TSTP Solution File: SYN713-1 by cvc5---1.0.5

%------------------------------------------------------------------------------
% File     : cvc5---1.0.5
% Problem  : SYN713-1 : TPTP v8.2.0. Released v2.5.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : do_cvc5 %s %d

% Computer : n009.cluster.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory   : 8042.1875MB
% OS       : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit  : 300s
% DateTime : Wed May 29 18:26:22 EDT 2024

% Result   : Unsatisfiable 0.45s 0.67s
% Output   : Proof 0.45s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.08/0.16  % Problem    : SYN713-1 : TPTP v8.2.0. Released v2.5.0.
% 0.08/0.18  % Command    : do_cvc5 %s %d
% 0.18/0.40  % Computer : n009.cluster.edu
% 0.18/0.40  % Model    : x86_64 x86_64
% 0.18/0.40  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.18/0.40  % Memory   : 8042.1875MB
% 0.18/0.40  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.18/0.40  % CPULimit   : 300
% 0.18/0.40  % WCLimit    : 300
% 0.18/0.40  % DateTime   : Tue May 28 13:37:39 EDT 2024
% 0.18/0.40  % CPUTime    : 
% 0.26/0.60  %----Proving TF0_NAR, FOF, or CNF
% 0.26/0.60  --- Run --decision=internal --simplification=none --no-inst-no-entail --no-cbqi --full-saturate-quant at 10...
% 0.45/0.67  % SZS status Unsatisfiable for /export/starexec/sandbox/tmp/tmp.4PeywHfC50/cvc5---1.0.5_29577.smt2
% 0.45/0.67  % SZS output start Proof for /export/starexec/sandbox/tmp/tmp.4PeywHfC50/cvc5---1.0.5_29577.smt2
% 0.45/0.68  (assume a0 (forall ((X0 $$unsorted)) (tptp.p10 X0 X0)))
% 0.45/0.68  (assume a1 (forall ((X210 $$unsorted)) (tptp.p9 X210 X210)))
% 0.45/0.68  (assume a2 (forall ((X207 $$unsorted)) (tptp.p7 X207 X207)))
% 0.45/0.68  (assume a3 (forall ((X200 $$unsorted)) (tptp.p6 X200 X200)))
% 0.45/0.68  (assume a4 (forall ((X172 $$unsorted)) (tptp.p54 X172 X172)))
% 0.45/0.68  (assume a5 (forall ((X169 $$unsorted)) (tptp.p53 X169 X169)))
% 0.45/0.68  (assume a6 (forall ((X162 $$unsorted)) (tptp.p51 X162 X162)))
% 0.45/0.68  (assume a7 (forall ((X159 $$unsorted)) (tptp.p49 X159 X159)))
% 0.45/0.68  (assume a8 (forall ((X156 $$unsorted)) (tptp.p48 X156 X156)))
% 0.45/0.68  (assume a9 (forall ((X149 $$unsorted)) (tptp.p46 X149 X149)))
% 0.45/0.68  (assume a10 (forall ((X142 $$unsorted)) (tptp.p44 X142 X142)))
% 0.45/0.68  (assume a11 (forall ((X135 $$unsorted)) (tptp.p43 X135 X135)))
% 0.45/0.68  (assume a12 (forall ((X132 $$unsorted)) (tptp.p42 X132 X132)))
% 0.45/0.68  (assume a13 (forall ((X129 $$unsorted)) (tptp.p40 X129 X129)))
% 0.45/0.68  (assume a14 (forall ((X118 $$unsorted)) (tptp.p4 X118 X118)))
% 0.45/0.68  (assume a15 (forall ((X115 $$unsorted)) (tptp.p39 X115 X115)))
% 0.45/0.68  (assume a16 (forall ((X108 $$unsorted)) (tptp.p37 X108 X108)))
% 0.45/0.68  (assume a17 (forall ((X105 $$unsorted)) (tptp.p36 X105 X105)))
% 0.45/0.68  (assume a18 (forall ((X102 $$unsorted)) (tptp.p34 X102 X102)))
% 0.45/0.68  (assume a19 (forall ((X99 $$unsorted)) (tptp.p32 X99 X99)))
% 0.45/0.68  (assume a20 (forall ((X92 $$unsorted)) (tptp.p30 X92 X92)))
% 0.45/0.68  (assume a21 (forall ((X85 $$unsorted)) (tptp.p3 X85 X85)))
% 0.45/0.68  (assume a22 (forall ((X78 $$unsorted)) (tptp.p29 X78 X78)))
% 0.45/0.68  (assume a23 (forall ((X75 $$unsorted)) (tptp.p27 X75 X75)))
% 0.45/0.68  (assume a24 (forall ((X60 $$unsorted)) (tptp.p25 X60 X60)))
% 0.45/0.68  (assume a25 (forall ((X49 $$unsorted)) (tptp.p24 X49 X49)))
% 0.45/0.68  (assume a26 (forall ((X46 $$unsorted)) (tptp.p21 X46 X46)))
% 0.45/0.68  (assume a27 (forall ((X43 $$unsorted)) (tptp.p20 X43 X43)))
% 0.45/0.68  (assume a28 (forall ((X40 $$unsorted)) (tptp.p2 X40 X40)))
% 0.45/0.68  (assume a29 (forall ((X33 $$unsorted)) (tptp.p18 X33 X33)))
% 0.45/0.68  (assume a30 (forall ((X30 $$unsorted)) (tptp.p16 X30 X30)))
% 0.45/0.68  (assume a31 (forall ((X27 $$unsorted)) (tptp.p15 X27 X27)))
% 0.45/0.68  (assume a32 (forall ((X14 $$unsorted)) (tptp.p13 X14 X14)))
% 0.45/0.68  (assume a33 (forall ((X7 $$unsorted)) (tptp.p12 X7 X7)))
% 0.45/0.68  (assume a34 (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68)))
% 0.45/0.68  (assume a35 (tptp.p56 (tptp.f5 tptp.c61 (tptp.f8 tptp.c62 tptp.c63)) tptp.c64))
% 0.45/0.68  (assume a36 (tptp.p13 (tptp.f23 tptp.c69 tptp.c67) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)))
% 0.45/0.68  (assume a37 (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64))
% 0.45/0.68  (assume a38 (not (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77)))
% 0.45/0.68  (assume a39 (forall ((X1 $$unsorted) (X2 $$unsorted) (X0 $$unsorted)) (or (tptp.p10 X1 X2) (not (tptp.p10 X0 X1)) (not (tptp.p10 X0 X2)))))
% 0.45/0.68  (assume a40 (forall ((X211 $$unsorted) (X212 $$unsorted) (X210 $$unsorted)) (or (tptp.p9 X211 X212) (not (tptp.p9 X210 X211)) (not (tptp.p9 X210 X212)))))
% 0.45/0.68  (assume a41 (forall ((X208 $$unsorted) (X209 $$unsorted) (X207 $$unsorted)) (or (tptp.p7 X208 X209) (not (tptp.p7 X207 X208)) (not (tptp.p7 X207 X209)))))
% 0.45/0.68  (assume a42 (forall ((X201 $$unsorted) (X202 $$unsorted) (X200 $$unsorted)) (or (tptp.p6 X201 X202) (not (tptp.p6 X200 X201)) (not (tptp.p6 X200 X202)))))
% 0.45/0.68  (assume a43 (forall ((X173 $$unsorted) (X174 $$unsorted) (X172 $$unsorted)) (or (tptp.p54 X173 X174) (not (tptp.p54 X172 X173)) (not (tptp.p54 X172 X174)))))
% 0.45/0.68  (assume a44 (forall ((X170 $$unsorted) (X171 $$unsorted) (X169 $$unsorted)) (or (tptp.p53 X170 X171) (not (tptp.p53 X169 X170)) (not (tptp.p53 X169 X171)))))
% 0.45/0.68  (assume a45 (forall ((X163 $$unsorted) (X164 $$unsorted) (X162 $$unsorted)) (or (tptp.p51 X163 X164) (not (tptp.p51 X162 X163)) (not (tptp.p51 X162 X164)))))
% 0.45/0.68  (assume a46 (forall ((X160 $$unsorted) (X161 $$unsorted) (X159 $$unsorted)) (or (tptp.p49 X160 X161) (not (tptp.p49 X159 X160)) (not (tptp.p49 X159 X161)))))
% 0.45/0.68  (assume a47 (forall ((X157 $$unsorted) (X158 $$unsorted) (X156 $$unsorted)) (or (tptp.p48 X157 X158) (not (tptp.p48 X156 X157)) (not (tptp.p48 X156 X158)))))
% 0.45/0.68  (assume a48 (forall ((X150 $$unsorted) (X151 $$unsorted) (X149 $$unsorted)) (or (tptp.p46 X150 X151) (not (tptp.p46 X149 X150)) (not (tptp.p46 X149 X151)))))
% 0.45/0.68  (assume a49 (forall ((X143 $$unsorted) (X144 $$unsorted) (X142 $$unsorted)) (or (tptp.p44 X143 X144) (not (tptp.p44 X142 X143)) (not (tptp.p44 X142 X144)))))
% 0.45/0.68  (assume a50 (forall ((X136 $$unsorted) (X137 $$unsorted) (X135 $$unsorted)) (or (tptp.p43 X136 X137) (not (tptp.p43 X135 X136)) (not (tptp.p43 X135 X137)))))
% 0.45/0.68  (assume a51 (forall ((X133 $$unsorted) (X134 $$unsorted) (X132 $$unsorted)) (or (tptp.p42 X133 X134) (not (tptp.p42 X132 X133)) (not (tptp.p42 X132 X134)))))
% 0.45/0.68  (assume a52 (forall ((X130 $$unsorted) (X131 $$unsorted) (X129 $$unsorted)) (or (tptp.p40 X130 X131) (not (tptp.p40 X129 X130)) (not (tptp.p40 X129 X131)))))
% 0.45/0.68  (assume a53 (forall ((X119 $$unsorted) (X120 $$unsorted) (X118 $$unsorted)) (or (tptp.p4 X119 X120) (not (tptp.p4 X118 X119)) (not (tptp.p4 X118 X120)))))
% 0.45/0.68  (assume a54 (forall ((X116 $$unsorted) (X117 $$unsorted) (X115 $$unsorted)) (or (tptp.p39 X116 X117) (not (tptp.p39 X115 X116)) (not (tptp.p39 X115 X117)))))
% 0.45/0.68  (assume a55 (forall ((X109 $$unsorted) (X110 $$unsorted) (X108 $$unsorted)) (or (tptp.p37 X109 X110) (not (tptp.p37 X108 X109)) (not (tptp.p37 X108 X110)))))
% 0.45/0.68  (assume a56 (forall ((X106 $$unsorted) (X107 $$unsorted) (X105 $$unsorted)) (or (tptp.p36 X106 X107) (not (tptp.p36 X105 X106)) (not (tptp.p36 X105 X107)))))
% 0.45/0.68  (assume a57 (forall ((X103 $$unsorted) (X104 $$unsorted) (X102 $$unsorted)) (or (tptp.p34 X103 X104) (not (tptp.p34 X102 X103)) (not (tptp.p34 X102 X104)))))
% 0.45/0.68  (assume a58 (forall ((X100 $$unsorted) (X101 $$unsorted) (X99 $$unsorted)) (or (tptp.p32 X100 X101) (not (tptp.p32 X99 X100)) (not (tptp.p32 X99 X101)))))
% 0.45/0.68  (assume a59 (forall ((X93 $$unsorted) (X94 $$unsorted) (X92 $$unsorted)) (or (tptp.p30 X93 X94) (not (tptp.p30 X92 X93)) (not (tptp.p30 X92 X94)))))
% 0.45/0.68  (assume a60 (forall ((X86 $$unsorted) (X87 $$unsorted) (X85 $$unsorted)) (or (tptp.p3 X86 X87) (not (tptp.p3 X85 X86)) (not (tptp.p3 X85 X87)))))
% 0.45/0.68  (assume a61 (forall ((X79 $$unsorted) (X80 $$unsorted) (X78 $$unsorted)) (or (tptp.p29 X79 X80) (not (tptp.p29 X78 X79)) (not (tptp.p29 X78 X80)))))
% 0.45/0.68  (assume a62 (forall ((X76 $$unsorted) (X77 $$unsorted) (X75 $$unsorted)) (or (tptp.p27 X76 X77) (not (tptp.p27 X75 X76)) (not (tptp.p27 X75 X77)))))
% 0.45/0.68  (assume a63 (forall ((X61 $$unsorted) (X62 $$unsorted) (X60 $$unsorted)) (or (tptp.p25 X61 X62) (not (tptp.p25 X60 X61)) (not (tptp.p25 X60 X62)))))
% 0.45/0.68  (assume a64 (forall ((X50 $$unsorted) (X51 $$unsorted) (X49 $$unsorted)) (or (tptp.p24 X50 X51) (not (tptp.p24 X49 X50)) (not (tptp.p24 X49 X51)))))
% 0.45/0.68  (assume a65 (forall ((X47 $$unsorted) (X48 $$unsorted) (X46 $$unsorted)) (or (tptp.p21 X47 X48) (not (tptp.p21 X46 X47)) (not (tptp.p21 X46 X48)))))
% 0.45/0.68  (assume a66 (forall ((X44 $$unsorted) (X45 $$unsorted) (X43 $$unsorted)) (or (tptp.p20 X44 X45) (not (tptp.p20 X43 X44)) (not (tptp.p20 X43 X45)))))
% 0.45/0.68  (assume a67 (forall ((X41 $$unsorted) (X42 $$unsorted) (X40 $$unsorted)) (or (tptp.p2 X41 X42) (not (tptp.p2 X40 X41)) (not (tptp.p2 X40 X42)))))
% 0.45/0.68  (assume a68 (forall ((X34 $$unsorted) (X35 $$unsorted) (X33 $$unsorted)) (or (tptp.p18 X34 X35) (not (tptp.p18 X33 X34)) (not (tptp.p18 X33 X35)))))
% 0.45/0.68  (assume a69 (forall ((X31 $$unsorted) (X32 $$unsorted) (X30 $$unsorted)) (or (tptp.p16 X31 X32) (not (tptp.p16 X30 X31)) (not (tptp.p16 X30 X32)))))
% 0.45/0.68  (assume a70 (forall ((X28 $$unsorted) (X29 $$unsorted) (X27 $$unsorted)) (or (tptp.p15 X28 X29) (not (tptp.p15 X27 X28)) (not (tptp.p15 X27 X29)))))
% 0.45/0.68  (assume a71 (forall ((X15 $$unsorted) (X16 $$unsorted) (X14 $$unsorted)) (or (tptp.p13 X15 X16) (not (tptp.p13 X14 X15)) (not (tptp.p13 X14 X16)))))
% 0.45/0.68  (assume a72 (forall ((X8 $$unsorted) (X9 $$unsorted) (X7 $$unsorted)) (or (tptp.p12 X8 X9) (not (tptp.p12 X7 X8)) (not (tptp.p12 X7 X9)))))
% 0.45/0.68  (assume a73 (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188)))))
% 0.45/0.68  (assume a74 (forall ((X203 $$unsorted) (X204 $$unsorted) (X206 $$unsorted) (X205 $$unsorted)) (or (tptp.p60 X203 X204) (not (tptp.p54 X206 X204)) (not (tptp.p60 X205 X206)) (not (tptp.p44 X205 X203)))))
% 0.45/0.68  (assume a75 (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175)))))
% 0.45/0.68  (assume a76 (forall ((X182 $$unsorted) (X183 $$unsorted) (X185 $$unsorted) (X184 $$unsorted)) (or (tptp.p57 X182 X183) (not (tptp.p25 X185 X182)) (not (tptp.p57 X185 X184)) (not (tptp.p16 X184 X183)))))
% 0.45/0.68  (assume a77 (forall ((X192 $$unsorted) (X193 $$unsorted) (X195 $$unsorted) (X194 $$unsorted)) (or (tptp.p58 X192 X193) (not (tptp.p30 X195 X192)) (not (tptp.p58 X195 X194)) (not (tptp.p13 X194 X193)))))
% 0.45/0.68  (assume a78 (forall ((X196 $$unsorted) (X197 $$unsorted) (X199 $$unsorted) (X198 $$unsorted)) (or (tptp.p59 X196 X197) (not (tptp.p37 X199 X196)) (not (tptp.p59 X199 X198)) (not (tptp.p25 X198 X197)))))
% 0.45/0.68  (assume a79 (not (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68))))
% 0.45/0.68  (assume a80 (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6)))))
% 0.45/0.68  (assume a81 (forall ((X165 $$unsorted) (X166 $$unsorted) (X167 $$unsorted) (X168 $$unsorted)) (or (tptp.p51 (tptp.f55 X165 X166) (tptp.f55 X167 X168)) (not (tptp.p53 X165 X167)) (not (tptp.p54 X166 X168)))))
% 0.45/0.68  (assume a82 (forall ((X152 $$unsorted) (X153 $$unsorted) (X154 $$unsorted) (X155 $$unsorted)) (or (tptp.p46 (tptp.f50 X152 X153) (tptp.f50 X154 X155)) (not (tptp.p48 X152 X154)) (not (tptp.p49 X153 X155)))))
% 0.45/0.68  (assume a83 (forall ((X145 $$unsorted) (X146 $$unsorted) (X147 $$unsorted) (X148 $$unsorted)) (or (tptp.p44 (tptp.f45 X145 X146) (tptp.f45 X147 X148)) (not (tptp.p42 X145 X147)) (not (tptp.p43 X146 X148)))))
% 0.45/0.68  (assume a84 (forall ((X138 $$unsorted) (X139 $$unsorted) (X140 $$unsorted) (X141 $$unsorted)) (or (tptp.p43 (tptp.f47 X138 X139) (tptp.f47 X140 X141)) (not (tptp.p13 X139 X141)) (not (tptp.p46 X138 X140)))))
% 0.45/0.68  (assume a85 (forall ((X125 $$unsorted) (X126 $$unsorted) (X127 $$unsorted) (X128 $$unsorted)) (or (tptp.p4 (tptp.f5 X125 X126) (tptp.f5 X127 X128)) (not (tptp.p2 X125 X127)) (not (tptp.p3 X126 X128)))))
% 0.45/0.68  (assume a86 (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123)))))
% 0.45/0.68  (assume a87 (forall ((X111 $$unsorted) (X112 $$unsorted) (X113 $$unsorted) (X114 $$unsorted)) (or (tptp.p37 (tptp.f38 X111 X112) (tptp.f38 X113 X114)) (not (tptp.p16 X112 X114)) (not (tptp.p36 X111 X113)))))
% 0.45/0.68  (assume a88 (forall ((X95 $$unsorted) (X96 $$unsorted) (X97 $$unsorted) (X98 $$unsorted)) (or (tptp.p30 (tptp.f31 X95 X96) (tptp.f31 X97 X98)) (not (tptp.p13 X96 X98)) (not (tptp.p29 X95 X97)))))
% 0.45/0.68  (assume a89 (forall ((X88 $$unsorted) (X89 $$unsorted) (X90 $$unsorted) (X91 $$unsorted)) (or (tptp.p3 (tptp.f8 X88 X89) (tptp.f8 X90 X91)) (not (tptp.p6 X88 X90)) (not (tptp.p7 X89 X91)))))
% 0.45/0.68  (assume a90 (forall ((X81 $$unsorted) (X82 $$unsorted) (X83 $$unsorted) (X84 $$unsorted)) (or (tptp.p29 (tptp.f33 X81 X82) (tptp.f33 X83 X84)) (not (tptp.p29 X82 X84)) (not (tptp.p32 X81 X83)))))
% 0.45/0.68  (assume a91 (forall ((X71 $$unsorted) (X72 $$unsorted) (X73 $$unsorted) (X74 $$unsorted)) (or (tptp.p25 (tptp.f52 X71 X72) (tptp.f52 X73 X74)) (not (tptp.p49 X72 X74)) (not (tptp.p51 X71 X73)))))
% 0.45/0.68  (assume a92 (forall ((X67 $$unsorted) (X68 $$unsorted) (X69 $$unsorted) (X70 $$unsorted)) (or (tptp.p25 (tptp.f35 X67 X68) (tptp.f35 X69 X70)) (not (tptp.p13 X68 X70)) (not (tptp.p34 X67 X69)))))
% 0.45/0.68  (assume a93 (forall ((X63 $$unsorted) (X64 $$unsorted) (X65 $$unsorted) (X66 $$unsorted)) (or (tptp.p25 (tptp.f26 X63 X64) (tptp.f26 X65 X66)) (not (tptp.p16 X64 X66)) (not (tptp.p24 X63 X65)))))
% 0.45/0.68  (assume a94 (forall ((X56 $$unsorted) (X57 $$unsorted) (X58 $$unsorted) (X59 $$unsorted)) (or (tptp.p24 (tptp.f41 X56 X57) (tptp.f41 X58 X59)) (not (tptp.p39 X56 X58)) (not (tptp.p40 X57 X59)))))
% 0.45/0.68  (assume a95 (forall ((X52 $$unsorted) (X53 $$unsorted) (X54 $$unsorted) (X55 $$unsorted)) (or (tptp.p24 (tptp.f28 X52 X53) (tptp.f28 X54 X55)) (not (tptp.p24 X53 X55)) (not (tptp.p27 X52 X54)))))
% 0.45/0.68  (assume a96 (forall ((X36 $$unsorted) (X37 $$unsorted) (X38 $$unsorted) (X39 $$unsorted)) (or (tptp.p18 (tptp.f22 X36 X37) (tptp.f22 X38 X39)) (not (tptp.p20 X36 X38)) (not (tptp.p21 X37 X39)))))
% 0.45/0.68  (assume a97 (forall ((X23 $$unsorted) (X24 $$unsorted) (X25 $$unsorted) (X26 $$unsorted)) (or (tptp.p13 (tptp.f23 X23 X24) (tptp.f23 X25 X26)) (not (tptp.p16 X24 X26)) (not (tptp.p21 X23 X25)))))
% 0.45/0.68  (assume a98 (forall ((X19 $$unsorted) (X20 $$unsorted) (X21 $$unsorted) (X22 $$unsorted)) (or (tptp.p13 (tptp.f19 X19 X20) (tptp.f19 X21 X22)) (not (tptp.p13 X20 X22)) (not (tptp.p18 X19 X21)))))
% 0.45/0.68  (assume a99 (forall ((X10 $$unsorted) (X11 $$unsorted) (X12 $$unsorted) (X13 $$unsorted)) (or (tptp.p12 (tptp.f17 X10 X11) (tptp.f17 X12 X13)) (not (tptp.p15 X10 X12)) (not (tptp.p16 X11 X13)))))
% 0.45/0.68  (assume a100 (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181)))))
% 0.45/0.68  (assume a101 (forall ((X189 $$unsorted) (X190 $$unsorted) (X191 $$unsorted)) (or (tptp.p57 (tptp.f52 (tptp.f55 tptp.c79 X189) X190) X191) (not (tptp.p60 (tptp.f45 tptp.c80 (tptp.f47 (tptp.f50 tptp.c81 X190) (tptp.f23 tptp.c74 X191))) X189)))))
% 0.45/0.68  (assume a102 (forall ((X190 $$unsorted) (X191 $$unsorted) (X189 $$unsorted)) (or (tptp.p60 (tptp.f45 tptp.c80 (tptp.f47 (tptp.f50 tptp.c81 X190) (tptp.f23 tptp.c74 X191))) X189) (not (tptp.p57 (tptp.f52 (tptp.f55 tptp.c79 X189) X190) X191)))))
% 0.45/0.68  (assume a103 (forall ((X179 $$unsorted) (X180 $$unsorted) (X181 $$unsorted)) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180)))))
% 0.45/0.68  (assume a104 (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17))))))
% 0.45/0.68  (step t1 (cl (not (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65)))) (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65))) :rule or_pos)
% 0.45/0.68  (step t2 (cl (not (tptp.p9 tptp.c65 tptp.c65)) (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65))))) :rule reordering :premises (t1))
% 0.45/0.68  (step t3 (cl (not (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))))) (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)))) :rule or_pos)
% 0.45/0.68  (step t4 (cl (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)))))) :rule reordering :premises (t3))
% 0.45/0.68  (step t5 (cl (not (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))))) (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68)))) :rule or_pos)
% 0.45/0.68  (step t6 (cl (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))) (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (not (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68)))))) :rule reordering :premises (t5))
% 0.45/0.68  (step t7 (cl (=> (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17))))) (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))))) (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17)))))) :rule implies_neg1)
% 0.45/0.68  (anchor :step t8)
% 0.45/0.68  (assume t8.a0 (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17))))))
% 0.45/0.68  (step t8.t1 (cl (or (not (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17)))))) (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68)))))) :rule forall_inst :args ((:= X17 tptp.c68) (:= X18 tptp.c77)))
% 0.45/0.68  (step t8.t2 (cl (not (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17)))))) (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))))) :rule or :premises (t8.t1))
% 0.45/0.68  (step t8.t3 (cl (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))))) :rule resolution :premises (t8.t2 t8.a0))
% 0.45/0.68  (step t8 (cl (not (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17)))))) (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))))) :rule subproof :discharge (t8.a0))
% 0.45/0.68  (step t9 (cl (=> (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17))))) (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))))) (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))))) :rule resolution :premises (t7 t8))
% 0.45/0.68  (step t10 (cl (=> (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17))))) (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))))) (not (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68)))))) :rule implies_neg2)
% 0.45/0.68  (step t11 (cl (=> (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17))))) (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))))) (=> (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17))))) (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68)))))) :rule resolution :premises (t9 t10))
% 0.45/0.68  (step t12 (cl (=> (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17))))) (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68)))))) :rule contraction :premises (t11))
% 0.45/0.68  (step t13 (cl (not (forall ((X17 $$unsorted) (X18 $$unsorted)) (or (tptp.p13 X17 (tptp.f23 tptp.c74 X18)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 X18)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) X17)) (not (tptp.p59 (tptp.f38 tptp.c72 X18) (tptp.f35 tptp.c73 X17)))))) (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))))) :rule implies :premises (t12))
% 0.45/0.68  (step t14 (cl (or (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)) (tptp.p58 (tptp.f31 (tptp.f33 tptp.c75 tptp.c76) (tptp.f23 tptp.c69 tptp.c77)) (tptp.f19 (tptp.f22 tptp.c70 tptp.c69) tptp.c68)) (not (tptp.p59 (tptp.f38 tptp.c72 tptp.c77) (tptp.f35 tptp.c73 tptp.c68))))) :rule resolution :premises (t13 a104))
% 0.45/0.68  (step t15 (cl (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))) :rule resolution :premises (t6 a79 a34 t14))
% 0.45/0.68  (step t16 (cl (=> (forall ((X7 $$unsorted)) (tptp.p12 X7 X7)) (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (forall ((X7 $$unsorted)) (tptp.p12 X7 X7))) :rule implies_neg1)
% 0.45/0.68  (anchor :step t17)
% 0.45/0.68  (assume t17.a0 (forall ((X7 $$unsorted)) (tptp.p12 X7 X7)))
% 0.45/0.68  (step t17.t1 (cl (or (not (forall ((X7 $$unsorted)) (tptp.p12 X7 X7))) (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67)))) :rule forall_inst :args ((:= X7 (tptp.f17 tptp.c66 tptp.c67))))
% 0.45/0.68  (step t17.t2 (cl (not (forall ((X7 $$unsorted)) (tptp.p12 X7 X7))) (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) :rule or :premises (t17.t1))
% 0.45/0.68  (step t17.t3 (cl (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) :rule resolution :premises (t17.t2 t17.a0))
% 0.45/0.68  (step t17 (cl (not (forall ((X7 $$unsorted)) (tptp.p12 X7 X7))) (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) :rule subproof :discharge (t17.a0))
% 0.45/0.68  (step t18 (cl (=> (forall ((X7 $$unsorted)) (tptp.p12 X7 X7)) (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) :rule resolution :premises (t16 t17))
% 0.45/0.68  (step t19 (cl (=> (forall ((X7 $$unsorted)) (tptp.p12 X7 X7)) (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67)))) :rule implies_neg2)
% 0.45/0.68  (step t20 (cl (=> (forall ((X7 $$unsorted)) (tptp.p12 X7 X7)) (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (=> (forall ((X7 $$unsorted)) (tptp.p12 X7 X7)) (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67)))) :rule resolution :premises (t18 t19))
% 0.45/0.68  (step t21 (cl (=> (forall ((X7 $$unsorted)) (tptp.p12 X7 X7)) (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67)))) :rule contraction :premises (t20))
% 0.45/0.68  (step t22 (cl (not (forall ((X7 $$unsorted)) (tptp.p12 X7 X7))) (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) :rule implies :premises (t21))
% 0.45/0.68  (step t23 (cl (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) :rule resolution :premises (t22 a33))
% 0.45/0.68  (step t24 (cl (=> (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6)))) (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))))) (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6))))) :rule implies_neg1)
% 0.45/0.68  (anchor :step t25)
% 0.45/0.68  (assume t25.a0 (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6)))))
% 0.45/0.68  (step t25.t1 (cl (or (not (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6))))) (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)))))) :rule forall_inst :args ((:= X3 (tptp.f17 tptp.c66 tptp.c67)) (:= X4 tptp.c68) (:= X5 (tptp.f17 tptp.c66 tptp.c67)) (:= X6 (tptp.f23 tptp.c74 tptp.c77))))
% 0.45/0.68  (step t25.t2 (cl (not (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6))))) (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))))) :rule or :premises (t25.t1))
% 0.45/0.68  (step t25.t3 (cl (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))))) :rule resolution :premises (t25.t2 t25.a0))
% 0.45/0.68  (step t25 (cl (not (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6))))) (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))))) :rule subproof :discharge (t25.a0))
% 0.45/0.68  (step t26 (cl (=> (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6)))) (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))))) (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))))) :rule resolution :premises (t24 t25))
% 0.45/0.68  (step t27 (cl (=> (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6)))) (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))))) (not (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)))))) :rule implies_neg2)
% 0.45/0.68  (step t28 (cl (=> (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6)))) (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))))) (=> (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6)))) (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)))))) :rule resolution :premises (t26 t27))
% 0.45/0.68  (step t29 (cl (=> (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6)))) (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77)))))) :rule contraction :premises (t28))
% 0.45/0.68  (step t30 (cl (not (forall ((X3 $$unsorted) (X4 $$unsorted) (X5 $$unsorted) (X6 $$unsorted)) (or (tptp.p10 (tptp.f14 X3 X4) (tptp.f14 X5 X6)) (not (tptp.p12 X3 X5)) (not (tptp.p13 X4 X6))))) (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))))) :rule implies :premises (t29))
% 0.45/0.68  (step t31 (cl (or (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) (not (tptp.p12 (tptp.f17 tptp.c66 tptp.c67) (tptp.f17 tptp.c66 tptp.c67))) (not (tptp.p13 tptp.c68 (tptp.f23 tptp.c74 tptp.c77))))) :rule resolution :premises (t30 a80))
% 0.45/0.68  (step t32 (cl (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) :rule resolution :premises (t4 t15 t23 t31))
% 0.45/0.68  (step t33 (cl (=> (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123)))) (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65)))) (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123))))) :rule implies_neg1)
% 0.45/0.68  (anchor :step t34)
% 0.45/0.68  (assume t34.a0 (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123)))))
% 0.45/0.68  (step t34.t1 (cl (or (not (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123))))) (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65))))) :rule forall_inst :args ((:= X121 tptp.c65) (:= X122 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (:= X123 tptp.c65) (:= X124 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))))
% 0.45/0.68  (step t34.t2 (cl (not (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123))))) (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65)))) :rule or :premises (t34.t1))
% 0.45/0.68  (step t34.t3 (cl (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65)))) :rule resolution :premises (t34.t2 t34.a0))
% 0.45/0.68  (step t34 (cl (not (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123))))) (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65)))) :rule subproof :discharge (t34.a0))
% 0.45/0.68  (step t35 (cl (=> (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123)))) (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65)))) (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65)))) :rule resolution :premises (t33 t34))
% 0.45/0.68  (step t36 (cl (=> (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123)))) (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65)))) (not (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65))))) :rule implies_neg2)
% 0.45/0.68  (step t37 (cl (=> (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123)))) (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65)))) (=> (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123)))) (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65))))) :rule resolution :premises (t35 t36))
% 0.45/0.68  (step t38 (cl (=> (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123)))) (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65))))) :rule contraction :premises (t37))
% 0.45/0.68  (step t39 (cl (not (forall ((X121 $$unsorted) (X122 $$unsorted) (X123 $$unsorted) (X124 $$unsorted)) (or (tptp.p4 (tptp.f11 X121 X122) (tptp.f11 X123 X124)) (not (tptp.p10 X122 X124)) (not (tptp.p9 X121 X123))))) (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65)))) :rule implies :premises (t38))
% 0.45/0.68  (step t40 (cl (or (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p10 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68) (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (not (tptp.p9 tptp.c65 tptp.c65)))) :rule resolution :premises (t39 a86))
% 0.45/0.68  (step t41 (cl (not (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))))) (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))))) :rule or_pos)
% 0.45/0.68  (step t42 (cl (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))) (not (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))))))) :rule reordering :premises (t41))
% 0.45/0.68  (step t43 (cl (not (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)))) (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64))) :rule or_pos)
% 0.45/0.68  (step t44 (cl (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)) (not (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64))))) :rule reordering :premises (t43))
% 0.45/0.68  (step t45 (cl (not (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)))) (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77))) :rule or_pos)
% 0.45/0.68  (step t46 (cl (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)) (not (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77))))) :rule reordering :premises (t45))
% 0.45/0.68  (step t47 (cl (=> (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188)))) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)))) (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188))))) :rule implies_neg1)
% 0.45/0.68  (anchor :step t48)
% 0.45/0.68  (assume t48.a0 (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188)))))
% 0.45/0.68  (step t48.t1 (cl (or (not (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188))))) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77))))) :rule forall_inst :args ((:= X186 (tptp.f41 tptp.c78 tptp.c64)) (:= X187 tptp.c67) (:= X188 tptp.c77)))
% 0.45/0.68  (step t48.t2 (cl (not (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188))))) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)))) :rule or :premises (t48.t1))
% 0.45/0.68  (step t48.t3 (cl (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)))) :rule resolution :premises (t48.t2 t48.a0))
% 0.45/0.68  (step t48 (cl (not (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188))))) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)))) :rule subproof :discharge (t48.a0))
% 0.45/0.68  (step t49 (cl (=> (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188)))) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)))) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)))) :rule resolution :premises (t47 t48))
% 0.45/0.68  (step t50 (cl (=> (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188)))) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)))) (not (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77))))) :rule implies_neg2)
% 0.45/0.68  (step t51 (cl (=> (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188)))) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)))) (=> (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188)))) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77))))) :rule resolution :premises (t49 t50))
% 0.45/0.68  (step t52 (cl (=> (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188)))) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77))))) :rule contraction :premises (t51))
% 0.45/0.68  (step t53 (cl (not (forall ((X186 $$unsorted) (X187 $$unsorted) (X188 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 X186) X187) X188) (not (tptp.p57 (tptp.f26 X186 X187) X188))))) (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)))) :rule implies :premises (t52))
% 0.45/0.68  (step t54 (cl (or (tptp.p57 (tptp.f26 (tptp.f28 tptp.c71 (tptp.f41 tptp.c78 tptp.c64)) tptp.c67) tptp.c77) (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77)))) :rule resolution :premises (t53 a73))
% 0.45/0.68  (step t55 (cl (not (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77))) :rule resolution :premises (t46 a38 t54))
% 0.45/0.68  (step t56 (cl (=> (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181)))) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)))) (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181))))) :rule implies_neg1)
% 0.45/0.68  (anchor :step t57)
% 0.45/0.68  (assume t57.a0 (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181)))))
% 0.45/0.68  (step t57.t1 (cl (or (not (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181))))) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64))))) :rule forall_inst :args ((:= X181 tptp.c64) (:= X179 tptp.c67) (:= X180 tptp.c77)))
% 0.45/0.68  (step t57.t2 (cl (not (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181))))) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)))) :rule or :premises (t57.t1))
% 0.45/0.68  (step t57.t3 (cl (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)))) :rule resolution :premises (t57.t2 t57.a0))
% 0.45/0.68  (step t57 (cl (not (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181))))) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)))) :rule subproof :discharge (t57.a0))
% 0.45/0.68  (step t58 (cl (=> (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181)))) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)))) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)))) :rule resolution :premises (t56 t57))
% 0.45/0.68  (step t59 (cl (=> (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181)))) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)))) (not (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64))))) :rule implies_neg2)
% 0.45/0.68  (step t60 (cl (=> (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181)))) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)))) (=> (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181)))) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64))))) :rule resolution :premises (t58 t59))
% 0.45/0.68  (step t61 (cl (=> (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181)))) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64))))) :rule contraction :premises (t60))
% 0.45/0.68  (step t62 (cl (not (forall ((X181 $$unsorted) (X179 $$unsorted) (X180 $$unsorted)) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 X181) X179) X180) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 X179) (tptp.f23 tptp.c74 X180))) X181))))) (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)))) :rule implies :premises (t61))
% 0.45/0.68  (step t63 (cl (or (tptp.p57 (tptp.f26 (tptp.f41 tptp.c78 tptp.c64) tptp.c67) tptp.c77) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64)))) :rule resolution :premises (t62 a100))
% 0.45/0.68  (step t64 (cl (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64))) :rule resolution :premises (t44 t55 t63))
% 0.45/0.68  (step t65 (cl (=> (forall ((X129 $$unsorted)) (tptp.p40 X129 X129)) (tptp.p40 tptp.c64 tptp.c64)) (forall ((X129 $$unsorted)) (tptp.p40 X129 X129))) :rule implies_neg1)
% 0.45/0.68  (anchor :step t66)
% 0.45/0.68  (assume t66.a0 (forall ((X129 $$unsorted)) (tptp.p40 X129 X129)))
% 0.45/0.68  (step t66.t1 (cl (or (not (forall ((X129 $$unsorted)) (tptp.p40 X129 X129))) (tptp.p40 tptp.c64 tptp.c64))) :rule forall_inst :args ((:= X129 tptp.c64)))
% 0.45/0.68  (step t66.t2 (cl (not (forall ((X129 $$unsorted)) (tptp.p40 X129 X129))) (tptp.p40 tptp.c64 tptp.c64)) :rule or :premises (t66.t1))
% 0.45/0.68  (step t66.t3 (cl (tptp.p40 tptp.c64 tptp.c64)) :rule resolution :premises (t66.t2 t66.a0))
% 0.45/0.68  (step t66 (cl (not (forall ((X129 $$unsorted)) (tptp.p40 X129 X129))) (tptp.p40 tptp.c64 tptp.c64)) :rule subproof :discharge (t66.a0))
% 0.45/0.68  (step t67 (cl (=> (forall ((X129 $$unsorted)) (tptp.p40 X129 X129)) (tptp.p40 tptp.c64 tptp.c64)) (tptp.p40 tptp.c64 tptp.c64)) :rule resolution :premises (t65 t66))
% 0.45/0.68  (step t68 (cl (=> (forall ((X129 $$unsorted)) (tptp.p40 X129 X129)) (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p40 tptp.c64 tptp.c64))) :rule implies_neg2)
% 0.45/0.68  (step t69 (cl (=> (forall ((X129 $$unsorted)) (tptp.p40 X129 X129)) (tptp.p40 tptp.c64 tptp.c64)) (=> (forall ((X129 $$unsorted)) (tptp.p40 X129 X129)) (tptp.p40 tptp.c64 tptp.c64))) :rule resolution :premises (t67 t68))
% 0.45/0.68  (step t70 (cl (=> (forall ((X129 $$unsorted)) (tptp.p40 X129 X129)) (tptp.p40 tptp.c64 tptp.c64))) :rule contraction :premises (t69))
% 0.45/0.68  (step t71 (cl (not (forall ((X129 $$unsorted)) (tptp.p40 X129 X129))) (tptp.p40 tptp.c64 tptp.c64)) :rule implies :premises (t70))
% 0.45/0.68  (step t72 (cl (tptp.p40 tptp.c64 tptp.c64)) :rule resolution :premises (t71 a13))
% 0.45/0.68  (step t73 (cl (=> (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175)))) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))))) (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175))))) :rule implies_neg1)
% 0.45/0.68  (anchor :step t74)
% 0.45/0.68  (assume t74.a0 (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175)))))
% 0.45/0.68  (step t74.t1 (cl (or (not (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175))))) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))))))) :rule forall_inst :args ((:= X175 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))) (:= X176 tptp.c64) (:= X178 tptp.c64) (:= X177 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)))))
% 0.45/0.68  (step t74.t2 (cl (not (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175))))) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))))) :rule or :premises (t74.t1))
% 0.45/0.68  (step t74.t3 (cl (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))))) :rule resolution :premises (t74.t2 t74.a0))
% 0.45/0.68  (step t74 (cl (not (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175))))) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))))) :rule subproof :discharge (t74.a0))
% 0.45/0.68  (step t75 (cl (=> (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175)))) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))))) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))))) :rule resolution :premises (t73 t74))
% 0.45/0.68  (step t76 (cl (=> (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175)))) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))))) (not (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))))))) :rule implies_neg2)
% 0.45/0.68  (step t77 (cl (=> (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175)))) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))))) (=> (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175)))) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))))))) :rule resolution :premises (t75 t76))
% 0.45/0.68  (step t78 (cl (=> (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175)))) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))))))) :rule contraction :premises (t77))
% 0.45/0.68  (step t79 (cl (not (forall ((X175 $$unsorted) (X176 $$unsorted) (X178 $$unsorted) (X177 $$unsorted)) (or (tptp.p56 X175 X176) (not (tptp.p40 X178 X176)) (not (tptp.p56 X177 X178)) (not (tptp.p4 X177 X175))))) (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))))) :rule implies :premises (t78))
% 0.45/0.68  (step t80 (cl (or (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))) tptp.c64) (not (tptp.p40 tptp.c64 tptp.c64)) (not (tptp.p56 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) tptp.c64)) (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77))))))) :rule resolution :premises (t79 a75))
% 0.45/0.68  (step t81 (cl (not (tptp.p4 (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) tptp.c68)) (tptp.f11 tptp.c65 (tptp.f14 (tptp.f17 tptp.c66 tptp.c67) (tptp.f23 tptp.c74 tptp.c77)))))) :rule resolution :premises (t42 a37 t64 t72 t80))
% 0.45/0.68  (step t82 (cl (=> (forall ((X210 $$unsorted)) (tptp.p9 X210 X210)) (tptp.p9 tptp.c65 tptp.c65)) (forall ((X210 $$unsorted)) (tptp.p9 X210 X210))) :rule implies_neg1)
% 0.45/0.68  (anchor :step t83)
% 0.45/0.68  (assume t83.a0 (forall ((X210 $$unsorted)) (tptp.p9 X210 X210)))
% 0.45/0.68  (step t83.t1 (cl (or (not (forall ((X210 $$unsorted)) (tptp.p9 X210 X210))) (tptp.p9 tptp.c65 tptp.c65))) :rule forall_inst :args ((:= X210 tptp.c65)))
% 0.45/0.68  (step t83.t2 (cl (not (forall ((X210 $$unsorted)) (tptp.p9 X210 X210))) (tptp.p9 tptp.c65 tptp.c65)) :rule or :premises (t83.t1))
% 0.45/0.68  (step t83.t3 (cl (tptp.p9 tptp.c65 tptp.c65)) :rule resolution :premises (t83.t2 t83.a0))
% 0.45/0.68  (step t83 (cl (not (forall ((X210 $$unsorted)) (tptp.p9 X210 X210))) (tptp.p9 tptp.c65 tptp.c65)) :rule subproof :discharge (t83.a0))
% 0.45/0.68  (step t84 (cl (=> (forall ((X210 $$unsorted)) (tptp.p9 X210 X210)) (tptp.p9 tptp.c65 tptp.c65)) (tptp.p9 tptp.c65 tptp.c65)) :rule resolution :premises (t82 t83))
% 0.45/0.68  (step t85 (cl (=> (forall ((X210 $$unsorted)) (tptp.p9 X210 X210)) (tptp.p9 tptp.c65 tptp.c65)) (not (tptp.p9 tptp.c65 tptp.c65))) :rule implies_neg2)
% 0.45/0.68  (step t86 (cl (=> (forall ((X210 $$unsorted)) (tptp.p9 X210 X210)) (tptp.p9 tptp.c65 tptp.c65)) (=> (forall ((X210 $$unsorted)) (tptp.p9 X210 X210)) (tptp.p9 tptp.c65 tptp.c65))) :rule resolution :premises (t84 t85))
% 0.45/0.68  (step t87 (cl (=> (forall ((X210 $$unsorted)) (tptp.p9 X210 X210)) (tptp.p9 tptp.c65 tptp.c65))) :rule contraction :premises (t86))
% 0.45/0.68  (step t88 (cl (not (forall ((X210 $$unsorted)) (tptp.p9 X210 X210))) (tptp.p9 tptp.c65 tptp.c65)) :rule implies :premises (t87))
% 0.45/0.68  (step t89 (cl (tptp.p9 tptp.c65 tptp.c65)) :rule resolution :premises (t88 a1))
% 0.45/0.68  (step t90 (cl) :rule resolution :premises (t2 t32 t40 t81 t89))
% 0.45/0.68  
% 0.45/0.68  % SZS output end Proof for /export/starexec/sandbox/tmp/tmp.4PeywHfC50/cvc5---1.0.5_29577.smt2
% 0.45/0.69  % cvc5---1.0.5 exiting
% 0.45/0.69  % cvc5---1.0.5 exiting
%------------------------------------------------------------------------------