TSTP Solution File: GRP239-1 by Vampire-SAT---4.8

View Problem - Process Solution

%------------------------------------------------------------------------------
% File     : Vampire-SAT---4.8
% Problem  : GRP239-1 : TPTP v8.2.0. Released v2.5.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : vampire --mode casc_sat -m 16384 --cores 7 -t %d %s

% Computer : n016.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 : Mon May 20 21:17:42 EDT 2024

% Result   : Unsatisfiable 0.17s 0.49s
% Output   : Refutation 0.17s
% Verified : 
% SZS Type : ERROR: Analysing output (MakeTreeStats ran out of CPU time)

% Comments : 
%------------------------------------------------------------------------------
fof(f4624,plain,
    $false,
    inference(avatar_sat_refutation,[],[f57,f365,f430,f1630,f1787,f2333,f2418,f3173,f3361,f3364,f3368,f3373,f3385,f3514,f3522,f3690,f3778,f3847,f3850,f3854,f3859,f3862,f3865,f3867,f3869,f3871,f3873,f3875,f3877,f3879,f3881,f3884,f3887,f3890,f3893,f3895,f3897,f3899,f3901,f3903,f3905,f3907,f3909,f3911,f3913,f3915,f3917,f3919,f3921,f3923,f3925,f3927,f3930,f3932,f3934,f3936,f3938,f3940,f3942,f3944,f3946,f3948,f3950,f3952,f3954,f3956,f3958,f3960,f3962,f3964,f3966,f3969,f3971,f3973,f3975,f3977,f3979,f3981,f3983,f3985,f3987,f3989,f3991,f3993,f3995,f3997,f3999,f4001,f4003,f4005,f4007,f4009,f4011,f4013,f4015,f4017,f4019,f4021,f4023,f4025,f4027,f4029,f4031,f4033,f4035,f4037,f4039,f4041,f4043,f4045,f4047,f4049,f4051,f4053,f4055,f4057,f4059,f4061,f4063,f4065,f4067,f4069,f4071,f4073,f4075,f4077,f4079,f4081,f4083,f4085,f4087,f4089,f4091,f4093,f4346,f4350,f4352,f4423,f4428,f4430,f4432,f4434,f4444,f4449,f4478,f4480,f4482,f4484,f4487,f4490,f4492,f4495,f4516,f4585,f4588,f4592,f4595,f4598,f4605,f4608,f4611,f4615,f4617,f4619,f4621,f4623]) ).

fof(f4623,plain,
    ( spl0_3
    | spl0_9 ),
    inference(avatar_contradiction_clause,[],[f4622]) ).

fof(f4622,plain,
    ( $false
    | spl0_3
    | spl0_9 ),
    inference(global_subsumption,[],[f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1822,f1824,f1828,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f424,f12,f4517,f13,f4518,f17,f4520,f11,f4521,f19,f24,f20,f21,f39,f18,f16,f1785]) ).

fof(f1785,plain,
    ( sk_c7 != inverse(sk_c6)
    | spl0_9 ),
    inference(avatar_component_clause,[],[f1784]) ).

fof(f1784,plain,
    ( spl0_9
  <=> sk_c7 = inverse(sk_c6) ),
    introduced(avatar_definition,[new_symbols(naming,[spl0_9])]) ).

fof(f16,axiom,
    ( sk_c7 = inverse(sk_c6)
    | sk_c9 = inverse(sk_c1) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_13) ).

fof(f18,axiom,
    ( sk_c9 = inverse(sk_c4)
    | sk_c9 = multiply(sk_c1,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_15) ).

fof(f39,axiom,
    ( sk_c9 = inverse(sk_c4)
    | sk_c9 = inverse(sk_c2) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_36) ).

fof(f21,axiom,
    ( sk_c8 = inverse(sk_c5)
    | sk_c9 = multiply(sk_c1,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_18) ).

fof(f20,axiom,
    ( sk_c9 = multiply(sk_c5,sk_c8)
    | sk_c9 = multiply(sk_c1,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_17) ).

fof(f24,axiom,
    ( sk_c8 = multiply(sk_c7,sk_c9)
    | sk_c9 = multiply(sk_c1,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_21) ).

fof(f19,axiom,
    ( sk_c9 = multiply(sk_c4,sk_c8)
    | sk_c9 = multiply(sk_c1,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_16) ).

fof(f4521,plain,
    ( sk_c9 = inverse(sk_c4)
    | spl0_3 ),
    inference(global_subsumption,[],[f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f21,f20,f24,f19,f424,f12,f4517,f13,f4518,f17,f4520,f11]) ).

fof(f11,axiom,
    ( sk_c9 = inverse(sk_c4)
    | sk_c9 = inverse(sk_c1) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_8) ).

fof(f4520,plain,
    ( sk_c8 = multiply(sk_c7,sk_c9)
    | spl0_3 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f21,f20,f24,f19,f424,f12,f4517,f13,f4518,f17]) ).

fof(f17,axiom,
    ( sk_c9 = inverse(sk_c1)
    | sk_c8 = multiply(sk_c7,sk_c9) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_14) ).

fof(f4518,plain,
    ( sk_c9 = multiply(sk_c5,sk_c8)
    | spl0_3 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f21,f20,f24,f19,f17,f424,f12,f4517,f13]) ).

fof(f13,axiom,
    ( sk_c9 = inverse(sk_c1)
    | sk_c9 = multiply(sk_c5,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_10) ).

fof(f4517,plain,
    ( sk_c9 = multiply(sk_c4,sk_c8)
    | spl0_3 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f21,f20,f24,f19,f17,f13,f424,f12]) ).

fof(f12,axiom,
    ( sk_c9 = inverse(sk_c1)
    | sk_c9 = multiply(sk_c4,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_9) ).

fof(f424,plain,
    ( sk_c9 != inverse(sk_c1)
    | spl0_3 ),
    inference(avatar_component_clause,[],[f423]) ).

fof(f423,plain,
    ( spl0_3
  <=> sk_c9 = inverse(sk_c1) ),
    introduced(avatar_definition,[new_symbols(naming,[spl0_3])]) ).

fof(f29,axiom,
    ( sk_c8 = multiply(sk_c6,sk_c7)
    | sk_c8 = multiply(sk_c9,sk_c3) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_26) ).

fof(f30,axiom,
    ( sk_c7 = inverse(sk_c6)
    | sk_c8 = multiply(sk_c9,sk_c3) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_27) ).

fof(f31,axiom,
    ( sk_c8 = multiply(sk_c7,sk_c9)
    | sk_c8 = multiply(sk_c9,sk_c3) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_28) ).

fof(f37,axiom,
    ( sk_c7 = inverse(sk_c6)
    | sk_c3 = multiply(sk_c2,sk_c9) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_34) ).

fof(f40,axiom,
    ( sk_c9 = inverse(sk_c2)
    | sk_c9 = multiply(sk_c4,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_37) ).

fof(f33,axiom,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | sk_c9 = multiply(sk_c4,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_30) ).

fof(f38,axiom,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | sk_c8 = multiply(sk_c7,sk_c9) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_35) ).

fof(f45,axiom,
    ( sk_c9 = inverse(sk_c2)
    | sk_c8 = multiply(sk_c7,sk_c9) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_42) ).

fof(f43,axiom,
    ( sk_c9 = inverse(sk_c2)
    | sk_c8 = multiply(sk_c6,sk_c7) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_40) ).

fof(f36,axiom,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | sk_c8 = multiply(sk_c6,sk_c7) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_33) ).

fof(f42,axiom,
    ( sk_c8 = inverse(sk_c5)
    | sk_c9 = inverse(sk_c2) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_39) ).

fof(f28,axiom,
    ( sk_c8 = inverse(sk_c5)
    | sk_c8 = multiply(sk_c9,sk_c3) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_25) ).

fof(f35,axiom,
    ( sk_c8 = inverse(sk_c5)
    | sk_c3 = multiply(sk_c2,sk_c9) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_32) ).

fof(f27,axiom,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | sk_c9 = multiply(sk_c5,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_24) ).

fof(f34,axiom,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | sk_c9 = multiply(sk_c5,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_31) ).

fof(f41,axiom,
    ( sk_c9 = inverse(sk_c2)
    | sk_c9 = multiply(sk_c5,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_38) ).

fof(f26,axiom,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | sk_c9 = multiply(sk_c4,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_23) ).

fof(f25,axiom,
    ( sk_c9 = inverse(sk_c4)
    | sk_c8 = multiply(sk_c9,sk_c3) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_22) ).

fof(f32,axiom,
    ( sk_c9 = inverse(sk_c4)
    | sk_c3 = multiply(sk_c2,sk_c9) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_29) ).

fof(f760,plain,
    identity = inverse(identity),
    inference(superposition,[],[f698,f274]) ).

fof(f763,plain,
    identity = inverse(identity),
    inference(superposition,[],[f274,f698]) ).

fof(f809,plain,
    identity = inverse(identity),
    inference(superposition,[],[f787,f2]) ).

fof(f810,plain,
    identity = inverse(identity),
    inference(superposition,[],[f787,f273]) ).

fof(f820,plain,
    identity = inverse(identity),
    inference(superposition,[],[f2,f787]) ).

fof(f821,plain,
    identity = inverse(identity),
    inference(superposition,[],[f273,f787]) ).

fof(f892,plain,
    identity = inverse(identity),
    inference(superposition,[],[f785,f1]) ).

fof(f898,plain,
    identity = inverse(identity),
    inference(superposition,[],[f1,f785]) ).

fof(f1693,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f822,f807]) ).

fof(f822,plain,
    identity = inverse(inverse(inverse(identity))),
    inference(superposition,[],[f698,f787]) ).

fof(f1694,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f811,f807]) ).

fof(f811,plain,
    identity = inverse(inverse(inverse(identity))),
    inference(superposition,[],[f787,f698]) ).

fof(f1141,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f1043,f2]) ).

fof(f1043,plain,
    ! [X0] : identity = inverse(multiply(inverse(X0),X0)),
    inference(superposition,[],[f897,f77]) ).

fof(f1142,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f1044,f785]) ).

fof(f1044,plain,
    ! [X0] : identity = inverse(multiply(X0,inverse(X0))),
    inference(superposition,[],[f897,f788]) ).

fof(f1152,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f1054,f2]) ).

fof(f1054,plain,
    ! [X0] : identity = inverse(multiply(inverse(X0),X0)),
    inference(superposition,[],[f77,f897]) ).

fof(f1153,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f1055,f785]) ).

fof(f1055,plain,
    ! [X0] : identity = inverse(multiply(X0,inverse(X0))),
    inference(superposition,[],[f788,f897]) ).

fof(f1231,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f1178,f785]) ).

fof(f1178,plain,
    ! [X0] : inverse(identity) = multiply(X0,inverse(X0)),
    inference(superposition,[],[f1172,f1]) ).

fof(f1368,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f1323,f785]) ).

fof(f1323,plain,
    ! [X0] : inverse(identity) = multiply(X0,inverse(X0)),
    inference(superposition,[],[f1265,f273]) ).

fof(f1640,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f1450,f2]) ).

fof(f1450,plain,
    ! [X0] : multiply(inverse(X0),X0) = inverse(identity),
    inference(superposition,[],[f1356,f273]) ).

fof(f1505,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(superposition,[],[f1176,f2]) ).

fof(f1633,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(forward_demodulation,[],[f1517,f807]) ).

fof(f1517,plain,
    ! [X0] : multiply(inverse(inverse(X0)),inverse(identity)) = X0,
    inference(superposition,[],[f1176,f785]) ).

fof(f1635,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(forward_demodulation,[],[f1634,f807]) ).

fof(f1634,plain,
    ! [X0] : multiply(inverse(inverse(X0)),inverse(identity)) = X0,
    inference(forward_demodulation,[],[f1516,f1172]) ).

fof(f1516,plain,
    ! [X0,X1] : multiply(multiply(X1,inverse(multiply(inverse(X0),X1))),inverse(identity)) = X0,
    inference(superposition,[],[f1176,f897]) ).

fof(f1636,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(forward_demodulation,[],[f1507,f807]) ).

fof(f1507,plain,
    ! [X0] : inverse(inverse(X0)) = multiply(X0,inverse(identity)),
    inference(superposition,[],[f1176,f698]) ).

fof(f1666,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(forward_demodulation,[],[f1665,f807]) ).

fof(f1665,plain,
    ! [X0] : inverse(inverse(X0)) = multiply(X0,inverse(identity)),
    inference(forward_demodulation,[],[f1181,f807]) ).

fof(f1181,plain,
    ! [X0] : inverse(inverse(inverse(inverse(X0)))) = multiply(X0,inverse(identity)),
    inference(superposition,[],[f1172,f698]) ).

fof(f1667,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(forward_demodulation,[],[f1179,f807]) ).

fof(f1179,plain,
    ! [X0] : inverse(inverse(X0)) = multiply(X0,inverse(identity)),
    inference(superposition,[],[f1172,f2]) ).

fof(f1329,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(superposition,[],[f1265,f787]) ).

fof(f1645,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(forward_demodulation,[],[f1332,f807]) ).

fof(f1332,plain,
    ! [X0] : inverse(inverse(X0)) = multiply(X0,inverse(identity)),
    inference(superposition,[],[f1265,f274]) ).

fof(f1458,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(superposition,[],[f1356,f787]) ).

fof(f1464,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(superposition,[],[f787,f1356]) ).

fof(f1199,plain,
    ! [X0] : inverse(X0) = multiply(inverse(X0),inverse(identity)),
    inference(superposition,[],[f1172,f785]) ).

fof(f1212,plain,
    ! [X0] : inverse(X0) = inverse(multiply(X0,inverse(identity))),
    inference(superposition,[],[f1172,f273]) ).

fof(f1219,plain,
    ! [X0] : inverse(X0) = inverse(multiply(X0,inverse(identity))),
    inference(superposition,[],[f273,f1172]) ).

fof(f1661,plain,
    ! [X0] : inverse(X0) = multiply(inverse(X0),inverse(identity)),
    inference(forward_demodulation,[],[f1198,f1172]) ).

fof(f1198,plain,
    ! [X0,X1] : inverse(X0) = multiply(multiply(X1,inverse(multiply(X0,X1))),inverse(identity)),
    inference(superposition,[],[f1172,f897]) ).

fof(f1003,plain,
    ! [X0] : identity = multiply(inverse(X0),multiply(X0,inverse(identity))),
    inference(superposition,[],[f897,f2]) ).

fof(f1684,plain,
    ! [X0] : identity = multiply(inverse(X0),multiply(X0,inverse(identity))),
    inference(forward_demodulation,[],[f1005,f807]) ).

fof(f1005,plain,
    ! [X0] : identity = multiply(inverse(inverse(inverse(X0))),multiply(X0,inverse(identity))),
    inference(superposition,[],[f897,f698]) ).

fof(f2215,plain,
    ! [X0] : inverse(X0) = multiply(inverse(X0),inverse(identity)),
    inference(superposition,[],[f1269,f273]) ).

fof(f3399,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f2223,f2]) ).

fof(f2223,plain,
    ! [X0] : multiply(inverse(X0),X0) = inverse(identity),
    inference(superposition,[],[f1269,f787]) ).

fof(f2278,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f2226,f785]) ).

fof(f2226,plain,
    ! [X0] : inverse(identity) = multiply(inverse(X0),inverse(inverse(X0))),
    inference(superposition,[],[f1269,f274]) ).

fof(f3394,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(forward_demodulation,[],[f2696,f807]) ).

fof(f2696,plain,
    ! [X0] : multiply(inverse(inverse(X0)),inverse(identity)) = X0,
    inference(superposition,[],[f1577,f273]) ).

fof(f2890,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f2799,f2]) ).

fof(f2799,plain,
    ! [X0] : identity = inverse(multiply(inverse(X0),X0)),
    inference(superposition,[],[f1226,f785]) ).

fof(f2896,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f2802,f785]) ).

fof(f2802,plain,
    ! [X0] : identity = inverse(multiply(X0,inverse(X0))),
    inference(superposition,[],[f1226,f2]) ).

fof(f2899,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f2898,f785]) ).

fof(f2898,plain,
    ! [X0] : identity = inverse(multiply(X0,inverse(X0))),
    inference(forward_demodulation,[],[f2806,f807]) ).

fof(f2806,plain,
    ! [X0] : identity = inverse(multiply(X0,inverse(inverse(inverse(X0))))),
    inference(superposition,[],[f1226,f698]) ).

fof(f2903,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f2809,f2]) ).

fof(f2809,plain,
    ! [X0] : identity = inverse(multiply(inverse(X0),X0)),
    inference(superposition,[],[f785,f1226]) ).

fof(f2913,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f2815,f785]) ).

fof(f2815,plain,
    ! [X0] : identity = inverse(multiply(X0,inverse(X0))),
    inference(superposition,[],[f2,f1226]) ).

fof(f2916,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f2915,f785]) ).

fof(f2915,plain,
    ! [X0] : identity = inverse(multiply(X0,inverse(X0))),
    inference(forward_demodulation,[],[f2819,f807]) ).

fof(f2819,plain,
    ! [X0] : identity = inverse(multiply(X0,inverse(inverse(inverse(X0))))),
    inference(superposition,[],[f698,f1226]) ).

fof(f2940,plain,
    identity = inverse(identity),
    inference(superposition,[],[f1229,f785]) ).

fof(f3391,plain,
    ! [X0] : multiply(X0,inverse(identity)) = X0,
    inference(forward_demodulation,[],[f2945,f807]) ).

fof(f2945,plain,
    ! [X0] : inverse(inverse(X0)) = multiply(X0,inverse(identity)),
    inference(superposition,[],[f1229,f1]) ).

fof(f3012,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f3011,f785]) ).

fof(f3011,plain,
    ! [X0] : inverse(identity) = multiply(X0,inverse(X0)),
    inference(forward_demodulation,[],[f2946,f807]) ).

fof(f2946,plain,
    ! [X0] : inverse(identity) = multiply(X0,inverse(inverse(inverse(X0)))),
    inference(superposition,[],[f1229,f2]) ).

fof(f3020,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f3019,f785]) ).

fof(f3019,plain,
    ! [X0] : inverse(identity) = multiply(X0,inverse(X0)),
    inference(forward_demodulation,[],[f3018,f807]) ).

fof(f3018,plain,
    ! [X0] : inverse(identity) = multiply(X0,inverse(inverse(inverse(X0)))),
    inference(forward_demodulation,[],[f2950,f807]) ).

fof(f2950,plain,
    ! [X0] : inverse(identity) = multiply(X0,inverse(inverse(inverse(inverse(inverse(X0)))))),
    inference(superposition,[],[f1229,f698]) ).

fof(f3056,plain,
    identity = inverse(identity),
    inference(superposition,[],[f1542,f2]) ).

fof(f3132,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f3060,f785]) ).

fof(f3060,plain,
    ! [X0] : inverse(identity) = multiply(inverse(X0),inverse(inverse(X0))),
    inference(superposition,[],[f1542,f698]) ).

fof(f3390,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f3144,f2]) ).

fof(f3144,plain,
    ! [X0] : multiply(inverse(X0),X0) = inverse(identity),
    inference(forward_demodulation,[],[f3143,f787]) ).

fof(f3143,plain,
    ! [X0] : inverse(identity) = multiply(multiply(inverse(X0),identity),X0),
    inference(forward_demodulation,[],[f3142,f785]) ).

fof(f3142,plain,
    ! [X0,X1] : inverse(identity) = multiply(multiply(inverse(X0),multiply(X1,inverse(X1))),X0),
    inference(forward_demodulation,[],[f3141,f3]) ).

fof(f3141,plain,
    ! [X0,X1] : inverse(identity) = multiply(multiply(multiply(inverse(X0),X1),inverse(X1)),X0),
    inference(forward_demodulation,[],[f3069,f1229]) ).

fof(f3069,plain,
    ! [X0,X1] : inverse(identity) = multiply(inverse(multiply(X1,inverse(multiply(inverse(X0),X1)))),X0),
    inference(superposition,[],[f1542,f897]) ).

fof(f3147,plain,
    identity = inverse(identity),
    inference(forward_demodulation,[],[f3071,f698]) ).

fof(f3071,plain,
    ! [X0] : inverse(identity) = multiply(inverse(inverse(inverse(X0))),X0),
    inference(superposition,[],[f1542,f785]) ).

fof(f3097,plain,
    ! [X2,X0,X1] : multiply(inverse(X0),X1) = multiply(inverse(multiply(X2,multiply(inverse(X1),X0))),X2),
    inference(superposition,[],[f1577,f1542]) ).

fof(f3096,plain,
    ! [X2,X0,X1] : multiply(multiply(X2,multiply(inverse(X1),X0)),multiply(inverse(X0),X1)) = X2,
    inference(superposition,[],[f1356,f1542]) ).

fof(f3095,plain,
    ! [X2,X0,X1] : multiply(multiply(X2,multiply(inverse(X0),X1)),multiply(inverse(X1),X0)) = X2,
    inference(superposition,[],[f1265,f1542]) ).

fof(f3171,plain,
    ! [X2,X0,X1] : multiply(inverse(X0),multiply(X1,inverse(X2))) = inverse(multiply(X2,multiply(inverse(X1),X0))),
    inference(forward_demodulation,[],[f3094,f3]) ).

fof(f3094,plain,
    ! [X2,X0,X1] : inverse(multiply(X2,multiply(inverse(X1),X0))) = multiply(multiply(inverse(X0),X1),inverse(X2)),
    inference(superposition,[],[f1229,f1542]) ).

fof(f3170,plain,
    ! [X2,X0,X1] : multiply(inverse(X2),multiply(inverse(X1),X0)) = multiply(inverse(multiply(X1,X2)),X0),
    inference(forward_demodulation,[],[f3169,f1542]) ).

fof(f3169,plain,
    ! [X2,X0,X1] : multiply(inverse(X2),multiply(inverse(X1),X0)) = inverse(multiply(inverse(X0),multiply(X1,X2))),
    inference(forward_demodulation,[],[f3093,f3]) ).

fof(f3093,plain,
    ! [X2,X0,X1] : inverse(multiply(multiply(inverse(X0),X1),X2)) = multiply(inverse(X2),multiply(inverse(X1),X0)),
    inference(superposition,[],[f1226,f1542]) ).

fof(f3168,plain,
    ! [X2,X0,X1] : inverse(multiply(X2,multiply(inverse(X0),X1))) = multiply(inverse(X1),multiply(X0,inverse(X2))),
    inference(forward_demodulation,[],[f3092,f3]) ).

fof(f3092,plain,
    ! [X2,X0,X1] : inverse(multiply(X2,multiply(inverse(X0),X1))) = multiply(multiply(inverse(X1),X0),inverse(X2)),
    inference(superposition,[],[f1226,f1542]) ).

fof(f3167,plain,
    ! [X2,X0,X1] : multiply(inverse(X0),X1) = multiply(X2,multiply(inverse(multiply(X0,X2)),X1)),
    inference(forward_demodulation,[],[f3166,f1542]) ).

fof(f3166,plain,
    ! [X2,X0,X1] : multiply(inverse(X0),X1) = multiply(X2,inverse(multiply(inverse(X1),multiply(X0,X2)))),
    inference(forward_demodulation,[],[f3091,f3]) ).

fof(f3091,plain,
    ! [X2,X0,X1] : multiply(inverse(X0),X1) = multiply(X2,inverse(multiply(multiply(inverse(X1),X0),X2))),
    inference(superposition,[],[f1176,f1542]) ).

fof(f3165,plain,
    ! [X2,X0,X1] : multiply(multiply(inverse(X0),X1),multiply(inverse(X1),multiply(X0,X2))) = X2,
    inference(forward_demodulation,[],[f3089,f3]) ).

fof(f3089,plain,
    ! [X2,X0,X1] : multiply(multiply(inverse(X0),X1),multiply(multiply(inverse(X1),X0),X2)) = X2,
    inference(superposition,[],[f788,f1542]) ).

fof(f3088,plain,
    ! [X0,X1] : identity = multiply(multiply(inverse(X0),X1),multiply(inverse(X1),X0)),
    inference(superposition,[],[f785,f1542]) ).

fof(f3164,plain,
    ! [X0,X1] : identity = multiply(multiply(inverse(X1),X0),multiply(inverse(X0),X1)),
    inference(forward_demodulation,[],[f3087,f807]) ).

fof(f3087,plain,
    ! [X0,X1] : identity = multiply(inverse(inverse(multiply(inverse(X1),X0))),multiply(inverse(X0),X1)),
    inference(superposition,[],[f698,f1542]) ).

fof(f3162,plain,
    ! [X2,X0,X1] : multiply(multiply(inverse(X1),X0),multiply(inverse(X0),multiply(X1,X2))) = X2,
    inference(forward_demodulation,[],[f3084,f3]) ).

fof(f3084,plain,
    ! [X2,X0,X1] : multiply(multiply(inverse(X1),X0),multiply(multiply(inverse(X0),X1),X2)) = X2,
    inference(superposition,[],[f77,f1542]) ).

fof(f3083,plain,
    ! [X0,X1] : identity = multiply(multiply(inverse(X1),X0),multiply(inverse(X0),X1)),
    inference(superposition,[],[f2,f1542]) ).

fof(f3101,plain,
    ! [X2,X0,X1] : multiply(inverse(X2),multiply(inverse(X0),X1)) = multiply(inverse(multiply(X0,X2)),X1),
    inference(forward_demodulation,[],[f3100,f1542]) ).

fof(f3100,plain,
    ! [X2,X0,X1] : multiply(inverse(X2),multiply(inverse(X0),X1)) = inverse(multiply(inverse(X1),multiply(X0,X2))),
    inference(forward_demodulation,[],[f3046,f3]) ).

fof(f3046,plain,
    ! [X2,X0,X1] : multiply(inverse(X2),multiply(inverse(X0),X1)) = inverse(multiply(multiply(inverse(X1),X0),X2)),
    inference(superposition,[],[f1542,f1542]) ).

fof(f3099,plain,
    ! [X2,X0,X1] : inverse(multiply(X1,multiply(inverse(X0),X2))) = multiply(inverse(X2),multiply(X0,inverse(X1))),
    inference(forward_demodulation,[],[f3045,f3]) ).

fof(f3045,plain,
    ! [X2,X0,X1] : inverse(multiply(multiply(X1,inverse(X0)),X2)) = multiply(inverse(X2),multiply(X0,inverse(X1))),
    inference(superposition,[],[f1542,f1229]) ).

fof(f1542,plain,
    ! [X0,X1] : multiply(inverse(X0),X1) = inverse(multiply(inverse(X1),X0)),
    inference(superposition,[],[f77,f1176]) ).

fof(f2974,plain,
    ! [X2,X0,X1] : multiply(X0,inverse(X1)) = multiply(inverse(multiply(X2,multiply(X1,inverse(X0)))),X2),
    inference(superposition,[],[f1577,f1229]) ).

fof(f2973,plain,
    ! [X2,X0,X1] : multiply(multiply(X2,multiply(X1,inverse(X0))),multiply(X0,inverse(X1))) = X2,
    inference(superposition,[],[f1356,f1229]) ).

fof(f2972,plain,
    ! [X2,X0,X1] : multiply(multiply(X2,multiply(X0,inverse(X1))),multiply(X1,inverse(X0))) = X2,
    inference(superposition,[],[f1265,f1229]) ).

fof(f3042,plain,
    ! [X2,X0,X1] : multiply(inverse(X2),multiply(X1,inverse(X0))) = inverse(multiply(X0,multiply(inverse(X1),X2))),
    inference(forward_demodulation,[],[f2971,f3]) ).

fof(f2971,plain,
    ! [X2,X0,X1] : inverse(multiply(multiply(X0,inverse(X1)),X2)) = multiply(inverse(X2),multiply(X1,inverse(X0))),
    inference(superposition,[],[f1226,f1229]) ).

fof(f3041,plain,
    ! [X2,X0,X1] : inverse(multiply(X2,multiply(X0,inverse(X1)))) = multiply(X1,inverse(multiply(X2,X0))),
    inference(forward_demodulation,[],[f3040,f1226]) ).

fof(f3040,plain,
    ! [X2,X0,X1] : inverse(multiply(X2,multiply(X0,inverse(X1)))) = multiply(X1,multiply(inverse(X0),inverse(X2))),
    inference(forward_demodulation,[],[f2970,f3]) ).

fof(f2970,plain,
    ! [X2,X0,X1] : inverse(multiply(X2,multiply(X0,inverse(X1)))) = multiply(multiply(X1,inverse(X0)),inverse(X2)),
    inference(superposition,[],[f1226,f1229]) ).

fof(f3039,plain,
    ! [X2,X0,X1] : multiply(X0,inverse(X1)) = multiply(X2,inverse(multiply(X1,multiply(inverse(X0),X2)))),
    inference(forward_demodulation,[],[f2969,f3]) ).

fof(f2969,plain,
    ! [X2,X0,X1] : multiply(X0,inverse(X1)) = multiply(X2,inverse(multiply(multiply(X1,inverse(X0)),X2))),
    inference(superposition,[],[f1176,f1229]) ).

fof(f3038,plain,
    ! [X2,X0,X1] : multiply(multiply(X0,inverse(X1)),multiply(X1,multiply(inverse(X0),X2))) = X2,
    inference(forward_demodulation,[],[f2967,f3]) ).

fof(f2967,plain,
    ! [X2,X0,X1] : multiply(multiply(X0,inverse(X1)),multiply(multiply(X1,inverse(X0)),X2)) = X2,
    inference(superposition,[],[f788,f1229]) ).

fof(f2966,plain,
    ! [X0,X1] : identity = multiply(multiply(X0,inverse(X1)),multiply(X1,inverse(X0))),
    inference(superposition,[],[f785,f1229]) ).

fof(f3037,plain,
    ! [X0,X1] : identity = multiply(multiply(X1,inverse(X0)),multiply(X0,inverse(X1))),
    inference(forward_demodulation,[],[f2965,f807]) ).

fof(f2965,plain,
    ! [X0,X1] : identity = multiply(inverse(inverse(multiply(X1,inverse(X0)))),multiply(X0,inverse(X1))),
    inference(superposition,[],[f698,f1229]) ).

fof(f3035,plain,
    ! [X2,X0,X1] : multiply(multiply(X1,inverse(X0)),multiply(X0,multiply(inverse(X1),X2))) = X2,
    inference(forward_demodulation,[],[f2962,f3]) ).

fof(f2962,plain,
    ! [X2,X0,X1] : multiply(multiply(X1,inverse(X0)),multiply(multiply(X0,inverse(X1)),X2)) = X2,
    inference(superposition,[],[f77,f1229]) ).

fof(f2961,plain,
    ! [X0,X1] : identity = multiply(multiply(X1,inverse(X0)),multiply(X0,inverse(X1))),
    inference(superposition,[],[f2,f1229]) ).

fof(f2955,plain,
    ! [X2,X0,X1] : inverse(multiply(X0,multiply(X1,inverse(X2)))) = multiply(X2,inverse(multiply(X0,X1))),
    inference(superposition,[],[f1229,f3]) ).

fof(f2977,plain,
    ! [X2,X0,X1] : inverse(multiply(X2,multiply(X1,inverse(X0)))) = multiply(X0,inverse(multiply(X2,X1))),
    inference(forward_demodulation,[],[f2976,f1226]) ).

fof(f2976,plain,
    ! [X2,X0,X1] : inverse(multiply(X2,multiply(X1,inverse(X0)))) = multiply(X0,multiply(inverse(X1),inverse(X2))),
    inference(forward_demodulation,[],[f2930,f3]) ).

fof(f2930,plain,
    ! [X2,X0,X1] : multiply(multiply(X0,inverse(X1)),inverse(X2)) = inverse(multiply(X2,multiply(X1,inverse(X0)))),
    inference(superposition,[],[f1229,f1229]) ).

fof(f1229,plain,
    ! [X0,X1] : inverse(multiply(X1,inverse(X0))) = multiply(X0,inverse(X1)),
    inference(superposition,[],[f788,f1172]) ).

fof(f2829,plain,
    ! [X2,X0,X1] : multiply(inverse(multiply(X1,X0)),X2) = multiply(inverse(X0),multiply(inverse(X1),X2)),
    inference(superposition,[],[f3,f1226]) ).

fof(f2821,plain,
    ! [X0,X1] : inverse(multiply(X1,inverse(X0))) = multiply(X0,inverse(X1)),
    inference(superposition,[],[f284,f1226]) ).

fof(f2808,plain,
    ! [X0,X1] : inverse(multiply(X1,inverse(X0))) = multiply(X0,inverse(X1)),
    inference(superposition,[],[f1226,f284]) ).

fof(f2790,plain,
    ! [X0,X1] : inverse(multiply(inverse(X0),X1)) = multiply(inverse(X1),X0),
    inference(superposition,[],[f1226,f807]) ).

fof(f2780,plain,
    ! [X0,X1] : inverse(multiply(X1,inverse(X0))) = multiply(X0,inverse(X1)),
    inference(superposition,[],[f1226,f807]) ).

fof(f1226,plain,
    ! [X0,X1] : inverse(multiply(X1,X0)) = multiply(inverse(X0),inverse(X1)),
    inference(superposition,[],[f77,f1172]) ).

fof(f2716,plain,
    ! [X0,X1] : multiply(X1,X0) = inverse(multiply(inverse(X0),inverse(X1))),
    inference(superposition,[],[f1356,f1577]) ).

fof(f2714,plain,
    ! [X2,X0,X1] : multiply(X1,X2) = multiply(inverse(multiply(X0,inverse(X1))),multiply(X0,X2)),
    inference(superposition,[],[f3,f1577]) ).

fof(f2710,plain,
    ! [X0,X1] : multiply(X1,inverse(X0)) = inverse(multiply(X0,inverse(X1))),
    inference(superposition,[],[f1265,f1577]) ).

fof(f2704,plain,
    ! [X2,X0,X1] : multiply(inverse(multiply(X0,multiply(X1,inverse(X2)))),multiply(X0,X1)) = X2,
    inference(superposition,[],[f1577,f3]) ).

fof(f1577,plain,
    ! [X0,X1] : multiply(inverse(multiply(X1,inverse(X0))),X1) = X0,
    inference(forward_demodulation,[],[f1518,f807]) ).

fof(f1518,plain,
    ! [X0,X1] : multiply(inverse(multiply(X1,inverse(X0))),inverse(inverse(X1))) = X0,
    inference(superposition,[],[f1176,f1172]) ).

fof(f2260,plain,
    ! [X0,X1] : inverse(multiply(inverse(X0),X1)) = multiply(inverse(X1),X0),
    inference(superposition,[],[f1356,f1269]) ).

fof(f2258,plain,
    ! [X2,X0,X1] : multiply(inverse(X1),X2) = multiply(inverse(multiply(X0,X1)),multiply(X0,X2)),
    inference(superposition,[],[f3,f1269]) ).

fof(f2254,plain,
    ! [X0,X1] : inverse(multiply(X0,X1)) = multiply(inverse(X1),inverse(X0)),
    inference(superposition,[],[f1265,f1269]) ).

fof(f2234,plain,
    ! [X0,X1] : inverse(multiply(inverse(X0),X1)) = multiply(inverse(X1),X0),
    inference(superposition,[],[f1269,f788]) ).

fof(f2233,plain,
    ! [X0,X1] : inverse(multiply(X0,X1)) = multiply(inverse(X1),inverse(X0)),
    inference(superposition,[],[f1269,f77]) ).

fof(f2222,plain,
    ! [X2,X0,X1] : inverse(X2) = multiply(inverse(multiply(X0,multiply(X1,X2))),multiply(X0,X1)),
    inference(superposition,[],[f1269,f3]) ).

fof(f1269,plain,
    ! [X0,X1] : inverse(X0) = multiply(inverse(multiply(X1,X0)),X1),
    inference(forward_demodulation,[],[f1200,f807]) ).

fof(f1200,plain,
    ! [X0,X1] : inverse(X0) = multiply(inverse(multiply(X1,X0)),inverse(inverse(X1))),
    inference(superposition,[],[f1172,f1172]) ).

fof(f1828,plain,
    ( ! [X0] : multiply(sk_c8,X0) = multiply(sk_c9,multiply(sk_c3,X0))
    | spl0_9 ),
    inference(superposition,[],[f3,f1822]) ).

fof(f1824,plain,
    ( sk_c9 = multiply(sk_c8,inverse(sk_c3))
    | spl0_9 ),
    inference(superposition,[],[f1265,f1822]) ).

fof(f1822,plain,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | spl0_9 ),
    inference(subsumption_resolution,[],[f30,f1785]) ).

fof(f44,axiom,
    ( sk_c7 = inverse(sk_c6)
    | sk_c9 = inverse(sk_c2) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_41) ).

fof(f1107,plain,
    ! [X0,X1] : identity = multiply(X0,multiply(X1,multiply(inverse(multiply(X0,X1)),inverse(identity)))),
    inference(forward_demodulation,[],[f1022,f3]) ).

fof(f1022,plain,
    ! [X0,X1] : identity = multiply(X0,multiply(multiply(X1,inverse(multiply(X0,X1))),inverse(identity))),
    inference(superposition,[],[f897,f897]) ).

fof(f1023,plain,
    ! [X0] : identity = multiply(X0,multiply(inverse(X0),inverse(identity))),
    inference(superposition,[],[f897,f785]) ).

fof(f1035,plain,
    ! [X0] : identity = multiply(X0,inverse(multiply(X0,inverse(identity)))),
    inference(superposition,[],[f897,f273]) ).

fof(f1524,plain,
    ! [X0] : inverse(multiply(inverse(X0),inverse(identity))) = X0,
    inference(superposition,[],[f1176,f273]) ).

fof(f1533,plain,
    ! [X0] : inverse(multiply(inverse(X0),inverse(identity))) = X0,
    inference(superposition,[],[f273,f1176]) ).

fof(f1546,plain,
    ! [X2,X0,X1] : multiply(X0,multiply(X1,inverse(multiply(inverse(X2),multiply(X0,X1))))) = X2,
    inference(superposition,[],[f3,f1176]) ).

fof(f1545,plain,
    ! [X0,X1] : multiply(X0,X1) = inverse(multiply(inverse(X1),inverse(X0))),
    inference(superposition,[],[f788,f1176]) ).

fof(f1543,plain,
    ! [X2,X0,X1] : multiply(X1,X2) = multiply(X0,multiply(inverse(multiply(inverse(X1),X0)),X2)),
    inference(superposition,[],[f3,f1176]) ).

fof(f1541,plain,
    ! [X0,X1] : identity = multiply(X0,multiply(inverse(multiply(inverse(X1),X0)),inverse(X1))),
    inference(superposition,[],[f897,f1176]) ).

fof(f1540,plain,
    ! [X0,X1] : inverse(X0) = multiply(inverse(multiply(inverse(X1),X0)),inverse(X1)),
    inference(superposition,[],[f1172,f1176]) ).

fof(f1528,plain,
    ! [X2,X0,X1] : multiply(X0,multiply(X1,inverse(multiply(inverse(X2),multiply(X0,X1))))) = X2,
    inference(superposition,[],[f1176,f3]) ).

fof(f1519,plain,
    ! [X0,X1] : multiply(inverse(multiply(inverse(X1),inverse(X0))),inverse(X1)) = X0,
    inference(superposition,[],[f1176,f1176]) ).

fof(f1176,plain,
    ! [X0,X1] : multiply(X1,inverse(multiply(inverse(X0),X1))) = X0,
    inference(forward_demodulation,[],[f1066,f787]) ).

fof(f1066,plain,
    ! [X0,X1] : multiply(X0,identity) = multiply(X1,inverse(multiply(inverse(X0),X1))),
    inference(superposition,[],[f788,f897]) ).

fof(f1462,plain,
    ! [X2,X0,X1] : multiply(X0,X2) = multiply(multiply(X0,inverse(X1)),multiply(X1,X2)),
    inference(superposition,[],[f3,f1356]) ).

fof(f1461,plain,
    ! [X0,X1] : multiply(inverse(multiply(X0,inverse(X1))),X0) = X1,
    inference(superposition,[],[f77,f1356]) ).

fof(f1460,plain,
    ! [X0,X1] : identity = multiply(multiply(X0,inverse(X1)),multiply(X1,inverse(X0))),
    inference(superposition,[],[f897,f1356]) ).

fof(f1459,plain,
    ! [X0,X1] : multiply(X1,inverse(X0)) = inverse(multiply(X0,inverse(X1))),
    inference(superposition,[],[f1172,f1356]) ).

fof(f1456,plain,
    ! [X2,X0,X1] : multiply(X0,X1) = multiply(multiply(X0,multiply(X1,inverse(X2))),X2),
    inference(superposition,[],[f1356,f3]) ).

fof(f1356,plain,
    ! [X0,X1] : multiply(multiply(X1,inverse(X0)),X0) = X1,
    inference(superposition,[],[f1265,f807]) ).

fof(f1366,plain,
    ! [X2,X0,X1] : multiply(multiply(X0,X1),multiply(inverse(X1),X2)) = multiply(X0,X2),
    inference(superposition,[],[f3,f1265]) ).

fof(f1365,plain,
    ! [X0,X1] : inverse(X1) = multiply(inverse(multiply(X0,X1)),X0),
    inference(superposition,[],[f77,f1265]) ).

fof(f1364,plain,
    ! [X0,X1] : identity = multiply(multiply(X0,X1),multiply(inverse(X1),inverse(X0))),
    inference(superposition,[],[f897,f1265]) ).

fof(f1363,plain,
    ! [X0,X1] : inverse(multiply(X0,X1)) = multiply(inverse(X1),inverse(X0)),
    inference(superposition,[],[f1172,f1265]) ).

fof(f1340,plain,
    ! [X0,X1] : multiply(X1,inverse(multiply(inverse(X0),X1))) = X0,
    inference(superposition,[],[f1265,f788]) ).

fof(f1328,plain,
    ! [X2,X0,X1] : multiply(X0,X1) = multiply(multiply(X0,multiply(X1,X2)),inverse(X2)),
    inference(superposition,[],[f1265,f3]) ).

fof(f1265,plain,
    ! [X0,X1] : multiply(multiply(X0,X1),inverse(X1)) = X0,
    inference(forward_demodulation,[],[f1196,f807]) ).

fof(f1196,plain,
    ! [X0,X1] : inverse(inverse(X0)) = multiply(multiply(X0,X1),inverse(X1)),
    inference(superposition,[],[f1172,f77]) ).

fof(f1230,plain,
    ! [X2,X0,X1] : inverse(X2) = multiply(X0,multiply(X1,inverse(multiply(X2,multiply(X0,X1))))),
    inference(superposition,[],[f3,f1172]) ).

fof(f1227,plain,
    ! [X2,X0,X1] : multiply(X0,multiply(inverse(multiply(X1,X0)),X2)) = multiply(inverse(X1),X2),
    inference(superposition,[],[f3,f1172]) ).

fof(f1319,plain,
    ! [X0,X1] : identity = multiply(X0,multiply(inverse(multiply(X1,X0)),X1)),
    inference(forward_demodulation,[],[f1225,f807]) ).

fof(f1225,plain,
    ! [X0,X1] : identity = multiply(X0,multiply(inverse(multiply(X1,X0)),inverse(inverse(X1)))),
    inference(superposition,[],[f897,f1172]) ).

fof(f1216,plain,
    ! [X2,X0,X1] : inverse(X2) = multiply(X0,multiply(X1,inverse(multiply(X2,multiply(X0,X1))))),
    inference(superposition,[],[f1172,f3]) ).

fof(f1197,plain,
    ! [X0,X1] : inverse(X0) = multiply(multiply(inverse(X0),X1),inverse(X1)),
    inference(superposition,[],[f1172,f788]) ).

fof(f1185,plain,
    ! [X2,X0,X1] : inverse(multiply(X0,X1)) = multiply(X2,inverse(multiply(X0,multiply(X1,X2)))),
    inference(superposition,[],[f1172,f3]) ).

fof(f1172,plain,
    ! [X0,X1] : inverse(X0) = multiply(X1,inverse(multiply(X0,X1))),
    inference(forward_demodulation,[],[f1063,f787]) ).

fof(f1063,plain,
    ! [X0,X1] : multiply(inverse(X0),identity) = multiply(X1,inverse(multiply(X0,X1))),
    inference(superposition,[],[f77,f897]) ).

fof(f1177,plain,
    ! [X2,X0,X1] : identity = multiply(X0,multiply(X1,multiply(X2,inverse(multiply(X0,multiply(X1,X2)))))),
    inference(forward_demodulation,[],[f1067,f3]) ).

fof(f1067,plain,
    ! [X2,X0,X1] : identity = multiply(X0,multiply(X1,multiply(X2,inverse(multiply(multiply(X0,X1),X2))))),
    inference(superposition,[],[f3,f897]) ).

fof(f1174,plain,
    ! [X2,X0,X1] : multiply(X0,multiply(X1,multiply(inverse(multiply(X0,X1)),X2))) = X2,
    inference(forward_demodulation,[],[f1173,f3]) ).

fof(f1173,plain,
    ! [X2,X0,X1] : multiply(X0,multiply(multiply(X1,inverse(multiply(X0,X1))),X2)) = X2,
    inference(forward_demodulation,[],[f1064,f1]) ).

fof(f1064,plain,
    ! [X2,X0,X1] : multiply(X0,multiply(multiply(X1,inverse(multiply(X0,X1))),X2)) = multiply(identity,X2),
    inference(superposition,[],[f3,f897]) ).

fof(f1148,plain,
    ! [X2,X0,X1] : identity = multiply(X0,multiply(X1,multiply(X2,inverse(multiply(X0,multiply(X1,X2)))))),
    inference(forward_demodulation,[],[f1050,f3]) ).

fof(f1050,plain,
    ! [X2,X0,X1] : identity = multiply(X0,multiply(X1,multiply(X2,inverse(multiply(multiply(X0,X1),X2))))),
    inference(superposition,[],[f897,f3]) ).

fof(f1039,plain,
    ! [X2,X0,X1] : identity = multiply(X2,multiply(X0,multiply(X1,inverse(multiply(X2,multiply(X0,X1)))))),
    inference(superposition,[],[f897,f3]) ).

fof(f1009,plain,
    ! [X2,X0,X1] : identity = multiply(multiply(X0,X1),multiply(X2,inverse(multiply(X0,multiply(X1,X2))))),
    inference(superposition,[],[f897,f3]) ).

fof(f897,plain,
    ! [X0,X1] : identity = multiply(X0,multiply(X1,inverse(multiply(X0,X1)))),
    inference(superposition,[],[f785,f3]) ).

fof(f969,plain,
    ! [X2,X0,X1] : multiply(X0,multiply(X1,multiply(inverse(multiply(X0,X1)),X2))) = X2,
    inference(superposition,[],[f3,f788]) ).

fof(f959,plain,
    ! [X2,X0,X1] : multiply(X0,multiply(X1,multiply(inverse(multiply(X0,X1)),X2))) = X2,
    inference(superposition,[],[f788,f3]) ).

fof(f788,plain,
    ! [X0,X1] : multiply(X0,multiply(inverse(X0),X1)) = X1,
    inference(superposition,[],[f284,f77]) ).

fof(f908,plain,
    ! [X0,X1] : identity = multiply(X0,multiply(X1,inverse(multiply(X0,X1)))),
    inference(superposition,[],[f3,f785]) ).

fof(f932,plain,
    ! [X0,X1] : multiply(X0,multiply(inverse(X0),X1)) = X1,
    inference(forward_demodulation,[],[f906,f1]) ).

fof(f906,plain,
    ! [X0,X1] : multiply(identity,X1) = multiply(X0,multiply(inverse(X0),X1)),
    inference(superposition,[],[f3,f785]) ).

fof(f785,plain,
    ! [X0] : identity = multiply(X0,inverse(X0)),
    inference(superposition,[],[f284,f2]) ).

fof(f879,plain,
    ! [X0] : identity = multiply(X0,inverse(X0)),
    inference(superposition,[],[f2,f807]) ).

fof(f878,plain,
    ! [X0,X1] : multiply(X0,multiply(inverse(X0),X1)) = X1,
    inference(superposition,[],[f77,f807]) ).

fof(f807,plain,
    ! [X0] : inverse(inverse(X0)) = X0,
    inference(superposition,[],[f787,f274]) ).

fof(f843,plain,
    ! [X0] : inverse(inverse(X0)) = X0,
    inference(forward_demodulation,[],[f830,f787]) ).

fof(f830,plain,
    ! [X0] : inverse(inverse(X0)) = multiply(X0,identity),
    inference(superposition,[],[f284,f787]) ).

fof(f818,plain,
    ! [X0] : inverse(inverse(X0)) = X0,
    inference(superposition,[],[f274,f787]) ).

fof(f837,plain,
    ! [X0] : inverse(inverse(X0)) = X0,
    inference(forward_demodulation,[],[f814,f787]) ).

fof(f814,plain,
    ! [X0] : inverse(inverse(X0)) = multiply(X0,identity),
    inference(superposition,[],[f787,f284]) ).

fof(f787,plain,
    ! [X0] : multiply(X0,identity) = X0,
    inference(superposition,[],[f284,f274]) ).

fof(f796,plain,
    ! [X0,X1] : multiply(X0,multiply(inverse(X0),X1)) = X1,
    inference(superposition,[],[f77,f284]) ).

fof(f795,plain,
    ! [X0] : multiply(X0,identity) = X0,
    inference(superposition,[],[f274,f284]) ).

fof(f792,plain,
    ! [X0,X1] : multiply(inverse(inverse(inverse(X0))),multiply(X0,X1)) = X1,
    inference(superposition,[],[f77,f284]) ).

fof(f791,plain,
    ! [X0] : identity = multiply(X0,inverse(X0)),
    inference(superposition,[],[f2,f284]) ).

fof(f284,plain,
    ! [X0,X1] : multiply(X0,X1) = multiply(inverse(inverse(X0)),X1),
    inference(superposition,[],[f77,f77]) ).

fof(f777,plain,
    ! [X0,X1] : multiply(inverse(inverse(inverse(X0))),multiply(X0,X1)) = X1,
    inference(forward_demodulation,[],[f762,f1]) ).

fof(f762,plain,
    ! [X0,X1] : multiply(identity,X1) = multiply(inverse(inverse(inverse(X0))),multiply(X0,X1)),
    inference(superposition,[],[f3,f698]) ).

fof(f761,plain,
    ! [X0] : multiply(inverse(inverse(inverse(inverse(X0)))),identity) = X0,
    inference(superposition,[],[f77,f698]) ).

fof(f698,plain,
    ! [X0] : identity = multiply(inverse(inverse(inverse(X0))),X0),
    inference(superposition,[],[f77,f274]) ).

fof(f706,plain,
    ! [X0,X1] : multiply(X0,X1) = multiply(inverse(inverse(X0)),X1),
    inference(forward_demodulation,[],[f699,f1]) ).

fof(f699,plain,
    ! [X0,X1] : multiply(X0,X1) = multiply(inverse(inverse(X0)),multiply(identity,X1)),
    inference(superposition,[],[f3,f274]) ).

fof(f274,plain,
    ! [X0] : multiply(inverse(inverse(X0)),identity) = X0,
    inference(superposition,[],[f77,f2]) ).

fof(f14,axiom,
    ( sk_c8 = inverse(sk_c5)
    | sk_c9 = inverse(sk_c1) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_11) ).

fof(f419,plain,
    ! [X0] : multiply(inverse(inverse(identity)),X0) = X0,
    inference(superposition,[],[f77,f273]) ).

fof(f273,plain,
    ! [X0] : multiply(inverse(identity),X0) = X0,
    inference(superposition,[],[f77,f1]) ).

fof(f7,axiom,
    ( sk_c8 = inverse(sk_c5)
    | inverse(sk_c9) = sk_c8 ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_4) ).

fof(f9,axiom,
    ( sk_c7 = inverse(sk_c6)
    | inverse(sk_c9) = sk_c8 ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_6) ).

fof(f5,axiom,
    ( inverse(sk_c9) = sk_c8
    | sk_c9 = multiply(sk_c4,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_2) ).

fof(f6,axiom,
    ( inverse(sk_c9) = sk_c8
    | sk_c9 = multiply(sk_c5,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_3) ).

fof(f8,axiom,
    ( inverse(sk_c9) = sk_c8
    | sk_c8 = multiply(sk_c6,sk_c7) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_5) ).

fof(f10,axiom,
    ( inverse(sk_c9) = sk_c8
    | sk_c8 = multiply(sk_c7,sk_c9) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_7) ).

fof(f15,axiom,
    ( sk_c9 = inverse(sk_c1)
    | sk_c8 = multiply(sk_c6,sk_c7) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_12) ).

fof(f23,axiom,
    ( sk_c7 = inverse(sk_c6)
    | sk_c9 = multiply(sk_c1,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_20) ).

fof(f22,axiom,
    ( sk_c8 = multiply(sk_c6,sk_c7)
    | sk_c9 = multiply(sk_c1,sk_c8) ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_19) ).

fof(f48,plain,
    ! [X3,X8,X6,X7,X5] :
      ( sk_c8 != inverse(X7)
      | sk_c9 != inverse(X3)
      | sk_c9 != inverse(X5)
      | sk_c9 != inverse(X6)
      | inverse(sk_c9) != sk_c8
      | sk_c8 != multiply(inverse(X8),sk_c9)
      | sk_c8 != multiply(sk_c9,multiply(X5,sk_c9))
      | sk_c8 != multiply(X8,inverse(X8))
      | sk_c9 != multiply(X3,sk_c8)
      | sk_c9 != multiply(X6,sk_c8)
      | sk_c9 != multiply(X7,sk_c8) ),
    inference(equality_resolution,[],[f47]) ).

fof(f47,plain,
    ! [X3,X8,X6,X7,X4,X5] :
      ( sk_c8 != inverse(X7)
      | sk_c9 != inverse(X3)
      | sk_c9 != inverse(X5)
      | sk_c9 != inverse(X6)
      | inverse(sk_c9) != sk_c8
      | sk_c8 != multiply(inverse(X8),sk_c9)
      | sk_c8 != multiply(sk_c9,X4)
      | sk_c8 != multiply(X8,inverse(X8))
      | sk_c9 != multiply(X3,sk_c8)
      | sk_c9 != multiply(X6,sk_c8)
      | sk_c9 != multiply(X7,sk_c8)
      | multiply(X5,sk_c9) != X4 ),
    inference(equality_resolution,[],[f46]) ).

fof(f46,axiom,
    ! [X3,X8,X6,X9,X7,X4,X5] :
      ( sk_c8 != inverse(X7)
      | sk_c9 != inverse(X3)
      | sk_c9 != inverse(X5)
      | sk_c9 != inverse(X6)
      | inverse(sk_c9) != sk_c8
      | inverse(X8) != X9
      | sk_c8 != multiply(X9,sk_c9)
      | sk_c8 != multiply(sk_c9,X4)
      | sk_c8 != multiply(X8,X9)
      | sk_c9 != multiply(X3,sk_c8)
      | sk_c9 != multiply(X6,sk_c8)
      | sk_c9 != multiply(X7,sk_c8)
      | multiply(X5,sk_c9) != X4 ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_43) ).

fof(f276,plain,
    ! [X2,X0,X1] : multiply(inverse(multiply(X0,X1)),multiply(X0,multiply(X1,X2))) = X2,
    inference(superposition,[],[f77,f3]) ).

fof(f77,plain,
    ! [X0,X1] : multiply(inverse(X0),multiply(X0,X1)) = X1,
    inference(forward_demodulation,[],[f68,f1]) ).

fof(f68,plain,
    ! [X0,X1] : multiply(inverse(X0),multiply(X0,X1)) = multiply(identity,X1),
    inference(superposition,[],[f3,f2]) ).

fof(f3,axiom,
    ! [X2,X0,X1] : multiply(multiply(X0,X1),X2) = multiply(X0,multiply(X1,X2)),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',associativity) ).

fof(f4,axiom,
    ( sk_c9 = inverse(sk_c4)
    | inverse(sk_c9) = sk_c8 ),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',prove_this_1) ).

fof(f2,axiom,
    ! [X0] : identity = multiply(inverse(X0),X0),
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',left_inverse) ).

fof(f1,axiom,
    ! [X0] : multiply(identity,X0) = X0,
    file('/export/starexec/sandbox2/benchmark/theBenchmark.p',left_identity) ).

fof(f4621,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(avatar_contradiction_clause,[],[f4620]) ).

fof(f4620,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(global_subsumption,[],[f1932,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1822,f1824,f1828,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f26,f1785,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f424,f12,f4517,f13,f4518,f17,f4520,f11,f4521,f19,f24,f20,f21,f39,f18,f16]) ).

fof(f1932,plain,
    ( sk_c9 = sk_c4
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f1917,f274]) ).

fof(f1917,plain,
    ( sk_c4 = multiply(inverse(inverse(sk_c9)),identity)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8
    | spl0_9 ),
    inference(superposition,[],[f390,f1909]) ).

fof(f1909,plain,
    ( sk_c9 = sk_c8
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f1908,f411]) ).

fof(f411,plain,
    ( sk_c9 = multiply(sk_c9,identity)
    | ~ spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f398,f379]) ).

fof(f379,plain,
    ( identity = multiply(sk_c8,sk_c9)
    | ~ spl0_1 ),
    inference(superposition,[],[f2,f52]) ).

fof(f52,plain,
    ( inverse(sk_c9) = sk_c8
    | ~ spl0_1 ),
    inference(avatar_component_clause,[],[f50]) ).

fof(f50,plain,
    ( spl0_1
  <=> inverse(sk_c9) = sk_c8 ),
    introduced(avatar_definition,[new_symbols(naming,[spl0_1])]) ).

fof(f398,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c8,X0)) = X0
    | ~ spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f80,f386]) ).

fof(f386,plain,
    ( ! [X0] : multiply(sk_c8,X0) = multiply(sk_c4,X0)
    | ~ spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f385,f1]) ).

fof(f385,plain,
    ( ! [X0] : multiply(sk_c4,X0) = multiply(sk_c8,multiply(identity,X0))
    | ~ spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f3,f383]) ).

fof(f383,plain,
    ( sk_c4 = multiply(sk_c8,identity)
    | ~ spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f293,f52]) ).

fof(f293,plain,
    ( sk_c4 = multiply(inverse(sk_c9),identity)
    | ~ spl0_2 ),
    inference(superposition,[],[f77,f58]) ).

fof(f58,plain,
    ( identity = multiply(sk_c9,sk_c4)
    | ~ spl0_2 ),
    inference(superposition,[],[f2,f56]) ).

fof(f56,plain,
    ( sk_c9 = inverse(sk_c4)
    | ~ spl0_2 ),
    inference(avatar_component_clause,[],[f54]) ).

fof(f54,plain,
    ( spl0_2
  <=> sk_c9 = inverse(sk_c4) ),
    introduced(avatar_definition,[new_symbols(naming,[spl0_2])]) ).

fof(f80,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c4,X0)) = X0
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f73,f1]) ).

fof(f73,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c9,multiply(sk_c4,X0))
    | ~ spl0_2 ),
    inference(superposition,[],[f3,f58]) ).

fof(f1908,plain,
    ( sk_c8 = multiply(sk_c9,identity)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8
    | spl0_9 ),
    inference(superposition,[],[f1822,f1905]) ).

fof(f1905,plain,
    ( identity = sk_c3
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f1904,f379]) ).

fof(f1904,plain,
    ( sk_c3 = multiply(sk_c8,sk_c9)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f1903,f1801]) ).

fof(f1801,plain,
    ( sk_c8 = sk_c2
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8 ),
    inference(forward_demodulation,[],[f1800,f475]) ).

fof(f475,plain,
    ( sk_c8 = sk_c4
    | ~ spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f470,f383]) ).

fof(f470,plain,
    ( sk_c8 = multiply(sk_c8,identity)
    | ~ spl0_1 ),
    inference(superposition,[],[f378,f459]) ).

fof(f459,plain,
    ( identity = multiply(sk_c9,sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f389,f2]) ).

fof(f389,plain,
    ( ! [X0] : multiply(sk_c9,X0) = multiply(inverse(sk_c8),X0)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f388,f1]) ).

fof(f388,plain,
    ( ! [X0] : multiply(sk_c9,X0) = multiply(inverse(sk_c8),multiply(identity,X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f3,f380]) ).

fof(f380,plain,
    ( sk_c9 = multiply(inverse(sk_c8),identity)
    | ~ spl0_1 ),
    inference(superposition,[],[f77,f379]) ).

fof(f378,plain,
    ( ! [X0] : multiply(sk_c8,multiply(sk_c9,X0)) = X0
    | ~ spl0_1 ),
    inference(superposition,[],[f77,f52]) ).

fof(f1800,plain,
    ( sk_c4 = sk_c2
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8 ),
    inference(forward_demodulation,[],[f1799,f383]) ).

fof(f1799,plain,
    ( sk_c2 = multiply(sk_c8,identity)
    | ~ spl0_1
    | ~ spl0_8 ),
    inference(forward_demodulation,[],[f1790,f52]) ).

fof(f1790,plain,
    ( sk_c2 = multiply(inverse(sk_c9),identity)
    | ~ spl0_8 ),
    inference(superposition,[],[f274,f1782]) ).

fof(f1782,plain,
    ( sk_c9 = inverse(sk_c2)
    | ~ spl0_8 ),
    inference(avatar_component_clause,[],[f1780]) ).

fof(f1780,plain,
    ( spl0_8
  <=> sk_c9 = inverse(sk_c2) ),
    introduced(avatar_definition,[new_symbols(naming,[spl0_8])]) ).

fof(f1903,plain,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | spl0_9 ),
    inference(subsumption_resolution,[],[f37,f1785]) ).

fof(f390,plain,
    ( sk_c4 = multiply(inverse(inverse(sk_c8)),identity)
    | ~ spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f77,f384]) ).

fof(f384,plain,
    ( identity = multiply(inverse(sk_c8),sk_c4)
    | ~ spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f77,f383]) ).

fof(f4619,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(avatar_contradiction_clause,[],[f4618]) ).

fof(f4618,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(global_subsumption,[],[f1927,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1822,f1824,f1828,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f26,f1785,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f424,f12,f4517,f13,f4518,f17,f4520,f11,f4521,f19,f24,f20,f21,f39,f18,f16]) ).

fof(f1927,plain,
    ( sk_c9 = sk_c4
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f1913,f411]) ).

fof(f1913,plain,
    ( sk_c4 = multiply(sk_c9,identity)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8
    | spl0_9 ),
    inference(superposition,[],[f383,f1909]) ).

fof(f4617,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(avatar_contradiction_clause,[],[f4616]) ).

fof(f4616,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(global_subsumption,[],[f1921,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1822,f1824,f1828,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f26,f1785,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f424,f12,f4517,f13,f4518,f17,f4520,f11,f4521,f19,f24,f20,f21,f39,f18,f16]) ).

fof(f1921,plain,
    ( sk_c9 = inverse(sk_c9)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8
    | spl0_9 ),
    inference(superposition,[],[f480,f1909]) ).

fof(f480,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f56,f475]) ).

fof(f4615,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4614]) ).

fof(f4614,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(global_subsumption,[],[f4613,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1822,f1824,f1828,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f26,f1785,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f424,f12,f4517,f13,f4518,f17,f4520,f11,f4521,f19,f24,f20,f21,f39,f18,f16]) ).

fof(f4613,plain,
    ( sk_c9 = multiply(sk_c1,sk_c9)
    | sk_c9 = multiply(sk_c6,sk_c7)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(forward_demodulation,[],[f4612,f3295]) ).

fof(f3295,plain,
    ( sk_c9 = sk_c8
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(forward_demodulation,[],[f3294,f411]) ).

fof(f3294,plain,
    ( sk_c8 = multiply(sk_c9,identity)
    | ~ spl0_1
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(forward_demodulation,[],[f3293,f2413]) ).

fof(f2413,plain,
    ( identity = sk_c3
    | ~ spl0_10 ),
    inference(avatar_component_clause,[],[f2411]) ).

fof(f2411,plain,
    ( spl0_10
  <=> identity = sk_c3 ),
    introduced(avatar_definition,[new_symbols(naming,[spl0_10])]) ).

fof(f3293,plain,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | ~ spl0_1
    | ~ spl0_4
    | spl0_11 ),
    inference(subsumption_resolution,[],[f2353,f2416]) ).

fof(f2416,plain,
    ( identity != sk_c9
    | spl0_11 ),
    inference(avatar_component_clause,[],[f2415]) ).

fof(f2415,plain,
    ( spl0_11
  <=> identity = sk_c9 ),
    introduced(avatar_definition,[new_symbols(naming,[spl0_11])]) ).

fof(f2353,plain,
    ( identity = sk_c9
    | sk_c8 = multiply(sk_c9,sk_c3)
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f2352,f459]) ).

fof(f2352,plain,
    ( sk_c9 = multiply(sk_c9,sk_c8)
    | sk_c8 = multiply(sk_c9,sk_c3)
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f27,f1729]) ).

fof(f1729,plain,
    ( sk_c9 = sk_c5
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f1720,f380]) ).

fof(f1720,plain,
    ( sk_c5 = multiply(inverse(sk_c8),identity)
    | ~ spl0_4 ),
    inference(superposition,[],[f274,f429]) ).

fof(f429,plain,
    ( sk_c8 = inverse(sk_c5)
    | ~ spl0_4 ),
    inference(avatar_component_clause,[],[f427]) ).

fof(f427,plain,
    ( spl0_4
  <=> sk_c8 = inverse(sk_c5) ),
    introduced(avatar_definition,[new_symbols(naming,[spl0_4])]) ).

fof(f4612,plain,
    ( sk_c9 = multiply(sk_c6,sk_c7)
    | sk_c9 = multiply(sk_c1,sk_c8)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(forward_demodulation,[],[f22,f3295]) ).

fof(f4611,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4610]) ).

fof(f4610,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(global_subsumption,[],[f4609,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1822,f1824,f1828,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f26,f1785,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f424,f12,f4517,f13,f4518,f17,f4520,f11,f4521,f19,f24,f20,f21,f39,f18,f16]) ).

fof(f4609,plain,
    ( sk_c9 = multiply(sk_c1,sk_c9)
    | sk_c7 = inverse(sk_c6)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(forward_demodulation,[],[f23,f3295]) ).

fof(f4608,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4607]) ).

fof(f4607,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(global_subsumption,[],[f4606,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1822,f1824,f1828,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f26,f1785,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f424,f12,f4517,f13,f4518,f17,f4520,f11,f4521,f19,f24,f20,f21,f39,f18,f16]) ).

fof(f4606,plain,
    ( sk_c9 = multiply(sk_c6,sk_c7)
    | sk_c9 = inverse(sk_c1)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(forward_demodulation,[],[f15,f3295]) ).

fof(f4605,plain,
    ( spl0_3
    | spl0_9 ),
    inference(avatar_contradiction_clause,[],[f4604]) ).

fof(f4604,plain,
    ( $false
    | spl0_3
    | spl0_9 ),
    inference(global_subsumption,[],[f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1822,f1824,f1828,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f26,f1785,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f424,f12,f4517,f13,f4518,f17,f4520,f11,f4521,f19,f24,f20,f21,f39,f18,f16]) ).

fof(f4598,plain,
    ( spl0_3
    | spl0_9
    | ~ spl0_10 ),
    inference(avatar_contradiction_clause,[],[f4597]) ).

fof(f4597,plain,
    ( $false
    | spl0_3
    | spl0_9
    | ~ spl0_10 ),
    inference(global_subsumption,[],[f4596,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1822,f1824,f1828,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f26,f1785,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f424,f12,f4517,f13,f4518,f17,f4520,f11,f4521,f19,f24,f20,f21,f39,f18]) ).

fof(f4596,plain,
    ( identity = multiply(sk_c2,sk_c9)
    | sk_c7 = inverse(sk_c6)
    | ~ spl0_10 ),
    inference(forward_demodulation,[],[f37,f2413]) ).

fof(f4595,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4594]) ).

fof(f4594,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(global_subsumption,[],[f4593,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1822,f1824,f1828,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f26,f1785,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f424,f12,f4517,f13,f4518,f17,f4520,f11,f4521,f19,f24,f20,f21,f39,f18]) ).

fof(f4593,plain,
    ( sk_c9 = multiply(sk_c6,sk_c7)
    | identity = multiply(sk_c2,sk_c9)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(forward_demodulation,[],[f4538,f3295]) ).

fof(f4538,plain,
    ( identity = multiply(sk_c2,sk_c9)
    | sk_c8 = multiply(sk_c6,sk_c7)
    | ~ spl0_10 ),
    inference(forward_demodulation,[],[f36,f2413]) ).

fof(f4592,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | ~ spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4591]) ).

fof(f4591,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | ~ spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(subsumption_resolution,[],[f4583,f2416]) ).

fof(f4583,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | ~ spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(superposition,[],[f3295,f4519]) ).

fof(f4519,plain,
    ( identity = sk_c8
    | spl0_3
    | ~ spl0_9 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f2359,f2360,f2368,f2369,f2381,f2374,f2357,f2362,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3053,f3052,f2937,f2936,f2796,f2795,f2786,f2785,f2688,f2687,f2377,f2365,f2379,f2367,f2375,f2370,f2409,f2395,f2622,f2358,f3190,f3191,f3195,f3196,f2363,f3225,f3214,f3215,f3219,f3220,f2366,f3237,f3238,f3244,f3248,f3249,f3250,f3251,f2378,f3267,f3268,f3274,f3278,f3279,f3280,f3281,f3377,f3380,f3386,f3387,f3228,f3227,f3205,f3204,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2399,f3395,f2385,f3396,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f3414,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f1786,f4154,f4155,f4168,f4158,f4159,f4160,f4161,f4162,f4163,f4164,f4165,f4166,f4167,f2364,f4206,f4207,f4223,f4211,f4212,f4214,f4215,f4216,f4217,f4218,f4219,f4220,f4221,f4152,f4315,f4157,f4333,f4153,f4373,f4374,f4378,f4379,f21,f20,f4498,f24,f19,f17,f424,f12,f4517,f13,f4518,f4504]) ).

fof(f4504,plain,
    ( identity = sk_c8
    | sk_c9 = inverse(sk_c1)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f15,f4157]) ).

fof(f4498,plain,
    ( identity = sk_c8
    | sk_c9 = multiply(sk_c1,sk_c8)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f22,f4157]) ).

fof(f4379,plain,
    ( ! [X0] : sk_c7 = multiply(X0,inverse(multiply(sk_c6,X0)))
    | ~ spl0_9 ),
    inference(superposition,[],[f1265,f4153]) ).

fof(f4378,plain,
    ( ! [X0] : inverse(multiply(sk_c6,X0)) = multiply(inverse(X0),sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f1269,f4153]) ).

fof(f4374,plain,
    ( ! [X0] : multiply(sk_c7,X0) = inverse(multiply(inverse(X0),sk_c6))
    | ~ spl0_9 ),
    inference(superposition,[],[f4153,f1176]) ).

fof(f4373,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c6)) = multiply(sk_c7,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f4153,f1172]) ).

fof(f4153,plain,
    ( ! [X0] : multiply(sk_c7,multiply(sk_c6,X0)) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f77,f1786]) ).

fof(f4333,plain,
    ( ! [X0] : multiply(sk_c6,multiply(sk_c7,X0)) = X0
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f4325,f1]) ).

fof(f4325,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c6,multiply(sk_c7,X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f3,f4157]) ).

fof(f4157,plain,
    ( identity = multiply(sk_c6,sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f785,f1786]) ).

fof(f4315,plain,
    ( ! [X0] : multiply(sk_c7,multiply(sk_c6,X0)) = X0
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f4307,f1]) ).

fof(f4307,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c7,multiply(sk_c6,X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f3,f4152]) ).

fof(f4152,plain,
    ( identity = multiply(sk_c7,sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f2,f1786]) ).

fof(f4221,plain,
    ( ! [X0] : sk_c7 = multiply(inverse(multiply(X0,sk_c6)),X0)
    | ~ spl0_9 ),
    inference(superposition,[],[f1577,f2364]) ).

fof(f4220,plain,
    ( ! [X0] : inverse(multiply(sk_c6,X0)) = multiply(inverse(X0),sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f1542,f2364]) ).

fof(f4219,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c6),sk_c7) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f1356,f2364]) ).

fof(f4218,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c7),sk_c6) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f1265,f2364]) ).

fof(f4217,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c6)) = multiply(sk_c7,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f1229,f2364]) ).

fof(f4216,plain,
    ( ! [X0] : inverse(multiply(sk_c7,X0)) = multiply(inverse(X0),sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f1226,f2364]) ).

fof(f4215,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c7)) = multiply(sk_c6,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f1226,f2364]) ).

fof(f4214,plain,
    ( ! [X0] : sk_c7 = multiply(X0,inverse(multiply(sk_c6,X0)))
    | ~ spl0_9 ),
    inference(superposition,[],[f1176,f2364]) ).

fof(f4212,plain,
    ( ! [X0] : multiply(sk_c7,multiply(sk_c6,X0)) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f788,f2364]) ).

fof(f4211,plain,
    ( identity = multiply(sk_c7,sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f785,f2364]) ).

fof(f4223,plain,
    ( identity = multiply(sk_c6,sk_c7)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f4210,f807]) ).

fof(f4210,plain,
    ( identity = multiply(inverse(inverse(sk_c6)),sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f698,f2364]) ).

fof(f4207,plain,
    ( ! [X0] : multiply(sk_c6,multiply(sk_c7,X0)) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f77,f2364]) ).

fof(f4206,plain,
    ( identity = multiply(sk_c6,sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f2,f2364]) ).

fof(f2364,plain,
    ( sk_c6 = inverse(sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f807,f1786]) ).

fof(f4167,plain,
    ( ! [X0] : sk_c6 = multiply(inverse(multiply(X0,sk_c7)),X0)
    | ~ spl0_9 ),
    inference(superposition,[],[f1577,f1786]) ).

fof(f4166,plain,
    ( ! [X0] : inverse(multiply(sk_c7,X0)) = multiply(inverse(X0),sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f1542,f1786]) ).

fof(f4165,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c7),sk_c6) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f1356,f1786]) ).

fof(f4164,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c6),sk_c7) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f1265,f1786]) ).

fof(f4163,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c7)) = multiply(sk_c6,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f1229,f1786]) ).

fof(f4162,plain,
    ( ! [X0] : inverse(multiply(sk_c6,X0)) = multiply(inverse(X0),sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f1226,f1786]) ).

fof(f4161,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c6)) = multiply(sk_c7,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f1226,f1786]) ).

fof(f4160,plain,
    ( ! [X0] : sk_c6 = multiply(X0,inverse(multiply(sk_c7,X0)))
    | ~ spl0_9 ),
    inference(superposition,[],[f1176,f1786]) ).

fof(f4159,plain,
    ( sk_c6 = inverse(sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f807,f1786]) ).

fof(f4158,plain,
    ( ! [X0] : multiply(sk_c6,multiply(sk_c7,X0)) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f788,f1786]) ).

fof(f4168,plain,
    ( identity = multiply(sk_c7,sk_c6)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f4156,f807]) ).

fof(f4156,plain,
    ( identity = multiply(inverse(inverse(sk_c7)),sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f698,f1786]) ).

fof(f4155,plain,
    ( ! [X0] : multiply(sk_c6,X0) = multiply(inverse(sk_c7),X0)
    | ~ spl0_9 ),
    inference(superposition,[],[f284,f1786]) ).

fof(f4154,plain,
    ( sk_c6 = multiply(inverse(sk_c7),identity)
    | ~ spl0_9 ),
    inference(superposition,[],[f274,f1786]) ).

fof(f1786,plain,
    ( sk_c7 = inverse(sk_c6)
    | ~ spl0_9 ),
    inference(avatar_component_clause,[],[f1784]) ).

fof(f3414,plain,
    ( identity = sk_c8
    | sk_c9 = multiply(sk_c1,sk_c8)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f22,f2362]) ).

fof(f3396,plain,
    ( sk_c6 = multiply(sk_c6,inverse(identity))
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f2384,f2364]) ).

fof(f2384,plain,
    ( inverse(sk_c7) = multiply(sk_c6,inverse(identity))
    | ~ spl0_9 ),
    inference(superposition,[],[f1172,f2357]) ).

fof(f2385,plain,
    ( identity = multiply(sk_c7,multiply(sk_c6,inverse(identity)))
    | ~ spl0_9 ),
    inference(superposition,[],[f897,f2357]) ).

fof(f3395,plain,
    ( sk_c7 = multiply(sk_c7,inverse(identity))
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f2398,f1786]) ).

fof(f2398,plain,
    ( inverse(sk_c6) = multiply(sk_c7,inverse(identity))
    | ~ spl0_9 ),
    inference(superposition,[],[f1172,f2362]) ).

fof(f2399,plain,
    ( identity = multiply(sk_c6,multiply(sk_c7,inverse(identity)))
    | ~ spl0_9 ),
    inference(superposition,[],[f897,f2362]) ).

fof(f3204,plain,
    ( identity = inverse(identity)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f3193,f2357]) ).

fof(f3193,plain,
    ( identity = inverse(multiply(sk_c7,sk_c6))
    | ~ spl0_9 ),
    inference(superposition,[],[f2358,f897]) ).

fof(f3205,plain,
    ( identity = inverse(identity)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f3194,f2357]) ).

fof(f3194,plain,
    ( identity = inverse(multiply(sk_c7,sk_c6))
    | ~ spl0_9 ),
    inference(superposition,[],[f897,f2358]) ).

fof(f3227,plain,
    ( identity = inverse(identity)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f3217,f2362]) ).

fof(f3217,plain,
    ( identity = inverse(multiply(sk_c6,sk_c7))
    | ~ spl0_9 ),
    inference(superposition,[],[f2363,f897]) ).

fof(f3228,plain,
    ( identity = inverse(identity)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f3218,f2362]) ).

fof(f3218,plain,
    ( identity = inverse(multiply(sk_c6,sk_c7))
    | ~ spl0_9 ),
    inference(superposition,[],[f897,f2363]) ).

fof(f3387,plain,
    ( identity = inverse(identity)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f3236,f2362]) ).

fof(f3236,plain,
    ( multiply(sk_c6,sk_c7) = inverse(identity)
    | ~ spl0_9 ),
    inference(superposition,[],[f2366,f273]) ).

fof(f3386,plain,
    ( identity = inverse(identity)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f3266,f2357]) ).

fof(f3266,plain,
    ( multiply(sk_c7,sk_c6) = inverse(identity)
    | ~ spl0_9 ),
    inference(superposition,[],[f2378,f273]) ).

fof(f3380,plain,
    ( identity = sk_c8
    | sk_c9 = inverse(sk_c2)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f43,f2362]) ).

fof(f3377,plain,
    ( identity = sk_c8
    | sk_c3 = multiply(sk_c2,sk_c9)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f36,f2362]) ).

fof(f3281,plain,
    ( ! [X0,X1] : multiply(X0,X1) = multiply(multiply(X0,sk_c7),multiply(sk_c6,X1))
    | ~ spl0_9 ),
    inference(superposition,[],[f3,f2378]) ).

fof(f3280,plain,
    ( ! [X0] : sk_c6 = multiply(inverse(multiply(X0,sk_c7)),X0)
    | ~ spl0_9 ),
    inference(superposition,[],[f77,f2378]) ).

fof(f3279,plain,
    ( ! [X0] : identity = multiply(multiply(X0,sk_c7),multiply(sk_c6,inverse(X0)))
    | ~ spl0_9 ),
    inference(superposition,[],[f897,f2378]) ).

fof(f3278,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c7)) = multiply(sk_c6,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f1172,f2378]) ).

fof(f3274,plain,
    ( ! [X0,X1] : multiply(X0,X1) = multiply(multiply(X0,multiply(X1,sk_c7)),sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f2378,f3]) ).

fof(f3268,plain,
    ( ! [X0] : multiply(X0,sk_c6) = inverse(multiply(sk_c7,inverse(X0)))
    | ~ spl0_9 ),
    inference(superposition,[],[f2378,f1577]) ).

fof(f3267,plain,
    ( ! [X0] : inverse(multiply(sk_c7,X0)) = multiply(inverse(X0),sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f2378,f1269]) ).

fof(f2378,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c7),sk_c6) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f1265,f2364]) ).

fof(f3251,plain,
    ( ! [X0,X1] : multiply(X0,X1) = multiply(multiply(X0,sk_c6),multiply(sk_c7,X1))
    | ~ spl0_9 ),
    inference(superposition,[],[f3,f2366]) ).

fof(f3250,plain,
    ( ! [X0] : sk_c7 = multiply(inverse(multiply(X0,sk_c6)),X0)
    | ~ spl0_9 ),
    inference(superposition,[],[f77,f2366]) ).

fof(f3249,plain,
    ( ! [X0] : identity = multiply(multiply(X0,sk_c6),multiply(sk_c7,inverse(X0)))
    | ~ spl0_9 ),
    inference(superposition,[],[f897,f2366]) ).

fof(f3248,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c6)) = multiply(sk_c7,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f1172,f2366]) ).

fof(f3244,plain,
    ( ! [X0,X1] : multiply(X0,X1) = multiply(multiply(X0,multiply(X1,sk_c6)),sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f2366,f3]) ).

fof(f3238,plain,
    ( ! [X0] : multiply(X0,sk_c7) = inverse(multiply(sk_c6,inverse(X0)))
    | ~ spl0_9 ),
    inference(superposition,[],[f2366,f1577]) ).

fof(f3237,plain,
    ( ! [X0] : inverse(multiply(sk_c6,X0)) = multiply(inverse(X0),sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f2366,f1269]) ).

fof(f2366,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c6),sk_c7) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f1265,f1786]) ).

fof(f3220,plain,
    ( ! [X0] : sk_c6 = multiply(X0,inverse(multiply(sk_c7,X0)))
    | ~ spl0_9 ),
    inference(superposition,[],[f1265,f2363]) ).

fof(f3219,plain,
    ( ! [X0] : inverse(multiply(sk_c7,X0)) = multiply(inverse(X0),sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f1269,f2363]) ).

fof(f3215,plain,
    ( ! [X0] : multiply(sk_c6,X0) = inverse(multiply(inverse(X0),sk_c7))
    | ~ spl0_9 ),
    inference(superposition,[],[f2363,f1176]) ).

fof(f3214,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c7)) = multiply(sk_c6,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f2363,f1172]) ).

fof(f3225,plain,
    ( ! [X0] : sk_c6 = multiply(X0,inverse(multiply(sk_c7,X0)))
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f3212,f787]) ).

fof(f3212,plain,
    ( ! [X0] : multiply(X0,inverse(multiply(sk_c7,X0))) = multiply(sk_c6,identity)
    | ~ spl0_9 ),
    inference(superposition,[],[f2363,f897]) ).

fof(f2363,plain,
    ( ! [X0] : multiply(sk_c6,multiply(sk_c7,X0)) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f788,f1786]) ).

fof(f3196,plain,
    ( ! [X0] : sk_c7 = multiply(X0,inverse(multiply(sk_c6,X0)))
    | ~ spl0_9 ),
    inference(superposition,[],[f1265,f2358]) ).

fof(f3195,plain,
    ( ! [X0] : inverse(multiply(sk_c6,X0)) = multiply(inverse(X0),sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f1269,f2358]) ).

fof(f3191,plain,
    ( ! [X0] : multiply(sk_c7,X0) = inverse(multiply(inverse(X0),sk_c6))
    | ~ spl0_9 ),
    inference(superposition,[],[f2358,f1176]) ).

fof(f3190,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c6)) = multiply(sk_c7,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f2358,f1172]) ).

fof(f2358,plain,
    ( ! [X0] : multiply(sk_c7,multiply(sk_c6,X0)) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f77,f1786]) ).

fof(f2622,plain,
    ( identity = sk_c8
    | sk_c8 = multiply(sk_c9,sk_c3)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f29,f2362]) ).

fof(f2395,plain,
    ( ! [X0] : multiply(sk_c7,multiply(sk_c6,X0)) = X0
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f2387,f1]) ).

fof(f2387,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c7,multiply(sk_c6,X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f3,f2357]) ).

fof(f2409,plain,
    ( ! [X0] : multiply(sk_c6,multiply(sk_c7,X0)) = X0
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f2401,f1]) ).

fof(f2401,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c6,multiply(sk_c7,X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f3,f2362]) ).

fof(f2370,plain,
    ( ! [X0] : multiply(sk_c6,multiply(sk_c7,X0)) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f77,f2364]) ).

fof(f2375,plain,
    ( ! [X0] : multiply(sk_c7,multiply(sk_c6,X0)) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f788,f2364]) ).

fof(f2367,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c7),sk_c6) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f1356,f1786]) ).

fof(f2379,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c6),sk_c7) = X0
    | ~ spl0_9 ),
    inference(superposition,[],[f1356,f2364]) ).

fof(f2365,plain,
    ( ! [X0] : sk_c6 = multiply(X0,inverse(multiply(sk_c7,X0)))
    | ~ spl0_9 ),
    inference(superposition,[],[f1176,f1786]) ).

fof(f2377,plain,
    ( ! [X0] : sk_c7 = multiply(X0,inverse(multiply(sk_c6,X0)))
    | ~ spl0_9 ),
    inference(superposition,[],[f1176,f2364]) ).

fof(f2687,plain,
    ( ! [X0] : sk_c6 = multiply(inverse(multiply(X0,sk_c7)),X0)
    | ~ spl0_9 ),
    inference(superposition,[],[f1577,f1786]) ).

fof(f2688,plain,
    ( ! [X0] : sk_c7 = multiply(inverse(multiply(X0,sk_c6)),X0)
    | ~ spl0_9 ),
    inference(superposition,[],[f1577,f2364]) ).

fof(f2785,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c6)) = multiply(sk_c7,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f1226,f1786]) ).

fof(f2786,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c7)) = multiply(sk_c6,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f1226,f2364]) ).

fof(f2795,plain,
    ( ! [X0] : inverse(multiply(sk_c6,X0)) = multiply(inverse(X0),sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f1226,f1786]) ).

fof(f2796,plain,
    ( ! [X0] : inverse(multiply(sk_c7,X0)) = multiply(inverse(X0),sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f1226,f2364]) ).

fof(f2936,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c7)) = multiply(sk_c6,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f1229,f1786]) ).

fof(f2937,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c6)) = multiply(sk_c7,inverse(X0))
    | ~ spl0_9 ),
    inference(superposition,[],[f1229,f2364]) ).

fof(f3052,plain,
    ( ! [X0] : inverse(multiply(sk_c7,X0)) = multiply(inverse(X0),sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f1542,f1786]) ).

fof(f3053,plain,
    ( ! [X0] : inverse(multiply(sk_c6,X0)) = multiply(inverse(X0),sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f1542,f2364]) ).

fof(f2362,plain,
    ( identity = multiply(sk_c6,sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f785,f1786]) ).

fof(f2357,plain,
    ( identity = multiply(sk_c7,sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f2,f1786]) ).

fof(f2374,plain,
    ( identity = multiply(sk_c7,sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f785,f2364]) ).

fof(f2381,plain,
    ( identity = multiply(sk_c6,sk_c7)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f2373,f807]) ).

fof(f2373,plain,
    ( identity = multiply(inverse(inverse(sk_c6)),sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f698,f2364]) ).

fof(f2369,plain,
    ( identity = multiply(sk_c6,sk_c7)
    | ~ spl0_9 ),
    inference(superposition,[],[f2,f2364]) ).

fof(f2368,plain,
    ( identity = multiply(sk_c7,sk_c6)
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f2361,f807]) ).

fof(f2361,plain,
    ( identity = multiply(inverse(inverse(sk_c7)),sk_c6)
    | ~ spl0_9 ),
    inference(superposition,[],[f698,f1786]) ).

fof(f2360,plain,
    ( ! [X0] : multiply(sk_c6,X0) = multiply(inverse(sk_c7),X0)
    | ~ spl0_9 ),
    inference(superposition,[],[f284,f1786]) ).

fof(f2359,plain,
    ( sk_c6 = multiply(inverse(sk_c7),identity)
    | ~ spl0_9 ),
    inference(superposition,[],[f274,f1786]) ).

fof(f4588,plain,
    ( ~ spl0_1
    | spl0_3
    | ~ spl0_9
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4587]) ).

fof(f4587,plain,
    ( $false
    | ~ spl0_1
    | spl0_3
    | ~ spl0_9
    | spl0_11 ),
    inference(subsumption_resolution,[],[f4586,f2416]) ).

fof(f4586,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | spl0_3
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f4577,f2]) ).

fof(f4577,plain,
    ( sk_c9 = multiply(inverse(identity),identity)
    | ~ spl0_1
    | spl0_3
    | ~ spl0_9 ),
    inference(superposition,[],[f380,f4519]) ).

fof(f4585,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | ~ spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4584]) ).

fof(f4584,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | ~ spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(subsumption_resolution,[],[f4574,f2416]) ).

fof(f4574,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | ~ spl0_2
    | spl0_3
    | ~ spl0_4
    | ~ spl0_9
    | ~ spl0_10
    | spl0_11 ),
    inference(superposition,[],[f4519,f3295]) ).

fof(f4516,plain,
    ( spl0_2
    | spl0_3 ),
    inference(avatar_contradiction_clause,[],[f4515]) ).

fof(f4515,plain,
    ( $false
    | spl0_2
    | spl0_3 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f18,f39,f55,f26,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f40,f37,f4109,f31,f4110,f30,f4111,f29,f4112,f3550,f3517,f21,f4496,f20,f4497,f24,f4500,f19,f4501,f3515,f4502,f17,f4503,f13,f4506,f12,f4507,f3928,f424]) ).

fof(f3928,plain,
    ( sk_c9 = inverse(sk_c2)
    | spl0_2 ),
    inference(subsumption_resolution,[],[f39,f55]) ).

fof(f4507,plain,
    ( sk_c9 = inverse(sk_c1)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f18,f39,f55,f26,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f3928,f40,f37,f4109,f31,f4110,f30,f4111,f29,f4112,f3550,f3517,f21,f4496,f20,f4497,f24,f4500,f19,f4501,f3515,f4502,f17,f4503,f13,f4506,f12]) ).

fof(f4506,plain,
    ( sk_c9 = inverse(sk_c1)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f18,f39,f55,f26,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f3928,f40,f37,f4109,f31,f4110,f30,f4111,f29,f4112,f3550,f3517,f21,f4496,f20,f4497,f24,f4500,f19,f4501,f3515,f4502,f17,f4503,f13]) ).

fof(f4503,plain,
    ( sk_c9 = inverse(sk_c1)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f23,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f18,f39,f55,f26,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f3928,f40,f37,f4109,f31,f4110,f30,f4111,f29,f4112,f3550,f3517,f21,f4496,f20,f4497,f24,f4500,f19,f4501,f3515,f4502,f17]) ).

fof(f4502,plain,
    ( sk_c9 = inverse(sk_c1)
    | spl0_2 ),
    inference(subsumption_resolution,[],[f11,f55]) ).

fof(f3515,plain,
    ( sk_c9 = multiply(sk_c1,sk_c8)
    | spl0_2 ),
    inference(subsumption_resolution,[],[f18,f55]) ).

fof(f4501,plain,
    ( sk_c9 = multiply(sk_c1,sk_c8)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f23,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f32,f25,f18,f39,f55,f26,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f3928,f40,f37,f4109,f31,f4110,f30,f4111,f29,f4112,f3550,f3517,f21,f4496,f20,f4497,f24,f4500,f19]) ).

fof(f4500,plain,
    ( sk_c9 = multiply(sk_c1,sk_c8)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f23,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f19,f32,f25,f18,f39,f55,f26,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f3928,f40,f37,f4109,f31,f4110,f30,f4111,f29,f4112,f3550,f3517,f21,f4496,f20,f4497,f24]) ).

fof(f4497,plain,
    ( sk_c9 = multiply(sk_c1,sk_c8)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f23,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f3928,f40,f37,f4109,f31,f4110,f30,f4111,f29,f4112,f3550,f3517,f21,f4496,f20]) ).

fof(f4496,plain,
    ( sk_c9 = multiply(sk_c1,sk_c8)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f3928,f40,f37,f4109,f31,f4110,f30,f4111,f29,f4112,f3550,f3517,f21]) ).

fof(f3517,plain,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | spl0_2 ),
    inference(subsumption_resolution,[],[f25,f55]) ).

fof(f3550,plain,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f36,f34,f27,f43,f41,f37,f35,f28,f42,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f55,f3517,f26]) ).

fof(f4112,plain,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f3517,f3550,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f3928,f40,f37,f4109,f31,f4110,f30,f4111,f29]) ).

fof(f4111,plain,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f3517,f3550,f29,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f3928,f40,f37,f4109,f31,f4110,f30]) ).

fof(f4110,plain,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f3517,f3550,f29,f30,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f3928,f40,f37,f4109,f31]) ).

fof(f4109,plain,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f3517,f3550,f29,f30,f31,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33,f4106,f3518,f3928,f40,f37]) ).

fof(f3518,plain,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | spl0_2 ),
    inference(subsumption_resolution,[],[f32,f55]) ).

fof(f4106,plain,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38,f4105,f33]) ).

fof(f4105,plain,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36,f4102,f43,f45,f38]) ).

fof(f4102,plain,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f41,f34,f4097,f27,f4098,f35,f4099,f28,f4100,f42,f36]) ).

fof(f4100,plain,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f41,f34,f4097,f27,f4098,f35,f4099,f28]) ).

fof(f4099,plain,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f41,f34,f4097,f27,f4098,f35]) ).

fof(f4098,plain,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f41,f34,f4097,f27]) ).

fof(f4097,plain,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | spl0_2 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f41,f34]) ).

fof(f55,plain,
    ( sk_c9 != inverse(sk_c4)
    | spl0_2 ),
    inference(avatar_component_clause,[],[f54]) ).

fof(f4495,plain,
    ( ~ spl0_1
    | ~ spl0_5
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4494]) ).

fof(f4494,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_5
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f4493,f1]) ).

fof(f4493,plain,
    ( identity != multiply(identity,identity)
    | ~ spl0_1
    | ~ spl0_5
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f4475,f2417]) ).

fof(f2417,plain,
    ( identity = sk_c9
    | ~ spl0_11 ),
    inference(avatar_component_clause,[],[f2415]) ).

fof(f4475,plain,
    ( identity != multiply(sk_c9,identity)
    | ~ spl0_1
    | ~ spl0_5 ),
    inference(superposition,[],[f1623,f389]) ).

fof(f1623,plain,
    ( ! [X8] : identity != multiply(inverse(X8),identity)
    | ~ spl0_5 ),
    inference(avatar_component_clause,[],[f1622]) ).

fof(f1622,plain,
    ( spl0_5
  <=> ! [X8] : identity != multiply(inverse(X8),identity) ),
    introduced(avatar_definition,[new_symbols(naming,[spl0_5])]) ).

fof(f4492,plain,
    ( ~ spl0_1
    | ~ spl0_5
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4491]) ).

fof(f4491,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_5
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f4467,f2417]) ).

fof(f4467,plain,
    ( identity != sk_c9
    | ~ spl0_1
    | ~ spl0_5 ),
    inference(superposition,[],[f1623,f380]) ).

fof(f4490,plain,
    ( ~ spl0_3
    | ~ spl0_5
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4489]) ).

fof(f4489,plain,
    ( $false
    | ~ spl0_3
    | ~ spl0_5
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f4488,f1]) ).

fof(f4488,plain,
    ( identity != multiply(identity,identity)
    | ~ spl0_3
    | ~ spl0_5
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f4466,f2417]) ).

fof(f4466,plain,
    ( identity != multiply(sk_c9,identity)
    | ~ spl0_3
    | ~ spl0_5 ),
    inference(superposition,[],[f1623,f425]) ).

fof(f425,plain,
    ( sk_c9 = inverse(sk_c1)
    | ~ spl0_3 ),
    inference(avatar_component_clause,[],[f423]) ).

fof(f4487,plain,
    ( ~ spl0_1
    | ~ spl0_5
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4486]) ).

fof(f4486,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_5
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f4485,f1]) ).

fof(f4485,plain,
    ( identity != multiply(identity,identity)
    | ~ spl0_1
    | ~ spl0_5
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f4463,f3548]) ).

fof(f3548,plain,
    ( identity = sk_c8
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(global_subsumption,[],[f3540,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f52,f379,f382,f380,f378,f395,f387,f403,f405,f273,f419,f14,f389,f463,f464,f459,f473,f470,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f1691,f36,f34,f27,f43,f41,f37,f35,f28,f42,f44,f1357,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f2435,f2423,f2436,f2428,f2439,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3061,f3048,f3021,f2932,f2820,f2807,f2791,f2781,f1692,f2717,f2683,f1862,f1856,f1860,f31,f2261,f1859,f2232,f1535,f1221,f1861,f1338,f1508,f1500,f38,f45,f3389,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2314,f2310,f2280,f2278,f3398,f3399,f2218,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1678,f1027,f1024,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1441,f1858,f1869,f3408,f1334,f1657,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f1151,f40,f24,f33,f1662,f1201,f1658,f1330,f1520,f3422,f3424,f1491,f1348,f1370,f3425,f3426,f3427,f994,f990,f936,f866,f3430,f816,f3431,f805,f19,f3437,f467,f461,f32,f25,f18,f39,f1140,f26,f2575,f2599,f3546,f2417]) ).

fof(f3546,plain,
    ( identity = sk_c8
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2419,f1140]) ).

fof(f2419,plain,
    ( sk_c8 = inverse(identity)
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f52,f2417]) ).

fof(f2599,plain,
    ( identity = sk_c8
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2598,f785]) ).

fof(f2598,plain,
    ( ! [X0] : sk_c8 = multiply(X0,inverse(X0))
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2597,f1]) ).

fof(f2597,plain,
    ( ! [X0] : sk_c8 = multiply(X0,inverse(multiply(identity,X0)))
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f1338,f2417]) ).

fof(f2575,plain,
    ( identity = sk_c8
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2574,f785]) ).

fof(f2574,plain,
    ( ! [X0] : sk_c8 = multiply(X0,inverse(X0))
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2573,f1]) ).

fof(f2573,plain,
    ( ! [X0] : sk_c8 = multiply(X0,inverse(multiply(identity,X0)))
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f1508,f2417]) ).

fof(f1140,plain,
    ( identity = inverse(identity)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1042,f379]) ).

fof(f1042,plain,
    ( identity = inverse(multiply(sk_c8,sk_c9))
    | ~ spl0_1 ),
    inference(superposition,[],[f897,f378]) ).

fof(f461,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c8,X0)) = X0
    | ~ spl0_1 ),
    inference(superposition,[],[f389,f77]) ).

fof(f467,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c8,X0)) = X0
    | ~ spl0_1 ),
    inference(superposition,[],[f77,f389]) ).

fof(f3437,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c8,X0)) = X0
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f472,f1]) ).

fof(f472,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c9,multiply(sk_c8,X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f3,f459]) ).

fof(f805,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f787,f380]) ).

fof(f3431,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f812,f787]) ).

fof(f812,plain,
    ( multiply(sk_c9,identity) = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f787,f389]) ).

fof(f816,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f380,f787]) ).

fof(f3430,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f823,f787]) ).

fof(f823,plain,
    ( multiply(sk_c9,identity) = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f389,f787]) ).

fof(f866,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f807,f52]) ).

fof(f936,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c8,X0)) = X0
    | ~ spl0_1 ),
    inference(superposition,[],[f788,f52]) ).

fof(f990,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c8,X0)) = X0
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f956,f284]) ).

fof(f956,plain,
    ( ! [X0] : multiply(sk_c9,multiply(inverse(inverse(sk_c8)),X0)) = X0
    | ~ spl0_1 ),
    inference(superposition,[],[f788,f389]) ).

fof(f994,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c8,X0)) = X0
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f962,f284]) ).

fof(f962,plain,
    ( ! [X0] : multiply(sk_c9,multiply(inverse(inverse(sk_c8)),X0)) = X0
    | ~ spl0_1 ),
    inference(superposition,[],[f389,f788]) ).

fof(f3427,plain,
    ( ! [X0] : identity = multiply(X0,multiply(sk_c9,multiply(sk_c8,inverse(X0))))
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1036,f1229]) ).

fof(f1036,plain,
    ( ! [X0] : identity = multiply(X0,multiply(sk_c9,inverse(multiply(X0,inverse(sk_c8)))))
    | ~ spl0_1 ),
    inference(superposition,[],[f897,f389]) ).

fof(f3426,plain,
    ( ! [X0] : inverse(X0) = multiply(sk_c9,multiply(sk_c8,inverse(X0)))
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1213,f1229]) ).

fof(f1213,plain,
    ( ! [X0] : inverse(X0) = multiply(sk_c9,inverse(multiply(X0,inverse(sk_c8))))
    | ~ spl0_1 ),
    inference(superposition,[],[f1172,f389]) ).

fof(f3425,plain,
    ( ! [X0] : inverse(X0) = multiply(sk_c9,multiply(sk_c8,inverse(X0)))
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1220,f1229]) ).

fof(f1220,plain,
    ( ! [X0] : inverse(X0) = multiply(sk_c9,inverse(multiply(X0,inverse(sk_c8))))
    | ~ spl0_1 ),
    inference(superposition,[],[f389,f1172]) ).

fof(f1370,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1325,f1265]) ).

fof(f1325,plain,
    ( ! [X0] : inverse(sk_c8) = multiply(multiply(sk_c9,X0),inverse(X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f1265,f389]) ).

fof(f1348,plain,
    ( sk_c9 = multiply(identity,inverse(sk_c8))
    | ~ spl0_1 ),
    inference(superposition,[],[f1265,f459]) ).

fof(f1491,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1452,f1356]) ).

fof(f1452,plain,
    ( ! [X0] : inverse(sk_c8) = multiply(multiply(sk_c9,inverse(X0)),X0)
    | ~ spl0_1 ),
    inference(superposition,[],[f1356,f389]) ).

fof(f3424,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c8,X0)) = X0
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f3423,f807]) ).

fof(f3423,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c8,inverse(inverse(X0)))) = X0
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1525,f1229]) ).

fof(f1525,plain,
    ( ! [X0] : multiply(sk_c9,inverse(multiply(inverse(X0),inverse(sk_c8)))) = X0
    | ~ spl0_1 ),
    inference(superposition,[],[f1176,f389]) ).

fof(f3422,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c8,X0)) = X0
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f3421,f807]) ).

fof(f3421,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c8,inverse(inverse(X0)))) = X0
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1534,f1229]) ).

fof(f1534,plain,
    ( ! [X0] : multiply(sk_c9,inverse(multiply(inverse(X0),inverse(sk_c8)))) = X0
    | ~ spl0_1 ),
    inference(superposition,[],[f389,f1176]) ).

fof(f1520,plain,
    ( inverse(sk_c8) = multiply(sk_c9,inverse(identity))
    | ~ spl0_1 ),
    inference(superposition,[],[f1176,f387]) ).

fof(f1330,plain,
    ( inverse(sk_c8) = multiply(sk_c9,inverse(identity))
    | ~ spl0_1 ),
    inference(superposition,[],[f1265,f380]) ).

fof(f1658,plain,
    ( inverse(sk_c8) = multiply(sk_c9,inverse(identity))
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1202,f807]) ).

fof(f1202,plain,
    ( inverse(inverse(inverse(sk_c8))) = multiply(sk_c9,inverse(identity))
    | ~ spl0_1 ),
    inference(superposition,[],[f1172,f387]) ).

fof(f1201,plain,
    ( inverse(sk_c8) = multiply(sk_c9,inverse(identity))
    | ~ spl0_1 ),
    inference(superposition,[],[f1172,f379]) ).

fof(f1662,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1195,f1265]) ).

fof(f1195,plain,
    ( ! [X0] : inverse(sk_c8) = multiply(multiply(sk_c9,X0),inverse(X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f1172,f378]) ).

fof(f1151,plain,
    ( identity = inverse(identity)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1053,f379]) ).

fof(f1053,plain,
    ( identity = inverse(multiply(sk_c8,sk_c9))
    | ~ spl0_1 ),
    inference(superposition,[],[f378,f897]) ).

fof(f1657,plain,
    ( sk_c8 = multiply(sk_c8,inverse(identity))
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1204,f52]) ).

fof(f1204,plain,
    ( inverse(sk_c9) = multiply(sk_c8,inverse(identity))
    | ~ spl0_1 ),
    inference(superposition,[],[f1172,f459]) ).

fof(f1334,plain,
    ( sk_c8 = multiply(sk_c8,inverse(identity))
    | ~ spl0_1 ),
    inference(superposition,[],[f1265,f470]) ).

fof(f3408,plain,
    ( identity = inverse(identity)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1850,f459]) ).

fof(f1850,plain,
    ( multiply(sk_c9,sk_c8) = inverse(identity)
    | ~ spl0_1 ),
    inference(superposition,[],[f1357,f273]) ).

fof(f1869,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1852,f1357]) ).

fof(f1852,plain,
    ( inverse(sk_c8) = multiply(multiply(sk_c9,sk_c9),sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f1357,f389]) ).

fof(f1858,plain,
    ( ! [X0] : multiply(X0,inverse(sk_c8)) = multiply(X0,sk_c9)
    | ~ spl0_1 ),
    inference(superposition,[],[f1265,f1357]) ).

fof(f1441,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c8),sk_c9) = X0
    | ~ spl0_1 ),
    inference(superposition,[],[f1356,f52]) ).

fof(f1024,plain,
    ( identity = multiply(sk_c8,multiply(sk_c9,inverse(identity)))
    | ~ spl0_1 ),
    inference(superposition,[],[f897,f379]) ).

fof(f1027,plain,
    ( identity = multiply(sk_c9,multiply(sk_c8,inverse(identity)))
    | ~ spl0_1 ),
    inference(superposition,[],[f897,f459]) ).

fof(f1678,plain,
    ( identity = multiply(sk_c8,multiply(sk_c9,inverse(identity)))
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1025,f807]) ).

fof(f1025,plain,
    ( identity = multiply(inverse(inverse(sk_c8)),multiply(sk_c9,inverse(identity)))
    | ~ spl0_1 ),
    inference(superposition,[],[f897,f387]) ).

fof(f2218,plain,
    ( ! [X0] : inverse(X0) = multiply(inverse(multiply(sk_c9,X0)),inverse(sk_c8))
    | ~ spl0_1 ),
    inference(superposition,[],[f1269,f389]) ).

fof(f3398,plain,
    ( identity = inverse(identity)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f3397,f785]) ).

fof(f3397,plain,
    ( inverse(identity) = multiply(sk_c8,inverse(sk_c8))
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f2224,f52]) ).

fof(f2224,plain,
    ( inverse(identity) = multiply(inverse(sk_c9),inverse(sk_c8))
    | ~ spl0_1 ),
    inference(superposition,[],[f1269,f380]) ).

fof(f2280,plain,
    ( identity = inverse(identity)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f2228,f2]) ).

fof(f2228,plain,
    ( inverse(identity) = multiply(inverse(sk_c8),sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f1269,f470]) ).

fof(f2310,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f2244,f273]) ).

fof(f2244,plain,
    ( inverse(sk_c8) = multiply(inverse(identity),sk_c9)
    | ~ spl0_1 ),
    inference(superposition,[],[f1269,f459]) ).

fof(f2314,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f2246,f77]) ).

fof(f2246,plain,
    ( ! [X0] : inverse(sk_c8) = multiply(inverse(X0),multiply(X0,sk_c9))
    | ~ spl0_1 ),
    inference(superposition,[],[f1269,f1357]) ).

fof(f3389,plain,
    ( identity = inverse(identity)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f3388,f785]) ).

fof(f3388,plain,
    ( inverse(identity) = multiply(sk_c8,inverse(sk_c8))
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f3074,f52]) ).

fof(f3074,plain,
    ( inverse(identity) = multiply(inverse(sk_c9),inverse(sk_c8))
    | ~ spl0_1 ),
    inference(superposition,[],[f1542,f387]) ).

fof(f1500,plain,
    ( ! [X0] : sk_c9 = multiply(X0,inverse(multiply(sk_c8,X0)))
    | ~ spl0_1 ),
    inference(superposition,[],[f1176,f52]) ).

fof(f1508,plain,
    ( ! [X0] : sk_c8 = multiply(X0,inverse(multiply(sk_c9,X0)))
    | ~ spl0_1 ),
    inference(superposition,[],[f1176,f389]) ).

fof(f1338,plain,
    ( ! [X0] : sk_c8 = multiply(X0,inverse(multiply(sk_c9,X0)))
    | ~ spl0_1 ),
    inference(superposition,[],[f1265,f378]) ).

fof(f1861,plain,
    ( ! [X0] : sk_c8 = multiply(inverse(multiply(X0,sk_c9)),X0)
    | ~ spl0_1 ),
    inference(superposition,[],[f77,f1357]) ).

fof(f1221,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c9)) = multiply(sk_c8,inverse(X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f378,f1172]) ).

fof(f1535,plain,
    ( ! [X0] : multiply(sk_c8,X0) = inverse(multiply(inverse(X0),sk_c9))
    | ~ spl0_1 ),
    inference(superposition,[],[f378,f1176]) ).

fof(f2232,plain,
    ( ! [X0] : inverse(multiply(sk_c9,X0)) = multiply(inverse(X0),sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f1269,f378]) ).

fof(f1859,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c9)) = multiply(sk_c8,inverse(X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f1172,f1357]) ).

fof(f2261,plain,
    ( ! [X0] : inverse(multiply(sk_c9,X0)) = multiply(inverse(X0),sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f1357,f1269]) ).

fof(f1860,plain,
    ( ! [X0] : identity = multiply(multiply(X0,sk_c9),multiply(sk_c8,inverse(X0)))
    | ~ spl0_1 ),
    inference(superposition,[],[f897,f1357]) ).

fof(f1856,plain,
    ( ! [X0,X1] : multiply(X0,X1) = multiply(multiply(X0,multiply(X1,sk_c9)),sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f1357,f3]) ).

fof(f1862,plain,
    ( ! [X0,X1] : multiply(X0,X1) = multiply(multiply(X0,sk_c9),multiply(sk_c8,X1))
    | ~ spl0_1 ),
    inference(superposition,[],[f3,f1357]) ).

fof(f2683,plain,
    ( ! [X0] : sk_c9 = multiply(inverse(multiply(X0,sk_c8)),X0)
    | ~ spl0_1 ),
    inference(superposition,[],[f1577,f52]) ).

fof(f2717,plain,
    ( ! [X0] : multiply(X0,sk_c8) = inverse(multiply(sk_c9,inverse(X0)))
    | ~ spl0_1 ),
    inference(superposition,[],[f1357,f1577]) ).

fof(f1692,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != sk_c8
        | identity != inverse(X7)
        | sk_c9 != inverse(X3)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1 ),
    inference(inner_rewriting,[],[f1691]) ).

fof(f2781,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c9)) = multiply(sk_c8,inverse(X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f1226,f52]) ).

fof(f2791,plain,
    ( ! [X0] : inverse(multiply(sk_c9,X0)) = multiply(inverse(X0),sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f1226,f52]) ).

fof(f2807,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c8)) = multiply(sk_c9,inverse(X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f1226,f389]) ).

fof(f2820,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c8)) = multiply(sk_c9,inverse(X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f389,f1226]) ).

fof(f2932,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c8)) = multiply(sk_c9,inverse(X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f1229,f52]) ).

fof(f3021,plain,
    ( ! [X0] : multiply(X0,sk_c8) = inverse(multiply(sk_c9,inverse(X0)))
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f2951,f807]) ).

fof(f2951,plain,
    ( ! [X0] : inverse(multiply(sk_c9,inverse(X0))) = multiply(X0,inverse(inverse(sk_c8)))
    | ~ spl0_1 ),
    inference(superposition,[],[f1229,f389]) ).

fof(f3048,plain,
    ( ! [X0] : inverse(multiply(sk_c8,X0)) = multiply(inverse(X0),sk_c9)
    | ~ spl0_1 ),
    inference(superposition,[],[f1542,f52]) ).

fof(f3061,plain,
    ( ! [X0] : inverse(multiply(sk_c9,X0)) = multiply(inverse(X0),sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f1542,f389]) ).

fof(f2439,plain,
    ( ! [X0] : multiply(X0,sk_c8) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2429,f787]) ).

fof(f2429,plain,
    ( ! [X0] : multiply(multiply(X0,identity),sk_c8) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f1357,f2417]) ).

fof(f2428,plain,
    ( identity = multiply(identity,sk_c8)
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f459,f2417]) ).

fof(f2436,plain,
    ( identity = multiply(sk_c8,identity)
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2424,f807]) ).

fof(f2424,plain,
    ( identity = multiply(inverse(inverse(sk_c8)),identity)
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f387,f2417]) ).

fof(f2423,plain,
    ( identity = multiply(sk_c8,identity)
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f379,f2417]) ).

fof(f2435,plain,
    ( ! [X0] : multiply(sk_c8,X0) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2422,f1]) ).

fof(f2422,plain,
    ( ! [X0] : multiply(sk_c8,multiply(identity,X0)) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f378,f2417]) ).

fof(f1357,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c9),sk_c8) = X0
    | ~ spl0_1 ),
    inference(superposition,[],[f1265,f52]) ).

fof(f1691,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != sk_c8
        | sk_c8 != inverse(X7)
        | sk_c9 != inverse(X3)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | sk_c8 != multiply(inverse(X8),sk_c9)
        | sk_c8 != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f844,f785]) ).

fof(f844,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( sk_c8 != inverse(X7)
        | sk_c9 != inverse(X3)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | sk_c8 != multiply(inverse(X8),sk_c9)
        | sk_c8 != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1 ),
    inference(subsumption_resolution,[],[f48,f52]) ).

fof(f473,plain,
    ( sk_c8 = multiply(sk_c8,identity)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f471,f52]) ).

fof(f471,plain,
    ( sk_c8 = multiply(inverse(sk_c9),identity)
    | ~ spl0_1 ),
    inference(superposition,[],[f77,f459]) ).

fof(f464,plain,
    ( ! [X0] : multiply(inverse(inverse(sk_c8)),multiply(sk_c9,X0)) = X0
    | ~ spl0_1 ),
    inference(superposition,[],[f77,f389]) ).

fof(f463,plain,
    ( identity = multiply(sk_c9,sk_c8)
    | ~ spl0_1 ),
    inference(superposition,[],[f2,f389]) ).

fof(f405,plain,
    ( ! [X0] : multiply(inverse(inverse(sk_c8)),multiply(sk_c9,X0)) = X0
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f404,f1]) ).

fof(f404,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(inverse(inverse(sk_c8)),multiply(sk_c9,X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f3,f387]) ).

fof(f403,plain,
    ( sk_c9 = multiply(inverse(inverse(inverse(sk_c8))),identity)
    | ~ spl0_1 ),
    inference(superposition,[],[f77,f387]) ).

fof(f387,plain,
    ( identity = multiply(inverse(inverse(sk_c8)),sk_c9)
    | ~ spl0_1 ),
    inference(superposition,[],[f77,f380]) ).

fof(f395,plain,
    ( ! [X0] : multiply(sk_c9,X0) = multiply(inverse(sk_c8),X0)
    | ~ spl0_1 ),
    inference(superposition,[],[f77,f378]) ).

fof(f382,plain,
    ( ! [X0] : multiply(sk_c8,multiply(sk_c9,X0)) = X0
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f381,f1]) ).

fof(f381,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c8,multiply(sk_c9,X0))
    | ~ spl0_1 ),
    inference(superposition,[],[f3,f379]) ).

fof(f3540,plain,
    ( identity = sk_c3
    | identity = sk_c8
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f3539,f379]) ).

fof(f3539,plain,
    ( sk_c3 = multiply(sk_c8,sk_c9)
    | identity = sk_c8
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f3377,f1804]) ).

fof(f1804,plain,
    ( sk_c8 = sk_c2
    | ~ spl0_1
    | ~ spl0_8 ),
    inference(forward_demodulation,[],[f1795,f52]) ).

fof(f1795,plain,
    ( inverse(sk_c9) = sk_c2
    | ~ spl0_8 ),
    inference(superposition,[],[f807,f1782]) ).

fof(f4463,plain,
    ( identity != multiply(sk_c8,identity)
    | ~ spl0_1
    | ~ spl0_5 ),
    inference(superposition,[],[f1623,f52]) ).

fof(f4484,plain,
    ( ~ spl0_1
    | ~ spl0_5 ),
    inference(avatar_contradiction_clause,[],[f4483]) ).

fof(f4483,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_5 ),
    inference(subsumption_resolution,[],[f4459,f1]) ).

fof(f4459,plain,
    ( identity != multiply(identity,identity)
    | ~ spl0_1
    | ~ spl0_5 ),
    inference(superposition,[],[f1623,f1140]) ).

fof(f4482,plain,
    ~ spl0_5,
    inference(avatar_contradiction_clause,[],[f4481]) ).

fof(f4481,plain,
    ( $false
    | ~ spl0_5 ),
    inference(trivial_inequality_removal,[],[f4470]) ).

fof(f4470,plain,
    ( identity != identity
    | ~ spl0_5 ),
    inference(superposition,[],[f1623,f2]) ).

fof(f4480,plain,
    ~ spl0_5,
    inference(avatar_contradiction_clause,[],[f4479]) ).

fof(f4479,plain,
    ( $false
    | ~ spl0_5 ),
    inference(trivial_inequality_removal,[],[f4471]) ).

fof(f4471,plain,
    ( identity != identity
    | ~ spl0_5 ),
    inference(superposition,[],[f1623,f273]) ).

fof(f4478,plain,
    ~ spl0_5,
    inference(avatar_contradiction_clause,[],[f4477]) ).

fof(f4477,plain,
    ( $false
    | ~ spl0_5 ),
    inference(trivial_inequality_removal,[],[f4474]) ).

fof(f4474,plain,
    ( identity != identity
    | ~ spl0_5 ),
    inference(superposition,[],[f1623,f698]) ).

fof(f4449,plain,
    ( ~ spl0_1
    | ~ spl0_7
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4448]) ).

fof(f4448,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_7
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f4447,f807]) ).

fof(f4447,plain,
    ( identity != inverse(inverse(identity))
    | ~ spl0_1
    | ~ spl0_7
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f4446,f3548]) ).

fof(f4446,plain,
    ( identity != inverse(inverse(sk_c8))
    | ~ spl0_1
    | ~ spl0_7
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f4445,f2417]) ).

fof(f4445,plain,
    ( identity != sk_c9
    | identity != inverse(inverse(sk_c8))
    | ~ spl0_1
    | ~ spl0_7 ),
    inference(forward_demodulation,[],[f4412,f787]) ).

fof(f4412,plain,
    ( identity != multiply(sk_c9,identity)
    | identity != inverse(inverse(sk_c8))
    | ~ spl0_1
    | ~ spl0_7 ),
    inference(superposition,[],[f1629,f389]) ).

fof(f1629,plain,
    ( ! [X3] :
        ( identity != multiply(X3,identity)
        | identity != inverse(X3) )
    | ~ spl0_7 ),
    inference(avatar_component_clause,[],[f1628]) ).

fof(f1628,plain,
    ( spl0_7
  <=> ! [X3] :
        ( identity != multiply(X3,identity)
        | identity != inverse(X3) ) ),
    introduced(avatar_definition,[new_symbols(naming,[spl0_7])]) ).

fof(f4444,plain,
    ~ spl0_7,
    inference(avatar_contradiction_clause,[],[f4443]) ).

fof(f4443,plain,
    ( $false
    | ~ spl0_7 ),
    inference(subsumption_resolution,[],[f4442,f807]) ).

fof(f4442,plain,
    ( identity != inverse(inverse(identity))
    | ~ spl0_7 ),
    inference(forward_demodulation,[],[f4416,f807]) ).

fof(f4416,plain,
    ( identity != inverse(inverse(inverse(inverse(identity))))
    | ~ spl0_7 ),
    inference(trivial_inequality_removal,[],[f4411]) ).

fof(f4411,plain,
    ( identity != identity
    | identity != inverse(inverse(inverse(inverse(identity))))
    | ~ spl0_7 ),
    inference(superposition,[],[f1629,f698]) ).

fof(f4434,plain,
    ~ spl0_7,
    inference(avatar_contradiction_clause,[],[f4433]) ).

fof(f4433,plain,
    ( $false
    | ~ spl0_7 ),
    inference(subsumption_resolution,[],[f4417,f807]) ).

fof(f4417,plain,
    ( identity != inverse(inverse(identity))
    | ~ spl0_7 ),
    inference(trivial_inequality_removal,[],[f4408]) ).

fof(f4408,plain,
    ( identity != identity
    | identity != inverse(inverse(identity))
    | ~ spl0_7 ),
    inference(superposition,[],[f1629,f273]) ).

fof(f4432,plain,
    ~ spl0_7,
    inference(avatar_contradiction_clause,[],[f4431]) ).

fof(f4431,plain,
    ( $false
    | ~ spl0_7 ),
    inference(subsumption_resolution,[],[f4418,f807]) ).

fof(f4418,plain,
    ( identity != inverse(inverse(identity))
    | ~ spl0_7 ),
    inference(trivial_inequality_removal,[],[f4407]) ).

fof(f4407,plain,
    ( identity != identity
    | identity != inverse(inverse(identity))
    | ~ spl0_7 ),
    inference(superposition,[],[f1629,f2]) ).

fof(f4430,plain,
    ( ~ spl0_1
    | ~ spl0_7 ),
    inference(avatar_contradiction_clause,[],[f4429]) ).

fof(f4429,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_7 ),
    inference(subsumption_resolution,[],[f4419,f1140]) ).

fof(f4419,plain,
    ( identity != inverse(identity)
    | ~ spl0_7 ),
    inference(trivial_inequality_removal,[],[f4406]) ).

fof(f4406,plain,
    ( identity != identity
    | identity != inverse(identity)
    | ~ spl0_7 ),
    inference(superposition,[],[f1629,f1]) ).

fof(f4428,plain,
    ( ~ spl0_1
    | ~ spl0_7
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4427]) ).

fof(f4427,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_7
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f4426,f1140]) ).

fof(f4426,plain,
    ( identity != inverse(identity)
    | ~ spl0_1
    | ~ spl0_7
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f4425,f3548]) ).

fof(f4425,plain,
    ( identity != inverse(sk_c8)
    | ~ spl0_1
    | ~ spl0_7
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f4405,f3548]) ).

fof(f4405,plain,
    ( identity != sk_c8
    | identity != inverse(sk_c8)
    | ~ spl0_1
    | ~ spl0_7 ),
    inference(superposition,[],[f1629,f470]) ).

fof(f4423,plain,
    ( ~ spl0_1
    | ~ spl0_7
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4422]) ).

fof(f4422,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_7
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f4421,f807]) ).

fof(f4421,plain,
    ( identity != inverse(inverse(identity))
    | ~ spl0_1
    | ~ spl0_7
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f4420,f3548]) ).

fof(f4420,plain,
    ( identity != inverse(inverse(sk_c8))
    | ~ spl0_1
    | ~ spl0_7
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f4403,f2417]) ).

fof(f4403,plain,
    ( identity != sk_c9
    | identity != inverse(inverse(sk_c8))
    | ~ spl0_1
    | ~ spl0_7 ),
    inference(superposition,[],[f1629,f380]) ).

fof(f4352,plain,
    ~ spl0_6,
    inference(avatar_contradiction_clause,[],[f4351]) ).

fof(f4351,plain,
    ( $false
    | ~ spl0_6 ),
    inference(subsumption_resolution,[],[f4342,f807]) ).

fof(f4342,plain,
    ( identity != inverse(inverse(identity))
    | ~ spl0_6 ),
    inference(trivial_inequality_removal,[],[f4339]) ).

fof(f4339,plain,
    ( identity != identity
    | identity != inverse(inverse(identity))
    | ~ spl0_6 ),
    inference(superposition,[],[f1626,f785]) ).

fof(f1626,plain,
    ( ! [X5] :
        ( identity != multiply(identity,X5)
        | identity != inverse(X5) )
    | ~ spl0_6 ),
    inference(avatar_component_clause,[],[f1625]) ).

fof(f1625,plain,
    ( spl0_6
  <=> ! [X5] :
        ( identity != multiply(identity,X5)
        | identity != inverse(X5) ) ),
    introduced(avatar_definition,[new_symbols(naming,[spl0_6])]) ).

fof(f4350,plain,
    ~ spl0_6,
    inference(avatar_contradiction_clause,[],[f4349]) ).

fof(f4349,plain,
    ( $false
    | ~ spl0_6 ),
    inference(subsumption_resolution,[],[f4348,f807]) ).

fof(f4348,plain,
    ( identity != inverse(inverse(identity))
    | ~ spl0_6 ),
    inference(forward_demodulation,[],[f4343,f1172]) ).

fof(f4343,plain,
    ( ! [X0] : identity != inverse(multiply(X0,inverse(multiply(identity,X0))))
    | ~ spl0_6 ),
    inference(trivial_inequality_removal,[],[f4338]) ).

fof(f4338,plain,
    ( ! [X0] :
        ( identity != identity
        | identity != inverse(multiply(X0,inverse(multiply(identity,X0)))) )
    | ~ spl0_6 ),
    inference(superposition,[],[f1626,f897]) ).

fof(f4346,plain,
    ( ~ spl0_1
    | ~ spl0_6 ),
    inference(avatar_contradiction_clause,[],[f4345]) ).

fof(f4345,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_6 ),
    inference(subsumption_resolution,[],[f4344,f1140]) ).

fof(f4344,plain,
    ( identity != inverse(identity)
    | ~ spl0_6 ),
    inference(trivial_inequality_removal,[],[f4336]) ).

fof(f4336,plain,
    ( identity != identity
    | identity != inverse(identity)
    | ~ spl0_6 ),
    inference(superposition,[],[f1626,f787]) ).

fof(f4093,plain,
    ( spl0_2
    | ~ spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4092]) ).

fof(f4092,plain,
    ( $false
    | spl0_2
    | ~ spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f429,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f1781,plain,
    ( sk_c9 != inverse(sk_c2)
    | spl0_8 ),
    inference(avatar_component_clause,[],[f1780]) ).

fof(f4091,plain,
    ( spl0_2
    | ~ spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4090]) ).

fof(f4090,plain,
    ( $false
    | spl0_2
    | ~ spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f1725,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f1725,plain,
    ( sk_c5 = inverse(sk_c8)
    | ~ spl0_4 ),
    inference(superposition,[],[f807,f429]) ).

fof(f4089,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4088]) ).

fof(f4088,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f1729,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f4087,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4086]) ).

fof(f4086,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3409,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f3409,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f1725,f1729]) ).

fof(f4085,plain,
    ( spl0_2
    | ~ spl0_6
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4084]) ).

fof(f4084,plain,
    ( $false
    | spl0_2
    | ~ spl0_6
    | spl0_8 ),
    inference(global_subsumption,[],[f1626,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f4083,plain,
    ( spl0_2
    | spl0_8
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4082]) ).

fof(f4082,plain,
    ( $false
    | spl0_2
    | spl0_8
    | ~ spl0_11 ),
    inference(global_subsumption,[],[f2417,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f4081,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4080]) ).

fof(f4080,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_11 ),
    inference(global_subsumption,[],[f2599,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f4079,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4078]) ).

fof(f4078,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_11 ),
    inference(global_subsumption,[],[f2575,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f4077,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4076]) ).

fof(f4076,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_11 ),
    inference(global_subsumption,[],[f3546,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f4075,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_11 ),
    inference(avatar_contradiction_clause,[],[f4074]) ).

fof(f4074,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_11 ),
    inference(global_subsumption,[],[f3559,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f3559,plain,
    ( identity = sk_c8
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3552,f1140]) ).

fof(f3552,plain,
    ( sk_c8 = inverse(identity)
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f52,f2417]) ).

fof(f4073,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4072]) ).

fof(f4072,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(global_subsumption,[],[f3860,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f3860,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | sk_c9 = multiply(sk_c5,sk_c8)
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f20,f3438]) ).

fof(f3438,plain,
    ( sk_c8 = sk_c1
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f437,f470]) ).

fof(f437,plain,
    ( sk_c1 = multiply(sk_c8,identity)
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f434,f52]) ).

fof(f434,plain,
    ( sk_c1 = multiply(inverse(sk_c9),identity)
    | ~ spl0_3 ),
    inference(superposition,[],[f77,f432]) ).

fof(f432,plain,
    ( identity = multiply(sk_c9,sk_c1)
    | ~ spl0_3 ),
    inference(superposition,[],[f2,f425]) ).

fof(f4071,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4070]) ).

fof(f4070,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(global_subsumption,[],[f3863,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f3863,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | sk_c8 = inverse(sk_c5)
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f21,f3438]) ).

fof(f4069,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4068]) ).

fof(f4068,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34,f41]) ).

fof(f4067,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4066]) ).

fof(f4066,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27,f34]) ).

fof(f4065,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4064]) ).

fof(f4064,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35,f27]) ).

fof(f4063,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4062]) ).

fof(f4062,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28,f35]) ).

fof(f4061,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4060]) ).

fof(f4060,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42,f28]) ).

fof(f4059,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4058]) ).

fof(f4058,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36,f42]) ).

fof(f4057,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4056]) ).

fof(f4056,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43,f36]) ).

fof(f4055,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4054]) ).

fof(f4054,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45,f43]) ).

fof(f4053,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4052]) ).

fof(f4052,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f3882,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45]) ).

fof(f3882,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f3681,f787]) ).

fof(f3681,plain,
    ( multiply(sk_c9,identity) = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1330,f1140]) ).

fof(f4051,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4050]) ).

fof(f4050,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f3885,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45]) ).

fof(f3885,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f3673,f787]) ).

fof(f3673,plain,
    ( multiply(sk_c9,identity) = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1658,f1140]) ).

fof(f4049,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4048]) ).

fof(f4048,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f3888,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45]) ).

fof(f3888,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f3671,f787]) ).

fof(f3671,plain,
    ( multiply(sk_c9,identity) = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1520,f1140]) ).

fof(f4047,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4046]) ).

fof(f4046,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f3891,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45]) ).

fof(f3891,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f3669,f787]) ).

fof(f3669,plain,
    ( multiply(sk_c9,identity) = inverse(sk_c8)
    | ~ spl0_1 ),
    inference(forward_demodulation,[],[f1201,f1140]) ).

fof(f4045,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4044]) ).

fof(f4044,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f1348,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45]) ).

fof(f4043,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4042]) ).

fof(f4042,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38,f45]) ).

fof(f4041,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4040]) ).

fof(f4040,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f2314,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38]) ).

fof(f4039,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4038]) ).

fof(f4038,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33,f38]) ).

fof(f4037,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4036]) ).

fof(f4036,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518,f33]) ).

fof(f4035,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4034]) ).

fof(f4034,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928,f3518]) ).

fof(f4033,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4032]) ).

fof(f4032,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f1869,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f4031,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4030]) ).

fof(f4030,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f1491,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f4029,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4028]) ).

fof(f4028,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f2310,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f4027,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4026]) ).

fof(f4026,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f1370,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f4025,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4024]) ).

fof(f4024,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f1662,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f4023,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4022]) ).

fof(f4022,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f866,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f4021,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4020]) ).

fof(f4020,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f3431,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f4019,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4018]) ).

fof(f4018,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f3430,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f4017,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4016]) ).

fof(f4016,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f816,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f4015,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4014]) ).

fof(f4014,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f805,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f4013,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4012]) ).

fof(f4012,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(global_subsumption,[],[f3446,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f3446,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(superposition,[],[f425,f3438]) ).

fof(f4011,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4010]) ).

fof(f4010,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f1781,f3517,f3550,f29,f30,f31,f37,f40,f3928]) ).

fof(f4009,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4008]) ).

fof(f4008,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f1781,f3517,f3550,f29,f30,f31,f37,f40]) ).

fof(f4007,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4006]) ).

fof(f4006,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(global_subsumption,[],[f3723,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f1781,f3517,f3550,f29,f30,f31,f37]) ).

fof(f3723,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | sk_c7 = inverse(sk_c6)
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f23,f3438]) ).

fof(f4005,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4004]) ).

fof(f4004,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f1781,f3517,f3550,f29,f30,f31,f37]) ).

fof(f4003,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4002]) ).

fof(f4002,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(global_subsumption,[],[f3786,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f1781,f3517,f3550,f29,f30,f31]) ).

fof(f3786,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f52,f379,f382,f380,f378,f395,f387,f403,f405,f273,f419,f14,f425,f432,f389,f463,f464,f459,f473,f470,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f1691,f36,f34,f27,f43,f41,f37,f35,f28,f42,f44,f1357,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3061,f3048,f3021,f2932,f2820,f2807,f2791,f2781,f1692,f2717,f2683,f1862,f1856,f1860,f31,f2261,f1859,f2232,f1535,f1221,f1861,f1338,f1508,f1500,f38,f45,f2689,f3389,f3147,f3390,f3132,f3056,f3054,f3020,f3012,f3391,f2940,f2938,f2916,f2913,f2903,f2899,f2896,f2890,f2797,f2787,f3394,f2314,f2310,f2280,f2278,f3398,f3399,f2218,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1678,f1027,f1024,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1441,f1858,f1869,f3408,f1334,f1657,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f1151,f40,f24,f33,f890,f939,f1031,f1662,f1201,f1658,f3420,f1330,f1360,f1503,f1520,f3422,f3424,f1491,f1444,f1348,f1370,f3425,f3426,f3427,f994,f990,f936,f3429,f866,f3430,f816,f3431,f805,f3432,f3434,f19,f3437,f467,f461,f439,f431,f3439,f32,f25,f18,f39,f3438,f3446,f55,f1140,f3516,f3517,f3523,f3524,f3529,f3530,f26,f3550,f3726]) ).

fof(f3726,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | sk_c8 = multiply(sk_c6,sk_c7)
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f22,f3438]) ).

fof(f3530,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f52,f379,f382,f380,f378,f395,f387,f403,f405,f273,f419,f14,f425,f432,f389,f463,f464,f459,f473,f470,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f1691,f36,f34,f27,f43,f41,f37,f35,f28,f42,f44,f1357,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3061,f3048,f3021,f2932,f2820,f2807,f2791,f2781,f1692,f2717,f2683,f1862,f1856,f1860,f31,f2261,f1859,f2232,f1535,f1221,f1861,f1338,f1508,f1500,f38,f45,f2689,f3389,f3147,f3390,f3132,f3056,f3054,f3020,f3012,f3391,f2940,f2938,f2916,f2913,f2903,f2899,f2896,f2890,f2797,f2787,f3394,f2314,f2310,f2280,f2278,f3398,f3399,f2218,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1678,f1027,f1024,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1441,f1858,f1869,f3408,f1334,f1657,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f1151,f40,f24,f33,f890,f939,f1031,f1662,f1201,f1658,f3420,f1330,f1360,f1503,f1520,f3422,f3424,f1491,f1444,f1348,f1370,f3425,f3426,f3427,f994,f990,f936,f3429,f866,f3430,f816,f3431,f805,f3432,f3434,f19,f3437,f467,f461,f439,f431,f3439,f32,f25,f18,f39,f3438,f3446,f55,f1140,f3516,f3517,f3523,f3524,f26,f3529]) ).

fof(f3529,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | sk_c8 = multiply(sk_c7,sk_c9)
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f24,f3438]) ).

fof(f3524,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f52,f379,f382,f380,f378,f395,f387,f403,f405,f273,f419,f14,f425,f432,f389,f463,f464,f459,f473,f470,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f1691,f36,f34,f27,f43,f41,f37,f35,f28,f42,f44,f1357,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3061,f3048,f3021,f2932,f2820,f2807,f2791,f2781,f1692,f2717,f2683,f1862,f1856,f1860,f31,f2261,f1859,f2232,f1535,f1221,f1861,f1338,f1508,f1500,f38,f45,f2689,f3389,f3147,f3390,f3132,f3056,f3054,f3020,f3012,f3391,f2940,f2938,f2916,f2913,f2903,f2899,f2896,f2890,f2797,f2787,f3394,f2314,f2310,f2280,f2278,f3398,f3399,f2218,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1678,f1027,f1024,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1441,f1858,f1869,f3408,f1334,f1657,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f1151,f40,f24,f26,f33,f890,f939,f1031,f1662,f1201,f1658,f3420,f1330,f1360,f1503,f1520,f3422,f3424,f1491,f1444,f1348,f1370,f3425,f3426,f3427,f994,f990,f936,f3429,f866,f3430,f816,f3431,f805,f3432,f3434,f19,f3437,f467,f461,f439,f431,f3439,f32,f25,f18,f39,f3438,f3446,f55,f1140,f3516,f3517,f3523]) ).

fof(f3523,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | sk_c9 = multiply(sk_c4,sk_c8)
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f19,f3438]) ).

fof(f3516,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f3515,f3438]) ).

fof(f3439,plain,
    ( sk_c8 = sk_c1
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f433,f470]) ).

fof(f433,plain,
    ( sk_c1 = multiply(sk_c8,identity)
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(superposition,[],[f378,f432]) ).

fof(f431,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c1,X0)) = X0
    | ~ spl0_3 ),
    inference(superposition,[],[f77,f425]) ).

fof(f439,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c1,X0)) = X0
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f435,f1]) ).

fof(f435,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c9,multiply(sk_c1,X0))
    | ~ spl0_3 ),
    inference(superposition,[],[f3,f432]) ).

fof(f3434,plain,
    ( sk_c8 = sk_c1
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f702,f470]) ).

fof(f702,plain,
    ( sk_c1 = multiply(sk_c8,identity)
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f694,f52]) ).

fof(f694,plain,
    ( sk_c1 = multiply(inverse(sk_c9),identity)
    | ~ spl0_3 ),
    inference(superposition,[],[f274,f425]) ).

fof(f3432,plain,
    ( ! [X0] : multiply(sk_c8,X0) = multiply(sk_c1,X0)
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f782,f52]) ).

fof(f782,plain,
    ( ! [X0] : multiply(inverse(sk_c9),X0) = multiply(sk_c1,X0)
    | ~ spl0_3 ),
    inference(superposition,[],[f284,f425]) ).

fof(f3429,plain,
    ( sk_c8 = sk_c1
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f869,f52]) ).

fof(f869,plain,
    ( inverse(sk_c9) = sk_c1
    | ~ spl0_3 ),
    inference(superposition,[],[f807,f425]) ).

fof(f1444,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c9),sk_c1) = X0
    | ~ spl0_3 ),
    inference(superposition,[],[f1356,f425]) ).

fof(f1503,plain,
    ( ! [X0] : sk_c1 = multiply(X0,inverse(multiply(sk_c9,X0)))
    | ~ spl0_3 ),
    inference(superposition,[],[f1176,f425]) ).

fof(f1360,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c1),sk_c9) = X0
    | ~ spl0_3 ),
    inference(superposition,[],[f1265,f425]) ).

fof(f3420,plain,
    ( sk_c8 = multiply(sk_c1,inverse(identity))
    | ~ spl0_1
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f1208,f52]) ).

fof(f1208,plain,
    ( inverse(sk_c9) = multiply(sk_c1,inverse(identity))
    | ~ spl0_3 ),
    inference(superposition,[],[f1172,f432]) ).

fof(f1031,plain,
    ( identity = multiply(sk_c9,multiply(sk_c1,inverse(identity)))
    | ~ spl0_3 ),
    inference(superposition,[],[f897,f432]) ).

fof(f939,plain,
    ( ! [X0] : multiply(sk_c1,multiply(sk_c9,X0)) = X0
    | ~ spl0_3 ),
    inference(superposition,[],[f788,f425]) ).

fof(f890,plain,
    ( identity = multiply(sk_c1,sk_c9)
    | ~ spl0_3 ),
    inference(superposition,[],[f785,f425]) ).

fof(f2787,plain,
    ( ! [X0] : multiply(sk_c9,inverse(X0)) = inverse(multiply(X0,sk_c1))
    | ~ spl0_3 ),
    inference(superposition,[],[f1226,f425]) ).

fof(f2797,plain,
    ( ! [X0] : multiply(inverse(X0),sk_c9) = inverse(multiply(sk_c1,X0))
    | ~ spl0_3 ),
    inference(superposition,[],[f1226,f425]) ).

fof(f2938,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c9)) = multiply(sk_c1,inverse(X0))
    | ~ spl0_3 ),
    inference(superposition,[],[f1229,f425]) ).

fof(f3054,plain,
    ( ! [X0] : inverse(multiply(sk_c9,X0)) = multiply(inverse(X0),sk_c1)
    | ~ spl0_3 ),
    inference(superposition,[],[f1542,f425]) ).

fof(f2689,plain,
    ( ! [X0] : sk_c1 = multiply(inverse(multiply(X0,sk_c9)),X0)
    | ~ spl0_3 ),
    inference(superposition,[],[f1577,f425]) ).

fof(f4001,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f4000]) ).

fof(f4000,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(global_subsumption,[],[f3530,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f1781,f3517,f3550,f29,f30,f31]) ).

fof(f3999,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3998]) ).

fof(f3998,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(global_subsumption,[],[f3524,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f1781,f3517,f3550,f29,f30,f31]) ).

fof(f3997,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3996]) ).

fof(f3996,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_8 ),
    inference(global_subsumption,[],[f3516,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f1781,f3517,f3550,f29,f30,f31]) ).

fof(f3995,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3994]) ).

fof(f3994,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f1781,f3517,f3550,f29,f30,f31]) ).

fof(f3993,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3992]) ).

fof(f3992,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f31,f1781,f3517,f3550,f29,f30]) ).

fof(f3991,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3990]) ).

fof(f3990,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f31,f30,f1781,f3517,f3550,f29]) ).

fof(f3989,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3988]) ).

fof(f3988,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f31,f30,f29,f1781,f3517,f3550]) ).

fof(f3987,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3986]) ).

fof(f3986,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f31,f30,f29,f3550,f1781,f3517]) ).

fof(f3985,plain,
    ( spl0_2
    | spl0_8
    | spl0_10 ),
    inference(avatar_contradiction_clause,[],[f3984]) ).

fof(f3984,plain,
    ( $false
    | spl0_2
    | spl0_8
    | spl0_10 ),
    inference(global_subsumption,[],[f2412,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f31,f30,f29,f3550,f3517,f1781]) ).

fof(f2412,plain,
    ( identity != sk_c3
    | spl0_10 ),
    inference(avatar_component_clause,[],[f2411]) ).

fof(f3983,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_9 ),
    inference(avatar_contradiction_clause,[],[f3982]) ).

fof(f3982,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_9 ),
    inference(global_subsumption,[],[f3257,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f31,f30,f29,f3550,f3517,f1781]) ).

fof(f3257,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f3240,f2366]) ).

fof(f3240,plain,
    ( inverse(sk_c8) = multiply(multiply(sk_c9,sk_c6),sk_c7)
    | ~ spl0_1
    | ~ spl0_9 ),
    inference(superposition,[],[f2366,f389]) ).

fof(f3981,plain,
    ( ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_9 ),
    inference(avatar_contradiction_clause,[],[f3980]) ).

fof(f3980,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | spl0_8
    | ~ spl0_9 ),
    inference(global_subsumption,[],[f3287,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f31,f30,f29,f3550,f3517,f1781]) ).

fof(f3287,plain,
    ( sk_c9 = inverse(sk_c8)
    | ~ spl0_1
    | ~ spl0_9 ),
    inference(forward_demodulation,[],[f3270,f2378]) ).

fof(f3270,plain,
    ( inverse(sk_c8) = multiply(multiply(sk_c9,sk_c7),sk_c6)
    | ~ spl0_1
    | ~ spl0_9 ),
    inference(superposition,[],[f2378,f389]) ).

fof(f3979,plain,
    ( spl0_2
    | spl0_8
    | ~ spl0_9 ),
    inference(avatar_contradiction_clause,[],[f3978]) ).

fof(f3978,plain,
    ( $false
    | spl0_2
    | spl0_8
    | ~ spl0_9 ),
    inference(global_subsumption,[],[f2364,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f31,f30,f29,f3550,f3517,f1781]) ).

fof(f3977,plain,
    ( spl0_2
    | spl0_8
    | ~ spl0_9 ),
    inference(avatar_contradiction_clause,[],[f3976]) ).

fof(f3976,plain,
    ( $false
    | spl0_2
    | spl0_8
    | ~ spl0_9 ),
    inference(global_subsumption,[],[f1786,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f31,f30,f29,f3550,f3517,f1781]) ).

fof(f3975,plain,
    ( spl0_2
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3974]) ).

fof(f3974,plain,
    ( $false
    | spl0_2
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f55,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f3518,f3928,f40,f37,f31,f30,f29,f3550,f3517,f1781]) ).

fof(f3973,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3972]) ).

fof(f3972,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f1781,f444,f428]) ).

fof(f428,plain,
    ( sk_c8 != inverse(sk_c5)
    | spl0_4 ),
    inference(avatar_component_clause,[],[f427]) ).

fof(f444,plain,
    ( sk_c9 = inverse(sk_c2)
    | spl0_4 ),
    inference(subsumption_resolution,[],[f42,f428]) ).

fof(f513,plain,
    ( ! [X0] : multiply(sk_c8,X0) = multiply(sk_c9,multiply(sk_c3,X0))
    | spl0_4 ),
    inference(superposition,[],[f3,f510]) ).

fof(f510,plain,
    ( sk_c8 = multiply(sk_c9,sk_c3)
    | spl0_4 ),
    inference(subsumption_resolution,[],[f28,f428]) ).

fof(f453,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c2,X0)) = X0
    | spl0_4 ),
    inference(forward_demodulation,[],[f449,f1]) ).

fof(f449,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c9,multiply(sk_c2,X0))
    | spl0_4 ),
    inference(superposition,[],[f3,f446]) ).

fof(f446,plain,
    ( identity = multiply(sk_c9,sk_c2)
    | spl0_4 ),
    inference(superposition,[],[f2,f444]) ).

fof(f445,plain,
    ( ! [X0] : multiply(sk_c9,multiply(sk_c2,X0)) = X0
    | spl0_4 ),
    inference(superposition,[],[f77,f444]) ).

fof(f3971,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3970]) ).

fof(f3970,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f1781,f444]) ).

fof(f3969,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3968]) ).

fof(f3968,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3967,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f1781]) ).

fof(f3967,plain,
    ( sk_c8 = sk_c2
    | ~ spl0_1
    | spl0_4 ),
    inference(forward_demodulation,[],[f870,f52]) ).

fof(f870,plain,
    ( inverse(sk_c9) = sk_c2
    | spl0_4 ),
    inference(superposition,[],[f807,f444]) ).

fof(f3966,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3965]) ).

fof(f3965,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29,f1781]) ).

fof(f3964,plain,
    ( spl0_4
    | spl0_8
    | ~ spl0_9 ),
    inference(avatar_contradiction_clause,[],[f3963]) ).

fof(f3963,plain,
    ( $false
    | spl0_4
    | spl0_8
    | ~ spl0_9 ),
    inference(global_subsumption,[],[f1786,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29]) ).

fof(f3962,plain,
    ( spl0_4
    | spl0_8
    | ~ spl0_9 ),
    inference(avatar_contradiction_clause,[],[f3961]) ).

fof(f3961,plain,
    ( $false
    | spl0_4
    | spl0_8
    | ~ spl0_9 ),
    inference(global_subsumption,[],[f2364,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29]) ).

fof(f3960,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8
    | ~ spl0_9 ),
    inference(avatar_contradiction_clause,[],[f3959]) ).

fof(f3959,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8
    | ~ spl0_9 ),
    inference(global_subsumption,[],[f3287,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29]) ).

fof(f3958,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8
    | ~ spl0_9 ),
    inference(avatar_contradiction_clause,[],[f3957]) ).

fof(f3957,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8
    | ~ spl0_9 ),
    inference(global_subsumption,[],[f3257,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29]) ).

fof(f3956,plain,
    ( spl0_4
    | spl0_8
    | spl0_10 ),
    inference(avatar_contradiction_clause,[],[f3955]) ).

fof(f3955,plain,
    ( $false
    | spl0_4
    | spl0_8
    | spl0_10 ),
    inference(global_subsumption,[],[f2412,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29]) ).

fof(f3954,plain,
    ( spl0_2
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3953]) ).

fof(f3953,plain,
    ( $false
    | spl0_2
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3517,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29]) ).

fof(f3952,plain,
    ( spl0_2
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3951]) ).

fof(f3951,plain,
    ( $false
    | spl0_2
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3550,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29]) ).

fof(f3950,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3949]) ).

fof(f3949,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30,f29]) ).

fof(f3948,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3947]) ).

fof(f3947,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31,f30]) ).

fof(f3946,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3945]) ).

fof(f3945,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37,f31]) ).

fof(f3944,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3943]) ).

fof(f3943,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3516,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37]) ).

fof(f3942,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3941]) ).

fof(f3941,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3524,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37]) ).

fof(f3940,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3939]) ).

fof(f3939,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3530,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37]) ).

fof(f3938,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3937]) ).

fof(f3937,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3786,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37]) ).

fof(f3936,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3935]) ).

fof(f3935,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40,f37]) ).

fof(f3934,plain,
    ( ~ spl0_1
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3933]) ).

fof(f3933,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3723,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40]) ).

fof(f3932,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3931]) ).

fof(f3931,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33,f40]) ).

fof(f3930,plain,
    ( spl0_2
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3929]) ).

fof(f3929,plain,
    ( $false
    | spl0_2
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3928,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3927,plain,
    ( ~ spl0_1
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3926]) ).

fof(f3926,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3446,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3925,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3924]) ).

fof(f3924,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f805,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3923,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3922]) ).

fof(f3922,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f816,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3921,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3920]) ).

fof(f3920,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3430,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3919,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3918]) ).

fof(f3918,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3431,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3917,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3916]) ).

fof(f3916,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f866,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3915,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3914]) ).

fof(f3914,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f1662,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3913,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3912]) ).

fof(f3912,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f1370,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3911,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3910]) ).

fof(f3910,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f2310,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3909,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3908]) ).

fof(f3908,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f1491,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3907,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3906]) ).

fof(f3906,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f1869,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3905,plain,
    ( spl0_2
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3904]) ).

fof(f3904,plain,
    ( $false
    | spl0_2
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3518,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3903,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3902]) ).

fof(f3902,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38,f33]) ).

fof(f3901,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3900]) ).

fof(f3900,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45,f38]) ).

fof(f3899,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3898]) ).

fof(f3898,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f2314,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45]) ).

fof(f3897,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3896]) ).

fof(f3896,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43,f45]) ).

fof(f3895,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3894]) ).

fof(f3894,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f1348,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43]) ).

fof(f3893,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3892]) ).

fof(f3892,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3891,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43]) ).

fof(f3890,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3889]) ).

fof(f3889,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3888,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43]) ).

fof(f3887,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3886]) ).

fof(f3886,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3885,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43]) ).

fof(f3884,plain,
    ( ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3883]) ).

fof(f3883,plain,
    ( $false
    | ~ spl0_1
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3882,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43]) ).

fof(f3881,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3880]) ).

fof(f3880,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36,f43]) ).

fof(f3879,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3878]) ).

fof(f3878,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f43,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42,f36]) ).

fof(f3877,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3876]) ).

fof(f3876,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f36,f43,f37,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28,f42]) ).

fof(f3875,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3874]) ).

fof(f3874,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f36,f43,f37,f42,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35,f28]) ).

fof(f3873,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3872]) ).

fof(f3872,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f36,f43,f37,f28,f42,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27,f35]) ).

fof(f3871,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3870]) ).

fof(f3870,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f36,f43,f37,f35,f28,f42,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34,f27]) ).

fof(f3869,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3868]) ).

fof(f3868,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f36,f27,f43,f37,f35,f28,f42,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41,f34]) ).

fof(f3867,plain,
    ( spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3866]) ).

fof(f3866,plain,
    ( $false
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f36,f34,f27,f43,f37,f35,f28,f42,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26,f41]) ).

fof(f3865,plain,
    ( ~ spl0_1
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3864]) ).

fof(f3864,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3863,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f36,f34,f27,f43,f41,f37,f35,f28,f42,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26]) ).

fof(f3862,plain,
    ( ~ spl0_1
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(avatar_contradiction_clause,[],[f3861]) ).

fof(f3861,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_3
    | spl0_4
    | spl0_8 ),
    inference(global_subsumption,[],[f3860,f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f273,f419,f14,f428,f444,f445,f446,f453,f510,f513,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f36,f34,f27,f43,f41,f37,f35,f28,f42,f44,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f31,f38,f45,f1781,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2278,f3399,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f40,f24,f33,f19,f32,f25,f18,f39,f26]) ).

fof(f3859,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f3858]) ).

fof(f3858,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10
    | spl0_11 ),
    inference(subsumption_resolution,[],[f3857,f2416]) ).

fof(f3857,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10 ),
    inference(forward_demodulation,[],[f3843,f2]) ).

fof(f3843,plain,
    ( sk_c9 = multiply(inverse(sk_c9),sk_c9)
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10 ),
    inference(superposition,[],[f77,f3831]) ).

fof(f3831,plain,
    ( sk_c9 = multiply(sk_c9,sk_c9)
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10 ),
    inference(forward_demodulation,[],[f3516,f3587]) ).

fof(f3587,plain,
    ( sk_c9 = sk_c8
    | spl0_2
    | ~ spl0_10 ),
    inference(forward_demodulation,[],[f3586,f787]) ).

fof(f3586,plain,
    ( sk_c8 = multiply(sk_c9,identity)
    | spl0_2
    | ~ spl0_10 ),
    inference(forward_demodulation,[],[f3517,f2413]) ).

fof(f3854,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f3853]) ).

fof(f3853,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10
    | spl0_11 ),
    inference(subsumption_resolution,[],[f3852,f2416]) ).

fof(f3852,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10 ),
    inference(forward_demodulation,[],[f3840,f785]) ).

fof(f3840,plain,
    ( sk_c9 = multiply(sk_c9,inverse(sk_c9))
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10 ),
    inference(superposition,[],[f1265,f3831]) ).

fof(f3850,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f3849]) ).

fof(f3849,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10
    | spl0_11 ),
    inference(subsumption_resolution,[],[f3848,f2416]) ).

fof(f3848,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10 ),
    inference(forward_demodulation,[],[f3838,f379]) ).

fof(f3838,plain,
    ( sk_c9 = multiply(sk_c8,sk_c9)
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10 ),
    inference(superposition,[],[f378,f3831]) ).

fof(f3847,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f3846]) ).

fof(f3846,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10
    | spl0_11 ),
    inference(subsumption_resolution,[],[f3845,f2416]) ).

fof(f3845,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10 ),
    inference(forward_demodulation,[],[f3837,f459]) ).

fof(f3837,plain,
    ( sk_c9 = multiply(sk_c9,sk_c8)
    | ~ spl0_1
    | spl0_2
    | ~ spl0_3
    | ~ spl0_10 ),
    inference(superposition,[],[f1357,f3831]) ).

fof(f3778,plain,
    ( spl0_5
    | spl0_6
    | spl0_7
    | spl0_7
    | spl0_7
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(avatar_split_clause,[],[f3705,f2415,f50,f1628,f1628,f1628,f1625,f1622]) ).

fof(f3705,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X7,identity)
        | identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7) )
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(global_subsumption,[],[f11,f1,f2,f4,f3,f77,f276,f48,f22,f20,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f52,f379,f382,f380,f378,f395,f387,f403,f405,f273,f419,f14,f389,f463,f464,f459,f473,f470,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1035,f1023,f1107,f1691,f36,f34,f27,f43,f41,f37,f35,f28,f42,f44,f1357,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f2435,f2423,f2436,f2428,f2439,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3061,f3048,f3021,f2932,f2820,f2807,f2791,f2781,f1692,f2717,f2683,f1862,f1856,f1860,f31,f2261,f1859,f2232,f1535,f1221,f1861,f1338,f1508,f1500,f38,f45,f3389,f3147,f3390,f3132,f3056,f3020,f3012,f3391,f2940,f2916,f2913,f2903,f2899,f2896,f2890,f3394,f2314,f2310,f2280,f2278,f3398,f3399,f2218,f2215,f1684,f1003,f1661,f1219,f1212,f1199,f1678,f1027,f1024,f1464,f1458,f1645,f1329,f1667,f1666,f1636,f1635,f1633,f1505,f1441,f1858,f1869,f3408,f1334,f1657,f1640,f1368,f1231,f1153,f1152,f1142,f1141,f1694,f1693,f898,f892,f821,f820,f810,f809,f763,f760,f1151,f40,f24,f33,f1662,f1201,f1658,f1330,f1520,f3422,f3424,f1491,f1348,f1370,f3425,f3426,f3427,f994,f990,f936,f866,f3430,f816,f3431,f805,f19,f3437,f467,f461,f32,f25,f18,f39,f1140,f2575,f2599,f3546,f26,f2417,f3559,f3560,f3554,f3561,f3557,f3563,f3691,f3692,f3693,f3695,f3704]) ).

fof(f3704,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X7,identity)
        | identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != sk_c8
        | identity != inverse(X7) )
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3703,f2417]) ).

fof(f3703,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != sk_c8
        | identity != inverse(X7)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3702,f2417]) ).

fof(f3702,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != sk_c8
        | identity != inverse(X7)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3701,f2417]) ).

fof(f3701,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != sk_c8
        | identity != inverse(X7)
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3700,f787]) ).

fof(f3700,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(identity,multiply(X5,identity))
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != sk_c8
        | identity != inverse(X7)
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3699,f2417]) ).

fof(f3699,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != sk_c8
        | identity != inverse(X7)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3698,f2417]) ).

fof(f3698,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != sk_c8
        | identity != inverse(X7)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3697,f2417]) ).

fof(f3697,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X5)
        | identity != inverse(X3)
        | identity != sk_c8
        | identity != inverse(X7)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3696,f2417]) ).

fof(f3696,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X3)
        | identity != sk_c8
        | identity != inverse(X7)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f1692,f2417]) ).

fof(f3695,plain,
    ( ! [X0] : multiply(identity,multiply(sk_c8,X0)) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f994,f2417]) ).

fof(f3693,plain,
    ( ! [X0] : multiply(identity,multiply(sk_c8,X0)) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3437,f2417]) ).

fof(f3692,plain,
    ( ! [X0] : multiply(identity,multiply(sk_c8,X0)) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3422,f2417]) ).

fof(f3691,plain,
    ( ! [X0] : multiply(identity,multiply(sk_c8,X0)) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3424,f2417]) ).

fof(f3563,plain,
    ( ! [X0] : multiply(X0,sk_c8) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3558,f787]) ).

fof(f3558,plain,
    ( ! [X0] : multiply(multiply(X0,identity),sk_c8) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f1357,f2417]) ).

fof(f3557,plain,
    ( identity = multiply(identity,sk_c8)
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f459,f2417]) ).

fof(f3561,plain,
    ( identity = multiply(sk_c8,identity)
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3555,f807]) ).

fof(f3555,plain,
    ( identity = multiply(inverse(inverse(sk_c8)),identity)
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f387,f2417]) ).

fof(f3554,plain,
    ( identity = multiply(sk_c8,identity)
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f379,f2417]) ).

fof(f3560,plain,
    ( ! [X0] : multiply(sk_c8,X0) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3553,f1]) ).

fof(f3553,plain,
    ( ! [X0] : multiply(sk_c8,multiply(identity,X0)) = X0
    | ~ spl0_1
    | ~ spl0_11 ),
    inference(superposition,[],[f378,f2417]) ).

fof(f3690,plain,
    ( spl0_5
    | spl0_6
    | spl0_7
    | spl0_7
    | spl0_7
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(avatar_split_clause,[],[f3659,f2415,f1784,f1780,f50,f1628,f1628,f1628,f1625,f1622]) ).

fof(f3659,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X7,identity)
        | identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7) )
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3658,f2417]) ).

fof(f3658,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3657,f2417]) ).

fof(f3657,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3656,f2417]) ).

fof(f3656,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3655,f787]) ).

fof(f3655,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(identity,multiply(X5,identity))
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3654,f2417]) ).

fof(f3654,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3653,f2417]) ).

fof(f3653,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3652,f2417]) ).

fof(f3652,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3651,f2417]) ).

fof(f3651,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f3650,f2417]) ).

fof(f3650,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X7)
        | sk_c9 != inverse(X3)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_8
    | ~ spl0_9
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f1692,f3548]) ).

fof(f3522,plain,
    ( ~ spl0_1
    | spl0_2
    | ~ spl0_8
    | spl0_10 ),
    inference(avatar_contradiction_clause,[],[f3521]) ).

fof(f3521,plain,
    ( $false
    | ~ spl0_1
    | spl0_2
    | ~ spl0_8
    | spl0_10 ),
    inference(subsumption_resolution,[],[f3520,f2412]) ).

fof(f3520,plain,
    ( identity = sk_c3
    | ~ spl0_1
    | spl0_2
    | ~ spl0_8 ),
    inference(forward_demodulation,[],[f3519,f379]) ).

fof(f3519,plain,
    ( sk_c3 = multiply(sk_c8,sk_c9)
    | ~ spl0_1
    | spl0_2
    | ~ spl0_8 ),
    inference(forward_demodulation,[],[f3518,f1804]) ).

fof(f3514,plain,
    ( ~ spl0_1
    | ~ spl0_4
    | ~ spl0_8
    | spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f3513]) ).

fof(f3513,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_4
    | ~ spl0_8
    | spl0_10
    | spl0_11 ),
    inference(subsumption_resolution,[],[f3512,f2412]) ).

fof(f3512,plain,
    ( identity = sk_c3
    | ~ spl0_1
    | ~ spl0_4
    | ~ spl0_8
    | spl0_11 ),
    inference(forward_demodulation,[],[f3511,f379]) ).

fof(f3511,plain,
    ( sk_c3 = multiply(sk_c8,sk_c9)
    | ~ spl0_1
    | ~ spl0_4
    | ~ spl0_8
    | spl0_11 ),
    inference(forward_demodulation,[],[f3376,f1804]) ).

fof(f3376,plain,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | ~ spl0_1
    | ~ spl0_4
    | spl0_11 ),
    inference(subsumption_resolution,[],[f3375,f2416]) ).

fof(f3375,plain,
    ( identity = sk_c9
    | sk_c3 = multiply(sk_c2,sk_c9)
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f3374,f459]) ).

fof(f3374,plain,
    ( sk_c9 = multiply(sk_c9,sk_c8)
    | sk_c3 = multiply(sk_c2,sk_c9)
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f34,f1729]) ).

fof(f3385,plain,
    ( ~ spl0_1
    | ~ spl0_4
    | spl0_8
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f3384]) ).

fof(f3384,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_4
    | spl0_8
    | spl0_11 ),
    inference(global_subsumption,[],[f11,f39,f32,f25,f18,f1,f2,f4,f3,f77,f276,f48,f33,f26,f24,f22,f20,f19,f40,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f52,f379,f382,f380,f378,f395,f387,f403,f405,f273,f419,f14,f389,f463,f464,f459,f473,f470,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1633,f1635,f1636,f1505,f1464,f1458,f1640,f1441,f1334,f1645,f1329,f1368,f1219,f1212,f1657,f1199,f1661,f1666,f1667,f1231,f1153,f1152,f1151,f1142,f1141,f1140,f1035,f1027,f1678,f1024,f1023,f1107,f1684,f1003,f898,f892,f1691,f1693,f821,f820,f1694,f810,f809,f763,f760,f36,f34,f27,f43,f41,f37,f35,f28,f42,f429,f1718,f1719,f1730,f1731,f1723,f1724,f1726,f1727,f1728,f1729,f44,f1357,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3061,f3112,f3048,f3021,f2988,f2932,f2820,f2807,f2871,f2791,f2841,f2781,f1692,f2717,f3184,f2683,f1862,f1856,f1860,f31,f2261,f1859,f2232,f1535,f1221,f1861,f1338,f2354,f1508,f1500,f2353,f2416,f3376,f38,f3379,f45,f3383,f3293,f1781]) ).

fof(f3383,plain,
    ( sk_c9 = inverse(sk_c2)
    | ~ spl0_1
    | ~ spl0_4
    | spl0_11 ),
    inference(subsumption_resolution,[],[f3382,f2416]) ).

fof(f3382,plain,
    ( identity = sk_c9
    | sk_c9 = inverse(sk_c2)
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f3381,f459]) ).

fof(f3381,plain,
    ( sk_c9 = multiply(sk_c9,sk_c8)
    | sk_c9 = inverse(sk_c2)
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f41,f1729]) ).

fof(f3379,plain,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | ~ spl0_1
    | ~ spl0_4
    | spl0_11 ),
    inference(global_subsumption,[],[f11,f39,f32,f25,f18,f1,f2,f4,f3,f77,f276,f48,f33,f26,f24,f22,f20,f19,f40,f23,f21,f17,f15,f13,f12,f10,f8,f6,f5,f16,f9,f7,f52,f379,f382,f380,f378,f395,f387,f403,f405,f273,f419,f14,f389,f463,f464,f459,f473,f470,f274,f706,f698,f761,f777,f284,f791,f792,f795,f796,f787,f837,f818,f843,f807,f878,f879,f785,f932,f908,f788,f959,f969,f897,f1009,f1039,f1148,f1174,f1177,f1172,f1185,f1197,f1216,f1319,f1227,f1230,f1265,f1328,f1340,f1363,f1364,f1365,f1366,f1356,f1456,f1459,f1460,f1461,f1462,f1176,f1519,f1528,f1540,f1541,f1543,f1545,f1546,f1533,f1524,f1633,f1635,f1636,f1505,f1464,f1458,f1640,f1441,f1334,f1645,f1329,f1368,f1219,f1212,f1657,f1199,f1661,f1666,f1667,f1231,f1153,f1152,f1151,f1142,f1141,f1140,f1035,f1027,f1678,f1024,f1023,f1107,f1684,f1003,f898,f892,f1691,f1693,f821,f820,f1694,f810,f809,f763,f760,f36,f34,f27,f45,f43,f41,f37,f35,f28,f42,f429,f1718,f1719,f1730,f1731,f1723,f1724,f1726,f1727,f1728,f1729,f44,f1357,f1269,f2222,f2233,f2234,f2254,f2258,f2260,f29,f30,f1577,f2704,f2710,f2714,f2716,f1226,f2780,f2790,f2808,f2821,f2829,f1229,f2977,f2955,f2961,f3035,f3037,f2966,f3038,f3039,f3041,f3042,f2972,f2973,f2974,f1542,f3099,f3101,f3083,f3162,f3164,f3088,f3165,f3167,f3168,f3170,f3171,f3095,f3096,f3097,f3061,f3112,f3048,f3021,f2988,f2932,f2820,f2807,f2871,f2791,f2841,f2781,f1692,f2717,f3184,f2683,f1862,f1856,f1860,f31,f2261,f1859,f2232,f1535,f1221,f1861,f1338,f2354,f1508,f1500,f2353,f2416,f3376,f38]) ).

fof(f2354,plain,
    ( ! [X0] : sk_c9 = multiply(X0,inverse(multiply(sk_c8,X0)))
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f1726,f1729]) ).

fof(f3184,plain,
    ( ! [X0] : sk_c9 = multiply(inverse(multiply(X0,sk_c8)),X0)
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f2686,f1729]) ).

fof(f2686,plain,
    ( ! [X0] : sk_c5 = multiply(inverse(multiply(X0,sk_c8)),X0)
    | ~ spl0_4 ),
    inference(superposition,[],[f1577,f429]) ).

fof(f2841,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c9)) = multiply(sk_c8,inverse(X0))
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f2784,f1729]) ).

fof(f2784,plain,
    ( ! [X0] : multiply(sk_c8,inverse(X0)) = inverse(multiply(X0,sk_c5))
    | ~ spl0_4 ),
    inference(superposition,[],[f1226,f429]) ).

fof(f2871,plain,
    ( ! [X0] : inverse(multiply(sk_c9,X0)) = multiply(inverse(X0),sk_c8)
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f2794,f1729]) ).

fof(f2794,plain,
    ( ! [X0] : multiply(inverse(X0),sk_c8) = inverse(multiply(sk_c5,X0))
    | ~ spl0_4 ),
    inference(superposition,[],[f1226,f429]) ).

fof(f2988,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c8)) = multiply(sk_c9,inverse(X0))
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f2935,f1729]) ).

fof(f2935,plain,
    ( ! [X0] : inverse(multiply(X0,sk_c8)) = multiply(sk_c5,inverse(X0))
    | ~ spl0_4 ),
    inference(superposition,[],[f1229,f429]) ).

fof(f3112,plain,
    ( ! [X0] : inverse(multiply(sk_c8,X0)) = multiply(inverse(X0),sk_c9)
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f3051,f1729]) ).

fof(f3051,plain,
    ( ! [X0] : inverse(multiply(sk_c8,X0)) = multiply(inverse(X0),sk_c5)
    | ~ spl0_4 ),
    inference(superposition,[],[f1542,f429]) ).

fof(f1728,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c8),sk_c5) = X0
    | ~ spl0_4 ),
    inference(superposition,[],[f1356,f429]) ).

fof(f1727,plain,
    ( ! [X0] : multiply(multiply(X0,sk_c5),sk_c8) = X0
    | ~ spl0_4 ),
    inference(superposition,[],[f1265,f429]) ).

fof(f1726,plain,
    ( ! [X0] : sk_c5 = multiply(X0,inverse(multiply(sk_c8,X0)))
    | ~ spl0_4 ),
    inference(superposition,[],[f1176,f429]) ).

fof(f1724,plain,
    ( ! [X0] : multiply(sk_c5,multiply(sk_c8,X0)) = X0
    | ~ spl0_4 ),
    inference(superposition,[],[f788,f429]) ).

fof(f1723,plain,
    ( identity = multiply(sk_c5,sk_c8)
    | ~ spl0_4 ),
    inference(superposition,[],[f785,f429]) ).

fof(f1731,plain,
    ( identity = multiply(sk_c8,sk_c5)
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f1722,f807]) ).

fof(f1722,plain,
    ( identity = multiply(inverse(inverse(sk_c8)),sk_c5)
    | ~ spl0_4 ),
    inference(superposition,[],[f698,f429]) ).

fof(f1730,plain,
    ( ! [X0] : multiply(sk_c9,X0) = multiply(sk_c5,X0)
    | ~ spl0_1
    | ~ spl0_4 ),
    inference(forward_demodulation,[],[f1721,f389]) ).

fof(f1721,plain,
    ( ! [X0] : multiply(sk_c5,X0) = multiply(inverse(sk_c8),X0)
    | ~ spl0_4 ),
    inference(superposition,[],[f284,f429]) ).

fof(f1719,plain,
    ( ! [X0] : multiply(sk_c8,multiply(sk_c5,X0)) = X0
    | ~ spl0_4 ),
    inference(superposition,[],[f77,f429]) ).

fof(f1718,plain,
    ( identity = multiply(sk_c8,sk_c5)
    | ~ spl0_4 ),
    inference(superposition,[],[f2,f429]) ).

fof(f3373,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f3372]) ).

fof(f3372,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(subsumption_resolution,[],[f3371,f2416]) ).

fof(f3371,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(forward_demodulation,[],[f3357,f2]) ).

fof(f3357,plain,
    ( sk_c9 = multiply(inverse(sk_c9),sk_c9)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(superposition,[],[f77,f3310]) ).

fof(f3310,plain,
    ( sk_c9 = multiply(sk_c9,sk_c9)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(superposition,[],[f1711,f3295]) ).

fof(f1711,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3 ),
    inference(duplicate_literal_removal,[],[f1710]) ).

fof(f1710,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | sk_c9 = multiply(sk_c8,sk_c8)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f1709,f475]) ).

fof(f1709,plain,
    ( sk_c9 = multiply(sk_c4,sk_c8)
    | sk_c9 = multiply(sk_c8,sk_c8)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f667,f438]) ).

fof(f438,plain,
    ( sk_c4 = sk_c1
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3 ),
    inference(forward_demodulation,[],[f437,f383]) ).

fof(f667,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | sk_c9 = multiply(sk_c1,sk_c8)
    | ~ spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f19,f386]) ).

fof(f3368,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f3367]) ).

fof(f3367,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(subsumption_resolution,[],[f3366,f2416]) ).

fof(f3366,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(forward_demodulation,[],[f3354,f785]) ).

fof(f3354,plain,
    ( sk_c9 = multiply(sk_c9,inverse(sk_c9))
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(superposition,[],[f1265,f3310]) ).

fof(f3364,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f3363]) ).

fof(f3363,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(subsumption_resolution,[],[f3362,f2416]) ).

fof(f3362,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(forward_demodulation,[],[f3352,f379]) ).

fof(f3352,plain,
    ( sk_c9 = multiply(sk_c8,sk_c9)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(superposition,[],[f378,f3310]) ).

fof(f3361,plain,
    ( ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(avatar_contradiction_clause,[],[f3360]) ).

fof(f3360,plain,
    ( $false
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(subsumption_resolution,[],[f3359,f2416]) ).

fof(f3359,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(forward_demodulation,[],[f3351,f459]) ).

fof(f3351,plain,
    ( sk_c9 = multiply(sk_c9,sk_c8)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_4
    | ~ spl0_10
    | spl0_11 ),
    inference(superposition,[],[f1357,f3310]) ).

fof(f3173,plain,
    ( spl0_5
    | spl0_6
    | spl0_7
    | spl0_7
    | spl0_7
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(avatar_split_clause,[],[f2778,f2415,f54,f50,f1628,f1628,f1628,f1625,f1622]) ).

fof(f2778,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X7,identity)
        | identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2777,f2417]) ).

fof(f2777,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2776,f2417]) ).

fof(f2776,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2775,f2417]) ).

fof(f2775,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2774,f787]) ).

fof(f2774,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(identity,multiply(X5,identity))
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2773,f2417]) ).

fof(f2773,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2772,f2417]) ).

fof(f2772,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2771,f2417]) ).

fof(f2771,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2770,f2417]) ).

fof(f2770,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2769,f2417]) ).

fof(f2769,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X7)
        | sk_c9 != inverse(X3)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(subsumption_resolution,[],[f1692,f2432]) ).

fof(f2432,plain,
    ( identity = sk_c8
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_11 ),
    inference(forward_demodulation,[],[f2419,f1138]) ).

fof(f1138,plain,
    ( identity = inverse(identity)
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f1040,f58]) ).

fof(f1040,plain,
    ( identity = inverse(multiply(sk_c9,sk_c4))
    | ~ spl0_2 ),
    inference(superposition,[],[f897,f80]) ).

fof(f2418,plain,
    ( spl0_10
    | spl0_11
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_4
    | ~ spl0_8 ),
    inference(avatar_split_clause,[],[f2350,f1780,f427,f54,f50,f2415,f2411]) ).

fof(f2350,plain,
    ( identity = sk_c9
    | identity = sk_c3
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_4
    | ~ spl0_8 ),
    inference(forward_demodulation,[],[f2349,f459]) ).

fof(f2349,plain,
    ( sk_c9 = multiply(sk_c9,sk_c8)
    | identity = sk_c3
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_4
    | ~ spl0_8 ),
    inference(forward_demodulation,[],[f2348,f1729]) ).

fof(f2348,plain,
    ( identity = sk_c3
    | sk_c9 = multiply(sk_c5,sk_c8)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8 ),
    inference(forward_demodulation,[],[f2347,f379]) ).

fof(f2347,plain,
    ( sk_c3 = multiply(sk_c8,sk_c9)
    | sk_c9 = multiply(sk_c5,sk_c8)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_8 ),
    inference(forward_demodulation,[],[f34,f1801]) ).

fof(f2333,plain,
    ( spl0_5
    | spl0_6
    | spl0_7
    | spl0_7
    | spl0_7
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(avatar_split_clause,[],[f2190,f1784,f1780,f423,f54,f50,f1628,f1628,f1628,f1625,f1622]) ).

fof(f2190,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X7,identity)
        | identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f2189,f1906]) ).

fof(f1906,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(superposition,[],[f1905,f1834]) ).

fof(f1834,plain,
    ( sk_c9 = sk_c3
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_9 ),
    inference(forward_demodulation,[],[f1833,f1711]) ).

fof(f1833,plain,
    ( sk_c3 = multiply(sk_c8,sk_c8)
    | ~ spl0_1
    | spl0_9 ),
    inference(forward_demodulation,[],[f1827,f52]) ).

fof(f1827,plain,
    ( sk_c3 = multiply(inverse(sk_c9),sk_c8)
    | spl0_9 ),
    inference(superposition,[],[f77,f1822]) ).

fof(f2189,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f2188,f1906]) ).

fof(f2188,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f2187,f1906]) ).

fof(f2187,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f2186,f787]) ).

fof(f2186,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(identity,multiply(X5,identity))
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f2185,f1906]) ).

fof(f2185,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f2184,f1906]) ).

fof(f2184,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f2183,f1906]) ).

fof(f2183,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f2182,f1906]) ).

fof(f2182,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f2181,f1906]) ).

fof(f2181,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X7)
        | sk_c9 != inverse(X3)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | identity != multiply(inverse(X8),sk_c9)
        | identity != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c9 != multiply(X3,identity)
        | sk_c9 != multiply(X6,identity)
        | sk_c9 != multiply(X7,identity) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(subsumption_resolution,[],[f1692,f1947]) ).

fof(f1947,plain,
    ( identity = sk_c8
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(forward_demodulation,[],[f1933,f1138]) ).

fof(f1933,plain,
    ( sk_c8 = inverse(identity)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | ~ spl0_8
    | spl0_9 ),
    inference(superposition,[],[f52,f1906]) ).

fof(f1787,plain,
    ( spl0_8
    | spl0_9 ),
    inference(avatar_split_clause,[],[f44,f1784,f1780]) ).

fof(f1630,plain,
    ( spl0_5
    | spl0_6
    | spl0_7
    | spl0_7
    | spl0_7
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(avatar_split_clause,[],[f998,f427,f423,f54,f50,f1628,f1628,f1628,f1625,f1622]) ).

fof(f998,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X7,identity)
        | identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(subsumption_resolution,[],[f864,f785]) ).

fof(f864,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X7,identity)
        | identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(X8,inverse(X8))
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f863,f522]) ).

fof(f522,plain,
    ( identity = sk_c9
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(superposition,[],[f521,f516]) ).

fof(f516,plain,
    ( sk_c9 = sk_c3
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f515,f499]) ).

fof(f499,plain,
    ( sk_c9 = multiply(sk_c8,sk_c8)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f498,f475]) ).

fof(f498,plain,
    ( sk_c9 = multiply(sk_c4,sk_c8)
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f497,f438]) ).

fof(f497,plain,
    ( sk_c9 = multiply(sk_c1,sk_c8)
    | spl0_4 ),
    inference(subsumption_resolution,[],[f21,f428]) ).

fof(f515,plain,
    ( sk_c3 = multiply(sk_c8,sk_c8)
    | ~ spl0_1
    | spl0_4 ),
    inference(forward_demodulation,[],[f512,f52]) ).

fof(f512,plain,
    ( sk_c3 = multiply(inverse(sk_c9),sk_c8)
    | spl0_4 ),
    inference(superposition,[],[f77,f510]) ).

fof(f521,plain,
    ( identity = sk_c3
    | ~ spl0_1
    | ~ spl0_2
    | spl0_4 ),
    inference(forward_demodulation,[],[f520,f379]) ).

fof(f520,plain,
    ( sk_c3 = multiply(sk_c8,sk_c9)
    | ~ spl0_1
    | ~ spl0_2
    | spl0_4 ),
    inference(forward_demodulation,[],[f519,f475]) ).

fof(f519,plain,
    ( sk_c3 = multiply(sk_c4,sk_c9)
    | ~ spl0_1
    | ~ spl0_2
    | spl0_4 ),
    inference(forward_demodulation,[],[f518,f452]) ).

fof(f452,plain,
    ( sk_c4 = sk_c2
    | ~ spl0_1
    | ~ spl0_2
    | spl0_4 ),
    inference(forward_demodulation,[],[f451,f383]) ).

fof(f451,plain,
    ( sk_c2 = multiply(sk_c8,identity)
    | ~ spl0_1
    | spl0_4 ),
    inference(forward_demodulation,[],[f448,f52]) ).

fof(f448,plain,
    ( sk_c2 = multiply(inverse(sk_c9),identity)
    | spl0_4 ),
    inference(superposition,[],[f77,f446]) ).

fof(f518,plain,
    ( sk_c3 = multiply(sk_c2,sk_c9)
    | spl0_4 ),
    inference(subsumption_resolution,[],[f35,f428]) ).

fof(f863,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( sk_c9 != multiply(X7,sk_c9)
        | identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(X8,inverse(X8))
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f862,f525]) ).

fof(f525,plain,
    ( sk_c9 = sk_c8
    | ~ spl0_1
    | ~ spl0_2
    | spl0_4 ),
    inference(forward_demodulation,[],[f524,f411]) ).

fof(f524,plain,
    ( sk_c8 = multiply(sk_c9,identity)
    | ~ spl0_1
    | ~ spl0_2
    | spl0_4 ),
    inference(superposition,[],[f510,f521]) ).

fof(f862,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X6,identity)
        | identity != multiply(X3,identity)
        | identity != multiply(X8,inverse(X8))
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f861,f522]) ).

fof(f861,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( sk_c9 != multiply(X6,sk_c9)
        | identity != multiply(X3,identity)
        | identity != multiply(X8,inverse(X8))
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f860,f525]) ).

fof(f860,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X3,identity)
        | identity != multiply(X8,inverse(X8))
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f859,f522]) ).

fof(f859,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( sk_c9 != multiply(X3,sk_c9)
        | identity != multiply(X8,inverse(X8))
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f858,f525]) ).

fof(f858,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(X8,inverse(X8))
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f857,f522]) ).

fof(f857,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( sk_c9 != multiply(X8,inverse(X8))
        | identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f856,f525]) ).

fof(f856,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f855,f522]) ).

fof(f855,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( sk_c9 != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f854,f525]) ).

fof(f854,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( sk_c8 != multiply(identity,X5)
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f853,f787]) ).

fof(f853,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( sk_c8 != multiply(identity,multiply(X5,identity))
        | identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f852,f522]) ).

fof(f852,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c8 != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f851,f522]) ).

fof(f851,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( sk_c9 != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c8 != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f850,f525]) ).

fof(f850,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( sk_c8 != multiply(inverse(X8),identity)
        | identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c8 != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f849,f522]) ).

fof(f849,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X6)
        | identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c8 != multiply(inverse(X8),sk_c9)
        | sk_c8 != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f848,f522]) ).

fof(f848,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X5)
        | identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != inverse(X6)
        | sk_c8 != multiply(inverse(X8),sk_c9)
        | sk_c8 != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f847,f522]) ).

fof(f847,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X3)
        | identity != inverse(X7)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | sk_c8 != multiply(inverse(X8),sk_c9)
        | sk_c8 != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f846,f522]) ).

fof(f846,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( identity != inverse(X7)
        | sk_c9 != inverse(X3)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | sk_c8 != multiply(inverse(X8),sk_c9)
        | sk_c8 != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | ~ spl0_3
    | spl0_4 ),
    inference(forward_demodulation,[],[f845,f522]) ).

fof(f845,plain,
    ( ! [X3,X8,X6,X7,X5] :
        ( sk_c9 != inverse(X7)
        | sk_c9 != inverse(X3)
        | sk_c9 != inverse(X5)
        | sk_c9 != inverse(X6)
        | sk_c8 != multiply(inverse(X8),sk_c9)
        | sk_c8 != multiply(sk_c9,multiply(X5,sk_c9))
        | sk_c8 != multiply(X8,inverse(X8))
        | sk_c9 != multiply(X3,sk_c8)
        | sk_c9 != multiply(X6,sk_c8)
        | sk_c9 != multiply(X7,sk_c8) )
    | ~ spl0_1
    | ~ spl0_2
    | spl0_4 ),
    inference(forward_demodulation,[],[f844,f525]) ).

fof(f430,plain,
    ( spl0_3
    | spl0_4 ),
    inference(avatar_split_clause,[],[f14,f427,f423]) ).

fof(f365,plain,
    ( spl0_1
    | ~ spl0_2 ),
    inference(avatar_contradiction_clause,[],[f364]) ).

fof(f364,plain,
    ( $false
    | spl0_1
    | ~ spl0_2 ),
    inference(subsumption_resolution,[],[f363,f134]) ).

fof(f134,plain,
    ( sk_c9 = sk_c8
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f133,f63]) ).

fof(f63,plain,
    ( sk_c9 = multiply(sk_c4,sk_c8)
    | spl0_1 ),
    inference(subsumption_resolution,[],[f5,f51]) ).

fof(f51,plain,
    ( inverse(sk_c9) != sk_c8
    | spl0_1 ),
    inference(avatar_component_clause,[],[f50]) ).

fof(f133,plain,
    ( sk_c8 = multiply(sk_c4,sk_c8)
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f126,f83]) ).

fof(f83,plain,
    ( sk_c8 = multiply(sk_c9,sk_c9)
    | spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f80,f63]) ).

fof(f126,plain,
    ( multiply(sk_c4,sk_c8) = multiply(sk_c9,sk_c9)
    | spl0_1 ),
    inference(superposition,[],[f71,f87]) ).

fof(f87,plain,
    ( sk_c8 = multiply(sk_c8,sk_c9)
    | spl0_1 ),
    inference(superposition,[],[f81,f64]) ).

fof(f64,plain,
    ( sk_c9 = multiply(sk_c5,sk_c8)
    | spl0_1 ),
    inference(subsumption_resolution,[],[f6,f51]) ).

fof(f81,plain,
    ( ! [X0] : multiply(sk_c8,multiply(sk_c5,X0)) = X0
    | spl0_1 ),
    inference(forward_demodulation,[],[f74,f1]) ).

fof(f74,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c8,multiply(sk_c5,X0))
    | spl0_1 ),
    inference(superposition,[],[f3,f60]) ).

fof(f60,plain,
    ( identity = multiply(sk_c8,sk_c5)
    | spl0_1 ),
    inference(superposition,[],[f2,f59]) ).

fof(f59,plain,
    ( sk_c8 = inverse(sk_c5)
    | spl0_1 ),
    inference(subsumption_resolution,[],[f7,f51]) ).

fof(f71,plain,
    ( ! [X0] : multiply(sk_c9,X0) = multiply(sk_c4,multiply(sk_c8,X0))
    | spl0_1 ),
    inference(superposition,[],[f3,f63]) ).

fof(f363,plain,
    ( sk_c9 != sk_c8
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f352,f169]) ).

fof(f169,plain,
    ( sk_c9 = inverse(identity)
    | spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f56,f163]) ).

fof(f163,plain,
    ( identity = sk_c4
    | spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f160,f58]) ).

fof(f160,plain,
    ( ! [X0] : multiply(sk_c9,X0) = X0
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f155,f1]) ).

fof(f155,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c9,multiply(identity,X0))
    | spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f3,f137]) ).

fof(f137,plain,
    ( identity = multiply(sk_c9,identity)
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f136,f58]) ).

fof(f136,plain,
    ( multiply(sk_c9,sk_c4) = multiply(sk_c9,identity)
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f128,f71]) ).

fof(f128,plain,
    ( multiply(sk_c9,sk_c4) = multiply(sk_c4,multiply(sk_c8,identity))
    | spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f71,f115]) ).

fof(f115,plain,
    ( multiply(sk_c8,sk_c4) = multiply(sk_c8,identity)
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f97,f100]) ).

fof(f100,plain,
    ( sk_c8 = sk_c7
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f99,f87]) ).

fof(f99,plain,
    ( sk_c7 = multiply(sk_c8,sk_c9)
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f96,f91]) ).

fof(f91,plain,
    ( sk_c7 = multiply(sk_c7,sk_c8)
    | spl0_1 ),
    inference(superposition,[],[f82,f65]) ).

fof(f65,plain,
    ( sk_c8 = multiply(sk_c6,sk_c7)
    | spl0_1 ),
    inference(subsumption_resolution,[],[f8,f51]) ).

fof(f82,plain,
    ( ! [X0] : multiply(sk_c7,multiply(sk_c6,X0)) = X0
    | spl0_1 ),
    inference(forward_demodulation,[],[f75,f1]) ).

fof(f75,plain,
    ( ! [X0] : multiply(identity,X0) = multiply(sk_c7,multiply(sk_c6,X0))
    | spl0_1 ),
    inference(superposition,[],[f3,f62]) ).

fof(f62,plain,
    ( identity = multiply(sk_c7,sk_c6)
    | spl0_1 ),
    inference(superposition,[],[f2,f61]) ).

fof(f61,plain,
    ( sk_c7 = inverse(sk_c6)
    | spl0_1 ),
    inference(subsumption_resolution,[],[f9,f51]) ).

fof(f96,plain,
    ( multiply(sk_c8,sk_c9) = multiply(sk_c7,sk_c8)
    | spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f70,f83]) ).

fof(f70,plain,
    ( ! [X0] : multiply(sk_c7,multiply(sk_c9,X0)) = multiply(sk_c8,X0)
    | spl0_1 ),
    inference(superposition,[],[f3,f66]) ).

fof(f66,plain,
    ( sk_c8 = multiply(sk_c7,sk_c9)
    | spl0_1 ),
    inference(subsumption_resolution,[],[f10,f51]) ).

fof(f97,plain,
    ( multiply(sk_c8,sk_c4) = multiply(sk_c7,identity)
    | spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f70,f58]) ).

fof(f352,plain,
    ( sk_c8 != inverse(identity)
    | spl0_1
    | ~ spl0_2 ),
    inference(superposition,[],[f51,f325]) ).

fof(f325,plain,
    ( identity = sk_c9
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f324,f2]) ).

fof(f324,plain,
    ( sk_c9 = multiply(inverse(sk_c9),sk_c9)
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f323,f134]) ).

fof(f323,plain,
    ( sk_c9 = multiply(inverse(sk_c8),sk_c9)
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f322,f100]) ).

fof(f322,plain,
    ( sk_c9 = multiply(inverse(sk_c7),sk_c9)
    | spl0_1
    | ~ spl0_2 ),
    inference(forward_demodulation,[],[f285,f134]) ).

fof(f285,plain,
    ( sk_c9 = multiply(inverse(sk_c7),sk_c8)
    | spl0_1 ),
    inference(superposition,[],[f77,f66]) ).

fof(f57,plain,
    ( spl0_1
    | spl0_2 ),
    inference(avatar_split_clause,[],[f4,f54,f50]) ).

%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.08/0.10  % Problem    : GRP239-1 : TPTP v8.2.0. Released v2.5.0.
% 0.08/0.11  % Command    : vampire --mode casc_sat -m 16384 --cores 7 -t %d %s
% 0.11/0.31  % Computer : n016.cluster.edu
% 0.11/0.31  % Model    : x86_64 x86_64
% 0.11/0.31  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.11/0.31  % Memory   : 8042.1875MB
% 0.11/0.31  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.11/0.31  % CPULimit   : 300
% 0.11/0.31  % WCLimit    : 300
% 0.11/0.31  % DateTime   : Sun May 19 06:09:07 EDT 2024
% 0.11/0.32  % CPUTime    : 
% 0.11/0.32  % (22743)Running in auto input_syntax mode. Trying TPTP
% 0.11/0.33  % (22746)WARNING: value z3 for option sas not known
% 0.11/0.33  % (22750)ott+1_64_av=off:bd=off:bce=on:fsd=off:fde=unused:gsp=on:irw=on:lcm=predicate:lma=on:nm=2:nwc=1.1:sims=off:urr=on_497 on theBenchmark for (497ds/0Mi)
% 0.11/0.33  % (22745)fmb+10_1_bce=on:fmbdsb=on:fmbes=contour:fmbswr=3:fde=none:nm=0_793 on theBenchmark for (793ds/0Mi)
% 0.11/0.33  % (22747)fmb+10_1_bce=on:fmbsr=1.5:nm=32_533 on theBenchmark for (533ds/0Mi)
% 0.11/0.34  % (22749)ott-10_8_av=off:bd=preordered:bs=on:fsd=off:fsr=off:fde=unused:irw=on:lcm=predicate:lma=on:nm=4:nwc=1.7:sp=frequency_522 on theBenchmark for (522ds/0Mi)
% 0.11/0.34  % (22746)dis+2_11_add=large:afr=on:amm=off:bd=off:bce=on:fsd=off:fde=none:gs=on:gsaa=full_model:gsem=off:irw=on:msp=off:nm=4:nwc=1.3:sas=z3:sims=off:sac=on:sp=reverse_arity_569 on theBenchmark for (569ds/0Mi)
% 0.11/0.34  % (22748)ott+10_10:1_add=off:afr=on:amm=off:anc=all:bd=off:bs=on:fsr=off:irw=on:lma=on:msp=off:nm=4:nwc=4.0:sac=on:sp=reverse_frequency_531 on theBenchmark for (531ds/0Mi)
% 0.11/0.34  % (22744)fmb+10_1_bce=on:fmbas=function:fmbsr=1.2:fde=unused:nm=0_846 on theBenchmark for (846ds/0Mi)
% 0.11/0.34  TRYING [1]
% 0.11/0.34  TRYING [2]
% 0.11/0.34  TRYING [3]
% 0.11/0.34  TRYING [1]
% 0.11/0.34  TRYING [2]
% 0.11/0.35  TRYING [4]
% 0.11/0.35  TRYING [3]
% 0.11/0.36  TRYING [5]
% 0.11/0.37  TRYING [4]
% 0.17/0.40  TRYING [6]
% 0.17/0.46  % (22746)First to succeed.
% 0.17/0.46  TRYING [7]
% 0.17/0.47  TRYING [5]
% 0.17/0.49  % (22746)Solution written to "/export/starexec/sandbox2/tmp/vampire-proof-22743"
% 0.17/0.49  % (22746)Refutation found. Thanks to Tanya!
% 0.17/0.49  % SZS status Unsatisfiable for theBenchmark
% 0.17/0.49  % SZS output start Proof for theBenchmark
% See solution above
% 0.17/0.50  % (22746)------------------------------
% 0.17/0.50  % (22746)Version: Vampire 4.8 (commit 3a798227e on 2024-05-03 07:42:47 +0200)
% 0.17/0.50  % (22746)Termination reason: Refutation
% 0.17/0.50  
% 0.17/0.50  % (22746)Memory used [KB]: 2778
% 0.17/0.50  % (22746)Time elapsed: 0.155 s
% 0.17/0.50  % (22746)Instructions burned: 335 (million)
% 0.17/0.50  % (22743)Success in time 0.182 s
%------------------------------------------------------------------------------