@var "X" Int))
32.14/32.43	(define @t10 () (tptp.cte @t9))
32.14/32.43	(define @t11 () (@var "X1" tptp.context))
32.14/32.43	(define @t12 () (tptp.right @t9 @t11))
32.14/32.43	(define @t13 () (@list @t9 @t11))
32.14/32.43	(define @t14 () (forall @t13 (= (tptp.recompose @t12 @t2) (tptp.recompose @t11 (tptp.sub @t10 @t2)))))
32.14/32.43	(define @t15 () (and @t14 @t8 (= @t3 @t2)))
32.14/32.43	(define @t16 () (@list @t2))
32.14/32.43	(define @t17 () (forall @t16 @t15))
32.14/32.43	(define @t18 () (@var "N" Int))
32.14/32.43	(define @t19 () (tptp.cte @t18))
32.14/32.43	(define @t20 () (@var "C" tptp.context))
32.14/32.43	(define @t21 () (tptp.eval_0 (tptp.recompose @t20 @t19)))
32.14/32.43	(define @t22 () (- @t9 @t18))
32.14/32.43	(define @t23 () (tptp.cte @t22))
32.14/32.43	(define @t24 () (tptp.recompose @t11 @t23))
32.14/32.43	(define @t25 () (tptp.eval_0 @t24))
32.14/32.43	(define @t26 () (= @t25 @t21))
32.14/32.43	(define @t27 () (=> (<= @t18 @t9) @t26))
32.14/32.43	(define @t28 () (=> (= @t20 @t12) @t27))
32.14/32.43	(define @t29 () (forall @t13 @t28))
32.14/32.43	(define @t30 () (=> (<= 0 @t18) @t29))
32.14/32.43	(define @t31 () (@list @t20 @t18))
32.14/32.43	(define @t32 () (forall @t31 @t30))
32.14/32.43	(define @t33 () (not @t32))
32.14/32.43	(define @t34 () (@var "K" tptp.int_mngt_value))
32.14/32.43	(define @t35 () (@var "V1" Int))
32.14/32.43	(define @t36 () (tptp.eval_3b @t35 @t34))
32.14/32.43	(define @t37 () (@var "E2" tptp.expr))
32.14/32.43	(define @t38 () (tptp.t2tb3 @t35))
32.14/32.43	(define @t39 () (@var "U1" tptp.cont2))
32.14/32.43	(define @t40 () (@var "U" tptp.expr))
32.14/32.43	(define @t41 () (tptp.a1 @t40 @t39))
32.14/32.43	(define @t42 () (@list @t40 @t39))
32.14/32.43	(define @t43 () (@var "Z2" tptp.uni))
32.14/32.43	(define @t44 () (@var "Z1" tptp.uni))
32.14/32.43	(define @t45 () (@var "Z" tptp.uni))
32.14/32.43	(define @t46 () (@var "U1" tptp.context))
32.14/32.43	(define @t47 () (@var "U" Int))
32.14/32.43	(define @t48 () (tptp.right @t47 @t46))
32.14/32.43	(define @t49 () (@var "A" tptp.ty))
32.14/32.43	(define @t50 () (tptp.sort @t49 @t43))
32.14/32.43	(define @t51 () (tptp.sort @t49 @t45))
32.14/32.43	(define @t52 () (@list @t49 @t45 @t44 @t43))
32.14/32.43	(define @t53 () (tptp.eval_0 @t2))
32.14/32.43	(define @t54 () (@var "K" tptp.uni))
32.14/32.43	(define @t55 () (@var "Kerr" tptp.uni))
32.14/32.43	(define @t56 () (tptp.eval_2b @t49 @t35 @t54 @t55))
32.14/32.43	(define @t57 () (tptp.eval_2a @t49 @t37 @t54 @t55))
32.14/32.43	(define @t58 () (@var "J" tptp.uni))
32.14/32.43	(define @t59 () (tptp.func tptp.int tptp.value1))
32.14/32.43	(define @t60 () (@list @t58))
32.14/32.43	(define @t61 () (@var "V1" tptp.cont))
32.14/32.43	(define @t62 () (@var "V" Int))
32.14/32.43	(define @t63 () (tptp.b @t62 @t61))
32.14/32.43	(define @t64 () (@var "P" tptp.expr))
32.14/32.43	(define @t65 () (tptp.eval_0 @t64))
32.14/32.43	(define @t66 () (tptp.t2tb5 tptp.fc3))
32.14/32.43	(define @t67 () (tptp.t2tb4 tptp.vnum_closure))
32.14/32.43	(define @t68 () (@list @t64))
32.14/32.43	(define @t69 () (@var "X" tptp.expr))
32.14/32.43	(define @t70 () (tptp.sub @t69 @t4))
32.14/32.43	(define @t71 () (@list @t69 @t4))
32.14/32.43	(define @t72 () (tptp.t2tb3 @t9))
32.14/32.43	(define @t73 () (tptp.eval_2 @t49 @t10 @t54 @t55))
32.14/32.43	(define @t74 () (<= 0 @t9))
32.14/32.43	(define @t75 () (tptp.infix_at @t49 tptp.tuple01 @t55 (tptp.t2tb2 tptp.tuple02)))
32.14/32.43	(define @t76 () (not @t74))
32.14/32.43	(define @t77 () (@list @t9))
32.14/32.43	(define @t78 () (@var "U" tptp.context))
32.14/32.43	(define @t79 () (@var "X1" tptp.uni))
32.14/32.43	(define @t80 () (@var "X" tptp.uni))
32.14/32.43	(define @t81 () (@var "B" tptp.ty))
32.14/32.43	(define @t82 () (tptp.eval_0 @t70))
32.14/32.43	(define @t83 () (= @t82 tptp.underflow))
32.14/32.43	(define @t84 () (tptp.eval_0 @t69))
32.14/32.43	(define @t85 () (=> (= @t84 tptp.underflow) @t83))
32.14/32.43	(define @t86 () (tptp.eval_0 @t4))
32.14/32.43	(define @t87 () (=> (= @t86 tptp.underflow) @t83))
32.14/32.43	(define @t88 () (@var "X2" Int))
32.14/32.43	(define @t89 () (@var "X3" Int))
32.14/32.43	(define @t90 () (<= @t89 @t88))
32.14/32.43	(define @t91 () (not @t90))
32.14/32.43	(define @t92 () (=> @t91 @t83))
32.14/32.43	(define @t93 () (- @t88 @t89))
32.14/32.43	(define @t94 () (tptp.vnum @t93))
32.14/32.43	(define @t95 () (= @t82 @t94))
32.14/32.43	(define @t96 () (=> @t90 @t95))
32.14/32.43	(define @t97 () (and @t96 @t92))
32.14/32.43	(define @t98 () (= @t86 (tptp.vnum @t89)))
32.14/32.43	(define @t99 () (=> @t98 @t97))
32.14/32.43	(define @t100 () (@list @t89))
32.14/32.43	(define @t101 () (forall @t100 @t99))
32.14/32.43	(define @t102 () (and @t101 @t87))
32.14/32.43	(define @t103 () (tptp.vnum @t88))
32.14/32.43	(define @t104 () (= @t84 @t103))
32.14/32.43	(define @t105 () (=> @t104 @t102))
32.14/32.43	(define @t106 () (@list @t88))
32.14/32.43	(define @t107 () (forall @t106 @t105))
32.14/32.43	(define @t108 () (and @t107 @t85))
32.14/32.43	(define @t109 () (forall @t71 @t108))
32.14/32.43	(define @t110 () (tptp.vnum @t9))
32.14/32.43	(define @t111 () (tptp.eval_0 @t10))
32.14/32.43	(define @t112 () (= @t111 @t110))
32.14/32.43	(define @t113 () (=> @t74 @t112))
32.14/32.43	(define @t114 () (=> @t76 (= @t111 tptp.underflow)))
32.14/32.43	(define @t115 () (and @t114 @t113))
32.14/32.43	(define @t116 () (forall @t77 @t115))
32.14/32.43	(define @t117 () (tptp.t2tb tptp.underflow))
32.14/32.43	(define @t118 () (tptp.infix_at @t49 tptp.value1 @t54 @t117))
32.14/32.43	(define @t119 () (@var "V2" tptp.value))
32.14/32.43	(define @t120 () (tptp.vnum_proj_1 @t119))
32.14/32.43	(define @t121 () (tptp.infix_at @t49 tptp.value1 (tptp.fc @t49 @t54 @t9) (tptp.t2tb @t119)))
32.14/32.43	(define @t122 () (<= @t120 @t9))
32.14/32.43	(define @t123 () (@var "R" Int))
32.14/32.43	(define @t124 () (@var "K" tptp.cont2))
32.14/32.43	(define @t125 () (tptp.a1 @t37 @t124))
32.14/32.43	(define @t126 () (tptp.eval_cont1 (tptp.a2 @t62 @t124) (tptp.eval_01 @t37) @t123))
32.14/32.43	(define @t127 () (@list @t37 @t124 @t62 @t123))
32.14/32.43	(define @t128 () (@var "X2" tptp.uni))
32.14/32.43	(define @t129 () (tptp.func tptp.int @t49))
32.14/32.43	(define @t130 () (@list @t49 @t69 @t79 @t128))
32.14/32.43	(define @t131 () (@list @t49 @t45 @t44))
32.14/32.43	(define @t132 () (@var "Y" Int))
32.14/32.43	(define @t133 () (@var "Z2" tptp.value))
32.14/32.43	(define @t134 () (@var "Z1" tptp.value))
32.14/32.43	(define @t135 () (@var "K" tptp.cont))
32.14/32.43	(define @t136 () (@var "Z" tptp.cont))
32.14/32.43	(define @t137 () (@list @t135))
32.14/32.43	(define @t138 () (tptp.vnum @t62))
32.14/32.43	(define @t139 () (= @t134 @t138))
32.14/32.43	(define @t140 () (@list @t62))
32.14/32.43	(define @t141 () (@var "R" tptp.value))
32.14/32.43	(define @t142 () (- @t35 @t62))
32.14/32.43	(define @t143 () (tptp.eval_cont @t135 (tptp.vnum @t142) @t141))
32.14/32.43	(define @t144 () (<= @t62 @t35))
32.14/32.43	(define @t145 () (tptp.eval_cont @t135 tptp.underflow @t141))
32.14/32.43	(define @t146 () (not @t144))
32.14/32.43	(define @t147 () (tptp.b @t35 @t135))
32.14/32.43	(define @t148 () (= @t133 @t141))
32.14/32.43	(define @t149 () (@list @t35 @t135 @t62 @t141))
32.14/32.43	(define @t150 () (tptp.a @t37 @t135))
32.14/32.43	(define @t151 () (tptp.eval_0 @t37))
32.14/32.43	(define @t152 () (tptp.eval_cont (tptp.b @t62 @t135) @t151 @t141))
32.14/32.43	(define @t153 () (@list @t37 @t135 @t62 @t141))
32.14/32.43	(define @t154 () (@var "X3" tptp.uni))
32.14/32.43	(define @t155 () (@var "X" tptp.cont))
32.14/32.43	(define @t156 () (@var "U1" tptp.cont))
32.14/32.43	(define @t157 () (tptp.a @t40 @t156))
32.14/32.43	(define @t158 () (tptp.vnum @t47))
32.14/32.43	(define @t159 () (@list @t49 @t45 @t44 @t47))
32.14/32.43	(define @t160 () (tptp.sort @t49 @t44))
32.14/32.43	(define @t161 () (@var "C" tptp.cont))
32.14/32.43	(define @t162 () (tptp.func tptp.tuple01 tptp.value1))
32.14/32.43	(define @t163 () (@var "C" tptp.cont2))
32.14/32.43	(define @t164 () (tptp.a2 @t35 @t124))
32.14/32.43	(define @t165 () (tptp.eval_cont1 @t124 @t142 @t123))
32.14/32.43	(define @t166 () (@list @t35 @t124 @t62 @t123))
32.14/32.43	(define @t167 () (@var "V1" tptp.expr))
32.14/32.43	(define @t168 () (@var "V" tptp.context))
32.14/32.43	(define @t169 () (@var "U" tptp.value))
32.14/32.43	(define @t170 () (@var "X" tptp.bool))
32.14/32.43	(define @t171 () (@var "V2" Int))
32.14/32.43	(define @t172 () (tptp.t2tb3 (- @t35 @t171)))
32.14/32.43	(define @t173 () (tptp.t2tb4 @t34))
32.14/32.43	(define @t174 () (tptp.t2tb3 @t171))
32.14/32.43	(define @t175 () (tptp.tb2t (tptp.infix_at tptp.value1 tptp.int (tptp.t2tb4 @t36) @t174)))
32.14/32.43	(define @t176 () (<= @t171 @t35))
32.14/32.43	(define @t177 () (not @t176))
32.14/32.43	(define @t178 () (@var "X" tptp.tuple0))
32.14/32.43	(define @t179 () (@var "I" tptp.int_mngt_value))
32.14/32.43	(define @t180 () (@var "U1" tptp.expr))
32.14/32.43	(define @t181 () (tptp.left @t78 @t180))
32.14/32.43	(define @t182 () (@list @t78 @t180))
32.14/32.43	(define @t183 () (@var "I" tptp.lprp_mngt_value))
32.14/32.43	(define @t184 () (@var "I" tptp.value))
32.14/32.43	(define @t185 () (tptp.eval_1 @t49 @t10 @t54))
32.14/32.43	(define @t186 () (@var "X" tptp.int_mngt_value))
32.14/32.43	(define @t187 () (@var "E1" tptp.expr))
32.14/32.43	(define @t188 () (= (tptp.eval_0 (tptp.recompose @t20 @t187)) (tptp.eval_0 (tptp.recompose @t20 @t37))))
32.14/32.43	(define @t189 () (tptp.eval_0 @t187))
32.14/32.43	(define @t190 () (=> (= @t189 @t151) @t188))
32.14/32.43	(define @t191 () (@list @t20 @t187 @t37))
32.14/32.43	(define @t192 () (forall @t191 @t190))
32.14/32.43	(define @t193 () (tptp.a2 @t47 @t39))
32.14/32.43	(define @t194 () (@list @t47 @t39))
32.14/32.43	(define @t195 () (@list @t20))
32.14/32.43	(define @t196 () (@var "I" tptp.value_mngt_value))
32.14/32.43	(define @t197 () (@var "X1" Int))
32.14/32.43	(define @t198 () (tptp.func tptp.value1 @t49))
32.14/32.43	(define @t199 () (@list @t47))
32.14/32.43	(define @t200 () (@var "X" tptp.value_mngt_value))
32.14/32.43	(define @t201 () (tptp.func tptp.value1 tptp.value1))
32.14/32.43	(define @t202 () (@var "U" tptp.tuple0))
32.14/32.43	(define @t203 () (@list @t202))
32.14/32.43	(define @t204 () (@list @t40 @t156))
32.14/32.43	(define @t205 () (tptp.size_e1 @t4))
32.14/32.43	(define @t206 () (@var "X" tptp.value))
32.14/32.43	(define @t207 () (@var "X" tptp.cont2))
32.14/32.43	(define @t208 () (tptp.infix_at @t49 tptp.int @t56 @t174))
32.14/32.43	(define @t209 () (tptp.sub @t40 @t180))
32.14/32.43	(define @t210 () (@list @t40 @t180))
32.14/32.43	(define @t211 () (@var "I" Int))
32.14/32.43	(define @t212 () (@var "Z" Int))
32.14/32.43	(define @t213 () (@var "V1" tptp.context))
32.14/32.43	(define @t214 () (tptp.right @t62 @t213))
32.14/32.43	(define @t215 () (@var "V" tptp.expr))
32.14/32.43	(define @t216 () (tptp.cte @t47))
32.14/32.43	(define @t217 () (tptp.b @t47 @t156))
32.14/32.43	(define @t218 () (@list @t47 @t156))
32.14/32.43	(define @t219 () (tptp.size_e1 @t69))
32.14/32.43	(define @t220 () (@var "U" tptp.cont2))
32.14/32.43	(define @t221 () (@var "U" tptp.cont))
32.14/32.43	(define @t222 () (@var "U" tptp.bool))
32.14/32.43	(define @t223 () (@var "V1" tptp.cont2))
32.14/32.43	(define @t224 () (@var "X1" tptp.cont))
32.14/32.43	(define @t225 () (tptp.size_c1 @t224))
32.14/32.43	(define @t226 () (+ 2 @t219))
32.14/32.43	(define @t227 () (tptp.t2tb1 tptp.fc2))
32.14/32.43	(define @t228 () (@var "X" tptp.lprp_mngt_value))
32.14/32.43	(define @t229 () (tptp.t2tb3 (tptp.vnum_proj_1 @t53)))
32.14/32.43	(define @t230 () (@var "N" tptp.value))
32.14/32.43	(define @t231 () (@var "X1" tptp.cont2))
32.14/32.43	(define @t232 () (tptp.size_c @t231))
32.14/32.43	(define @t233 () (@list @t47 @t46))
32.14/32.43	(define @t234 () (tptp.eval_3 @t64 tptp.vnum_closure))
32.14/32.43	(define @t235 () (forall @t68 (= @t234 @t65)))
32.14/32.43	(define @t236 () (@var "Z" tptp.cont2))
32.14/32.43	(define @t237 () (@var "Z1" Int))
32.14/32.43	(define @t238 () (= @t237 @t62))
32.14/32.43	(define @t239 () (@var "Z2" Int))
32.14/32.43	(define @t240 () (= @t239 @t123))
32.14/32.43	(define @t241 () (tptp.eval_3 @t10 @t34))
32.14/32.43	(define @t242 () (=> @t76 (= @t241 tptp.underflow)))
32.14/32.43	(define @t243 () (= @t241 (tptp.tb2t (tptp.infix_at tptp.value1 tptp.int @t173 @t72))))
32.14/32.43	(define @t244 () (=> @t74 @t243))
32.14/32.43	(define @t245 () (and @t244 @t242))
32.14/32.43	(define @t246 () (forall @t77 @t245))
32.14/32.43	(define @t247 () (forall @t71 (= (tptp.eval_3 @t70 @t34) (tptp.eval_3 @t69 (tptp.eval_3a @t4 @t34)))))
32.14/32.43	(define @t248 () (and @t247 @t246))
32.14/32.43	(define @t249 () (@list @t34))
32.14/32.43	(define @t250 () (forall @t249 @t248))
32.14/32.43	(define @t251 () (@var "V1" tptp.value))
32.14/32.43	(define @t252 () (@var "BOUND_VARIABLE_8440" tptp.context))
32.14/32.43	(define @t253 () (@var "BOUND_VARIABLE_8438" Int))
32.14/32.43	(define @t254 () (tptp.right @t253 @t252))
32.14/32.43	(define @t255 () (tptp.eval_0 (tptp.recompose @t254 @t19)))
32.14/32.43	(define @t256 () (* -1 @t18))
32.14/32.43	(define @t257 () (+ @t256 @t253))
32.14/32.43	(define @t258 () (tptp.eval_0 (tptp.recompose @t252 (tptp.cte @t257))))
32.14/32.43	(define @t259 () (= @t258 @t255))
32.14/32.43	(define @t260 () (+ @t18 (* -1 @t253)))
32.14/32.43	(define @t261 () (>= @t260 1))
32.14/32.43	(define @t262 () (>= @t18 0))
32.14/32.43	(define @t263 () (not @t262))
32.14/32.43	(define @t264 () (or @t263 @t261 @t259))
32.14/32.43	(define @t265 () (not (= @t254 @t254)))
32.14/32.43	(define @t266 () (or @t263 @t265 @t261 (= @t255 @t258)))
32.14/32.43	(define @t267 () (@list @t18 @t253 @t252))
32.14/32.43	(define @t268 () (= @t21 @t258))
32.14/32.43	(define @t269 () (not (= @t20 @t254)))
32.14/32.43	(define @t270 () (or @t269 @t263 @t269 @t261 @t268))
32.14/32.43	(define @t271 () (or @t263 @t269 @t261 @t268))
32.14/32.43	(define @t272 () (forall @t195 @t271))
32.14/32.43	(define @t273 () (forall @t267 @t272))
32.14/32.43	(define @t274 () (forall (@list @t18 @t253 @t252 @t20) @t271))
32.14/32.43	(define @t275 () (@list @t20 @t18 @t253 @t252))
32.14/32.43	(define @t276 () (+ @t253 @t256))
32.14/32.43	(define @t277 () (tptp.cte @t276))
32.14/32.43	(define @t278 () (tptp.recompose @t252 @t277))
32.14/32.43	(define @t279 () (tptp.eval_0 @t278))
32.14/32.43	(define @t280 () (= @t21 @t279))
32.14/32.43	(define @t281 () (+ @t260 1))
32.14/32.43	(define @t282 () (>= @t276 0))
32.14/32.43	(define @t283 () (not @t282))
32.14/32.43	(define @t284 () (not (= @t254 @t20)))
32.14/32.43	(define @t285 () (or @t263 @t284 @t283 @t280))
32.14/32.43	(define @t286 () (or @t284 @t283 @t280))
32.14/32.43	(define @t287 () (or @t263 @t286))
32.14/32.43	(define @t288 () (forall @t275 @t287))
32.14/32.43	(define @t289 () (@list @t253 @t252))
32.14/32.43	(define @t290 () (forall @t289 @t287))
32.14/32.43	(define @t291 () (forall @t289 @t286))
32.14/32.43	(define @t292 () (or @t263 @t291))
32.14/32.43	(define @t293 () (+ @t9 @t256))
32.14/32.43	(define @t294 () (tptp.eval_0 (tptp.recompose @t11 (tptp.cte @t293))))
32.14/32.43	(define @t295 () (= @t21 @t294))
32.14/32.43	(define @t296 () (>= @t293 0))
32.14/32.43	(define @t297 () (not @t296))
32.14/32.43	(define @t298 () (= @t12 @t20))
32.14/32.43	(define @t299 () (not @t298))
32.14/32.43	(define @t300 () (or @t299 @t297 @t295))
32.14/32.43	(define @t301 () (forall @t13 @t300))
32.14/32.43	(define @t302 () (=> @t296 @t295))
32.14/32.43	(define @t303 () (forall @t267 @t264))
32.14/32.43	(define @t304 () (@quantifiers_skolemize @t303 0))
32.14/32.43	(define @t305 () (tptp.cte @t304))
32.14/32.43	(define @t306 () (@quantifiers_skolemize @t303 2))
32.14/32.43	(define @t307 () (@quantifiers_skolemize @t303 1))
32.14/32.43	(define @t308 () (* -1 @t304))
32.14/32.43	(define @t309 () (+ @t308 @t307))
32.14/32.43	(define @t310 () (tptp.cte @t309))
32.14/32.43	(define @t311 () (tptp.eval_0 (tptp.recompose @t306 @t310)))
32.14/32.43	(define @t312 () (* -1 @t307))
32.14/32.43	(define @t313 () (+ @t304 @t312))
32.14/32.43	(define @t314 () (>= @t313 1))
32.14/32.43	(define @t315 () (>= @t304 0))
32.14/32.43	(define @t316 () (not @t315))
32.14/32.43	(define @t317 () (or @t316 @t314 (= @t311 (tptp.eval_0 (tptp.recompose (tptp.right @t307 @t306) @t305)))))
32.14/32.43	(define @t318 () (@list true))
32.14/32.43	(define @t319 () (@list @t317))
32.14/32.43	(define @t320 () (>= @t307 0))
32.14/32.43	(define @t321 () (= @t304 0))
32.14/32.43	(define @t322 () (not @t321))
32.14/32.43	(define @t323 () (not @t320))
32.14/32.43	(define @t324 () (not @t323))
32.14/32.43	(define @t325 () (not @t314))
32.14/32.43	(define @t326 () (not @t325))
32.14/32.43	(define @t327 () (>= 0 0))
32.14/32.43	(define @t328 () (* -1 0))
32.14/32.43	(define @t329 () (+ 0 0 @t328))
32.14/32.43	(define @t330 () (+ @t308 @t312 @t307 @t304))
32.14/32.43	(define @t331 () (= @t330 0))
32.14/32.43	(define @t332 () (+ @t307 @t313 @t308))
32.14/32.43	(define @t333 () (>= @t332 @t329))
32.14/32.43	(define @t334 () (< -1 0))
32.14/32.43	(define @t335 () (>= @t9 0))
32.14/32.43	(define @t336 () (not @t335))
32.14/32.43	(define @t337 () (or @t336 @t112))
32.14/32.43	(define @t338 () (forall @t77 @t337))
32.14/32.43	(define @t339 () (@list @t9))
32.14/32.43	(define @t340 () (= tptp.underflow @t111))
32.14/32.43	(define @t341 () (or @t335 @t340))
32.14/32.43	(define @t342 () (forall @t77 @t341))
32.14/32.43	(define @t343 () (and @t342 @t338))
32.14/32.43	(define @t344 () (not @t336))
32.14/32.43	(define @t345 () (and (=> @t336 @t340) (=> @t335 @t112)))
32.14/32.43	(define @t346 () (tptp.vnum @t307))
32.14/32.43	(define @t347 () (tptp.cte @t307))
32.14/32.43	(define @t348 () (tptp.eval_0 @t347))
32.14/32.43	(define @t349 () (= @t348 @t346))
32.14/32.43	(define @t350 () (or @t323 @t349))
32.14/32.43	(define @t351 () (@var "BOUND_VARIABLE_8721" tptp.expr))
32.14/32.43	(define @t352 () (@var "BOUND_VARIABLE_8719" tptp.expr))
32.14/32.43	(define @t353 () (forall (@list @t352 @t351) (or (not (= tptp.underflow (tptp.eval_0 @t352))) (= tptp.underflow (tptp.eval_0 (tptp.sub @t352 @t351))))))
32.14/32.43	(define @t354 () (@var "BOUND_VARIABLE_8695" tptp.expr))
32.14/32.43	(define @t355 () (@var "BOUND_VARIABLE_8693" tptp.expr))
32.14/32.43	(define @t356 () (tptp.eval_0 (tptp.sub @t355 @t354)))
32.14/32.43	(define @t357 () (= tptp.underflow @t356))
32.14/32.43	(define @t358 () (tptp.eval_0 @t354))
32.14/32.43	(define @t359 () (or (not (= tptp.underflow @t358)) @t357))
32.14/32.43	(define @t360 () (@var "BOUND_VARIABLE_8666" Int))
32.14/32.43	(define @t361 () (+ @t88 (* -1 @t360)))
32.14/32.43	(define @t362 () (>= @t361 0))
32.14/32.43	(define @t363 () (or @t362 @t357))
32.14/32.43	(define @t364 () (tptp.vnum @t361))
32.14/32.43	(define @t365 () (not @t362))
32.14/32.43	(define @t366 () (or @t365 (= @t356 @t364)))
32.14/32.43	(define @t367 () (and @t366 @t363))
32.14/32.43	(define @t368 () (tptp.vnum @t360))
32.14/32.43	(define @t369 () (not (= @t358 @t368)))
32.14/32.43	(define @t370 () (or @t369 @t367))
32.14/32.43	(define @t371 () (and @t370 @t359))
32.14/32.43	(define @t372 () (tptp.eval_0 @t355))
32.14/32.43	(define @t373 () (not (= @t372 @t103)))
32.14/32.43	(define @t374 () (or @t373 @t371))
32.14/32.43	(define @t375 () (@list @t355 @t354 @t88 @t360))
32.14/32.43	(define @t376 () (forall @t375 @t374))
32.14/32.43	(define @t377 () (@list @t88 @t360))
32.14/32.43	(define @t378 () (forall (@list @t355 @t354) (forall @t377 @t374)))
32.14/32.43	(define @t379 () (= tptp.underflow @t82))
32.14/32.43	(define @t380 () (= tptp.underflow @t84))
32.14/32.43	(define @t381 () (or (not @t380) @t379))
32.14/32.43	(define @t382 () (forall @t71 @t381))
32.14/32.43	(define @t383 () (@list @t69 @t4))
32.14/32.43	(define @t384 () (= tptp.underflow @t86))
32.14/32.43	(define @t385 () (or (not @t384) @t379))
32.14/32.43	(define @t386 () (or (not (= @t86 @t368)) (and (or @t365 (= @t82 @t364)) (or @t362 @t379))))
32.14/32.43	(define @t387 () (and @t386 @t385))
32.14/32.43	(define @t388 () (not @t104))
32.14/32.43	(define @t389 () (or @t388 @t387))
32.14/32.43	(define @t390 () (forall @t377 @t389))
32.14/32.43	(define @t391 () (forall @t71 @t390))
32.14/32.43	(define @t392 () (and @t391 @t382))
32.14/32.43	(define @t393 () (and @t390 (=> @t380 @t379)))
32.14/32.43	(define @t394 () (@list @t360))
32.14/32.43	(define @t395 () (forall @t394 @t389))
32.14/32.43	(define @t396 () (forall @t394 @t385))
32.14/32.43	(define @t397 () (forall @t394 @t386))
32.14/32.43	(define @t398 () (and @t397 @t396))
32.14/32.43	(define @t399 () (forall @t394 @t387))
32.14/32.43	(define @t400 () (or @t388 @t399))
32.14/32.43	(define @t401 () (+ @t88 (* -1 @t89)))
32.14/32.43	(define @t402 () (>= @t401 0))
32.14/32.43	(define @t403 () (= @t82 (tptp.vnum @t401)))
32.14/32.43	(define @t404 () (not @t402))
32.14/32.43	(define @t405 () (not @t98))
32.14/32.43	(define @t406 () (forall @t100 (or @t405 (and (or @t404 @t403) (or @t402 @t379)))))
32.14/32.43	(define @t407 () (and @t406 (=> @t384 @t379)))
32.14/32.43	(define @t408 () (and (=> @t402 @t403) (=> @t404 @t379)))
32.14/32.43	(define @t409 () (tptp.sub @t347 @t305))
32.14/32.43	(define @t410 () (tptp.eval_0 @t409))
32.14/32.43	(define @t411 () (= tptp.underflow @t410))
32.14/32.43	(define @t412 () (tptp.eval_0 @t305))
32.14/32.43	(define @t413 () (or (not (= tptp.underflow @t412)) @t411))
32.14/32.43	(define @t414 () (+ @t313 1))
32.14/32.43	(define @t415 () (>= @t309 0))
32.14/32.43	(define @t416 () (+ @t307 @t308))
32.14/32.43	(define @t417 () (>= @t416 0))
32.14/32.43	(define @t418 () (or @t417 @t411))
32.14/32.43	(define @t419 () (tptp.vnum @t309))
32.14/32.43	(define @t420 () (tptp.vnum @t416))
32.14/32.43	(define @t421 () (= @t420 @t410))
32.14/32.43	(define @t422 () (not @t417))
32.14/32.43	(define @t423 () (or @t422 @t421))
32.14/32.43	(define @t424 () (and @t423 @t418))
32.14/32.43	(define @t425 () (tptp.vnum @t304))
32.14/32.43	(define @t426 () (not (= @t425 @t412)))
32.14/32.43	(define @t427 () (or @t426 @t424))
32.14/32.43	(define @t428 () (and @t427 @t413))
32.14/32.43	(define @t429 () (not (= @t346 @t348)))
32.14/32.43	(define @t430 () (or @t429 @t428))
32.14/32.43	(define @t431 () (forall @t375 (or (not (= @t103 @t372)) (and (or (not (= @t368 @t358)) (and (or @t365 (= @t364 @t356)) @t363)) @t359))))
32.14/32.43	(define @t432 () (@list false))
32.14/32.43	(define @t433 () (= @t410 @t419))
32.14/32.43	(define @t434 () (or @t314 @t433))
32.14/32.43	(define @t435 () (and @t434 (or @t325 @t411)))
32.14/32.43	(define @t436 () (= @t412 @t425))
32.14/32.43	(define @t437 () (not @t436))
32.14/32.43	(define @t438 () (or @t437 @t435))
32.14/32.43	(define @t439 () (and @t438 @t413))
32.14/32.43	(define @t440 () (not @t349))
32.14/32.43	(define @t441 () (or @t440 @t439))
32.14/32.43	(define @t442 () (or @t316 @t436))
32.14/32.43	(define @t443 () (= @t151 @t189))
32.14/32.43	(define @t444 () (tptp.eval_0 (tptp.recompose @t306 @t409)))
32.14/32.43	(define @t445 () (= @t311 @t444))
32.14/32.43	(define @t446 () (tptp.eval_0 @t310))
32.14/32.43	(define @t447 () (not (= @t410 @t446)))
32.14/32.43	(define @t448 () (or @t447 @t445))
32.14/32.43	(define @t449 () (forall @t191 (or (not @t443) @t188)))
32.14/32.43	(define @t450 () (@var "BOUND_VARIABLE_8402" tptp.expr))
32.14/32.43	(define @t451 () (forall (@list @t450) (= @t450 (tptp.recompose tptp.empty @t450))))
32.14/32.43	(define @t452 () (@var "BOUND_VARIABLE_8393" tptp.expr))
32.14/32.43	(define @t453 () (= (tptp.recompose @t6 @t452) (tptp.recompose @t5 (tptp.sub @t452 @t4))))
32.14/32.43	(define @t454 () (forall (@list @t452) (forall @t7 @t453)))
32.14/32.43	(define @t455 () (@var "BOUND_VARIABLE_8384" tptp.expr))
32.14/32.43	(define @t456 () (= (tptp.recompose @t12 @t455) (tptp.recompose @t11 (tptp.sub @t10 @t455))))
32.14/32.43	(define @t457 () (forall (@list @t455) (forall @t13 @t456)))
32.14/32.43	(define @t458 () (= @t2 @t3))
32.14/32.43	(define @t459 () (forall @t16 @t458))
32.14/32.43	(define @t460 () (@list @t2))
32.14/32.43	(define @t461 () (forall @t16 @t8))
32.14/32.43	(define @t462 () (forall @t16 @t14))
32.14/32.43	(define @t463 () (and @t462 @t461 @t459))
32.14/32.43	(define @t464 () (= @t446 @t410))
32.14/32.43	(define @t465 () (not @t464))
32.14/32.43	(define @t466 () (or @t465 @t445))
32.14/32.43	(define @t467 () (@list true false))
32.14/32.43	(define @t468 () (= @t307 @t309))
32.14/32.43	(define @t469 () (and @t321 @t349 @t433))
32.14/32.43	(define @t470 () (not @t433))
32.14/32.43	(define @t471 () (>= @t304 1))
32.14/32.43	(define @t472 () (and @t315 @t322))
32.14/32.43	(define @t473 () (@var "BOUND_VARIABLE_9615" tptp.int_mngt_value))
32.14/32.43	(define @t474 () (@var "BOUND_VARIABLE_9582" Int))
32.14/32.43	(define @t475 () (tptp.cte @t474))
32.14/32.43	(define @t476 () (>= @t474 0))
32.14/32.43	(define @t477 () (or @t476 (= tptp.underflow (tptp.eval_3 @t475 @t473))))
32.14/32.43	(define @t478 () (@list @t474))
32.14/32.43	(define @t479 () (forall (@list @t473) (forall @t478 @t477)))
32.14/32.43	(define @t480 () (@var "BOUND_VARIABLE_9569" Int))
32.14/32.43	(define @t481 () (tptp.t2tb3 @t480))
32.14/32.43	(define @t482 () (@var "BOUND_VARIABLE_9604" tptp.int_mngt_value))
32.14/32.43	(define @t483 () (tptp.cte @t480))
32.14/32.43	(define @t484 () (not (>= @t480 0)))
32.14/32.43	(define @t485 () (or @t484 (= (tptp.eval_3 @t483 @t482) (tptp.tb2t (tptp.infix_at tptp.value1 tptp.int (tptp.t2tb4 @t482) @t481)))))
32.14/32.43	(define @t486 () (forall (@list @t482 @t480) @t485))
32.14/32.43	(define @t487 () (@list @t480))
32.14/32.43	(define @t488 () (forall (@list @t482) (forall @t487 @t485)))
32.14/32.43	(define @t489 () (@var "BOUND_VARIABLE_9595" tptp.int_mngt_value))
32.14/32.43	(define @t490 () (= (tptp.eval_3 @t70 @t489) (tptp.eval_3 @t69 (tptp.eval_3a @t4 @t489))))
32.14/32.43	(define @t491 () (forall (@list @t489) (forall @t71 @t490)))
32.14/32.43	(define @t492 () (forall @t478 (or @t476 (= tptp.underflow (tptp.eval_3 @t475 @t34)))))
32.14/32.43	(define @t493 () (forall @t249 @t492))
32.14/32.43	(define @t494 () (@list @t34))
32.14/32.43	(define @t495 () (forall @t487 (or @t484 (= (tptp.eval_3 @t483 @t34) (tptp.tb2t (tptp.infix_at tptp.value1 tptp.int @t173 @t481))))))
32.14/32.43	(define @t496 () (forall @t249 @t495))
32.14/32.43	(define @t497 () (forall @t249 @t247))
32.14/32.43	(define @t498 () (and @t497 @t496 @t493))
32.14/32.43	(define @t499 () (and @t247 @t495 @t492))
32.14/32.43	(define @t500 () (= tptp.underflow @t241))
32.14/32.43	(define @t501 () (or @t335 @t500))
32.14/32.43	(define @t502 () (forall @t77 @t501))
32.14/32.43	(define @t503 () (or @t336 @t243))
32.14/32.43	(define @t504 () (forall @t77 @t503))
32.14/32.43	(define @t505 () (and @t504 @t502))
32.14/32.43	(define @t506 () (and (=> @t335 @t243) (=> @t336 @t500)))
32.14/32.43	(define @t507 () (tptp.tb2t (tptp.infix_at tptp.value1 tptp.int @t67 (tptp.t2tb3 @t309))))
32.14/32.43	(define @t508 () (tptp.eval_3 @t310 tptp.vnum_closure))
32.14/32.43	(define @t509 () (= @t508 @t507))
32.14/32.43	(define @t510 () (not @t415))
32.14/32.43	(define @t511 () (or @t510 @t509))
32.14/32.43	(define @t512 () (or @t314 @t509))
32.14/32.43	(define @t513 () (= @t507 @t419))
32.14/32.43	(define @t514 () (not @t513))
32.14/32.43	(define @t515 () (not @t509))
32.14/32.43	(define @t516 () (= @t446 @t508))
32.14/32.43	(define @t517 () (not @t516))
32.14/32.43	(define @t518 () (and @t509 @t513 @t433 @t516 @t465))
32.14/32.43	(define @t519 () (not @t471))
32.14/32.43	(define @t520 () (* -1 1))
32.14/32.43	(define @t521 () (+ @t520 0 1))
32.14/32.43	(define @t522 () (+ @t308 @t307 @t313))
32.14/32.43	(define @t523 () (>= @t522 @t521))
32.14/32.43	(define @t524 () (and @t325 @t323 @t471))
32.14/32.43	(assume @p1 (forall (@list @t1) (= (tptp.tb2t2 (tptp.t2tb2 @t1)) @t1)))
32.14/32.43	(assume @p2 @t17)
32.14/32.43	(assume @p3 @t33)
32.14/32.43	(assume @p4 (forall (@list @t37 @t34 @t35) (= (tptp.tb2t (tptp.infix_at tptp.value1 tptp.int (tptp.t2tb4 (tptp.eval_3a @t37 @t34)) @t38)) (tptp.eval_3 @t37 @t36))))
32.14/32.43	(assume @p5 (forall @t42 (not (= @t41 tptp.i1))))
32.14/32.43	(assume @p6 (forall (@list @t49 @t45 @t44 @t43 @t47 @t46) (=> @t50 (= (tptp.match_context @t49 @t48 @t45 @t44 @t43) @t43))))
32.14/32.43	(assume @p7 (forall @t52 (=> @t51 (= (tptp.match_cont @t49 tptp.i @t45 @t44 @t43) @t45))))
32.14/32.43	(assume @p8 (forall (@list @t49 @t2 @t54) (= (tptp.eval_1 @t49 @t2 @t54) (tptp.infix_at @t49 tptp.value1 @t54 (tptp.t2tb @t53)))))
32.14/32.43	(assume @p9 (forall (@list @t49 @t37 @t54 @t55 @t35) (= (tptp.infix_at @t49 tptp.int @t57 @t38) (tptp.eval_2 @t49 @t37 @t56 @t55))))
32.14/32.43	(assume @p10 (forall @t60 (=> (tptp.sort @t59 @t58) (= (tptp.t2tb4 (tptp.tb2t4 @t58)) @t58))))
32.14/32.43	(assume @p11 (forall (@list @t62 @t61) (not (= tptp.i @t63))))
32.14/32.43	(assume @p12 (forall @t68 (= (tptp.tb2t (tptp.eval_2 tptp.value1 @t64 @t67 @t66)) @t65)))
32.14/32.43	(assume @p13 (forall (@list @t49 @t54 @t55) (and (forall @t77 (and (=> @t76 (= @t73 @t75)) (=> @t74 (= @t73 (tptp.infix_at @t49 tptp.int @t54 @t72))))) (forall @t71 (= (tptp.eval_2 @t49 @t70 @t54 @t55) (tptp.eval_2 @t49 @t69 (tptp.eval_2a @t49 @t4 @t54 @t55) @t55))))))
32.14/32.43	(assume @p14 (forall (@list @t78) (or (= @t78 tptp.empty) (= @t78 (tptp.right (tptp.right_proj_1 @t78) (tptp.right_proj_2 @t78))) (= @t78 (tptp.left (tptp.left_proj_1 @t78) (tptp.left_proj_2 @t78))))))
32.14/32.43	(assume @p15 (forall (@list @t49 @t81 @t80 @t79) (tptp.sort @t81 (tptp.infix_at @t81 @t49 @t80 @t79))))
32.14/32.43	(assume @p16 (forall @t77 (tptp.sort tptp.int @t72)))
32.14/32.43	(assume @p17 (and @t116 @t109))
32.14/32.43	(assume @p18 (forall (@list @t49 @t54 @t9 @t119) (and (=> (not @t122) (= @t121 (tptp.match_value @t49 @t119 @t118 @t118))) (=> @t122 (= @t121 (tptp.match_value @t49 @t119 (tptp.infix_at @t49 tptp.value1 @t54 (tptp.t2tb (tptp.vnum (- @t9 @t120)))) @t118))))))
32.14/32.43	(assume @p19 (forall @t127 (=> @t126 (tptp.eval_cont1 @t125 @t62 @t123))))
32.14/32.43	(assume @p20 (forall @t130 (tptp.sort @t129 (tptp.eval_2a @t49 @t69 @t79 @t128))))
32.14/32.43	(assume @p21 (forall @t131 (=> @t51 (= (tptp.match_bool @t49 tptp.true @t45 @t44) @t45))))
32.14/32.43	(assume @p22 (forall (@list @t132) (= (tptp.tb2t (tptp.infix_at tptp.value1 tptp.int @t67 (tptp.t2tb3 @t132))) (tptp.vnum @t132))))
32.14/32.43	(assume @p23 (forall (@list @t136 @t134 @t133) (=> (tptp.eval_cont @t136 @t134 @t133) (or (exists @t153 (and @t152 @t139 @t148 (= @t136 @t150))) (exists @t149 (and @t148 @t139 (= @t136 @t147) (=> @t146 @t145) (=> @t144 @t143))) (exists @t140 (and (= @t136 tptp.i) @t139 (= @t133 @t138))) (exists @t137 (and (= @t136 @t135) (= @t134 tptp.underflow) (= @t133 tptp.underflow)))))))
32.14/32.43	(assume @p24 (forall (@list @t49 @t155 @t79 @t128 @t154) (tptp.sort @t49 (tptp.match_cont @t49 @t155 @t79 @t128 @t154))))
32.14/32.43	(assume @p25 (forall @t52 (=> @t50 (= (tptp.match_cont1 @t49 tptp.i1 @t45 @t44 @t43) @t43))))
32.14/32.43	(assume @p26 (forall (@list @t40 @t156 @t62 @t61) (not (= @t157 @t63))))
32.14/32.43	(assume @p27 (forall @t159 (=> @t51 (= (tptp.match_value @t49 @t158 @t45 @t44) @t45))))
32.14/32.43	(assume @p28 (forall @t131 (=> @t160 (= (tptp.match_bool @t49 tptp.false @t45 @t44) @t44))))
32.14/32.43	(assume @p29 (forall (@list @t161) (<= 0 (tptp.size_c1 @t161))))
32.14/32.43	(assume @p30 (forall @t60 (=> (tptp.sort @t162 @t58) (= (tptp.t2tb5 (tptp.tb2t5 @t58)) @t58))))
32.14/32.43	(assume @p31 (forall (@list @t163) (<= 0 (tptp.size_c @t163))))
32.14/32.43	(assume @p32 (forall @t166 (=> @t165 (tptp.eval_cont1 @t164 @t62 @t123))))
32.14/32.43	(assume @p33 (forall (@list @t168 @t167) (not (= tptp.empty (tptp.left @t168 @t167)))))
32.14/32.43	(assume @p34 (forall (@list @t169) (or (= @t169 tptp.underflow) (= @t169 (tptp.vnum (tptp.vnum_proj_1 @t169))))))
32.14/32.43	(assume @p35 (forall (@list @t49 @t170 @t79 @t128) (tptp.sort @t49 (tptp.match_bool @t49 @t170 @t79 @t128))))
32.14/32.43	(assume @p36 (forall (@list @t35 @t34 @t171) (and (=> @t177 (= @t175 tptp.underflow)) (=> @t176 (= @t175 (tptp.tb2t (tptp.infix_at tptp.value1 tptp.int @t173 @t172)))))))
32.14/32.43	(assume @p37 (forall (@list @t178) (tptp.sort tptp.tuple01 (tptp.t2tb2 @t178))))
32.14/32.43	(assume @p38 (forall (@list @t179) (= (tptp.tb2t4 (tptp.t2tb4 @t179)) @t179)))
32.14/32.43	(assume @p39 (forall @t182 (= (tptp.left_proj_2 @t181) @t180)))
32.14/32.43	(assume @p40 (forall @t131 (=> @t160 (= (tptp.match_value @t49 tptp.underflow @t45 @t44) @t44))))
32.14/32.43	(assume @p41 (forall (@list @t183) (= (tptp.tb2t5 (tptp.t2tb5 @t183)) @t183)))
32.14/32.43	(assume @p42 (forall @t60 (= (tptp.t2tb3 (tptp.tb2t3 @t58)) @t58)))
32.14/32.43	(assume @p43 (forall (@list @t184) (= (tptp.tb2t (tptp.t2tb @t184)) @t184)))
32.14/32.43	(assume @p44 (forall (@list @t49 @t54) (and (forall @t71 (= (tptp.eval_1 @t49 @t70 @t54) (tptp.eval_1 @t49 @t69 (tptp.fc1 @t49 @t54 @t4)))) (forall @t77 (and (=> @t76 (= @t185 @t118)) (=> @t74 (= @t185 (tptp.infix_at @t49 tptp.value1 @t54 (tptp.t2tb @t110)))))))))
32.14/32.43	(assume @p45 (forall (@list @t186) (tptp.sort @t59 (tptp.t2tb4 @t186))))
32.14/32.43	(assume @p46 (forall (@list @t49 @t45 @t44 @t43 @t78 @t180) (=> @t160 (= (tptp.match_context @t49 @t181 @t45 @t44 @t43) @t44))))
32.14/32.43	(assume @p47 @t192)
32.14/32.43	(assume @p48 (forall @t194 (not (= @t193 tptp.i1))))
32.14/32.43	(assume @p49 (forall @t149 (=> (or (and @t146 @t145) (and @t144 @t143)) (tptp.eval_cont @t147 @t138 @t141))))
32.14/32.43	(assume @p50 (forall @t16 (<= 1 (tptp.size_e1 @t2))))
32.14/32.43	(assume @p51 (forall (@list @t20 @t2) (=> (= @t53 tptp.underflow) (= (tptp.eval_0 (tptp.recompose @t20 @t2)) tptp.underflow))))
32.14/32.43	(assume @p52 (forall @t195 (<= 0 (tptp.size_c2 @t20))))
32.14/32.43	(assume @p53 (forall @t60 (=> (tptp.sort tptp.tuple01 @t58) (= (tptp.t2tb2 (tptp.tb2t2 @t58)) @t58))))
32.14/32.43	(assume @p54 (forall (@list @t196) (= (tptp.tb2t1 (tptp.t2tb1 @t196)) @t196)))
32.14/32.43	(assume @p55 (forall (@list @t49) (tptp.sort @t49 (tptp.witness @t49))))
32.14/32.43	(assume @p56 (forall (@list @t49 @t80 @t197) (tptp.sort @t198 (tptp.fc @t49 @t80 @t197))))
32.14/32.43	(assume @p57 (forall @t199 (= (tptp.vnum_proj_1 @t158) @t47)))
32.14/32.43	(assume @p58 (forall @t140 (tptp.eval_cont tptp.i @t138 @t138)))
32.14/32.43	(assume @p59 (forall (@list @t200) (tptp.sort @t201 (tptp.t2tb1 @t200))))
32.14/32.43	(assume @p60 (forall @t203 (= (tptp.tb2t (tptp.infix_at tptp.value1 tptp.tuple01 @t66 (tptp.t2tb2 @t202))) tptp.underflow)))
32.14/32.43	(assume @p61 (forall (@list @t49 @t9 @t79 @t128) (tptp.sort @t129 (tptp.eval_2b @t49 @t9 @t79 @t128))))
32.14/32.43	(assume @p62 (forall @t204 (= (tptp.a_proj_2 @t157) @t156)))
32.14/32.43	(assume @p63 (and (= (tptp.size_c2 tptp.empty) 0) (forall @t7 (= (tptp.size_c2 @t6) (+ (+ 2 (tptp.size_c2 @t5)) @t205))) (forall @t13 (= (tptp.size_c2 @t12) (+ 1 (tptp.size_c2 @t11))))))
32.14/32.43	(assume @p64 (forall (@list @t49 @t206 @t79 @t128) (tptp.sort @t49 (tptp.match_value @t49 @t206 @t79 @t128))))
32.14/32.43	(assume @p65 (forall (@list @t49 @t54 @t187 @t37 @t55) (= (tptp.eval_2 @t49 (tptp.sub @t187 @t37) @t54 @t55) (tptp.eval_2 @t49 @t187 @t57 @t55))))
32.14/32.43	(assume @p66 (forall @t194 (= (tptp.a2_proj_1 @t193) @t47)))
32.14/32.43	(assume @p67 (forall (@list @t49 @t207 @t79 @t128 @t154) (tptp.sort @t49 (tptp.match_cont1 @t49 @t207 @t79 @t128 @t154))))
32.14/32.43	(assume @p68 (forall @t203 (= @t202 tptp.tuple02)))
32.14/32.43	(assume @p69 (forall @t153 (=> @t152 (tptp.eval_cont @t150 @t138 @t141))))
32.14/32.43	(assume @p70 (forall @t194 (= (tptp.a2_proj_2 @t193) @t39)))
32.14/32.43	(assume @p71 (and (forall @t77 (= (tptp.size_e @t10) 1)) (forall @t71 (= (tptp.size_e @t70) (+ (+ 3 (tptp.size_e @t69)) (tptp.size_e @t4))))))
32.14/32.43	(assume @p72 (and (forall @t77 (= (tptp.eval_01 @t10) @t9)) (forall @t71 (= (tptp.eval_01 @t70) (- (tptp.eval_01 @t69) (tptp.eval_01 @t4))))))
32.14/32.43	(assume @p73 (forall (@list @t49 @t45 @t44 @t43 @t40 @t39) (=> @t51 (= (tptp.match_cont1 @t49 @t41 @t45 @t44 @t43) @t45))))
32.14/32.43	(assume @p74 (forall (@list @t49 @t45 @t44 @t43 @t40 @t156) (=> @t160 (= (tptp.match_cont @t49 @t157 @t45 @t44 @t43) @t44))))
32.14/32.43	(assume @p75 (forall (@list @t49 @t35 @t54 @t55 @t171) (and (=> @t177 (= @t208 @t75)) (=> @t176 (= @t208 (tptp.infix_at @t49 tptp.int @t54 @t172))))))
32.14/32.43	(assume @p76 (forall @t210 (= (tptp.sub_proj_2 @t209) @t180)))
32.14/32.43	(assume @p77 (forall (@list @t211) (= (tptp.tb2t3 (tptp.t2tb3 @t211)) @t211)))
32.14/32.43	(assume @p78 (forall @t42 (= (tptp.a1_proj_1 @t41) @t40)))
32.14/32.43	(assume @p79 (forall @t204 (= (tptp.a_proj_1 @t157) @t40)))
32.14/32.43	(assume @p80 (forall (@list @t9 @t132 @t212) (=> (<= @t9 @t132) (=> (<= 0 @t212) (<= (* @t9 @t212) (* @t132 @t212))))))
32.14/32.43	(assume @p81 (forall (@list @t78 @t180 @t62 @t213) (not (= @t181 @t214))))
32.14/32.43	(assume @p82 (forall @t140 (tptp.eval_cont1 tptp.i1 @t62 @t62)))
32.14/32.43	(assume @p83 (forall (@list @t49 @t5 @t79 @t128 @t154) (tptp.sort @t49 (tptp.match_context @t49 @t5 @t79 @t128 @t154))))
32.14/32.43	(assume @p84 (forall (@list @t49 @t69 @t79) (tptp.sort @t49 (tptp.eval_1 @t49 @t69 @t79))))
32.14/32.43	(assume @p85 (forall (@list @t47 @t215 @t167) (not (= @t216 (tptp.sub @t215 @t167)))))
32.14/32.43	(assume @p86 (forall @t218 (= (tptp.b_proj_2 @t217) @t156)))
32.14/32.43	(assume @p87 (and (forall @t71 (= (tptp.size_e1 @t70) (+ (+ 3 @t219) @t205))) (forall @t77 (= (tptp.size_e1 @t10) 1))))
32.14/32.43	(assume @p88 (forall (@list @t220) (or (= @t220 (tptp.a1 (tptp.a1_proj_1 @t220) (tptp.a1_proj_2 @t220))) (= @t220 tptp.i1) (= @t220 (tptp.a2 (tptp.a2_proj_1 @t220) (tptp.a2_proj_2 @t220))))))
32.14/32.43	(assume @p89 (forall @t52 (=> @t51 (= (tptp.match_context @t49 tptp.empty @t45 @t44 @t43) @t45))))
32.14/32.43	(assume @p90 (forall @t182 (= (tptp.left_proj_1 @t181) @t78)))
32.14/32.43	(assume @p91 (forall @t60 (=> (tptp.sort @t201 @t58) (= (tptp.t2tb1 (tptp.tb2t1 @t58)) @t58))))
32.14/32.43	(assume @p92 (forall (@list @t221) (or (= @t221 tptp.i) (= @t221 (tptp.b (tptp.b_proj_1 @t221) (tptp.b_proj_2 @t221))) (= @t221 (tptp.a (tptp.a_proj_1 @t221) (tptp.a_proj_2 @t221))))))
32.14/32.43	(assume @p93 (forall @t130 (tptp.sort @t49 (tptp.match_expr @t49 @t69 @t79 @t128))))
32.14/32.43	(assume @p94 (forall (@list @t222) (or (= @t222 tptp.false) (= @t222 tptp.true))))
32.14/32.43	(assume @p95 (forall (@list @t49 @t80 @t4) (tptp.sort @t198 (tptp.fc1 @t49 @t80 @t4))))
32.14/32.43	(assume @p96 (forall (@list @t40 @t39 @t62 @t223) (not (= @t41 (tptp.a2 @t62 @t223)))))
32.14/32.43	(assume @p97 (and (forall (@list @t69 @t224) (= (tptp.size_c1 (tptp.a @t69 @t224)) (+ @t226 @t225))) (forall (@list @t9 @t224) (= (tptp.size_c1 (tptp.b @t9 @t224)) (+ 1 @t225))) (= (tptp.size_c1 tptp.i) 0)))
32.14/32.43	(assume @p98 (forall @t68 (= (tptp.tb2t (tptp.eval_1 tptp.value1 @t64 @t227)) @t65)))
32.14/32.43	(assume @p99 (forall @t218 (= (tptp.b_proj_1 @t217) @t47)))
32.14/32.43	(assume @p100 (forall (@list @t228) (tptp.sort @t162 (tptp.t2tb5 @t228))))
32.14/32.43	(assume @p101 (forall (@list @t2 @t34) (= (tptp.eval_3 @t2 @t34) (tptp.tb2t (tptp.match_value tptp.value1 @t53 (tptp.infix_at tptp.value1 tptp.int @t173 @t229) @t117)))))
32.14/32.43	(assume @p102 (forall @t60 (= (tptp.t2tb (tptp.tb2t @t58)) @t58)))
32.14/32.43	(assume @p103 (forall @t42 (= (tptp.a1_proj_2 @t41) @t39)))
32.14/32.43	(assume @p104 (forall (@list @t230) (= (tptp.tb2t (tptp.infix_at tptp.value1 tptp.value1 @t227 (tptp.t2tb @t230))) @t230)))
32.14/32.43	(assume @p105 (and (forall (@list @t69 @t231) (= (tptp.size_c (tptp.a1 @t69 @t231)) (+ @t226 @t232))) (forall (@list @t9 @t231) (= (tptp.size_c (tptp.a2 @t9 @t231)) (+ 1 @t232))) (= (tptp.size_c tptp.i1) 0)))
32.14/32.43	(assume @p106 (forall @t233 (= (tptp.right_proj_1 @t48) @t47)))
32.14/32.43	(assume @p107 @t235)
32.14/32.43	(assume @p108 (forall @t233 (= (tptp.right_proj_2 @t48) @t46)))
32.14/32.43	(assume @p109 (forall (@list @t49 @t45 @t44 @t43 @t47 @t39) (=> @t160 (= (tptp.match_cont1 @t49 @t193 @t45 @t44 @t43) @t44))))
32.14/32.43	(assume @p110 (forall @t210 (= (tptp.sub_proj_1 @t209) @t40)))
32.14/32.43	(assume @p111 (forall @t16 (<= 1 (tptp.size_e @t2))))
32.14/32.43	(assume @p112 (forall @t137 (tptp.eval_cont @t135 tptp.underflow tptp.underflow)))
32.14/32.43	(assume @p113 (forall (@list @t49 @t2 @t55 @t54) (= (tptp.eval_2 @t49 @t2 @t54 @t55) (tptp.match_value @t49 @t53 (tptp.infix_at @t49 tptp.int @t54 @t229) @t75))))
32.14/32.43	(assume @p114 (forall @t199 (= (tptp.cte_proj_1 @t216) @t47)))
32.14/32.43	(assume @p115 (forall @t159 (=> @t51 (= (tptp.match_expr @t49 @t216 @t45 @t44) @t45))))
32.14/32.43	(assume @p116 (forall (@list @t40) (or (= @t40 (tptp.cte (tptp.cte_proj_1 @t40))) (= @t40 (tptp.sub (tptp.sub_proj_1 @t40) (tptp.sub_proj_2 @t40))))))
32.14/32.43	(assume @p117 (forall (@list @t49 @t45 @t44 @t43 @t47 @t156) (=> @t50 (= (tptp.match_cont @t49 @t217 @t45 @t44 @t43) @t43))))
32.14/32.43	(assume @p118 (forall @t199 (not (= @t158 tptp.underflow))))
32.14/32.43	(assume @p119 (forall (@list @t62 @t213) (not (= tptp.empty @t214))))
32.14/32.43	(assume @p120 (forall (@list @t206) (tptp.sort tptp.value1 (tptp.t2tb @t206))))
32.14/32.43	(assume @p121 (forall (@list @t236 @t237 @t239) (=> (tptp.eval_cont1 @t236 @t237 @t239) (or (exists @t127 (and @t126 @t240 @t238 (= @t236 @t125))) (exists @t140 (and (= @t239 @t62) @t238 (= @t236 tptp.i1))) (exists @t166 (and @t240 @t238 (= @t236 @t164) @t165))))))
32.14/32.43	(assume @p122 @t250)
32.14/32.43	(assume @p123 (not (= tptp.true tptp.false)))
32.14/32.43	(assume @p124 (forall (@list @t49 @t45 @t44 @t40 @t180) (=> @t160 (= (tptp.match_expr @t49 @t209 @t45 @t44) @t44))))
32.14/32.43	(assume @p125 (forall (@list @t215 @t61) (not (= tptp.i (tptp.a @t215 @t61)))))
32.14/32.43	(assume @p126 (forall @t130 (tptp.sort @t49 (tptp.eval_2 @t49 @t69 @t79 @t128))))
32.14/32.43	(assume @p127 (forall (@list @t49 @t54 @t69 @t251) (= (tptp.infix_at @t49 tptp.value1 (tptp.fc1 @t49 @t54 @t69) (tptp.t2tb @t251)) (tptp.match_value @t49 @t251 (tptp.eval_1 @t49 @t69 (tptp.fc @t49 @t54 (tptp.vnum_proj_1 @t251))) @t118))))
32.14/32.43	(assume @p128 true)
32.14/32.43	(step @p129 :rule aci_norm :args ((= (or @t263 false @t261 @t259) @t264)))
32.14/32.43	(step @p130 :rule eq-symm :args (@t255 @t258))
32.14/32.43	(step @p131 :rule refl :args (@t261))
32.14/32.43	(step @p132 :rule evaluate :args ((not true)))
32.14/32.43	(step @p133 :rule eq-refl :args (@t254))
32.14/32.43	(step @p134 :rule cong :premises (@p133) :args (@t265))
32.14/32.43	(step @p135 :rule trans :premises (@p134 @p132))
32.14/32.43	(step @p136 :rule refl :args (@t263))
32.14/32.43	(step @p137 :rule nary_cong :premises (@p136 @p135 @p131 @p130) :args (@t266))
32.14/32.43	(step @p138 :rule trans :premises (@p137 @p129))
32.14/32.43	(step @p139 :rule cong :premises (@p138) :args ((forall @t267 @t266)))
32.14/32.43	(step @p140 :rule quant-var-elim-eq :args ((= (forall @t195 @t270) @t266)))
32.14/32.43	(step @p141 :rule aci_norm :args ((= @t271 @t270)))
32.14/32.43	(step @p142 :rule cong :premises (@p141) :args (@t272))
32.14/32.43	(step @p143 :rule trans :premises (@p142 @p140))
32.14/32.43	(step @p144 :rule cong :premises (@p143) :args (@t273))
32.14/32.43	(step @p145 :rule quant-merge-prenex :args ((= @t273 @t274)))
32.14/32.43	(step @p146 :rule symm :premises (@p145))
32.14/32.43	(step @p147 :rule quant_var_reordering :args ((= (forall @t275 @t271) @t274)))
32.14/32.43	(step @p148 :rule trans :premises (@p147 @p146 @p144))
32.14/32.43	(step @p149 :rule trans :premises (@p148 @p139))
32.14/32.43	(step @p150 :rule arith_poly_norm :args ((= @t276 @t257)))
32.14/32.43	(step @p151 :rule cong :premises (@p150) :args (@t277))
32.14/32.43	(step @p152 :rule refl :args (@t252))
32.14/32.43	(step @p153 :rule cong :premises (@p152 @p151) :args (@t278))
32.14/32.43	(step @p154 :rule cong :premises (@p153) :args (@t279))
32.14/32.43	(step @p155 :rule refl :args (@t21))
32.14/32.43	(step @p156 :rule cong :premises (@p155 @p154) :args (@t280))
32.14/32.43	(step @p157 :rule bool-double-not-elim :args (@t261))
32.14/32.43	(step @p158 :rule arith_poly_norm :args ((= (* -1 (- 1 @t281)) (* -1 (- @t257 0)))))
32.14/32.43	(step @p159 :rule arith_poly_norm_rel :premises (@p158) :args ((= (>= 1 @t281) (>= @t257 0))))
32.14/32.43	(step @p160 :rule arith-geq-tighten :args (@t260 1))
32.14/32.43	(step @p161 :rule trans :premises (@p160 @p159))
32.14/32.43	(step @p162 :rule symm :premises (@p161))
32.14/32.43	(step @p163 :rule refl :args (0))
32.14/32.43	(step @p164 :rule cong :premises (@p150 @p163) :args (@t282))
32.14/32.43	(step @p165 :rule trans :premises (@p164 @p162))
32.14/32.43	(step @p166 :rule cong :premises (@p165) :args (@t283))
32.14/32.43	(step @p167 :rule trans :premises (@p166 @p157))
32.14/32.43	(step @p168 :rule eq-symm :args (@t254 @t20))
32.14/32.43	(step @p169 :rule cong :premises (@p168) :args (@t284))
32.14/32.43	(step @p170 :rule nary_cong :premises (@p136 @p169 @p167 @p156) :args (@t285))
32.14/32.43	(step @p171 :rule aci_norm :args ((= @t287 @t285)))
32.14/32.43	(step @p172 :rule trans :premises (@p171 @p170))
32.14/32.43	(step @p173 :rule cong :premises (@p172) :args (@t288))
32.14/32.43	(step @p174 :rule trans :premises (@p173 @p149))
32.14/32.43	(step @p175 :rule quant-merge-prenex :args ((= (forall @t31 @t290) @t288)))
32.14/32.43	(step @p176 :rule alpha_equiv :args (@t291 (@list @t253 @t252) (@list @t9 @t11)))
32.14/32.43	(step @p177 :rule refl :args (@t263))
32.14/32.43	(step @p178 :rule nary_cong :premises (@p177 @p176) :args (@t292))
32.14/32.43	(step @p179 :rule quant-miniscope-or :args ((= @t290 @t292)))
32.14/32.43	(step @p180 :rule trans :premises (@p179 @p178))
32.14/32.43	(step @p181 :rule symm :premises (@p180))
32.14/32.43	(step @p182 :rule cong :premises (@p181) :args ((forall @t31 (or @t263 @t301))))
32.14/32.43	(step @p183 :rule trans :premises (@p182 @p175))
32.14/32.43	(step @p184 :rule trans :premises (@p183 @p174))
32.14/32.43	(step @p185 :rule bool-impl-elim :args (@t262 @t301))
32.14/32.43	(step @p186 :rule cong :premises (@p185) :args ((forall @t31 (=> @t262 @t301))))
32.14/32.43	(step @p187 :rule trans :premises (@p186 @p184))
32.14/32.43	(step @p188 :rule aci_norm :args ((= (or @t299 (or @t297 @t295)) @t300)))
32.14/32.43	(step @p189 :rule bool-impl-elim :args (@t296 @t295))
32.14/32.43	(step @p190 :rule refl :args (@t299))
32.14/32.43	(step @p191 :rule nary_cong :premises (@p190 @p189) :args ((or @t299 @t302)))
32.14/32.43	(step @p192 :rule trans :premises (@p191 @p188))
32.14/32.43	(step @p193 :rule bool-impl-elim :args (@t298 @t302))
32.14/32.43	(step @p194 :rule trans :premises (@p193 @p192))
32.14/32.43	(step @p195 :rule cong :premises (@p194) :args ((forall @t13 (=> @t298 @t302))))
32.14/32.43	(step @p196 :rule eq-symm :args (@t294 @t21))
32.14/32.43	(step @p197 :rule arith_poly_norm :args ((= @t22 @t293)))
32.14/32.43	(step @p198 :rule cong :premises (@p197) :args (@t23))
32.14/32.43	(step @p199 :rule refl :args (@t11))
32.14/32.43	(step @p200 :rule cong :premises (@p199 @p198) :args (@t24))
32.14/32.43	(step @p201 :rule cong :premises (@p200) :args (@t25))
32.14/32.43	(step @p202 :rule cong :premises (@p201 @p155) :args (@t26))
32.14/32.43	(step @p203 :rule trans :premises (@p202 @p196))
32.14/32.43	(step @p204 :rule arith_poly_norm :args ((= (* 1 @t22) (* 1 (- @t293 0)))))
32.14/32.43	(step @p205 :rule arith_poly_norm_rel :premises (@p204) :args ((= (>= @t9 @t18) @t296)))
32.14/32.43	(step @p206 :rule arith-elim-leq :args (@t18 @t9))
32.14/32.43	(step @p207 :rule trans :premises (@p206 @p205))
32.14/32.43	(step @p208 :rule cong :premises (@p207 @p203) :args (@t27))
32.14/32.43	(step @p209 :rule eq-symm :args (@t20 @t12))
32.14/32.43	(step @p210 :rule cong :premises (@p209 @p208) :args (@t28))
32.14/32.43	(step @p211 :rule cong :premises (@p210) :args (@t29))
32.14/32.43	(step @p212 :rule trans :premises (@p211 @p195))
32.14/32.43	(step @p213 :rule arith-elim-leq :args (0 @t18))
32.14/32.43	(step @p214 :rule cong :premises (@p213 @p212) :args (@t30))
32.14/32.43	(step @p215 :rule cong :premises (@p214) :args (@t32))
32.14/32.43	(step @p216 :rule trans :premises (@p215 @p187))
32.14/32.43	(step @p217 :rule cong :premises (@p216) :args (@t33))
32.14/32.43	(step @p218 :rule eq_resolve :premises (@p3 @p217))
32.14/32.43	(step @p219 :rule skolemize :premises (@p218))
32.14/32.43	(step @p220 :rule cnf_or_neg :args (@t317 1))
32.14/32.43	(step @p221 :rule chain_resolution :premises (@p220 @p219) :args (@t318 @t319))
32.14/32.43	(step @p222 :rule bool-double-not-elim :args (@t315))
32.14/32.43	(step @p223 :rule refl :args (@t317))
32.14/32.43	(step @p224 :rule nary_cong :premises (@p223 @p222) :args ((or @t317 (not @t316))))
32.14/32.43	(step @p225 :rule cnf_or_neg :args (@t317 0))
32.14/32.43	(step @p226 :rule eq_resolve :premises (@p225 @p224))
32.14/32.43	(step @p227 :rule reordering :premises (@p226) :args ((or @t315 @t317)))
32.14/32.43	(step @p228 :rule chain_resolution :premises (@p227 @p219) :args (@t318 @t319))
32.14/32.43	(step @p229 :rule bool-double-not-elim :args (@t320))
32.14/32.43	(step @p230 :rule refl :args (@t322))
32.14/32.43	(step @p231 :rule bool-double-not-elim :args (@t314))
32.14/32.43	(step @p232 :rule nary_cong :premises (@p231 @p230 @p229) :args ((or @t326 @t322 @t324)))
32.14/32.43	(assume-push @p710 @t325)
32.14/32.43	(assume-push @p711 @t321)
32.14/32.43	(assume-push @p712 @t323)
32.14/32.43	(step @p236 :rule evaluate :args (@t327))
32.14/32.43	(step @p237 :rule evaluate :args ((+ 0 0 0)))
32.14/32.43	(step @p238 :rule evaluate :args (@t328))
32.14/32.43	(step @p239 :rule nary_cong :premises (@p163 @p163 @p238) :args (@t329))
32.14/32.43	(step @p240 :rule trans :premises (@p239 @p237))
32.14/32.43	(step @p241 :rule arith_poly_norm :args (@t331))
32.14/32.43	(step @p242 :rule arith_poly_norm :args ((= @t332 @t330)))
32.14/32.43	(step @p243 :rule trans :premises (@p242 @p241))
32.14/32.43	(step @p244 :rule cong :premises (@p243 @p240) :args (@t333))
32.14/32.43	(step @p245 :rule trans :premises (@p244 @p236))
32.14/32.43	(step @p246 :rule cong :premises (@p245) :args ((not @t333)))
32.14/32.43	(step @p247 :rule trans :premises (@p246 @p132))
32.14/32.43	(step @p248 :rule arith-elim-lt :args (@t332 @t329))
32.14/32.43	(step @p249 :rule trans :premises (@p248 @p247))
32.14/32.43	(step @p250 :rule arith_mult_neg :args (-1 @t321))
32.14/32.43	(step @p251 :rule evaluate :args (@t334))
32.14/32.43	(step @p252 :rule true_elim :premises (@p251))
32.14/32.43	(step @p253 :rule and_intro :premises (@p252 @p711))
32.14/32.43	(step @p254 :rule modus_ponens :premises (@p253 @p250))
32.14/32.43	(step @p255 :rule arith-elim-lt :args (@t313 1))
32.14/32.43	(step @p256 :rule symm :premises (@p255))
32.14/32.43	(step @p257 :rule eq_resolve :premises (@p221 @p256))
32.14/32.43	(step @p258 :rule int_tight_ub :premises (@p257))
32.14/32.43	(step @p259 :rule arith-elim-lt :args (@t307 0))
32.14/32.43	(step @p260 :rule symm :premises (@p259))
32.14/32.43	(step @p261 :rule eq_resolve :premises (@p712 @p260))
32.14/32.43	(step @p262 :rule arith_sum_ub :premises (@p261 @p258 @p254))
32.14/32.43	(step @p263 false :rule eq_resolve :premises (@p262 @p249))
32.14/32.43	(step-pop @p712 :rule scope :premises (@p263))
32.14/32.43	(step-pop @p713 :rule scope :premises (@p712))
32.14/32.43	(step-pop @p714 :rule scope :premises (@p713))
32.14/32.43	(step @p264 :rule process_scope :premises (@p714) :args (false))
32.14/32.43	(step @p268 :rule not_and :premises (@p264))
32.14/32.43	(step @p269 :rule eq_resolve :premises (@p268 @p232))
32.14/32.43	(step @p270 :rule alpha_equiv :args (@t338 @t339 (@list (@var "BOUND_VARIABLE_8624" Int))))
32.14/32.43	(step @p271 :rule alpha_equiv :args (@t342 @t339 (@list (@var "BOUND_VARIABLE_8615" Int))))
32.14/32.43	(step @p272 :rule nary_cong :premises (@p271 @p270) :args (@t343))
32.14/32.43	(step @p273 :rule quant-miniscope-and :args ((= (forall @t77 (and @t341 @t337)) @t343)))
32.14/32.43	(step @p274 :rule trans :premises (@p273 @p272))
32.14/32.43	(step @p275 :rule bool-impl-elim :args (@t335 @t112))
32.14/32.43	(step @p276 :rule refl :args (@t340))
32.14/32.43	(step @p277 :rule bool-double-not-elim :args (@t335))
32.14/32.43	(step @p278 :rule nary_cong :premises (@p277 @p276) :args ((or @t344 @t340)))
32.14/32.43	(step @p279 :rule bool-impl-elim :args (@t336 @t340))
32.14/32.43	(step @p280 :rule trans :premises (@p279 @p278))
32.14/32.43	(step @p281 :rule nary_cong :premises (@p280 @p275) :args (@t345))
32.14/32.43	(step @p282 :rule cong :premises (@p281) :args ((forall @t77 @t345)))
32.14/32.43	(step @p283 :rule trans :premises (@p282 @p274))
32.14/32.43	(step @p284 :rule refl :args (@t112))
32.14/32.43	(step @p285 :rule arith-elim-leq :args (0 @t9))
32.14/32.43	(step @p286 :rule cong :premises (@p285 @p284) :args (@t113))
32.14/32.43	(step @p287 :rule eq-symm :args (@t111 tptp.underflow))
32.14/32.43	(step @p288 :rule cong :premises (@p285) :args (@t76))
32.14/32.43	(step @p289 :rule cong :premises (@p288 @p287) :args (@t114))
32.14/32.43	(step @p290 :rule nary_cong :premises (@p289 @p286) :args (@t115))
32.14/32.43	(step @p291 :rule cong :premises (@p290) :args (@t116))
32.14/32.43	(step @p292 :rule trans :premises (@p291 @p283))
32.14/32.43	(step @p293 :rule and_elim :premises (@p17) :args (0))
32.14/32.43	(step @p294 :rule eq_resolve :premises (@p293 @p292))
32.14/32.43	(step @p295 :rule and_elim :premises (@p294) :args (1))
32.14/32.43	(step @p296 :rule instantiate :premises (@p295) :args ((@list @t307)))
32.14/32.43	(step @p297 :rule cnf_or_pos :args (@t350))
32.14/32.43	(step @p298 :rule reordering :premises (@p297) :args ((or @t323 @t349 (not @t350))))
32.14/32.43	(step @p299 :rule refl :args (@t353))
32.14/32.43	(step @p300 :rule refl :args (@t359))
32.14/32.43	(step @p301 :rule refl :args (@t363))
32.14/32.43	(step @p302 :rule eq-symm :args (@t356 @t364))
32.14/32.43	(step @p303 :rule refl :args (@t365))
32.14/32.43	(step @p304 :rule nary_cong :premises (@p303 @p302) :args (@t366))
32.14/32.43	(step @p305 :rule nary_cong :premises (@p304 @p301) :args (@t367))
32.14/32.43	(step @p306 :rule eq-symm :args (@t358 @t368))
32.14/32.43	(step @p307 :rule cong :premises (@p306) :args (@t369))
32.14/32.43	(step @p308 :rule nary_cong :premises (@p307 @p305) :args (@t370))
32.14/32.43	(step @p309 :rule nary_cong :premises (@p308 @p300) :args (@t371))
32.14/32.43	(step @p310 :rule eq-symm :args (@t372 @t103))
32.14/32.43	(step @p311 :rule cong :premises (@p310) :args (@t373))
32.14/32.43	(step @p312 :rule nary_cong :premises (@p311 @p309) :args (@t374))
32.14/32.43	(step @p313 :rule cong :premises (@p312) :args (@t376))
32.14/32.43	(step @p314 :rule quant-merge-prenex :args ((= @t378 @t376)))
32.14/32.43	(step @p315 :rule trans :premises (@p314 @p313))
32.14/32.43	(step @p316 :rule nary_cong :premises (@p315 @p299) :args ((and @t378 @t353)))
32.14/32.43	(step @p317 :rule alpha_equiv :args (@t382 @t383 (@list @t352 @t351)))
32.14/32.43	(step @p318 :rule alpha_equiv :args (@t391 @t383 (@list @t355 @t354)))
32.14/32.43	(step @p319 :rule nary_cong :premises (@p318 @p317) :args (@t392))
32.14/32.43	(step @p320 :rule quant-miniscope-and :args ((= (forall @t71 (and @t390 @t381)) @t392)))
32.14/32.43	(step @p321 :rule trans :premises (@p320 @p319))
32.14/32.43	(step @p322 :rule trans :premises (@p321 @p316))
32.14/32.43	(step @p323 :rule bool-impl-elim :args (@t380 @t379))
32.14/32.43	(step @p324 :rule refl :args (@t390))
32.14/32.43	(step @p325 :rule nary_cong :premises (@p324 @p323) :args (@t393))
32.14/32.43	(step @p326 :rule cong :premises (@p325) :args ((forall @t71 @t393)))
32.14/32.43	(step @p327 :rule trans :premises (@p326 @p322))
32.14/32.43	(step @p328 :rule eq-symm :args (@t82 tptp.underflow))
32.14/32.43	(step @p329 :rule eq-symm :args (@t84 tptp.underflow))
32.14/32.43	(step @p330 :rule cong :premises (@p329 @p328) :args (@t85))
32.14/32.43	(step @p331 :rule quant-merge-prenex :args ((= (forall @t106 @t395) @t390)))
32.14/32.43	(step @p332 :rule quant-unused-vars :args ((= @t396 @t385)))
32.14/32.43	(step @p333 :rule alpha_equiv :args (@t397 (@list @t360) (@list @t89)))
32.14/32.43	(step @p334 :rule nary_cong :premises (@p333 @p332) :args (@t398))
32.14/32.43	(step @p335 :rule quant-miniscope-and :args ((= @t399 @t398)))
32.14/32.43	(step @p336 :rule trans :premises (@p335 @p334))
32.14/32.43	(step @p337 :rule refl :args (@t388))
32.14/32.43	(step @p338 :rule nary_cong :premises (@p337 @p336) :args (@t400))
32.14/32.43	(step @p339 :rule quant-miniscope-or :args ((= @t395 @t400)))
32.14/32.43	(step @p340 :rule trans :premises (@p339 @p338))
32.14/32.43	(step @p341 :rule symm :premises (@p340))
32.14/32.43	(step @p342 :rule cong :premises (@p341) :args ((forall @t106 (or @t388 (and @t406 @t385)))))
32.14/32.43	(step @p343 :rule trans :premises (@p342 @p331))
32.14/32.43	(step @p344 :rule bool-impl-elim :args (@t384 @t379))
32.14/32.43	(step @p345 :rule refl :args (@t406))
32.14/32.43	(step @p346 :rule nary_cong :premises (@p345 @p344) :args (@t407))
32.14/32.43	(step @p347 :rule nary_cong :premises (@p337 @p346) :args ((or @t388 @t407)))
32.14/32.43	(step @p348 :rule bool-impl-elim :args (@t104 @t407))
32.14/32.43	(step @p349 :rule trans :premises (@p348 @p347))
32.14/32.43	(step @p350 :rule cong :premises (@p349) :args ((forall @t106 (=> @t104 @t407))))
32.14/32.43	(step @p351 :rule trans :premises (@p350 @p343))
32.14/32.43	(step @p352 :rule eq-symm :args (@t86 tptp.underflow))
32.14/32.43	(step @p353 :rule cong :premises (@p352 @p328) :args (@t87))
32.14/32.43	(step @p354 :rule refl :args (@t379))
32.14/32.43	(step @p355 :rule bool-double-not-elim :args (@t402))
32.14/32.43	(step @p356 :rule nary_cong :premises (@p355 @p354) :args ((or (not @t404) @t379)))
32.14/32.43	(step @p357 :rule bool-impl-elim :args (@t404 @t379))
32.14/32.43	(step @p358 :rule trans :premises (@p357 @p356))
32.14/32.43	(step @p359 :rule bool-impl-elim :args (@t402 @t403))
32.14/32.43	(step @p360 :rule nary_cong :premises (@p359 @p358) :args (@t408))
32.14/32.43	(step @p361 :rule refl :args (@t405))
32.14/32.43	(step @p362 :rule nary_cong :premises (@p361 @p360) :args ((or @t405 @t408)))
32.14/32.43	(step @p363 :rule bool-impl-elim :args (@t98 @t408))
32.14/32.43	(step @p364 :rule trans :premises (@p363 @p362))
32.14/32.43	(step @p365 :rule cong :premises (@p364) :args ((forall @t100 (=> @t98 @t408))))
32.14/32.43	(step @p366 :rule arith_poly_norm :args ((= (* 1 @t93) (* 1 (- @t401 0)))))
32.14/32.43	(step @p367 :rule arith_poly_norm_rel :premises (@p366) :args ((= (>= @t88 @t89) @t402)))
32.14/32.43	(step @p368 :rule arith-elim-leq :args (@t89 @t88))
32.14/32.43	(step @p369 :rule trans :premises (@p368 @p367))
32.14/32.43	(step @p370 :rule cong :premises (@p369) :args (@t91))
32.14/32.43	(step @p371 :rule cong :premises (@p370 @p328) :args (@t92))
32.14/32.43	(step @p372 :rule arith_poly_norm :args ((= @t93 @t401)))
32.14/32.43	(step @p373 :rule cong :premises (@p372) :args (@t94))
32.14/32.43	(step @p374 :rule refl :args (@t82))
32.14/32.43	(step @p375 :rule cong :premises (@p374 @p373) :args (@t95))
32.14/32.43	(step @p376 :rule cong :premises (@p369 @p375) :args (@t96))
32.14/32.43	(step @p377 :rule nary_cong :premises (@p376 @p371) :args (@t97))
32.14/32.43	(step @p378 :rule refl :args (@t98))
32.14/32.43	(step @p379 :rule cong :premises (@p378 @p377) :args (@t99))
32.14/32.43	(step @p380 :rule cong :premises (@p379) :args (@t101))
32.14/32.43	(step @p381 :rule trans :premises (@p380 @p365))
32.14/32.43	(step @p382 :rule nary_cong :premises (@p381 @p353) :args (@t102))
32.14/32.43	(step @p383 :rule refl :args (@t104))
32.14/32.43	(step @p384 :rule cong :premises (@p383 @p382) :args (@t105))
32.14/32.43	(step @p385 :rule cong :premises (@p384) :args (@t107))
32.14/32.43	(step @p386 :rule trans :premises (@p385 @p351))
32.14/32.43	(step @p387 :rule nary_cong :premises (@p386 @p330) :args (@t108))
32.14/32.43	(step @p388 :rule cong :premises (@p387) :args (@t109))
32.14/32.43	(step @p389 :rule trans :premises (@p388 @p327))
32.14/32.43	(step @p390 :rule and_elim :premises (@p17) :args (1))
32.14/32.43	(step @p391 :rule eq_resolve :premises (@p390 @p389))
32.14/32.43	(step @p392 :rule and_elim :premises (@p391) :args (0))
32.14/32.43	(step @p393 :rule refl :args (@t413))
32.14/32.43	(step @p394 :rule refl :args (@t411))
32.14/32.43	(step @p395 :rule arith_poly_norm :args ((= (* -1 (- 1 @t414)) (* -1 (- @t309 0)))))
32.14/32.43	(step @p396 :rule arith_poly_norm_rel :premises (@p395) :args ((= (>= 1 @t414) @t415)))
32.14/32.43	(step @p397 :rule arith-geq-tighten :args (@t313 1))
32.14/32.43	(step @p398 :rule trans :premises (@p397 @p396))
32.14/32.43	(step @p399 :rule symm :premises (@p398))
32.14/32.43	(step @p400 :rule arith_poly_norm :args ((= @t416 @t309)))
32.14/32.43	(step @p401 :rule cong :premises (@p400 @p163) :args (@t417))
32.14/32.43	(step @p402 :rule trans :premises (@p401 @p399))
32.14/32.43	(step @p403 :rule nary_cong :premises (@p402 @p394) :args (@t418))
32.14/32.43	(step @p404 :rule eq-symm :args (@t419 @t410))
32.14/32.43	(step @p405 :rule refl :args (@t410))
32.14/32.43	(step @p406 :rule cong :premises (@p400) :args (@t420))
32.14/32.43	(step @p407 :rule cong :premises (@p406 @p405) :args (@t421))
32.14/32.43	(step @p408 :rule trans :premises (@p407 @p404))
32.14/32.43	(step @p409 :rule cong :premises (@p402) :args (@t422))
32.14/32.43	(step @p410 :rule trans :premises (@p409 @p231))
32.14/32.43	(step @p411 :rule nary_cong :premises (@p410 @p408) :args (@t423))
32.14/32.43	(step @p412 :rule nary_cong :premises (@p411 @p403) :args (@t424))
32.14/32.43	(step @p413 :rule eq-symm :args (@t425 @t412))
32.14/32.43	(step @p414 :rule cong :premises (@p413) :args (@t426))
32.14/32.43	(step @p415 :rule nary_cong :premises (@p414 @p412) :args (@t427))
32.14/32.43	(step @p416 :rule nary_cong :premises (@p415 @p393) :args (@t428))
32.14/32.43	(step @p417 :rule eq-symm :args (@t346 @t348))
32.14/32.43	(step @p418 :rule cong :premises (@p417) :args (@t429))
32.14/32.43	(step @p419 :rule nary_cong :premises (@p418 @p416) :args (@t430))
32.14/32.43	(step @p420 :rule refl :args (@t431))
32.14/32.43	(step @p421 :rule cong :premises (@p420 @p419) :args ((=> @t431 @t430)))
32.14/32.43	(assume-push @p716 @t431)
32.14/32.43	(step @p423 :rule instantiate :premises (@p392) :args ((@list @t347 @t305 @t307 @t304)))
32.14/32.43	(step-pop @p716 :rule scope :premises (@p423))
32.14/32.43	(step @p424 :rule process_scope :premises (@p716) :args (@t430))
32.14/32.43	(step @p426 :rule eq_resolve :premises (@p424 @p421))
32.14/32.43	(step @p427 :rule implies_elim :premises (@p426))
32.14/32.43	(step @p428 :rule chain_resolution :premises (@p427 @p392) :args (@t432 (@list @t431)))
32.14/32.43	(step @p429 :rule cnf_or_pos :args (@t441))
32.14/32.43	(step @p430 :rule reordering :premises (@p429) :args ((or @t440 @t439 (not @t441))))
32.14/32.43	(step @p431 :rule cnf_and_pos :args (@t439 0))
32.14/32.43	(step @p432 :rule reordering :premises (@p431) :args ((or @t438 (not @t439))))
32.14/32.43	(step @p433 :rule instantiate :premises (@p295) :args ((@list @t304)))
32.14/32.43	(step @p434 :rule cnf_or_pos :args (@t442))
32.14/32.43	(step @p435 :rule reordering :premises (@p434) :args ((or @t316 @t436 (not @t442))))
32.14/32.43	(step @p436 :rule chain_resolution :premises (@p435 @p228 @p433) :args ((@list false false) (@list @t315 @t442)))
32.14/32.43	(step @p437 :rule cnf_or_pos :args (@t438))
32.14/32.43	(step @p438 :rule reordering :premises (@p437) :args ((or @t437 @t435 (not @t438))))
32.14/32.43	(step @p439 :rule cnf_and_pos :args (@t435 0))
32.14/32.43	(step @p440 :rule reordering :premises (@p439) :args ((or @t434 (not @t435))))
32.14/32.43	(step @p441 :rule cnf_or_pos :args (@t434))
32.14/32.43	(step @p442 :rule reordering :premises (@p441) :args ((or @t314 @t433 (not @t434))))
32.14/32.43	(step @p443 :rule bool-impl-elim :args (@t443 @t188))
32.14/32.43	(step @p444 :rule cong :premises (@p443) :args ((forall @t191 (=> @t443 @t188))))
32.14/32.43	(step @p445 :rule refl :args (@t188))
32.14/32.43	(step @p446 :rule eq-symm :args (@t189 @t151))
32.14/32.43	(step @p447 :rule cong :premises (@p446 @p445) :args (@t190))
32.14/32.43	(step @p448 :rule cong :premises (@p447) :args (@t192))
32.14/32.43	(step @p449 :rule trans :premises (@p448 @p444))
32.14/32.43	(step @p450 :rule eq_resolve :premises (@p47 @p449))
32.14/32.43	(step @p451 :rule refl :args (@t445))
32.14/32.43	(step @p452 :rule eq-symm :args (@t410 @t446))
32.14/32.43	(step @p453 :rule cong :premises (@p452) :args (@t447))
32.14/32.43	(step @p454 :rule nary_cong :premises (@p453 @p451) :args (@t448))
32.14/32.43	(step @p455 :rule refl :args (@t449))
32.14/32.43	(step @p456 :rule cong :premises (@p455 @p454) :args ((=> @t449 @t448)))
32.14/32.43	(assume-push @p718 @t449)
32.14/32.43	(step @p458 :rule instantiate :premises (@p450) :args ((@list @t306 @t310 @t409)))
32.14/32.43	(step-pop @p718 :rule scope :premises (@p458))
32.14/32.43	(step @p459 :rule process_scope :premises (@p718) :args (@t448))
32.14/32.43	(step @p461 :rule eq_resolve :premises (@p459 @p456))
32.14/32.43	(step @p462 :rule implies_elim :premises (@p461))
32.14/32.43	(step @p463 :rule chain_resolution :premises (@p462 @p450) :args (@t432 (@list @t449)))
32.14/32.43	(step @p464 :rule cnf_or_neg :args (@t317 2))
32.14/32.43	(step @p465 :rule chain_resolution :premises (@p464 @p219) :args (@t318 @t319))
32.14/32.43	(step @p466 :rule false_intro :premises (@p465))
32.14/32.43	(step @p467 :rule refl :args (@t451))
32.14/32.43	(step @p468 :rule quant-merge-prenex :args ((= @t454 (forall (@list @t452 @t5 @t4) @t453))))
32.14/32.43	(step @p469 :rule quant-merge-prenex :args ((= @t457 (forall (@list @t455 @t9 @t11) @t456))))
32.14/32.43	(step @p470 :rule nary_cong :premises (@p469 @p468 @p467) :args ((and @t457 @t454 @t451)))
32.14/32.43	(step @p471 :rule alpha_equiv :args (@t459 @t460 (@list @t450)))
32.14/32.43	(step @p472 :rule alpha_equiv :args (@t461 @t460 (@list @t452)))
32.14/32.43	(step @p473 :rule alpha_equiv :args (@t462 @t460 (@list @t455)))
32.14/32.43	(step @p474 :rule nary_cong :premises (@p473 @p472 @p471) :args (@t463))
32.14/32.43	(step @p475 :rule quant-miniscope-and :args ((= (forall @t16 (and @t14 @t8 @t458)) @t463)))
32.14/32.43	(step @p476 :rule trans :premises (@p475 @p474))
32.14/32.43	(step @p477 :rule trans :premises (@p476 @p470))
32.14/32.43	(step @p478 :rule eq-symm :args (@t3 @t2))
32.14/32.43	(step @p479 :rule refl :args (@t8))
32.14/32.43	(step @p480 :rule refl :args (@t14))
32.14/32.43	(step @p481 :rule nary_cong :premises (@p480 @p479 @p478) :args (@t15))
32.14/32.43	(step @p482 :rule cong :premises (@p481) :args (@t17))
32.14/32.43	(step @p483 :rule trans :premises (@p482 @p477))
32.14/32.43	(step @p484 :rule eq_resolve :premises (@p2 @p483))
32.14/32.43	(step @p485 :rule and_elim :premises (@p484) :args (0))
32.14/32.43	(step @p486 :rule instantiate :premises (@p485) :args ((@list @t305 @t307 @t306)))
32.14/32.43	(step @p487 :rule symm :premises (@p486))
32.14/32.43	(step @p488 :rule cong :premises (@p487) :args (@t444))
32.14/32.43	(step @p489 :rule refl :args (@t311))
32.14/32.43	(step @p490 :rule cong :premises (@p489 @p488) :args (@t445))
32.14/32.43	(step @p491 :rule trans :premises (@p490 @p466))
32.14/32.43	(step @p492 :rule false_elim :premises (@p491))
32.14/32.43	(step @p493 :rule cnf_or_pos :args (@t466))
32.14/32.43	(step @p494 :rule reordering :premises (@p493) :args ((or @t445 @t465 (not @t466))))
32.14/32.43	(step @p495 :rule chain_resolution :premises (@p494 @p492 @p463) :args (@t467 (@list @t445 @t466)))
32.14/32.43	(assume-push @p720 @t321)
32.14/32.43	(assume-push @p721 @t349)
32.14/32.43	(assume-push @p722 @t433)
32.14/32.43	(assume-push @p723 @t433)
32.14/32.43	(assume-push @p724 @t468)
32.14/32.43	(assume-push @p725 @t349)
32.14/32.43	(step @p502 :rule symm :premises (@p722))
32.14/32.43	(step @p503 :rule cong :premises (@p724) :args (@t346))
32.14/32.43	(step @p504 :rule symm :premises (@p724))
32.14/32.43	(step @p505 :rule cong :premises (@p504) :args (@t310))
32.14/32.43	(step @p506 :rule cong :premises (@p505) :args (@t446))
32.14/32.43	(step @p507 :rule trans :premises (@p506 @p721 @p503 @p502))
32.14/32.43	(step-pop @p725 :rule scope :premises (@p507))
32.14/32.43	(step-pop @p726 :rule scope :premises (@p725))
32.14/32.43	(step-pop @p727 :rule scope :premises (@p726))
32.14/32.43	(step @p508 :rule process_scope :premises (@p727) :args (@t464))
32.14/32.43	(step @p512 :rule arith_poly_norm :args ((= (* 1 (- @t307 @t309)) (* 1 (- @t304 0)))))
32.14/32.43	(step @p513 :rule arith_poly_norm_rel :premises (@p512) :args ((= @t468 @t321)))
32.14/32.43	(step @p514 :rule symm :premises (@p513))
32.14/32.43	(step @p515 :rule eq_resolve :premises (@p720 @p514))
32.14/32.43	(step @p516 :rule and_intro :premises (@p722 @p515 @p721))
32.14/32.43	(step @p517 :rule modus_ponens :premises (@p516 @p508))
32.14/32.43	(step-pop @p728 :rule scope :premises (@p517))
32.14/32.43	(step-pop @p729 :rule scope :premises (@p728))
32.14/32.43	(step-pop @p730 :rule scope :premises (@p729))
32.14/32.43	(step @p518 :rule process_scope :premises (@p730) :args (@t464))
32.14/32.43	(step @p522 :rule implies_elim :premises (@p518))
32.14/32.43	(step @p523 :rule cnf_and_neg :args (@t469))
32.14/32.43	(step @p524 :rule resolution :premises (@p523 @p522) :args (true @t469))
32.14/32.43	(step @p525 :rule reordering :premises (@p524) :args ((or @t322 @t464 @t440 @t470)))
32.14/32.43	(step @p526 :rule chain_resolution :premises (@p525 @p495 @p442 @p221 @p440 @p438 @p436 @p432 @p430 @p428) :args ((@list true false true false false false false false false) (@list @t464 @t433 @t314 @t434 @t435 @t436 @t438 @t439 @t441)))
32.14/32.43	(step @p527 :rule factoring :premises (@p526))
32.14/32.43	(step @p528 :rule chain_resolution :premises (@p527 @p298 @p296 @p269 @p221) :args ((@list false false false true) (@list @t349 @t350 @t320 @t314)))
32.14/32.43	(step @p529 :rule factoring :premises (@p528))
32.14/32.43	(step @p530 :rule refl :args (@t471))
32.14/32.43	(step @p531 :rule bool-double-not-elim :args (@t321))
32.14/32.43	(step @p532 :rule refl :args (@t316))
32.14/32.43	(step @p533 :rule nary_cong :premises (@p532 @p531 @p530) :args ((or @t316 (not @t322) @t471)))
32.14/32.43	(assume-push @p732 @t315)
32.14/32.43	(assume-push @p733 @t322)
32.14/32.43	(assume-push @p734 @t315)
32.14/32.43	(assume-push @p735 @t322)
32.14/32.43	(step @p538 :rule arith_trichotomy :premises (@p228 @p733))
32.14/32.43	(step @p539 :rule int_tight_lb :premises (@p538))
32.14/32.43	(step-pop @p735 :rule scope :premises (@p539))
32.14/32.43	(step-pop @p736 :rule scope :premises (@p735))
32.14/32.43	(step @p540 :rule process_scope :premises (@p736) :args (@t471))
32.14/32.43	(step @p543 :rule and_intro :premises (@p228 @p733))
32.14/32.43	(step @p544 :rule modus_ponens :premises (@p543 @p540))
32.14/32.43	(step-pop @p737 :rule scope :premises (@p544))
32.14/32.43	(step-pop @p738 :rule scope :premises (@p737))
32.14/32.43	(step @p545 :rule process_scope :premises (@p738) :args (@t471))
32.14/32.43	(step @p548 :rule implies_elim :premises (@p545))
32.14/32.43	(step @p549 :rule cnf_and_neg :args (@t472))
32.14/32.43	(step @p550 :rule resolution :premises (@p549 @p548) :args (true @t472))
32.14/32.43	(step @p551 :rule eq_resolve :premises (@p550 @p533))
32.14/32.43	(step @p552 :rule chain_resolution :premises (@p551 @p529 @p228) :args (@t467 (@list @t321 @t315)))
32.14/32.43	(step @p553 :rule instantiate :premises (@p22) :args ((@list @t309)))
32.14/32.43	(step @p554 :rule quant-merge-prenex :args ((= @t479 (forall (@list @t473 @t474) @t477))))
32.14/32.43	(step @p555 :rule quant-merge-prenex :args ((= @t488 @t486)))
32.14/32.43	(step @p556 :rule quant-merge-prenex :args ((= @t491 (forall (@list @t489 @t69 @t4) @t490))))
32.14/32.43	(step @p557 :rule nary_cong :premises (@p556 @p555 @p554) :args ((and @t491 @t488 @t479)))
32.14/32.43	(step @p558 :rule alpha_equiv :args (@t493 @t494 (@list @t473)))
32.14/32.43	(step @p559 :rule alpha_equiv :args (@t496 @t494 (@list @t482)))
32.14/32.43	(step @p560 :rule alpha_equiv :args (@t497 @t494 (@list @t489)))
32.14/32.43	(step @p561 :rule nary_cong :premises (@p560 @p559 @p558) :args (@t498))
32.14/32.43	(step @p562 :rule quant-miniscope-and :args ((= (forall @t249 @t499) @t498)))
32.14/32.43	(step @p563 :rule trans :premises (@p562 @p561))
32.14/32.43	(step @p564 :rule trans :premises (@p563 @p557))
32.14/32.43	(step @p565 :rule aci_norm :args ((= (and @t247 (and @t495 @t492)) @t499)))
32.14/32.43	(step @p566 :rule alpha_equiv :args (@t502 @t339 (@list @t474)))
32.14/32.43	(step @p567 :rule alpha_equiv :args (@t504 @t339 (@list @t480)))
32.14/32.43	(step @p568 :rule nary_cong :premises (@p567 @p566) :args (@t505))
32.14/32.43	(step @p569 :rule quant-miniscope-and :args ((= (forall @t77 (and @t503 @t501)) @t505)))
32.14/32.43	(step @p570 :rule trans :premises (@p569 @p568))
32.14/32.43	(step @p571 :rule refl :args (@t500))
32.14/32.43	(step @p572 :rule nary_cong :premises (@p277 @p571) :args ((or @t344 @t500)))
32.14/32.43	(step @p573 :rule bool-impl-elim :args (@t336 @t500))
32.14/32.43	(step @p574 :rule trans :premises (@p573 @p572))
32.14/32.43	(step @p575 :rule bool-impl-elim :args (@t335 @t243))
32.14/32.43	(step @p576 :rule nary_cong :premises (@p575 @p574) :args (@t506))
32.14/32.43	(step @p577 :rule cong :premises (@p576) :args ((forall @t77 @t506)))
32.14/32.43	(step @p578 :rule trans :premises (@p577 @p570))
32.14/32.43	(step @p579 :rule eq-symm :args (@t241 tptp.underflow))
32.14/32.43	(step @p580 :rule cong :premises (@p288 @p579) :args (@t242))
32.14/32.43	(step @p581 :rule refl :args (@t243))
32.14/32.43	(step @p582 :rule cong :premises (@p285 @p581) :args (@t244))
32.14/32.43	(step @p583 :rule nary_cong :premises (@p582 @p580) :args (@t245))
32.14/32.43	(step @p584 :rule cong :premises (@p583) :args (@t246))
32.14/32.43	(step @p585 :rule trans :premises (@p584 @p578))
32.14/32.43	(step @p586 :rule refl :args (@t247))
32.14/32.43	(step @p587 :rule nary_cong :premises (@p586 @p585) :args (@t248))
32.14/32.43	(step @p588 :rule trans :premises (@p587 @p565))
32.14/32.43	(step @p589 :rule cong :premises (@p588) :args (@t250))
32.14/32.43	(step @p590 :rule trans :premises (@p589 @p564))
32.14/32.43	(step @p591 :rule eq_resolve :premises (@p122 @p590))
32.14/32.43	(step @p592 :rule and_elim :premises (@p591) :args (1))
32.14/32.43	(step @p593 :rule refl :args (@t509))
32.14/32.43	(step @p594 :rule cong :premises (@p399) :args (@t510))
32.14/32.43	(step @p595 :rule trans :premises (@p594 @p231))
32.14/32.43	(step @p596 :rule nary_cong :premises (@p595 @p593) :args (@t511))
32.14/32.43	(step @p597 :rule refl :args (@t486))
32.14/32.43	(step @p598 :rule cong :premises (@p597 @p596) :args ((=> @t486 @t511)))
32.14/32.43	(assume-push @p740 @t486)
32.14/32.43	(step @p600 :rule instantiate :premises (@p592) :args ((@list tptp.vnum_closure @t309)))
32.14/32.43	(step-pop @p740 :rule scope :premises (@p600))
32.14/32.43	(step @p601 :rule process_scope :premises (@p740) :args (@t511))
32.14/32.43	(step @p603 :rule eq_resolve :premises (@p601 @p598))
32.14/32.43	(step @p604 :rule implies_elim :premises (@p603))
32.14/32.43	(step @p605 :rule chain_resolution :premises (@p604 @p592) :args (@t432 (@list @t486)))
32.14/32.43	(step @p606 :rule cnf_or_pos :args (@t512))
32.14/32.43	(step @p607 :rule reordering :premises (@p606) :args ((or @t314 @t509 (not @t512))))
32.14/32.43	(step @p608 :rule chain_resolution :premises (@p607 @p221 @p605) :args (@t467 (@list @t314 @t512)))
32.14/32.43	(step @p609 :rule eq-symm :args (@t234 @t65))
32.14/32.43	(step @p610 :rule cong :premises (@p609) :args (@t235))
32.14/32.43	(step @p611 :rule eq_resolve :premises (@p107 @p610))
32.14/32.43	(step @p612 :rule instantiate :premises (@p611) :args ((@list @t310)))
32.14/32.43	(step @p613 :rule refl :args (@t514))
32.14/32.43	(step @p614 :rule refl :args (@t470))
32.14/32.43	(step @p615 :rule refl :args (@t515))
32.14/32.43	(step @p616 :rule refl :args (@t517))
32.14/32.43	(step @p617 :rule bool-double-not-elim :args (@t464))
32.14/32.43	(step @p618 :rule nary_cong :premises (@p617 @p616 @p615 @p614 @p613) :args ((or (not @t465) @t517 @t515 @t470 @t514)))
32.14/32.43	(assume-push @p742 @t509)
32.14/32.43	(assume-push @p743 @t513)
32.14/32.43	(assume-push @p744 @t433)
32.14/32.43	(assume-push @p745 @t516)
32.14/32.43	(assume-push @p746 @t465)
32.14/32.43	(step @p624 :rule evaluate :args ((= false true)))
32.14/32.43	(step @p625 :rule symm :premises (@p744))
32.14/32.43	(step @p626 :rule trans :premises (@p612 @p608 @p553 @p625))
32.14/32.43	(step @p627 :rule true_intro :premises (@p626))
32.14/32.43	(step @p628 :rule false_intro :premises (@p495))
32.14/32.43	(step @p629 :rule symm :premises (@p628))
32.14/32.43	(step @p630 :rule trans :premises (@p629 @p627))
32.14/32.43	(step @p631 false :rule eq_resolve :premises (@p630 @p624))
32.14/32.43	(step-pop @p746 :rule scope :premises (@p631))
32.14/32.43	(step-pop @p747 :rule scope :premises (@p746))
32.14/32.43	(step-pop @p748 :rule scope :premises (@p747))
32.14/32.43	(step-pop @p749 :rule scope :premises (@p748))
32.14/32.43	(step-pop @p750 :rule scope :premises (@p749))
32.14/32.43	(step @p632 :rule process_scope :premises (@p750) :args (false))
32.14/32.43	(assume-push @p752 @t465)
32.14/32.43	(assume-push @p753 @t516)
32.14/32.43	(assume-push @p754 @t509)
32.14/32.43	(assume-push @p755 @t433)
32.14/32.43	(assume-push @p756 @t513)
32.14/32.43	(step @p643 :rule and_intro :premises (@p608 @p553 @p755 @p612 @p495))
32.14/32.43	(step-pop @p756 :rule scope :premises (@p643))
32.14/32.43	(step-pop @p757 :rule scope :premises (@p756))
32.14/32.43	(step-pop @p758 :rule scope :premises (@p757))
32.14/32.43	(step-pop @p759 :rule scope :premises (@p758))
32.14/32.43	(step-pop @p760 :rule scope :premises (@p759))
32.14/32.43	(step @p644 :rule process_scope :premises (@p760) :args (@t518))
32.26/32.45	(step @p650 :rule implies_elim :premises (@p644))
32.26/32.45	(step @p651 :rule resolution :premises (@p650 @p632) :args (true @t518))
32.26/32.45	(step @p652 :rule not_and :premises (@p651))
32.26/32.45	(step @p653 :rule eq_resolve :premises (@p652 @p618))
32.26/32.45	(step @p654 :rule chain_resolution :premises (@p653 @p495 @p612 @p608 @p553) :args ((@list true false false false) (@list @t464 @t516 @t509 @t513)))
32.26/32.45	(step @p655 :rule chain_resolution :premises (@p442 @p221 @p654) :args ((@list true true) (@list @t314 @t433)))
32.26/32.45	(step @p656 :rule chain_resolution :premises (@p440 @p655) :args (@t318 (@list @t434)))
32.26/32.45	(step @p657 :rule chain_resolution :premises (@p438 @p436 @p656) :args ((@list false true) (@list @t436 @t435)))
32.26/32.45	(step @p658 :rule chain_resolution :premises (@p432 @p657) :args (@t318 (@list @t438)))
32.26/32.45	(step @p659 :rule chain_resolution :premises (@p430 @p658 @p428) :args (@t467 (@list @t439 @t441)))
32.26/32.45	(step @p660 :rule chain_resolution :premises (@p298 @p659 @p296) :args (@t467 (@list @t349 @t350)))
32.26/32.45	(step @p661 :rule refl :args (@t519))
32.26/32.45	(step @p662 :rule nary_cong :premises (@p231 @p661 @p229) :args ((or @t326 @t519 @t324)))
32.26/32.45	(assume-push @p762 @t325)
32.26/32.45	(assume-push @p763 @t323)
32.26/32.45	(assume-push @p764 @t471)
32.26/32.45	(step @p666 :rule arith-elim-lt :args (@t304 1))
32.26/32.45	(step @p667 :rule symm :premises (@p666))
32.26/32.45	(assume-push @p765 @t471)
32.26/32.45	(step @p236 :rule evaluate :args (@t327))
32.26/32.45	(step @p669 :rule evaluate :args ((+ -1 0 1)))
32.26/32.45	(step @p670 :rule refl :args (1))
32.26/32.45	(step @p671 :rule evaluate :args (@t520))
32.26/32.45	(step @p672 :rule nary_cong :premises (@p671 @p163 @p670) :args (@t521))
32.26/32.45	(step @p673 :rule trans :premises (@p672 @p669))
32.26/32.45	(step @p241 :rule arith_poly_norm :args (@t331))
32.26/32.45	(step @p674 :rule arith_poly_norm :args ((= @t522 @t330)))
32.26/32.45	(step @p675 :rule trans :premises (@p674 @p241))
32.26/32.45	(step @p676 :rule cong :premises (@p675 @p673) :args (@t523))
32.26/32.45	(step @p677 :rule trans :premises (@p676 @p236))
32.26/32.45	(step @p678 :rule cong :premises (@p677) :args ((not @t523)))
32.26/32.45	(step @p679 :rule trans :premises (@p678 @p132))
32.26/32.45	(step @p680 :rule arith-elim-lt :args (@t522 @t521))
32.26/32.45	(step @p681 :rule trans :premises (@p680 @p679))
32.26/32.45	(step @p255 :rule arith-elim-lt :args (@t313 1))
32.26/32.45	(step @p256 :rule symm :premises (@p255))
32.26/32.45	(step @p257 :rule eq_resolve :premises (@p221 @p256))
32.26/32.45	(step @p259 :rule arith-elim-lt :args (@t307 0))
32.26/32.45	(step @p260 :rule symm :premises (@p259))
32.26/32.45	(step @p682 :rule eq_resolve :premises (@p763 @p260))
32.26/32.45	(step @p683 :rule arith_mult_neg :args (-1 @t471))
32.26/32.45	(step @p251 :rule evaluate :args (@t334))
32.26/32.45	(step @p252 :rule true_elim :premises (@p251))
32.26/32.45	(step @p684 :rule and_intro :premises (@p252 @p764))
32.26/32.45	(step @p685 :rule modus_ponens :premises (@p684 @p683))
32.26/32.45	(step @p686 :rule arith_sum_ub :premises (@p685 @p682 @p257))
32.26/32.45	(step @p687 false :rule eq_resolve :premises (@p686 @p681))
32.26/32.45	(step-pop @p765 :rule scope :premises (@p687))
32.26/32.45	(step @p688 :rule process_scope :premises (@p765) :args (false))
32.26/32.45	(step @p690 :rule eq_resolve :premises (@p688 @p667))
32.26/32.45	(step @p691 :rule eq_resolve :premises (@p690 @p666))
32.26/32.45	(step @p692 false :rule contra :premises (@p764 @p691))
32.26/32.45	(step-pop @p766 :rule scope :premises (@p692))
32.26/32.45	(step-pop @p767 :rule scope :premises (@p766))
32.26/32.45	(step-pop @p768 :rule scope :premises (@p767))
32.26/32.45	(step @p693 :rule process_scope :premises (@p768) :args (false))
32.26/32.45	(assume-push @p770 @t325)
32.26/32.45	(assume-push @p771 @t471)
32.26/32.45	(assume-push @p772 @t323)
32.26/32.45	(step @p700 :rule and_intro :premises (@p221 @p772 @p771))
32.26/32.45	(step-pop @p772 :rule scope :premises (@p700))
32.26/32.45	(step-pop @p773 :rule scope :premises (@p772))
32.26/32.45	(step-pop @p774 :rule scope :premises (@p773))
32.26/32.45	(step @p701 :rule process_scope :premises (@p774) :args (@t524))
32.26/32.45	(step @p705 :rule implies_elim :premises (@p701))
32.26/32.45	(step @p706 :rule resolution :premises (@p705 @p693) :args (true @t524))
32.26/32.45	(step @p707 :rule not_and :premises (@p706))
32.26/32.45	(step @p708 :rule eq_resolve :premises (@p707 @p662))
32.26/32.45	(step @p709 false :rule chain_resolution :premises (@p708 @p660 @p552 @p221) :args ((@list true false true) (@list @t320 @t471 @t314)))
32.26/32.45	)
32.26/32.45	% SZS output end Proof
32.26/32.45	% cvc5 exiting
32.26/32.45	EOF