TSTP Solution File: SWW811_1 by Vampire-SAT---4.8
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%------------------------------------------------------------------------------
% File : Vampire-SAT---4.8
% Problem : SWW811_1 : TPTP v8.1.2. Released v7.0.0.
% Transfm : none
% Format : tptp:raw
% Command : vampire --ignore_missing on --mode portfolio/casc [--schedule casc_hol_2020] -p tptp -om szs -t %d %s
% Computer : n010.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 : Sat Sep 2 14:23:59 EDT 2023
% Result : Unsatisfiable 244.12s 36.21s
% Output : Refutation 244.12s
% Verified :
% SZS Type : Refutation
% Derivation depth : 13
% Number of leaves : 469
% Syntax : Number of formulae : 759 ( 75 unt; 334 typ; 0 def)
% Number of atoms : 1766 (1014 equ)
% Maximal formula atoms : 82 ( 4 avg)
% Number of connectives : 1918 ( 577 ~; 317 |; 805 &)
% ( 103 <=>; 116 =>; 0 <=; 0 <~>)
% Maximal formula depth : 58 ( 5 avg)
% Maximal term depth : 8 ( 1 avg)
% Number arithmetic : 2200 ( 265 atm; 528 fun; 871 num; 536 var)
% Number of types : 7 ( 4 usr; 2 ari)
% Number of type conns : 1120 ( 305 >; 815 *; 0 +; 0 <<)
% Number of predicates : 162 ( 156 usr; 93 prp; 0-5 aty)
% Number of functors : 281 ( 266 usr; 36 con; 0-9 aty)
% Number of variables : 757 (; 244 !; 513 ?; 757 :)
% Comments :
%------------------------------------------------------------------------------
tff(type_def_5,type,
c_ssorted: $tType ).
tff(type_def_6,type,
c_Boolean: $tType ).
tff(type_def_7,type,
c_type: $tType ).
tff(type_def_8,type,
c_unique: $tType ).
tff(func_def_0,type,
pset_acc_range_left: ( c_ssorted * c_ssorted * $int ) > c_unique ).
tff(func_def_1,type,
c_Boolean_true: c_Boolean ).
tff(func_def_2,type,
ss2Real: c_ssorted > $real ).
tff(func_def_3,type,
base_addr: c_ssorted > c_unique ).
tff(func_def_4,type,
pset_acc_range: ( c_ssorted * c_ssorted * $int * $int ) > c_unique ).
tff(func_def_5,type,
type_pset: c_type > c_type ).
tff(func_def_6,type,
'%': ( $int * $int ) > $int ).
tff(func_def_7,type,
neq_int_bool: ( $int * $int ) > c_Boolean ).
tff(func_def_8,type,
whydivide: ( $int * $int ) > $int ).
tff(func_def_9,type,
c_Boolean_false: c_Boolean ).
tff(func_def_10,type,
pset_singleton: c_ssorted > c_unique ).
tff(func_def_11,type,
bool2U: c_Boolean > c_unique ).
tff(func_def_12,type,
type_alloc_table: c_type ).
tff(func_def_13,type,
gt_int_bool: ( $int * $int ) > c_Boolean ).
tff(func_def_14,type,
pset_acc_range_right: ( c_ssorted * c_ssorted * $int ) > c_unique ).
tff(func_def_15,type,
type_pointer: c_type > c_type ).
tff(func_def_16,type,
shift: ( c_ssorted * $int ) > c_unique ).
tff(func_def_17,type,
upd: ( c_ssorted * c_ssorted * c_ssorted ) > c_unique ).
tff(func_def_18,type,
pset_all: c_ssorted > c_unique ).
tff(func_def_19,type,
int2U: $int > c_unique ).
tff(func_def_20,type,
c_real: c_type ).
tff(func_def_21,type,
lt_int_bool: ( $int * $int ) > c_Boolean ).
tff(func_def_22,type,
pset_range: ( c_ssorted * $int * $int ) > c_unique ).
tff(func_def_23,type,
ss2Int: c_ssorted > $int ).
tff(func_def_24,type,
pset_union: ( c_ssorted * c_ssorted ) > c_unique ).
tff(func_def_25,type,
le_int_bool: ( $int * $int ) > c_Boolean ).
tff(func_def_26,type,
null: c_unique ).
tff(func_def_27,type,
real2U: $real > c_unique ).
tff(func_def_28,type,
smtlib__ite: ( c_Boolean * c_ssorted * c_ssorted ) > c_unique ).
tff(func_def_29,type,
pset_range_left: ( c_ssorted * $int ) > c_unique ).
tff(func_def_30,type,
block_length: ( c_ssorted * c_ssorted ) > $int ).
tff(func_def_31,type,
c_sort: ( c_type * c_unique ) > c_ssorted ).
tff(func_def_32,type,
eq_int_bool: ( $int * $int ) > c_Boolean ).
tff(func_def_33,type,
sub_pointer: ( c_ssorted * c_ssorted ) > $int ).
tff(func_def_34,type,
pset_empty: c_unique ).
tff(func_def_35,type,
c_bool: c_type ).
tff(func_def_36,type,
ss2Bool: c_ssorted > c_Boolean ).
tff(func_def_37,type,
type_memory: ( c_type * c_type ) > c_type ).
tff(func_def_38,type,
acc: ( c_ssorted * c_ssorted ) > c_unique ).
tff(func_def_39,type,
c_int: c_type ).
tff(func_def_40,type,
type_global: c_type ).
tff(func_def_41,type,
pset_range_right: ( c_ssorted * $int ) > c_unique ).
tff(func_def_42,type,
pset_acc_all: ( c_ssorted * c_ssorted ) > c_unique ).
tff(func_def_43,type,
pset_star: ( c_ssorted * c_ssorted ) > c_unique ).
tff(func_def_44,type,
ge_int_bool: ( $int * $int ) > c_Boolean ).
tff(func_def_45,type,
offset: c_ssorted > $int ).
tff(func_def_58,type,
sK0: $int ).
tff(func_def_59,type,
sK1: c_unique ).
tff(func_def_60,type,
sK2: $int ).
tff(func_def_61,type,
sK3: $int ).
tff(func_def_62,type,
sK4: c_unique ).
tff(func_def_63,type,
sK5: $int ).
tff(func_def_64,type,
sK6: c_unique ).
tff(func_def_65,type,
sK7: $int ).
tff(func_def_66,type,
sK8: $int ).
tff(func_def_67,type,
sK9: $int ).
tff(func_def_68,type,
sK10: $int ).
tff(func_def_69,type,
sK11: $int ).
tff(func_def_70,type,
sK12: $int ).
tff(func_def_71,type,
sK13: $int ).
tff(func_def_72,type,
sK14: c_unique ).
tff(func_def_73,type,
sK15: c_unique ).
tff(func_def_74,type,
sK16: c_type > c_unique ).
tff(func_def_75,type,
sK17: c_type > $int ).
tff(func_def_76,type,
sK18: c_type > c_unique ).
tff(func_def_77,type,
sK19: c_type > $int ).
tff(func_def_78,type,
sK20: c_type > $int ).
tff(func_def_79,type,
sK21: c_type > c_unique ).
tff(func_def_80,type,
sK22: c_type > $int ).
tff(func_def_81,type,
sK23: c_type > $int ).
tff(func_def_82,type,
sK24: c_type > $int ).
tff(func_def_83,type,
sK25: c_type > $int ).
tff(func_def_84,type,
sK26: c_type > $int ).
tff(func_def_85,type,
sK27: $int > c_type ).
tff(func_def_86,type,
sK28: $int > $int ).
tff(func_def_87,type,
sK29: c_unique > c_ssorted ).
tff(func_def_88,type,
sK30: ( c_type * c_unique ) > c_ssorted ).
tff(func_def_89,type,
sK31: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_90,type,
sK32: ( c_type * c_unique * c_unique * c_unique * $int ) > c_ssorted ).
tff(func_def_91,type,
sK33: ( c_type * c_unique * c_unique * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_92,type,
sK34: ( c_type * c_unique * c_unique * $int ) > c_type ).
tff(func_def_93,type,
sK35: ( c_type * c_type * c_unique ) > c_unique ).
tff(func_def_94,type,
sK36: ( c_type * c_type * c_unique ) > c_unique ).
tff(func_def_95,type,
sK37: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_96,type,
sK38: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_97,type,
sK39: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_98,type,
sK40: ( c_type * c_unique * c_unique ) > c_type ).
tff(func_def_99,type,
sK41: ( c_type * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_100,type,
sK42: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_101,type,
sK43: ( c_type * c_unique * c_unique ) > c_type ).
tff(func_def_102,type,
sK44: ( c_type * c_unique * c_unique ) > c_unique ).
tff(func_def_103,type,
sK45: ( c_type * c_unique * c_unique ) > c_type ).
tff(func_def_104,type,
sK46: ( c_type * c_unique * c_unique ) > c_type ).
tff(func_def_105,type,
sK47: ( c_type * c_unique * $int ) > c_type ).
tff(func_def_106,type,
sK48: ( c_type * c_unique * $int ) > c_ssorted ).
tff(func_def_107,type,
sK49: ( c_type * c_unique * $int ) > c_type ).
tff(func_def_108,type,
sK50: ( c_type * c_unique * $int ) > c_ssorted ).
tff(func_def_109,type,
sK51: ( c_type * c_unique * c_unique ) > c_type ).
tff(func_def_110,type,
sK52: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_111,type,
sK53: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_112,type,
sK54: ( c_type * c_unique * c_unique ) > c_type ).
tff(func_def_113,type,
sK55: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_114,type,
sK56: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_115,type,
sK57: ( c_type * c_unique * c_unique ) > c_type ).
tff(func_def_116,type,
sK58: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_117,type,
sK59: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_118,type,
sK60: ( c_type * c_unique * c_unique ) > c_type ).
tff(func_def_119,type,
sK61: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_120,type,
sK62: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_121,type,
sK63: ( c_type * c_unique * c_unique ) > c_type ).
tff(func_def_122,type,
sK64: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_123,type,
sK65: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_124,type,
sK66: ( c_type * c_unique * c_unique ) > c_type ).
tff(func_def_125,type,
sK67: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_126,type,
sK68: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_127,type,
sK69: ( c_type * c_unique * c_unique ) > c_type ).
tff(func_def_128,type,
sK70: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_129,type,
sK71: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_130,type,
sK72: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_131,type,
sK73: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_132,type,
sK74: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_133,type,
sK75: ( c_type * c_unique * c_unique ) > c_ssorted ).
tff(func_def_134,type,
sK76: ( c_type * c_unique * c_unique ) > $int ).
tff(func_def_135,type,
sK77: ( c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_136,type,
sK78: ( c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_137,type,
sK79: ( c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_138,type,
sK80: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_139,type,
sK81: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_140,type,
sK82: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_141,type,
sK83: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_142,type,
sK84: ( c_type * c_type * c_unique * $int ) > c_unique ).
tff(func_def_143,type,
sK85: ( c_type * c_type * c_unique * $int ) > c_unique ).
tff(func_def_144,type,
sK86: ( c_type * c_type * c_unique * $int ) > $int ).
tff(func_def_145,type,
sK87: ( c_type * c_type * c_unique * $int ) > $int ).
tff(func_def_146,type,
sK88: ( c_type * c_type * c_unique * $int * c_unique * $int * $int ) > c_type ).
tff(func_def_147,type,
sK89: ( c_type * c_type * c_unique * $int * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_148,type,
sK90: ( c_type * c_type * c_unique * $int * c_unique * $int * $int ) > c_type ).
tff(func_def_149,type,
sK91: ( c_type * c_type * c_unique * $int * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_150,type,
sK92: ( c_type * c_type * c_unique * $int ) > c_unique ).
tff(func_def_151,type,
sK93: ( c_type * c_type * c_unique * $int ) > c_unique ).
tff(func_def_152,type,
sK94: ( c_type * c_type * c_unique * $int * c_unique * c_unique ) > c_type ).
tff(func_def_153,type,
sK95: ( c_type * c_type * c_unique * $int * c_unique * c_unique ) > c_ssorted ).
tff(func_def_154,type,
sK96: ( c_type * c_type * c_unique * $int * c_unique * c_unique ) > c_ssorted ).
tff(func_def_155,type,
sK97: ( c_type * c_unique * c_unique * $int ) > c_type ).
tff(func_def_156,type,
sK98: ( c_type * c_unique * c_unique * $int ) > c_type ).
tff(func_def_157,type,
sK99: ( c_type * c_unique * c_unique * $int ) > c_type ).
tff(func_def_158,type,
sK100: ( c_type * c_unique * c_unique * $int ) > c_unique ).
tff(func_def_159,type,
sK101: ( c_type * c_unique * c_unique * $int ) > $int ).
tff(func_def_160,type,
sK102: ( c_type * c_unique * c_unique * $int ) > c_type ).
tff(func_def_161,type,
sK103: ( c_type * c_unique * c_unique * $int ) > c_unique ).
tff(func_def_162,type,
sK104: ( c_type * c_unique * c_unique * $int ) > $int ).
tff(func_def_163,type,
sK105: ( c_type * c_unique * $int * $int ) > c_type ).
tff(func_def_164,type,
sK106: ( c_type * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_165,type,
sK107: ( c_type * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_166,type,
sK108: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_167,type,
sK109: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_168,type,
sK110: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_169,type,
sK111: ( c_type * c_type * c_unique * c_unique ) > c_type ).
tff(func_def_170,type,
sK112: ( c_type * c_type * c_unique * c_unique ) > c_unique ).
tff(func_def_171,type,
sK113: ( c_type * c_type * c_unique * c_unique ) > c_unique ).
tff(func_def_172,type,
sK114: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_173,type,
sK115: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_174,type,
sK116: ( c_type * c_type * c_unique * c_unique ) > c_type ).
tff(func_def_175,type,
sK117: ( c_type * c_type * c_unique * c_unique ) > c_unique ).
tff(func_def_176,type,
sK118: ( c_type * c_type * c_unique * c_unique ) > c_unique ).
tff(func_def_177,type,
sK119: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_178,type,
sK120: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_179,type,
sK121: ( c_type * c_unique * c_unique * $int ) > c_ssorted ).
tff(func_def_180,type,
sK122: ( c_type * c_unique * c_unique * $int ) > c_type ).
tff(func_def_181,type,
sK123: ( c_type * c_unique * c_unique * $int ) > c_ssorted ).
tff(func_def_182,type,
sK124: ( c_type * c_unique * c_unique * $int ) > c_ssorted ).
tff(func_def_183,type,
sK125: ( c_type * c_unique * c_unique * $int ) > c_type ).
tff(func_def_184,type,
sK126: ( c_type * c_unique * c_unique * $int ) > c_ssorted ).
tff(func_def_185,type,
sK127: ( c_type * c_unique * c_unique * $int ) > c_ssorted ).
tff(func_def_186,type,
sK128: ( c_type * c_unique * c_unique * $int ) > c_ssorted ).
tff(func_def_187,type,
sK129: ( c_type * c_unique * c_unique * $int ) > $int ).
tff(func_def_188,type,
sK130: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_189,type,
sK131: ( c_type * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_190,type,
sK132: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_191,type,
sK133: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_192,type,
sK134: ( c_type * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_193,type,
sK135: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_194,type,
sK136: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_195,type,
sK137: ( c_type * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_196,type,
sK138: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_197,type,
sK139: ( c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_198,type,
sK140: ( c_type * c_unique * c_unique * $int * $int ) > c_type ).
tff(func_def_199,type,
sK141: ( c_type * c_unique * c_unique * $int * $int ) > c_type ).
tff(func_def_200,type,
sK142: ( c_type * c_unique * c_unique * $int * $int ) > c_unique ).
tff(func_def_201,type,
sK143: ( c_type * c_unique * c_unique * $int * $int ) > $int ).
tff(func_def_202,type,
sK144: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_203,type,
sK145: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique * $int ) > c_type ).
tff(func_def_204,type,
sK146: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_205,type,
sK147: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_206,type,
sK148: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_207,type,
sK149: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_unique ).
tff(func_def_208,type,
sK150: ( c_type * c_type * c_unique * c_unique * c_unique ) > $int ).
tff(func_def_209,type,
sK151: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_210,type,
sK152: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_unique ).
tff(func_def_211,type,
sK153: ( c_type * c_unique * c_unique * $int * $int ) > c_type ).
tff(func_def_212,type,
sK154: ( c_type * c_unique * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_213,type,
sK155: ( c_type * c_unique * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_214,type,
sK156: ( c_type * c_unique * c_unique * $int * $int ) > c_type ).
tff(func_def_215,type,
sK157: ( c_type * c_unique * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_216,type,
sK158: ( c_type * c_unique * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_217,type,
sK159: ( c_type * c_unique * c_unique * $int * $int ) > c_type ).
tff(func_def_218,type,
sK160: ( c_type * c_unique * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_219,type,
sK161: ( c_type * c_unique * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_220,type,
sK162: ( c_type * c_type * c_unique * c_unique * $int ) > c_type ).
tff(func_def_221,type,
sK163: ( c_type * c_type * c_unique * c_unique * $int ) > c_unique ).
tff(func_def_222,type,
sK164: ( c_type * c_type * c_unique * c_unique * $int ) > c_unique ).
tff(func_def_223,type,
sK165: ( c_type * c_type * c_unique * c_unique * $int ) > $int ).
tff(func_def_224,type,
sK166: ( c_type * c_type * c_unique * c_unique * $int * c_unique * $int ) > c_type ).
tff(func_def_225,type,
sK167: ( c_type * c_type * c_unique * c_unique * $int * c_unique * $int ) > c_type ).
tff(func_def_226,type,
sK168: ( c_type * c_type * c_unique * c_unique * $int * c_unique * $int ) > c_ssorted ).
tff(func_def_227,type,
sK169: ( c_type * c_type * c_unique * c_unique * $int ) > c_type ).
tff(func_def_228,type,
sK170: ( c_type * c_type * c_unique * c_unique * $int ) > c_unique ).
tff(func_def_229,type,
sK171: ( c_type * c_type * c_unique * c_unique * $int ) > c_unique ).
tff(func_def_230,type,
sK172: ( c_type * c_type * c_unique * c_unique * $int ) > $int ).
tff(func_def_231,type,
sK173: ( c_type * c_type * c_unique * c_unique * $int * c_unique * c_unique * $int ) > c_type ).
tff(func_def_232,type,
sK174: ( c_type * c_type * c_unique * c_unique * $int * c_unique * c_unique * $int ) > c_type ).
tff(func_def_233,type,
sK175: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_234,type,
sK176: ( c_type * c_unique * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_235,type,
sK177: ( c_type * c_unique * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_236,type,
sK178: ( c_type * c_unique * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_237,type,
sK179: ( c_type * c_unique * c_unique * $int * $int ) > c_ssorted ).
tff(func_def_238,type,
sK180: ( c_type * c_unique * c_unique * $int * $int ) > $int ).
tff(func_def_239,type,
sK181: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_240,type,
sK182: ( c_type * c_type * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_241,type,
sK183: ( c_type * c_type * c_unique * c_unique * c_unique * $int ) > c_type ).
tff(func_def_242,type,
sK184: ( c_type * c_type * c_unique * c_unique * c_unique * $int * c_unique * $int ) > c_type ).
tff(func_def_243,type,
sK185: ( c_type * c_type * c_unique * c_unique * c_unique * $int ) > c_type ).
tff(func_def_244,type,
sK186: ( c_type * c_type * c_unique * c_unique * c_unique * $int * c_unique * $int ) > c_type ).
tff(func_def_245,type,
sK187: ( c_type * c_type * c_unique * c_unique * c_unique * $int ) > c_type ).
tff(func_def_246,type,
sK188: ( c_type * c_type * c_unique * c_unique * c_unique * $int ) > c_unique ).
tff(func_def_247,type,
sK189: ( c_type * c_type * c_unique * c_unique * c_unique * $int ) > $int ).
tff(func_def_248,type,
sK190: ( c_type * c_type * c_unique * c_unique * c_unique * $int ) > c_type ).
tff(func_def_249,type,
sK191: ( c_type * c_type * c_unique * c_unique * c_unique * $int ) > c_unique ).
tff(func_def_250,type,
sK192: ( c_type * c_type * c_unique * c_unique * c_unique * $int ) > $int ).
tff(func_def_251,type,
sK193: ( c_type * c_type * c_unique * $int * c_unique * c_unique ) > c_type ).
tff(func_def_252,type,
sK194: ( c_type * c_type * c_unique * $int * c_unique * c_unique ) > c_ssorted ).
tff(func_def_253,type,
sK195: ( c_type * c_type * c_unique * $int * c_unique * c_unique ) > c_ssorted ).
tff(func_def_254,type,
sK196: ( c_type * c_type * c_unique * $int * c_unique * c_unique ) > c_ssorted ).
tff(func_def_255,type,
sK197: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_256,type,
sK198: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique ) > c_unique ).
tff(func_def_257,type,
sK199: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_258,type,
sK200: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_259,type,
sK201: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_260,type,
sK202: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_261,type,
sK203: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_262,type,
sK204: ( c_type * c_unique * c_unique * $int * $int * $int ) > c_ssorted ).
tff(func_def_263,type,
sK205: ( c_type * c_unique * c_unique * $int * $int * $int ) > c_type ).
tff(func_def_264,type,
sK206: ( c_type * c_unique * c_unique * $int * $int * $int ) > c_ssorted ).
tff(func_def_265,type,
sK207: ( c_type * c_unique * c_unique * $int * $int * $int ) > c_ssorted ).
tff(func_def_266,type,
sK208: ( c_type * c_unique * c_unique * $int * $int * $int ) > c_ssorted ).
tff(func_def_267,type,
sK209: ( c_type * c_type * c_unique * c_unique * c_unique * $int * $int ) > c_type ).
tff(func_def_268,type,
sK210: ( c_type * c_type * c_unique * c_unique * c_unique * $int * $int * c_unique * $int ) > c_type ).
tff(func_def_269,type,
sK211: ( c_type * c_type * c_unique * c_unique * c_unique * $int * $int ) > c_type ).
tff(func_def_270,type,
sK212: ( c_type * c_type * c_unique * c_unique * c_unique * $int * $int ) > c_unique ).
tff(func_def_271,type,
sK213: ( c_type * c_type * c_unique * c_unique * c_unique * $int * $int ) > $int ).
tff(func_def_272,type,
sK214: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_273,type,
sK215: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique * c_unique ) > c_type ).
tff(func_def_274,type,
sK216: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_275,type,
sK217: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_276,type,
sK218: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(func_def_277,type,
sK219: ( c_type * c_type * c_unique * c_unique * c_unique * c_unique * c_unique ) > c_ssorted ).
tff(pred_def_1,type,
fresh: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_2,type,
gt_pointer: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_3,type,
valid_acc_range: ( c_ssorted * $int ) > $o ).
tff(pred_def_4,type,
on_stack: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_5,type,
valid_acc: c_ssorted > $o ).
tff(pred_def_6,type,
le_pointer: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_7,type,
not_assigns: ( c_ssorted * c_ssorted * c_ssorted * c_ssorted ) > $o ).
tff(pred_def_8,type,
valid_range: ( c_ssorted * c_ssorted * $int * $int ) > $o ).
tff(pred_def_9,type,
valid_index: ( c_ssorted * c_ssorted * $int ) > $o ).
tff(pred_def_10,type,
not_in_pset: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_11,type,
ge_pointer: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_12,type,
free_stack: ( c_ssorted * c_ssorted * c_ssorted ) > $o ).
tff(pred_def_13,type,
valid: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_14,type,
separation1: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_15,type,
alloc_extends: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_16,type,
separation1_range: ( c_ssorted * $int ) > $o ).
tff(pred_def_17,type,
lt_pointer: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_18,type,
on_heap: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_19,type,
separation1_range1: ( c_ssorted * c_ssorted * $int ) > $o ).
tff(pred_def_20,type,
separation2_range1: ( c_ssorted * c_ssorted * $int ) > $o ).
tff(pred_def_21,type,
separation2: ( c_ssorted * c_ssorted ) > $o ).
tff(pred_def_26,type,
sP220: c_type > $o ).
tff(pred_def_27,type,
sP221: ( c_unique * c_unique ) > $o ).
tff(pred_def_28,type,
sP222: ( c_unique * c_unique ) > $o ).
tff(pred_def_29,type,
sP223: ( c_unique * c_unique ) > $o ).
tff(pred_def_30,type,
sP224: ( c_unique * c_unique ) > $o ).
tff(pred_def_31,type,
sP225: ( c_unique * c_unique ) > $o ).
tff(pred_def_32,type,
sP226: ( c_unique * c_unique ) > $o ).
tff(pred_def_33,type,
sP227: ( c_type * c_type * c_unique ) > $o ).
tff(pred_def_34,type,
sP228: ( c_type * c_unique * c_type ) > $o ).
tff(pred_def_35,type,
sP229: ( c_type * c_type * c_unique ) > $o ).
tff(pred_def_36,type,
sP230: ( c_type * c_unique * c_type ) > $o ).
tff(pred_def_37,type,
sP231: ( c_type * c_type * c_unique ) > $o ).
tff(pred_def_38,type,
sP232: ( c_type * c_unique * c_type ) > $o ).
tff(pred_def_39,type,
sP233: ( c_type * c_type * c_unique ) > $o ).
tff(pred_def_40,type,
sP234: ( c_type * c_unique * c_type ) > $o ).
tff(pred_def_41,type,
sP235: ( c_type * c_type * c_unique ) > $o ).
tff(pred_def_42,type,
sP236: ( c_type * c_unique * c_type ) > $o ).
tff(pred_def_43,type,
sP237: ( c_type * c_unique ) > $o ).
tff(pred_def_44,type,
sP238: ( c_type * c_unique ) > $o ).
tff(pred_def_45,type,
sP239: ( c_type * c_unique ) > $o ).
tff(pred_def_46,type,
sP240: ( c_type * c_unique ) > $o ).
tff(pred_def_47,type,
sP241: ( c_type * c_unique ) > $o ).
tff(pred_def_48,type,
sP242: c_type > $o ).
tff(pred_def_49,type,
sP243: ( c_unique * $int * c_type * c_unique ) > $o ).
tff(pred_def_50,type,
sP244: ( c_unique * $int * c_type * c_unique ) > $o ).
tff(pred_def_51,type,
sP245: c_type > $o ).
tff(pred_def_52,type,
sP246: c_type > $o ).
tff(pred_def_53,type,
sP247: c_type > $o ).
tff(pred_def_54,type,
sP248: ( $int * $int * c_type * c_unique * c_unique ) > $o ).
tff(pred_def_55,type,
sP249: c_type > $o ).
tff(pred_def_56,type,
sP250: c_type > $o ).
tff(pred_def_57,type,
sP251: ( c_type * c_unique ) > $o ).
tff(pred_def_58,type,
sP252: ( c_type * c_unique ) > $o ).
tff(pred_def_59,type,
sP253: ( c_type * c_unique ) > $o ).
tff(pred_def_60,type,
sP254: ( c_type * c_unique ) > $o ).
tff(pred_def_61,type,
sP255: c_type > $o ).
tff(pred_def_62,type,
sP256: c_type > $o ).
tff(pred_def_63,type,
sP257: c_type > $o ).
tff(pred_def_64,type,
sP258: c_type > $o ).
tff(pred_def_65,type,
sP259: c_type > $o ).
tff(pred_def_66,type,
sP260: c_type > $o ).
tff(pred_def_67,type,
sP261: c_type > $o ).
tff(pred_def_68,type,
sP262: c_type > $o ).
tff(f2228,plain,
$false,
inference(avatar_smt_refutation,[],[f1056,f1057,f1061,f1065,f1070,f1074,f1078,f1082,f1086,f1090,f1094,f1098,f1102,f1106,f1110,f1114,f1118,f1122,f1126,f1130,f1134,f1261,f1267,f1277,f1278,f1284,f1285,f1297,f1298,f1299,f1300,f1324,f1328,f1329,f1330,f1331,f1332,f1333,f1334,f1346,f1347,f1365,f1372,f1406,f1420,f1424,f1428,f1432,f1436,f1440,f1450,f1457,f1461,f1475,f1479,f1483,f1487,f1491,f1495,f1513,f1517,f1521,f1525,f1529,f1533,f1553,f1560,f1567,f1574,f1581,f1588,f1595,f1599,f1637,f1642,f1673,f1678,f1684,f1690,f1696,f1700,f1754,f1760,f1768,f1774,f1781,f1787,f1796,f2040,f2044,f2194,f2198,f2208,f2212,f2216,f2220,f2227]) ).
tff(f2227,plain,
( spl263_92
| ~ spl263_73 ),
inference(avatar_split_clause,[],[f2223,f1682,f2225]) ).
tff(f2225,plain,
( spl263_92
<=> ( sK22(type_pointer(type_global)) = $sum(-2,sK13) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_92])]) ).
tff(f1682,plain,
( spl263_73
<=> ( $sum(-1,sK13) = sK19(type_pointer(type_global)) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_73])]) ).
tff(f2223,plain,
( ( sK22(type_pointer(type_global)) = $sum(-2,sK13) )
| ~ spl263_73 ),
inference(evaluation,[],[f2222]) ).
tff(f2222,plain,
( ( sK22(type_pointer(type_global)) = $sum($sum(-1,sK13),-1) )
| ~ spl263_73 ),
inference(forward_demodulation,[],[f2221,f1683]) ).
tff(f1683,plain,
( ( $sum(-1,sK13) = sK19(type_pointer(type_global)) )
| ~ spl263_73 ),
inference(avatar_component_clause,[],[f1682]) ).
tff(f2221,plain,
sK22(type_pointer(type_global)) = $sum(sK19(type_pointer(type_global)),-1),
inference(equality_resolution,[],[f1051]) ).
tff(f1051,plain,
! [X16: c_type] :
( ( type_pointer(type_global) != X16 )
| ( sK22(X16) = $sum(sK19(X16),-1) ) ),
inference(evaluation,[],[f637]) ).
tff(f637,plain,
! [X16: c_type] :
( ( $sum(sK19(X16),$uminus(1)) = sK22(X16) )
| ( type_pointer(type_global) != X16 ) ),
inference(cnf_transformation,[],[f355]) ).
tff(f355,plain,
( ! [X16: c_type] :
( ( ( sK22(X16) != $product(sK25(X16),2) )
& ( $product(sK24(X16),sK25(X16)) = sK26(X16) )
& ( 0 != sK25(X16) )
& ( $sum(sK11,$uminus(1)) = sK25(X16) )
& ( sK23(X16) = sK24(X16) )
& ( whydivide(sK17(X16),sK19(X16)) = sK23(X16) )
& ( 0 != sK19(X16) )
& ( $sum(sK19(X16),$uminus(1)) = sK22(X16) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK18(X16)),c_sort(c_int,int2U(sK20(X16)))) = sK21(X16) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,sK18(X16)))
& ( '%'(sK17(X16),sK19(X16)) = sK20(X16) )
& ( 0 != sK19(X16) )
& ( $sum(sK13,$uminus(1)) = sK19(X16) )
& ( shift(c_sort(X16,sK4),sK11) = sK18(X16) )
& ( $sum(sK12,$product(ss2Int(c_sort(c_int,sK16(X16))),sK0)) = sK17(X16) )
& ( acc(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK15)) = sK16(X16) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,sK15))
& ( shift(c_sort(X16,sK4),sK11) = sK15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( sK13 = $product(sK11,2) )
& ~ $less(sK7,sK11)
& ~ $less(sK11,1)
& ( sK7 = sK10 )
& ( 0 != sK9 )
& ( $product(sK7,2) = sK9 )
& ( 0 = sK8 )
& ( 0 = '%'(sK7,14) )
& ~ $less(2800,sK7)
& ~ $less(sK7,0)
& ( 0 = $sum(sK5,$uminus(sK3)) )
& ! [X28: $int] :
( ( ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),sK6),c_sort(sK27(X28),shift(c_sort(sK27(X28),sK4),X28))))) )
| ~ $less(X28,sK5)
| $less(X28,0) )
& ( type_pointer(type_global) = sK27(X28) ) )
& ~ $less(2800,sK5)
& ~ $less(sK5,0)
& valid_range(c_sort(type_alloc_table,sK1),c_sort(type_pointer(type_global),sK4),0,2800)
& ( 10000 = sK0 )
& ( 2800 = sK3 )
& ( 0 = sK2 ) ),
inference(skolemisation,[status(esa),new_symbols(skolem,[sK0,sK1,sK2,sK3,sK4,sK5,sK6,sK7,sK8,sK9,sK10,sK11,sK12,sK13,sK14,sK15,sK16,sK17,sK18,sK19,sK20,sK21,sK22,sK23,sK24,sK25,sK26,sK27])],[f334,f354,f353,f352,f351,f350,f349,f348,f347,f346,f345,f344,f343,f342,f341,f340,f339,f338,f337,f336,f335]) ).
tff(f335,plain,
( ? [X0: $int,X1: c_unique,X2: $int,X3: $int,X4: c_unique] :
( ? [X5: $int,X6: c_unique] :
( ? [X7: $int] :
( ? [X8: $int] :
( ? [X9: $int] :
( ? [X10: $int] :
( ? [X11: $int,X12: $int,X13: $int,X14: c_unique] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,X1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,X4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),X0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,X1),c_sort(X16,X15))
& ( shift(c_sort(X16,X4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(X7,X11)
& ~ $less(X11,1) )
& ( X7 = X10 ) )
& ( 0 != X9 )
& ( $product(X7,2) = X9 ) )
& ( 0 = X8 ) )
& ( 0 = '%'(X7,14) )
& ~ $less(2800,X7)
& ~ $less(X7,0) )
& ( 0 = $sum(X5,$uminus(X3)) )
& ! [X28: $int] :
? [X29: c_type] :
( ( ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),X6),c_sort(X29,shift(c_sort(X29,X4),X28))))) )
| ~ $less(X28,X5)
| $less(X28,0) )
& ( type_pointer(type_global) = X29 ) )
& ~ $less(2800,X5)
& ~ $less(X5,0) )
& valid_range(c_sort(type_alloc_table,X1),c_sort(type_pointer(type_global),X4),0,2800)
& ( 10000 = X0 )
& ( 2800 = X3 )
& ( 0 = X2 ) )
=> ( ? [X6: c_unique,X5: $int] :
( ? [X7: $int] :
( ? [X8: $int] :
( ? [X9: $int] :
( ? [X10: $int] :
( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(X7,X11)
& ~ $less(X11,1) )
& ( X7 = X10 ) )
& ( 0 != X9 )
& ( $product(X7,2) = X9 ) )
& ( 0 = X8 ) )
& ( 0 = '%'(X7,14) )
& ~ $less(2800,X7)
& ~ $less(X7,0) )
& ( 0 = $sum(X5,$uminus(sK3)) )
& ! [X28: $int] :
? [X29: c_type] :
( ( ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),X6),c_sort(X29,shift(c_sort(X29,sK4),X28))))) )
| ~ $less(X28,X5)
| $less(X28,0) )
& ( type_pointer(type_global) = X29 ) )
& ~ $less(2800,X5)
& ~ $less(X5,0) )
& valid_range(c_sort(type_alloc_table,sK1),c_sort(type_pointer(type_global),sK4),0,2800)
& ( 10000 = sK0 )
& ( 2800 = sK3 )
& ( 0 = sK2 ) ) ),
introduced(choice_axiom,[]) ).
tff(f336,plain,
( ? [X6: c_unique,X5: $int] :
( ? [X7: $int] :
( ? [X8: $int] :
( ? [X9: $int] :
( ? [X10: $int] :
( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(X7,X11)
& ~ $less(X11,1) )
& ( X7 = X10 ) )
& ( 0 != X9 )
& ( $product(X7,2) = X9 ) )
& ( 0 = X8 ) )
& ( 0 = '%'(X7,14) )
& ~ $less(2800,X7)
& ~ $less(X7,0) )
& ( 0 = $sum(X5,$uminus(sK3)) )
& ! [X28: $int] :
? [X29: c_type] :
( ( ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),X6),c_sort(X29,shift(c_sort(X29,sK4),X28))))) )
| ~ $less(X28,X5)
| $less(X28,0) )
& ( type_pointer(type_global) = X29 ) )
& ~ $less(2800,X5)
& ~ $less(X5,0) )
=> ( ? [X7: $int] :
( ? [X8: $int] :
( ? [X9: $int] :
( ? [X10: $int] :
( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(X7,X11)
& ~ $less(X11,1) )
& ( X7 = X10 ) )
& ( 0 != X9 )
& ( $product(X7,2) = X9 ) )
& ( 0 = X8 ) )
& ( 0 = '%'(X7,14) )
& ~ $less(2800,X7)
& ~ $less(X7,0) )
& ( 0 = $sum(sK5,$uminus(sK3)) )
& ! [X28: $int] :
? [X29: c_type] :
( ( ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),sK6),c_sort(X29,shift(c_sort(X29,sK4),X28))))) )
| ~ $less(X28,sK5)
| $less(X28,0) )
& ( type_pointer(type_global) = X29 ) )
& ~ $less(2800,sK5)
& ~ $less(sK5,0) ) ),
introduced(choice_axiom,[]) ).
tff(f337,plain,
( ? [X7: $int] :
( ? [X8: $int] :
( ? [X9: $int] :
( ? [X10: $int] :
( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(X7,X11)
& ~ $less(X11,1) )
& ( X7 = X10 ) )
& ( 0 != X9 )
& ( $product(X7,2) = X9 ) )
& ( 0 = X8 ) )
& ( 0 = '%'(X7,14) )
& ~ $less(2800,X7)
& ~ $less(X7,0) )
=> ( ? [X8: $int] :
( ? [X9: $int] :
( ? [X10: $int] :
( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(sK7,X11)
& ~ $less(X11,1) )
& ( sK7 = X10 ) )
& ( 0 != X9 )
& ( $product(sK7,2) = X9 ) )
& ( 0 = X8 ) )
& ( 0 = '%'(sK7,14) )
& ~ $less(2800,sK7)
& ~ $less(sK7,0) ) ),
introduced(choice_axiom,[]) ).
tff(f338,plain,
( ? [X8: $int] :
( ? [X9: $int] :
( ? [X10: $int] :
( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(sK7,X11)
& ~ $less(X11,1) )
& ( sK7 = X10 ) )
& ( 0 != X9 )
& ( $product(sK7,2) = X9 ) )
& ( 0 = X8 ) )
=> ( ? [X9: $int] :
( ? [X10: $int] :
( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(sK7,X11)
& ~ $less(X11,1) )
& ( sK7 = X10 ) )
& ( 0 != X9 )
& ( $product(sK7,2) = X9 ) )
& ( 0 = sK8 ) ) ),
introduced(choice_axiom,[]) ).
tff(f339,plain,
( ? [X9: $int] :
( ? [X10: $int] :
( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(sK7,X11)
& ~ $less(X11,1) )
& ( sK7 = X10 ) )
& ( 0 != X9 )
& ( $product(sK7,2) = X9 ) )
=> ( ? [X10: $int] :
( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(sK7,X11)
& ~ $less(X11,1) )
& ( sK7 = X10 ) )
& ( 0 != sK9 )
& ( $product(sK7,2) = sK9 ) ) ),
introduced(choice_axiom,[]) ).
tff(f340,plain,
( ? [X10: $int] :
( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(sK7,X11)
& ~ $less(X11,1) )
& ( sK7 = X10 ) )
=> ( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(sK7,X11)
& ~ $less(X11,1) )
& ( sK7 = sK10 ) ) ),
introduced(choice_axiom,[]) ).
tff(f341,plain,
( ? [X14: c_unique,X13: $int,X12: $int,X11: $int] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(sK7,X11)
& ~ $less(X11,1) )
=> ( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(sK13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),sK11) = X19 ) )
& ( $sum(sK12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),sK11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( sK13 = $product(sK11,2) )
& ~ $less(sK7,sK11)
& ~ $less(sK11,1) ) ),
introduced(choice_axiom,[]) ).
tff(f342,plain,
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(sK13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),sK11) = X19 ) )
& ( $sum(sK12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X15))
& ( shift(c_sort(X16,sK4),sK11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
=> ! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(sK13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),sK11) = X19 ) )
& ( $sum(sK12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK15)) = X17 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,sK15))
& ( shift(c_sort(X16,sK4),sK11) = sK15 ) )
| ( type_pointer(type_global) != X16 ) ) ),
introduced(choice_axiom,[]) ).
tff(f343,plain,
! [X16: c_type] :
( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(sK13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),sK11) = X19 ) )
& ( $sum(sK12,$product(ss2Int(c_sort(c_int,X17)),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK15)) = X17 ) )
=> ( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(sK13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),sK11) = X19 ) )
& ( $sum(sK12,$product(ss2Int(c_sort(c_int,sK16(X16))),sK0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK15)) = sK16(X16) ) ) ),
introduced(choice_axiom,[]) ).
tff(f344,plain,
! [X16: c_type] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(sK13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),sK11) = X19 ) )
& ( $sum(sK12,$product(ss2Int(c_sort(c_int,sK16(X16))),sK0)) = X18 ) )
=> ( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(sK17(X16),X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(sK13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),sK11) = X19 ) )
& ( $sum(sK12,$product(ss2Int(c_sort(c_int,sK16(X16))),sK0)) = sK17(X16) ) ) ),
introduced(choice_axiom,[]) ).
tff(f345,plain,
! [X16: c_type] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,X19))
& ( '%'(sK17(X16),X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(sK13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),sK11) = X19 ) )
=> ( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK18(X16)),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,sK18(X16)))
& ( '%'(sK17(X16),X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(sK13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,sK4),sK11) = sK18(X16) ) ) ),
introduced(choice_axiom,[]) ).
tff(f346,plain,
! [X16: c_type] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK18(X16)),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,sK18(X16)))
& ( '%'(sK17(X16),X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(sK13,$uminus(1)) = X20 ) )
=> ( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),sK19(X16)) = X24 ) )
& ( 0 != sK19(X16) )
& ( $sum(sK19(X16),$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK18(X16)),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,sK18(X16)))
& ( '%'(sK17(X16),sK19(X16)) = X21 ) )
& ( 0 != sK19(X16) )
& ( $sum(sK13,$uminus(1)) = sK19(X16) ) ) ),
introduced(choice_axiom,[]) ).
tff(f347,plain,
! [X16: c_type] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),sK19(X16)) = X24 ) )
& ( 0 != sK19(X16) )
& ( $sum(sK19(X16),$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK18(X16)),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,sK18(X16)))
& ( '%'(sK17(X16),sK19(X16)) = X21 ) )
=> ( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),sK19(X16)) = X24 ) )
& ( 0 != sK19(X16) )
& ( $sum(sK19(X16),$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK18(X16)),c_sort(c_int,int2U(sK20(X16)))) = X22 ) )
& valid(c_sort(type_alloc_table,sK1),c_sort(X16,sK18(X16)))
& ( '%'(sK17(X16),sK19(X16)) = sK20(X16) ) ) ),
introduced(choice_axiom,[]) ).
tff(f348,plain,
! [X16: c_type] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),sK19(X16)) = X24 ) )
& ( 0 != sK19(X16) )
& ( $sum(sK19(X16),$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK18(X16)),c_sort(c_int,int2U(sK20(X16)))) = X22 ) )
=> ( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),sK19(X16)) = X24 ) )
& ( 0 != sK19(X16) )
& ( $sum(sK19(X16),$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),sK14),c_sort(X16,sK18(X16)),c_sort(c_int,int2U(sK20(X16)))) = sK21(X16) ) ) ),
introduced(choice_axiom,[]) ).
tff(f349,plain,
! [X16: c_type] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),sK19(X16)) = X24 ) )
& ( 0 != sK19(X16) )
& ( $sum(sK19(X16),$uminus(1)) = X23 ) )
=> ( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != sK22(X16) )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),sK19(X16)) = X24 ) )
& ( 0 != sK19(X16) )
& ( $sum(sK19(X16),$uminus(1)) = sK22(X16) ) ) ),
introduced(choice_axiom,[]) ).
tff(f350,plain,
! [X16: c_type] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != sK22(X16) )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(sK17(X16),sK19(X16)) = X24 ) )
=> ( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != sK22(X16) )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( sK23(X16) = X25 ) )
& ( whydivide(sK17(X16),sK19(X16)) = sK23(X16) ) ) ),
introduced(choice_axiom,[]) ).
tff(f351,plain,
! [X16: c_type] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != sK22(X16) )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( sK23(X16) = X25 ) )
=> ( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != sK22(X16) )
& ( $product(sK24(X16),X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
& ( sK23(X16) = sK24(X16) ) ) ),
introduced(choice_axiom,[]) ).
tff(f352,plain,
! [X16: c_type] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != sK22(X16) )
& ( $product(sK24(X16),X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(sK11,$uminus(1)) = X26 ) )
=> ( ? [X27: $int] :
( ( sK22(X16) != $product(sK25(X16),2) )
& ( $product(sK24(X16),sK25(X16)) = X27 ) )
& ( 0 != sK25(X16) )
& ( $sum(sK11,$uminus(1)) = sK25(X16) ) ) ),
introduced(choice_axiom,[]) ).
tff(f353,plain,
! [X16: c_type] :
( ? [X27: $int] :
( ( sK22(X16) != $product(sK25(X16),2) )
& ( $product(sK24(X16),sK25(X16)) = X27 ) )
=> ( ( sK22(X16) != $product(sK25(X16),2) )
& ( $product(sK24(X16),sK25(X16)) = sK26(X16) ) ) ),
introduced(choice_axiom,[]) ).
tff(f354,plain,
! [X28: $int] :
( ? [X29: c_type] :
( ( ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),sK6),c_sort(X29,shift(c_sort(X29,sK4),X28))))) )
| ~ $less(X28,sK5)
| $less(X28,0) )
& ( type_pointer(type_global) = X29 ) )
=> ( ( ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),sK6),c_sort(sK27(X28),shift(c_sort(sK27(X28),sK4),X28))))) )
| ~ $less(X28,sK5)
| $less(X28,0) )
& ( type_pointer(type_global) = sK27(X28) ) ) ),
introduced(choice_axiom,[]) ).
tff(f334,plain,
? [X0: $int,X1: c_unique,X2: $int,X3: $int,X4: c_unique] :
( ? [X5: $int,X6: c_unique] :
( ? [X7: $int] :
( ? [X8: $int] :
( ? [X9: $int] :
( ? [X10: $int] :
( ? [X11: $int,X12: $int,X13: $int,X14: c_unique] :
( ? [X15: c_unique] :
! [X16: c_type] :
( ( ? [X17: c_unique] :
( ? [X18: $int] :
( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: $int] :
( ? [X22: c_unique] :
( ? [X23: $int] :
( ? [X24: $int] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ( $product(X26,2) != X23 )
& ( $product(X25,X26) = X27 ) )
& ( 0 != X26 )
& ( $sum(X11,$uminus(1)) = X26 ) )
& ( X24 = X25 ) )
& ( whydivide(X18,X20) = X24 ) )
& ( 0 != X20 )
& ( $sum(X20,$uminus(1)) = X23 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X19),c_sort(c_int,int2U(X21))) = X22 ) )
& valid(c_sort(type_alloc_table,X1),c_sort(X16,X19))
& ( '%'(X18,X20) = X21 ) )
& ( 0 != X20 )
& ( $sum(X13,$uminus(1)) = X20 ) )
& ( shift(c_sort(X16,X4),X11) = X19 ) )
& ( $sum(X12,$product(ss2Int(c_sort(c_int,X17)),X0)) = X18 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X14),c_sort(X16,X15)) = X17 ) )
& valid(c_sort(type_alloc_table,X1),c_sort(X16,X15))
& ( shift(c_sort(X16,X4),X11) = X15 ) )
| ( type_pointer(type_global) != X16 ) )
& ( 0 != 1 )
& ( $product(X11,2) = X13 )
& ~ $less(X7,X11)
& ~ $less(X11,1) )
& ( X7 = X10 ) )
& ( 0 != X9 )
& ( $product(X7,2) = X9 ) )
& ( 0 = X8 ) )
& ( 0 = '%'(X7,14) )
& ~ $less(2800,X7)
& ~ $less(X7,0) )
& ( 0 = $sum(X5,$uminus(X3)) )
& ! [X28: $int] :
? [X29: c_type] :
( ( ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),X6),c_sort(X29,shift(c_sort(X29,X4),X28))))) )
| ~ $less(X28,X5)
| $less(X28,0) )
& ( type_pointer(type_global) = X29 ) )
& ~ $less(2800,X5)
& ~ $less(X5,0) )
& valid_range(c_sort(type_alloc_table,X1),c_sort(type_pointer(type_global),X4),0,2800)
& ( 10000 = X0 )
& ( 2800 = X3 )
& ( 0 = X2 ) ),
inference(rectify,[],[f250]) ).
tff(f250,plain,
? [X0: $int,X1: c_unique,X2: $int,X3: $int,X4: c_unique] :
( ? [X5: $int,X6: c_unique] :
( ? [X9: $int] :
( ? [X10: $int] :
( ? [X11: $int] :
( ? [X12: $int] :
( ? [X13: $int,X14: $int,X15: $int,X16: c_unique] :
( ? [X17: c_unique] :
! [X18: c_type] :
( ( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: c_unique] :
( ? [X22: $int] :
( ? [X23: $int] :
( ? [X24: c_unique] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ? [X28: $int] :
( ? [X29: $int] :
( ( $product(X28,2) != X25 )
& ( $product(X27,X28) = X29 ) )
& ( 0 != X28 )
& ( $sum(X13,$uminus(1)) = X28 ) )
& ( X26 = X27 ) )
& ( whydivide(X20,X22) = X26 ) )
& ( 0 != X22 )
& ( $sum(X22,$uminus(1)) = X25 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X16),c_sort(X18,X21),c_sort(c_int,int2U(X23))) = X24 ) )
& valid(c_sort(type_alloc_table,X1),c_sort(X18,X21))
& ( '%'(X20,X22) = X23 ) )
& ( 0 != X22 )
& ( $sum(X15,$uminus(1)) = X22 ) )
& ( shift(c_sort(X18,X4),X13) = X21 ) )
& ( $sum(X14,$product(ss2Int(c_sort(c_int,X19)),X0)) = X20 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X16),c_sort(X18,X17)) = X19 ) )
& valid(c_sort(type_alloc_table,X1),c_sort(X18,X17))
& ( shift(c_sort(X18,X4),X13) = X17 ) )
| ( type_pointer(type_global) != X18 ) )
& ( 0 != 1 )
& ( $product(X13,2) = X15 )
& ~ $less(X9,X13)
& ~ $less(X13,1) )
& ( X9 = X12 ) )
& ( 0 != X11 )
& ( $product(X9,2) = X11 ) )
& ( 0 = X10 ) )
& ( 0 = '%'(X9,14) )
& ~ $less(2800,X9)
& ~ $less(X9,0) )
& ( 0 = $sum(X5,$uminus(X3)) )
& ! [X7: $int] :
? [X8: c_type] :
( ( ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),X6),c_sort(X8,shift(c_sort(X8,X4),X7))))) )
| ~ $less(X7,X5)
| $less(X7,0) )
& ( type_pointer(type_global) = X8 ) )
& ~ $less(2800,X5)
& ~ $less(X5,0) )
& valid_range(c_sort(type_alloc_table,X1),c_sort(type_pointer(type_global),X4),0,2800)
& ( 10000 = X0 )
& ( 2800 = X3 )
& ( 0 = X2 ) ),
inference(flattening,[],[f249]) ).
tff(f249,plain,
? [X0: $int,X1: c_unique,X2: $int,X3: $int,X4: c_unique] :
( ? [X5: $int,X6: c_unique] :
( ? [X9: $int] :
( ? [X10: $int] :
( ? [X11: $int] :
( ? [X12: $int] :
( ? [X13: $int,X14: $int,X15: $int,X16: c_unique] :
( ? [X17: c_unique] :
! [X18: c_type] :
( ( ? [X19: c_unique] :
( ? [X20: $int] :
( ? [X21: c_unique] :
( ? [X22: $int] :
( ? [X23: $int] :
( ? [X24: c_unique] :
( ? [X25: $int] :
( ? [X26: $int] :
( ? [X27: $int] :
( ? [X28: $int] :
( ? [X29: $int] :
( ( $product(X28,2) != X25 )
& ( $product(X27,X28) = X29 ) )
& ( 0 != X28 )
& ( $sum(X13,$uminus(1)) = X28 ) )
& ( X26 = X27 ) )
& ( whydivide(X20,X22) = X26 ) )
& ( 0 != X22 )
& ( $sum(X22,$uminus(1)) = X25 ) )
& ( upd(c_sort(type_memory(c_int,type_global),X16),c_sort(X18,X21),c_sort(c_int,int2U(X23))) = X24 ) )
& valid(c_sort(type_alloc_table,X1),c_sort(X18,X21))
& ( '%'(X20,X22) = X23 ) )
& ( 0 != X22 )
& ( $sum(X15,$uminus(1)) = X22 ) )
& ( shift(c_sort(X18,X4),X13) = X21 ) )
& ( $sum(X14,$product(ss2Int(c_sort(c_int,X19)),X0)) = X20 ) )
& ( acc(c_sort(type_memory(c_int,type_global),X16),c_sort(X18,X17)) = X19 ) )
& valid(c_sort(type_alloc_table,X1),c_sort(X18,X17))
& ( shift(c_sort(X18,X4),X13) = X17 ) )
| ( type_pointer(type_global) != X18 ) )
& ( 0 != 1 )
& ( $product(X13,2) = X15 )
& ~ $less(X9,X13)
& ~ $less(X13,1) )
& ( X9 = X12 ) )
& ( 0 != X11 )
& ( $product(X9,2) = X11 ) )
& ( 0 = X10 ) )
& ( 0 = '%'(X9,14) )
& ~ $less(2800,X9)
& ~ $less(X9,0) )
& ( 0 = $sum(X5,$uminus(X3)) )
& ! [X7: $int] :
? [X8: c_type] :
( ( ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),X6),c_sort(X8,shift(c_sort(X8,X4),X7))))) )
| ~ $less(X7,X5)
| $less(X7,0) )
& ( type_pointer(type_global) = X8 ) )
& ~ $less(2800,X5)
& ~ $less(X5,0) )
& valid_range(c_sort(type_alloc_table,X1),c_sort(type_pointer(type_global),X4),0,2800)
& ( 10000 = X0 )
& ( 2800 = X3 )
& ( 0 = X2 ) ),
inference(ennf_transformation,[],[f153]) ).
tff(f153,plain,
~ ! [X0: $int,X1: c_unique,X2: $int,X3: $int,X4: c_unique] :
( ( valid_range(c_sort(type_alloc_table,X1),c_sort(type_pointer(type_global),X4),0,2800)
& ( 10000 = X0 )
& ( 2800 = X3 )
& ( 0 = X2 ) )
=> ! [X5: $int,X6: c_unique] :
( ( ! [X7: $int] :
? [X8: c_type] :
( ( ( $less(X7,X5)
& ~ $less(X7,0) )
=> ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),X6),c_sort(X8,shift(c_sort(X8,X4),X7))))) ) )
& ( type_pointer(type_global) = X8 ) )
& ~ $less(2800,X5)
& ~ $less(X5,0) )
=> ( ( 0 = $sum(X5,$uminus(X3)) )
=> ! [X9: $int] :
( ( ( 0 = '%'(X9,14) )
& ~ $less(2800,X9)
& ~ $less(X9,0) )
=> ! [X10: $int] :
( ( 0 = X10 )
=> ! [X11: $int] :
( ( $product(X9,2) = X11 )
=> ( ( 0 != X11 )
=> ! [X12: $int] :
( ( X9 = X12 )
=> ! [X13: $int,X14: $int,X15: $int,X16: c_unique] :
( ( ( $product(X13,2) = X15 )
& ~ $less(X9,X13)
& ~ $less(X13,1) )
=> ( ( 0 != 1 )
=> ! [X17: c_unique] :
? [X18: c_type] :
( ( ( shift(c_sort(X18,X4),X13) = X17 )
=> ( valid(c_sort(type_alloc_table,X1),c_sort(X18,X17))
=> ! [X19: c_unique] :
( ( acc(c_sort(type_memory(c_int,type_global),X16),c_sort(X18,X17)) = X19 )
=> ! [X20: $int] :
( ( $sum(X14,$product(ss2Int(c_sort(c_int,X19)),X0)) = X20 )
=> ! [X21: c_unique] :
( ( shift(c_sort(X18,X4),X13) = X21 )
=> ! [X22: $int] :
( ( $sum(X15,$uminus(1)) = X22 )
=> ( ( 0 != X22 )
=> ! [X23: $int] :
( ( '%'(X20,X22) = X23 )
=> ( valid(c_sort(type_alloc_table,X1),c_sort(X18,X21))
=> ! [X24: c_unique] :
( ( upd(c_sort(type_memory(c_int,type_global),X16),c_sort(X18,X21),c_sort(c_int,int2U(X23))) = X24 )
=> ! [X25: $int] :
( ( $sum(X22,$uminus(1)) = X25 )
=> ( ( 0 != X22 )
=> ! [X26: $int] :
( ( whydivide(X20,X22) = X26 )
=> ! [X27: $int] :
( ( X26 = X27 )
=> ! [X28: $int] :
( ( $sum(X13,$uminus(1)) = X28 )
=> ( ( 0 != X28 )
=> ! [X29: $int] :
( ( $product(X27,X28) = X29 )
=> ( $product(X28,2) = X25 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) )
& ( type_pointer(type_global) = X18 ) ) ) ) ) ) ) ) ) ) ) ),
inference(rectify,[],[f102]) ).
tff(f102,plain,
~ ! [X562: $int,X563: c_unique,X564: $int,X565: $int,X566: c_unique] :
( ( valid_range(c_sort(type_alloc_table,X563),c_sort(type_pointer(type_global),X566),0,2800)
& ( 10000 = X562 )
& ( 2800 = X565 )
& ( 0 = X564 ) )
=> ! [X567: $int,X568: c_unique] :
( ( ! [X569: $int] :
? [X570: c_type] :
( ( ( $less(X569,X567)
& ~ $less(X569,0) )
=> ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),X568),c_sort(X570,shift(c_sort(X570,X566),X569))))) ) )
& ( type_pointer(type_global) = X570 ) )
& ~ $less(2800,X567)
& ~ $less(X567,0) )
=> ( ( 0 = $sum(X567,$uminus(X565)) )
=> ! [X571: $int] :
( ( ( 0 = '%'(X571,14) )
& ~ $less(2800,X571)
& ~ $less(X571,0) )
=> ! [X572: $int] :
( ( 0 = X572 )
=> ! [X573: $int] :
( ( $product(X571,2) = X573 )
=> ( ( 0 != X573 )
=> ! [X574: $int] :
( ( X571 = X574 )
=> ! [X575: $int,X576: $int,X577: $int,X578: c_unique] :
( ( ( $product(X575,2) = X577 )
& ~ $less(X571,X575)
& ~ $less(X575,1) )
=> ( ( 0 != 1 )
=> ! [X579: c_unique] :
? [X580: c_type] :
( ( ( shift(c_sort(X580,X566),X575) = X579 )
=> ( valid(c_sort(type_alloc_table,X563),c_sort(X580,X579))
=> ! [X581: c_unique] :
( ( acc(c_sort(type_memory(c_int,type_global),X578),c_sort(X580,X579)) = X581 )
=> ! [X582: $int] :
( ( $sum(X576,$product(ss2Int(c_sort(c_int,X581)),X562)) = X582 )
=> ! [X583: c_unique] :
( ( shift(c_sort(X580,X566),X575) = X583 )
=> ! [X584: $int] :
( ( $sum(X577,$uminus(1)) = X584 )
=> ( ( 0 != X584 )
=> ! [X585: $int] :
( ( '%'(X582,X584) = X585 )
=> ( valid(c_sort(type_alloc_table,X563),c_sort(X580,X583))
=> ! [X586: c_unique] :
( ( upd(c_sort(type_memory(c_int,type_global),X578),c_sort(X580,X583),c_sort(c_int,int2U(X585))) = X586 )
=> ! [X587: $int] :
( ( $sum(X584,$uminus(1)) = X587 )
=> ( ( 0 != X584 )
=> ! [X588: $int] :
( ( whydivide(X582,X584) = X588 )
=> ! [X589: $int] :
( ( X588 = X589 )
=> ! [X590: $int] :
( ( $sum(X575,$uminus(1)) = X590 )
=> ( ( 0 != X590 )
=> ! [X591: $int] :
( ( $product(X589,X590) = X591 )
=> ( $product(X590,2) = X587 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) )
& ( type_pointer(type_global) = X580 ) ) ) ) ) ) ) ) ) ) ) ),
inference(theory_normalization,[],[f101]) ).
tff(f101,axiom,
~ ! [X562: $int,X563: c_unique,X564: $int,X565: $int,X566: c_unique] :
( ( valid_range(c_sort(type_alloc_table,X563),c_sort(type_pointer(type_global),X566),0,2800)
& ( 10000 = X562 )
& ( 2800 = X565 )
& ( 0 = X564 ) )
=> ! [X567: $int,X568: c_unique] :
( ( ! [X569: $int] :
? [X570: c_type] :
( ( ( $less(X569,X567)
& $lesseq(0,X569) )
=> ( 2000 = ss2Int(c_sort(c_int,acc(c_sort(type_memory(c_int,type_global),X568),c_sort(X570,shift(c_sort(X570,X566),X569))))) ) )
& ( type_pointer(type_global) = X570 ) )
& $lesseq(X567,2800)
& $lesseq(0,X567) )
=> ( ( 0 = $difference(X567,X565) )
=> ! [X571: $int] :
( ( ( 0 = '%'(X571,14) )
& $lesseq(X571,2800)
& $lesseq(0,X571) )
=> ! [X572: $int] :
( ( 0 = X572 )
=> ! [X573: $int] :
( ( $product(X571,2) = X573 )
=> ( ( 0 != X573 )
=> ! [X574: $int] :
( ( X571 = X574 )
=> ! [X575: $int,X576: $int,X577: $int,X578: c_unique] :
( ( ( $product(X575,2) = X577 )
& $lesseq(X575,X571)
& $lesseq(1,X575) )
=> ( ( 0 != 1 )
=> ! [X579: c_unique] :
? [X580: c_type] :
( ( ( shift(c_sort(X580,X566),X575) = X579 )
=> ( valid(c_sort(type_alloc_table,X563),c_sort(X580,X579))
=> ! [X581: c_unique] :
( ( acc(c_sort(type_memory(c_int,type_global),X578),c_sort(X580,X579)) = X581 )
=> ! [X582: $int] :
( ( $sum(X576,$product(ss2Int(c_sort(c_int,X581)),X562)) = X582 )
=> ! [X583: c_unique] :
( ( shift(c_sort(X580,X566),X575) = X583 )
=> ! [X584: $int] :
( ( $difference(X577,1) = X584 )
=> ( ( 0 != X584 )
=> ! [X585: $int] :
( ( '%'(X582,X584) = X585 )
=> ( valid(c_sort(type_alloc_table,X563),c_sort(X580,X583))
=> ! [X586: c_unique] :
( ( upd(c_sort(type_memory(c_int,type_global),X578),c_sort(X580,X583),c_sort(c_int,int2U(X585))) = X586 )
=> ! [X587: $int] :
( ( $difference(X584,1) = X587 )
=> ( ( 0 != X584 )
=> ! [X588: $int] :
( ( whydivide(X582,X584) = X588 )
=> ! [X589: $int] :
( ( X588 = X589 )
=> ! [X590: $int] :
( ( $difference(X575,1) = X590 )
=> ( ( 0 != X590 )
=> ! [X591: $int] :
( ( $product(X589,X590) = X591 )
=> ( $product(X590,2) = X587 ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) )
& ( type_pointer(type_global) = X580 ) ) ) ) ) ) ) ) ) ) ) ),
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_101) ).
tff(f2220,plain,
( ~ spl263_91
| spl263_5
| ~ spl263_65 ),
inference(avatar_split_clause,[],[f2203,f1583,f1072,f2218]) ).
tff(f2218,plain,
( spl263_91
<=> $less(sK7,1) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_91])]) ).
tff(f1072,plain,
( spl263_5
<=> $less(sK7,sK11) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_5])]) ).
tff(f1583,plain,
( spl263_65
<=> ( 1 = sK11 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_65])]) ).
tff(f2203,plain,
( ~ $less(sK7,1)
| spl263_5
| ~ spl263_65 ),
inference(superposition,[],[f1073,f1584]) ).
tff(f1584,plain,
( ( 1 = sK11 )
| ~ spl263_65 ),
inference(avatar_component_clause,[],[f1583]) ).
tff(f1073,plain,
( ~ $less(sK7,sK11)
| spl263_5 ),
inference(avatar_component_clause,[],[f1072]) ).
tff(f2216,plain,
( spl263_90
| ~ spl263_4
| ~ spl263_65 ),
inference(avatar_split_clause,[],[f2204,f1583,f1068,f2214]) ).
tff(f2214,plain,
( spl263_90
<=> ( 2 = sK13 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_90])]) ).
tff(f1068,plain,
( spl263_4
<=> ( sK13 = $product(sK11,2) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_4])]) ).
tff(f2204,plain,
( ( 2 = sK13 )
| ~ spl263_4
| ~ spl263_65 ),
inference(evaluation,[],[f2201]) ).
tff(f2201,plain,
( ( sK13 = $product(1,2) )
| ~ spl263_4
| ~ spl263_65 ),
inference(superposition,[],[f1069,f1584]) ).
tff(f1069,plain,
( ( sK13 = $product(sK11,2) )
| ~ spl263_4 ),
inference(avatar_component_clause,[],[f1068]) ).
tff(f2212,plain,
( spl263_89
| ~ spl263_23
| ~ spl263_65 ),
inference(avatar_split_clause,[],[f2200,f1583,f1275,f2210]) ).
tff(f2210,plain,
( spl263_89
<=> ( sK13 = sK28(1) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_89])]) ).
tff(f1275,plain,
( spl263_23
<=> ( sK13 = sK28(sK11) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_23])]) ).
tff(f2200,plain,
( ( sK13 = sK28(1) )
| ~ spl263_23
| ~ spl263_65 ),
inference(superposition,[],[f1276,f1584]) ).
tff(f1276,plain,
( ( sK13 = sK28(sK11) )
| ~ spl263_23 ),
inference(avatar_component_clause,[],[f1275]) ).
tff(f2208,plain,
( spl263_88
| ~ spl263_62
| ~ spl263_65 ),
inference(avatar_split_clause,[],[f2199,f1583,f1572,f2206]) ).
tff(f2206,plain,
( spl263_88
<=> $less(1,sK7) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_88])]) ).
tff(f1572,plain,
( spl263_62
<=> $less(sK11,sK7) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_62])]) ).
tff(f2199,plain,
( $less(1,sK7)
| ~ spl263_62
| ~ spl263_65 ),
inference(superposition,[],[f1573,f1584]) ).
tff(f1573,plain,
( $less(sK11,sK7)
| ~ spl263_62 ),
inference(avatar_component_clause,[],[f1572]) ).
tff(f2198,plain,
( spl263_87
| ~ spl263_66 ),
inference(avatar_split_clause,[],[f2190,f1586,f2196]) ).
tff(f2196,plain,
( spl263_87
<=> ( c_Boolean_true = lt_int_bool(1,sK11) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_87])]) ).
tff(f1586,plain,
( spl263_66
<=> $less(1,sK11) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_66])]) ).
tff(f2190,plain,
( ( c_Boolean_true = lt_int_bool(1,sK11) )
| ~ spl263_66 ),
inference(resolution,[],[f1587,f672]) ).
tff(f672,plain,
! [X0: $int,X1: $int] :
( ~ $less(X0,X1)
| ( c_Boolean_true = lt_int_bool(X0,X1) ) ),
inference(cnf_transformation,[],[f362]) ).
tff(f362,plain,
! [X0: $int,X1: $int] :
( ( ( c_Boolean_true = lt_int_bool(X0,X1) )
| ~ $less(X0,X1) )
& ( $less(X0,X1)
| ( c_Boolean_true != lt_int_bool(X0,X1) ) ) ),
inference(nnf_transformation,[],[f175]) ).
tff(f175,plain,
! [X0: $int,X1: $int] :
( ( c_Boolean_true = lt_int_bool(X0,X1) )
<=> $less(X0,X1) ),
inference(rectify,[],[f16]) ).
tff(f16,axiom,
! [X22: $int,X23: $int] :
( ( c_Boolean_true = lt_int_bool(X22,X23) )
<=> $less(X22,X23) ),
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_16) ).
tff(f1587,plain,
( $less(1,sK11)
| ~ spl263_66 ),
inference(avatar_component_clause,[],[f1586]) ).
tff(f2194,plain,
( spl263_86
| ~ spl263_66 ),
inference(avatar_split_clause,[],[f2189,f1586,f2192]) ).
tff(f2192,plain,
( spl263_86
<=> ( c_Boolean_true = gt_int_bool(sK11,1) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_86])]) ).
tff(f2189,plain,
( ( c_Boolean_true = gt_int_bool(sK11,1) )
| ~ spl263_66 ),
inference(resolution,[],[f1587,f676]) ).
tff(f676,plain,
! [X0: $int,X1: $int] :
( ~ $less(X1,X0)
| ( c_Boolean_true = gt_int_bool(X0,X1) ) ),
inference(cnf_transformation,[],[f364]) ).
tff(f364,plain,
! [X0: $int,X1: $int] :
( ( ( c_Boolean_true = gt_int_bool(X0,X1) )
| ~ $less(X1,X0) )
& ( $less(X1,X0)
| ( c_Boolean_true != gt_int_bool(X0,X1) ) ) ),
inference(nnf_transformation,[],[f177]) ).
tff(f177,plain,
! [X0: $int,X1: $int] :
( ( c_Boolean_true = gt_int_bool(X0,X1) )
<=> $less(X1,X0) ),
inference(rectify,[],[f107]) ).
tff(f107,plain,
! [X26: $int,X27: $int] :
( ( c_Boolean_true = gt_int_bool(X26,X27) )
<=> $less(X27,X26) ),
inference(theory_normalization,[],[f18]) ).
tff(f18,axiom,
! [X26: $int,X27: $int] :
( ( c_Boolean_true = gt_int_bool(X26,X27) )
<=> $greater(X26,X27) ),
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_18) ).
tff(f2044,plain,
( spl263_85
| ~ spl263_64 ),
inference(avatar_split_clause,[],[f2036,f1579,f2042]) ).
tff(f2042,plain,
( spl263_85
<=> ( c_Boolean_true = lt_int_bool(0,sK7) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_85])]) ).
tff(f1579,plain,
( spl263_64
<=> $less(0,sK7) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_64])]) ).
tff(f2036,plain,
( ( c_Boolean_true = lt_int_bool(0,sK7) )
| ~ spl263_64 ),
inference(resolution,[],[f1580,f672]) ).
tff(f1580,plain,
( $less(0,sK7)
| ~ spl263_64 ),
inference(avatar_component_clause,[],[f1579]) ).
tff(f2040,plain,
( spl263_84
| ~ spl263_64 ),
inference(avatar_split_clause,[],[f2035,f1579,f2038]) ).
tff(f2038,plain,
( spl263_84
<=> ( c_Boolean_true = gt_int_bool(sK7,0) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_84])]) ).
tff(f2035,plain,
( ( c_Boolean_true = gt_int_bool(sK7,0) )
| ~ spl263_64 ),
inference(resolution,[],[f1580,f676]) ).
tff(f1796,plain,
( ~ spl263_83
| ~ spl263_11
| ~ spl263_64 ),
inference(avatar_split_clause,[],[f1792,f1579,f1096,f1794]) ).
tff(f1794,plain,
( spl263_83
<=> $less(sK7,14) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_83])]) ).
tff(f1096,plain,
( spl263_11
<=> ( 0 = '%'(sK7,14) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_11])]) ).
tff(f1792,plain,
( ~ $less(sK7,14)
| ~ spl263_11
| ~ spl263_64 ),
inference(subsumption_resolution,[],[f1790,f1580]) ).
tff(f1790,plain,
( ~ $less(0,sK7)
| ~ $less(sK7,14)
| ~ spl263_11 ),
inference(trivial_inequality_removal,[],[f1789]) ).
tff(f1789,plain,
( ( 0 != 0 )
| ~ $less(0,sK7)
| ~ $less(sK7,14)
| ~ spl263_11 ),
inference(superposition,[],[f653,f1097]) ).
tff(f1097,plain,
( ( 0 = '%'(sK7,14) )
| ~ spl263_11 ),
inference(avatar_component_clause,[],[f1096]) ).
tff(f653,plain,
! [X0: $int] :
( ( 0 != '%'(X0,14) )
| ~ $less(0,X0)
| ~ $less(X0,14) ),
inference(cnf_transformation,[],[f253]) ).
tff(f253,plain,
! [X0: $int] :
( ~ $less(X0,14)
| ~ $less(0,X0)
| ( 0 != '%'(X0,14) ) ),
inference(flattening,[],[f252]) ).
tff(f252,plain,
! [X0: $int] :
( ~ $less(X0,14)
| ~ $less(0,X0)
| ( 0 != '%'(X0,14) ) ),
inference(ennf_transformation,[],[f161]) ).
tff(f161,plain,
! [X0: $int] :
( ( 0 = '%'(X0,14) )
=> ( $less(0,X0)
=> ~ $less(X0,14) ) ),
inference(rectify,[],[f104]) ).
tff(f104,plain,
! [X561: $int] :
( ( 0 = '%'(X561,14) )
=> ( $less(0,X561)
=> ~ $less(X561,14) ) ),
inference(theory_normalization,[],[f99]) ).
tff(f99,axiom,
! [X561: $int] :
( ( 0 = '%'(X561,14) )
=> ( $greater(X561,0)
=> $greatereq(X561,14) ) ),
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_99) ).
tff(f1787,plain,
( ~ spl263_82
| ~ spl263_74 ),
inference(avatar_split_clause,[],[f1783,f1688,f1785]) ).
tff(f1785,plain,
( spl263_82
<=> ( sK22(type_pointer(type_global)) = $product($sum(-1,sK11),2) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_82])]) ).
tff(f1688,plain,
( spl263_74
<=> ( $sum(-1,sK11) = sK25(type_pointer(type_global)) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_74])]) ).
tff(f1783,plain,
( ( sK22(type_pointer(type_global)) != $product($sum(-1,sK11),2) )
| ~ spl263_74 ),
inference(forward_demodulation,[],[f1782,f1689]) ).
tff(f1689,plain,
( ( $sum(-1,sK11) = sK25(type_pointer(type_global)) )
| ~ spl263_74 ),
inference(avatar_component_clause,[],[f1688]) ).
tff(f1782,plain,
sK22(type_pointer(type_global)) != $product(sK25(type_pointer(type_global)),2),
inference(equality_resolution,[],[f644]) ).
tff(f644,plain,
! [X16: c_type] :
( ( type_pointer(type_global) != X16 )
| ( sK22(X16) != $product(sK25(X16),2) ) ),
inference(cnf_transformation,[],[f355]) ).
tff(f1781,plain,
spl263_81,
inference(avatar_split_clause,[],[f1777,f1779]) ).
tff(f1779,plain,
( spl263_81
<=> valid(sK29(sK1),sK30(type_global,sK15)) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_81])]) ).
tff(f1777,plain,
valid(sK29(sK1),sK30(type_global,sK15)),
inference(forward_demodulation,[],[f1776,f656]) ).
tff(f656,plain,
! [X0: c_unique] : ( c_sort(type_alloc_table,X0) = sK29(X0) ),
inference(cnf_transformation,[],[f359]) ).
tff(f359,plain,
! [X0: c_unique] :
( alloc_extends(sK29(X0),sK29(X0))
& ( c_sort(type_alloc_table,X0) = sK29(X0) ) ),
inference(skolemisation,[status(esa),new_symbols(skolem,[sK29])],[f163,f358]) ).
tff(f358,plain,
! [X0: c_unique] :
( ? [X1: c_ssorted] :
( alloc_extends(X1,X1)
& ( c_sort(type_alloc_table,X0) = X1 ) )
=> ( alloc_extends(sK29(X0),sK29(X0))
& ( c_sort(type_alloc_table,X0) = sK29(X0) ) ) ),
introduced(choice_axiom,[]) ).
tff(f163,plain,
! [X0: c_unique] :
? [X1: c_ssorted] :
( alloc_extends(X1,X1)
& ( c_sort(type_alloc_table,X0) = X1 ) ),
inference(rectify,[],[f91]) ).
tff(f91,axiom,
! [X534: c_unique] :
? [X535: c_ssorted] :
( alloc_extends(X535,X535)
& ( c_sort(type_alloc_table,X534) = X535 ) ),
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_91) ).
tff(f1776,plain,
valid(c_sort(type_alloc_table,sK1),sK30(type_global,sK15)),
inference(forward_demodulation,[],[f1775,f679]) ).
tff(f679,plain,
! [X0: c_type,X1: c_unique] : ( c_sort(type_pointer(X0),X1) = sK30(X0,X1) ),
inference(cnf_transformation,[],[f367]) ).
tff(f367,plain,
! [X0: c_type,X1: c_unique] :
( ~ not_in_pset(sK30(X0,X1),c_sort(type_pset(X0),pset_singleton(sK30(X0,X1))))
& ( c_sort(type_pointer(X0),X1) = sK30(X0,X1) ) ),
inference(skolemisation,[status(esa),new_symbols(skolem,[sK30])],[f179,f366]) ).
tff(f366,plain,
! [X0: c_type,X1: c_unique] :
( ? [X2: c_ssorted] :
( ~ not_in_pset(X2,c_sort(type_pset(X0),pset_singleton(X2)))
& ( c_sort(type_pointer(X0),X1) = X2 ) )
=> ( ~ not_in_pset(sK30(X0,X1),c_sort(type_pset(X0),pset_singleton(sK30(X0,X1))))
& ( c_sort(type_pointer(X0),X1) = sK30(X0,X1) ) ) ),
introduced(choice_axiom,[]) ).
tff(f179,plain,
! [X0: c_type,X1: c_unique] :
? [X2: c_ssorted] :
( ~ not_in_pset(X2,c_sort(type_pset(X0),pset_singleton(X2)))
& ( c_sort(type_pointer(X0),X1) = X2 ) ),
inference(rectify,[],[f54]) ).
tff(f54,axiom,
! [X227: c_type,X228: c_unique] :
? [X229: c_ssorted] :
( ~ not_in_pset(X229,c_sort(type_pset(X227),pset_singleton(X229)))
& ( c_sort(type_pointer(X227),X228) = X229 ) ),
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_54) ).
tff(f1775,plain,
valid(c_sort(type_alloc_table,sK1),c_sort(type_pointer(type_global),sK15)),
inference(equality_resolution,[],[f628]) ).
tff(f628,plain,
! [X16: c_type] :
( ( type_pointer(type_global) != X16 )
| valid(c_sort(type_alloc_table,sK1),c_sort(X16,sK15)) ),
inference(cnf_transformation,[],[f355]) ).
tff(f1774,plain,
spl263_80,
inference(avatar_split_clause,[],[f1770,f1772]) ).
tff(f1772,plain,
( spl263_80
<=> ( sK15 = shift(sK30(type_global,sK4),sK11) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_80])]) ).
tff(f1770,plain,
sK15 = shift(sK30(type_global,sK4),sK11),
inference(forward_demodulation,[],[f1769,f679]) ).
tff(f1769,plain,
sK15 = shift(c_sort(type_pointer(type_global),sK4),sK11),
inference(equality_resolution,[],[f627]) ).
tff(f627,plain,
! [X16: c_type] :
( ( type_pointer(type_global) != X16 )
| ( shift(c_sort(X16,sK4),sK11) = sK15 ) ),
inference(cnf_transformation,[],[f355]) ).
tff(f1768,plain,
( spl263_79
| ~ spl263_4 ),
inference(avatar_split_clause,[],[f1755,f1068,f1766]) ).
tff(f1766,plain,
( spl263_79
<=> ! [X19: $int] : ( $product(sK13,X19) = $product(sK11,sK28(X19)) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_79])]) ).
tff(f1755,plain,
( ! [X19: $int] : ( $product(sK13,X19) = $product(sK11,sK28(X19)) )
| ~ spl263_4 ),
inference(forward_demodulation,[],[f1734,f1303]) ).
tff(f1303,plain,
! [X6: $int] : ( sK28(X6) = $product(2,X6) ),
inference(superposition,[],[f146,f654]) ).
tff(f654,plain,
! [X0: $int] : ( $product(X0,2) = sK28(X0) ),
inference(cnf_transformation,[],[f357]) ).
tff(f357,plain,
! [X0: $int] :
( ( $less(1,sK28(X0))
| ~ $less(0,sK28(X0)) )
& ( $product(X0,2) = sK28(X0) ) ),
inference(skolemisation,[status(esa),new_symbols(skolem,[sK28])],[f254,f356]) ).
tff(f356,plain,
! [X0: $int] :
( ? [X1: $int] :
( ( $less(1,X1)
| ~ $less(0,X1) )
& ( $product(X0,2) = X1 ) )
=> ( ( $less(1,sK28(X0))
| ~ $less(0,sK28(X0)) )
& ( $product(X0,2) = sK28(X0) ) ) ),
introduced(choice_axiom,[]) ).
tff(f254,plain,
! [X0: $int] :
? [X1: $int] :
( ( $less(1,X1)
| ~ $less(0,X1) )
& ( $product(X0,2) = X1 ) ),
inference(ennf_transformation,[],[f162]) ).
tff(f162,plain,
! [X0: $int] :
? [X1: $int] :
( ( $less(0,X1)
=> $less(1,X1) )
& ( $product(X0,2) = X1 ) ),
inference(rectify,[],[f105]) ).
tff(f105,plain,
! [X558: $int] :
? [X559: $int] :
( ( $less(0,X559)
=> $less(1,X559) )
& ( $product(X558,2) = X559 ) ),
inference(theory_normalization,[],[f97]) ).
tff(f97,axiom,
! [X558: $int] :
? [X559: $int] :
( ( $greater(X559,0)
=> $greater(X559,1) )
& ( $product(X558,2) = X559 ) ),
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_97) ).
tff(f146,plain,
! [X0: $int,X1: $int] : ( $product(X0,X1) = $product(X1,X0) ),
introduced(theory_axiom_138,[]) ).
tff(f1734,plain,
( ! [X19: $int] : ( $product(sK11,$product(2,X19)) = $product(sK13,X19) )
| ~ spl263_4 ),
inference(superposition,[],[f147,f1069]) ).
tff(f147,plain,
! [X2: $int,X0: $int,X1: $int] : ( $product(X0,$product(X1,X2)) = $product($product(X0,X1),X2) ),
introduced(theory_axiom_139,[]) ).
tff(f1760,plain,
( spl263_78
| ~ spl263_4
| ~ spl263_61 ),
inference(avatar_split_clause,[],[f1756,f1569,f1068,f1758]) ).
tff(f1758,plain,
( spl263_78
<=> ! [X19: $int] : ( $product(sK13,X19) = $product(sK7,sK28(X19)) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_78])]) ).
tff(f1569,plain,
( spl263_61
<=> ( sK7 = sK11 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_61])]) ).
tff(f1756,plain,
( ! [X19: $int] : ( $product(sK13,X19) = $product(sK7,sK28(X19)) )
| ~ spl263_4
| ~ spl263_61 ),
inference(forward_demodulation,[],[f1755,f1570]) ).
tff(f1570,plain,
( ( sK7 = sK11 )
| ~ spl263_61 ),
inference(avatar_component_clause,[],[f1569]) ).
tff(f1754,plain,
( spl263_77
| ~ spl263_9 ),
inference(avatar_split_clause,[],[f1750,f1088,f1752]) ).
tff(f1752,plain,
( spl263_77
<=> ! [X18: $int] : ( $product(sK9,X18) = $product(sK7,sK28(X18)) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_77])]) ).
tff(f1088,plain,
( spl263_9
<=> ( $product(sK7,2) = sK9 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_9])]) ).
tff(f1750,plain,
( ! [X18: $int] : ( $product(sK9,X18) = $product(sK7,sK28(X18)) )
| ~ spl263_9 ),
inference(forward_demodulation,[],[f1733,f1303]) ).
tff(f1733,plain,
( ! [X18: $int] : ( $product(sK7,$product(2,X18)) = $product(sK9,X18) )
| ~ spl263_9 ),
inference(superposition,[],[f147,f1089]) ).
tff(f1089,plain,
( ( $product(sK7,2) = sK9 )
| ~ spl263_9 ),
inference(avatar_component_clause,[],[f1088]) ).
tff(f1700,plain,
( spl263_76
| ~ spl263_62 ),
inference(avatar_split_clause,[],[f1692,f1572,f1698]) ).
tff(f1698,plain,
( spl263_76
<=> ( c_Boolean_true = lt_int_bool(sK11,sK7) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_76])]) ).
tff(f1692,plain,
( ( c_Boolean_true = lt_int_bool(sK11,sK7) )
| ~ spl263_62 ),
inference(resolution,[],[f1573,f672]) ).
tff(f1696,plain,
( spl263_75
| ~ spl263_62 ),
inference(avatar_split_clause,[],[f1691,f1572,f1694]) ).
tff(f1694,plain,
( spl263_75
<=> ( c_Boolean_true = gt_int_bool(sK7,sK11) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_75])]) ).
tff(f1691,plain,
( ( c_Boolean_true = gt_int_bool(sK7,sK11) )
| ~ spl263_62 ),
inference(resolution,[],[f1573,f676]) ).
tff(f1690,plain,
spl263_74,
inference(avatar_split_clause,[],[f1686,f1688]) ).
tff(f1686,plain,
$sum(-1,sK11) = sK25(type_pointer(type_global)),
inference(forward_demodulation,[],[f1685,f135]) ).
tff(f135,plain,
! [X0: $int,X1: $int] : ( $sum(X0,X1) = $sum(X1,X0) ),
introduced(theory_axiom_138,[]) ).
tff(f1685,plain,
$sum(sK11,-1) = sK25(type_pointer(type_global)),
inference(equality_resolution,[],[f1052]) ).
tff(f1052,plain,
! [X16: c_type] :
( ( type_pointer(type_global) != X16 )
| ( sK25(X16) = $sum(sK11,-1) ) ),
inference(evaluation,[],[f641]) ).
tff(f641,plain,
! [X16: c_type] :
( ( $sum(sK11,$uminus(1)) = sK25(X16) )
| ( type_pointer(type_global) != X16 ) ),
inference(cnf_transformation,[],[f355]) ).
tff(f1684,plain,
spl263_73,
inference(avatar_split_clause,[],[f1680,f1682]) ).
tff(f1680,plain,
$sum(-1,sK13) = sK19(type_pointer(type_global)),
inference(forward_demodulation,[],[f1679,f135]) ).
tff(f1679,plain,
$sum(sK13,-1) = sK19(type_pointer(type_global)),
inference(equality_resolution,[],[f1050]) ).
tff(f1050,plain,
! [X16: c_type] :
( ( type_pointer(type_global) != X16 )
| ( sK19(X16) = $sum(sK13,-1) ) ),
inference(evaluation,[],[f632]) ).
tff(f632,plain,
! [X16: c_type] :
( ( $sum(sK13,$uminus(1)) = sK19(X16) )
| ( type_pointer(type_global) != X16 ) ),
inference(cnf_transformation,[],[f355]) ).
tff(f1678,plain,
( spl263_72
| ~ spl263_57
| ~ spl263_60 ),
inference(avatar_split_clause,[],[f1674,f1565,f1555,f1676]) ).
tff(f1676,plain,
( spl263_72
<=> ( c_Boolean_true = lt_int_bool(0,2800) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_72])]) ).
tff(f1555,plain,
( spl263_57
<=> ( 2800 = sK5 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_57])]) ).
tff(f1565,plain,
( spl263_60
<=> $less(0,sK5) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_60])]) ).
tff(f1674,plain,
( ( c_Boolean_true = lt_int_bool(0,2800) )
| ~ spl263_57
| ~ spl263_60 ),
inference(forward_demodulation,[],[f1667,f1556]) ).
tff(f1556,plain,
( ( 2800 = sK5 )
| ~ spl263_57 ),
inference(avatar_component_clause,[],[f1555]) ).
tff(f1667,plain,
( ( c_Boolean_true = lt_int_bool(0,sK5) )
| ~ spl263_60 ),
inference(resolution,[],[f1566,f672]) ).
tff(f1566,plain,
( $less(0,sK5)
| ~ spl263_60 ),
inference(avatar_component_clause,[],[f1565]) ).
tff(f1673,plain,
( spl263_71
| ~ spl263_57
| ~ spl263_60 ),
inference(avatar_split_clause,[],[f1669,f1565,f1555,f1671]) ).
tff(f1671,plain,
( spl263_71
<=> ( c_Boolean_true = gt_int_bool(2800,0) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_71])]) ).
tff(f1669,plain,
( ( c_Boolean_true = gt_int_bool(2800,0) )
| ~ spl263_57
| ~ spl263_60 ),
inference(forward_demodulation,[],[f1666,f1556]) ).
tff(f1666,plain,
( ( c_Boolean_true = gt_int_bool(sK5,0) )
| ~ spl263_60 ),
inference(resolution,[],[f1566,f676]) ).
tff(f1642,plain,
( spl263_70
| ~ spl263_22
| ~ spl263_57 ),
inference(avatar_split_clause,[],[f1638,f1555,f1265,f1640]) ).
tff(f1640,plain,
( spl263_70
<=> ! [X10: $int] :
( ~ $less(X10,2800)
| $less($sum(X10,-2800),0) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_70])]) ).
tff(f1265,plain,
( spl263_22
<=> ( 0 = $sum(sK5,-2800) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_22])]) ).
tff(f1638,plain,
( ! [X10: $int] :
( ~ $less(X10,2800)
| $less($sum(X10,-2800),0) )
| ~ spl263_22
| ~ spl263_57 ),
inference(forward_demodulation,[],[f1629,f1556]) ).
tff(f1629,plain,
( ! [X10: $int] :
( $less($sum(X10,-2800),0)
| ~ $less(X10,sK5) )
| ~ spl263_22 ),
inference(superposition,[],[f143,f1266]) ).
tff(f1266,plain,
( ( 0 = $sum(sK5,-2800) )
| ~ spl263_22 ),
inference(avatar_component_clause,[],[f1265]) ).
tff(f143,plain,
! [X2: $int,X0: $int,X1: $int] :
( $less($sum(X0,X2),$sum(X1,X2))
| ~ $less(X0,X1) ),
introduced(theory_axiom_148,[]) ).
tff(f1637,plain,
( spl263_69
| ~ spl263_22
| ~ spl263_57 ),
inference(avatar_split_clause,[],[f1633,f1555,f1265,f1635]) ).
tff(f1635,plain,
( spl263_69
<=> ! [X10: $int] :
( ~ $less(2800,X10)
| $less(0,$sum(X10,-2800)) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_69])]) ).
tff(f1633,plain,
( ! [X10: $int] :
( ~ $less(2800,X10)
| $less(0,$sum(X10,-2800)) )
| ~ spl263_22
| ~ spl263_57 ),
inference(forward_demodulation,[],[f1623,f1556]) ).
tff(f1623,plain,
( ! [X10: $int] :
( $less(0,$sum(X10,-2800))
| ~ $less(sK5,X10) )
| ~ spl263_22 ),
inference(superposition,[],[f143,f1266]) ).
tff(f1599,plain,
( spl263_68
| ~ spl263_56 ),
inference(avatar_split_clause,[],[f1591,f1551,f1597]) ).
tff(f1597,plain,
( spl263_68
<=> ( c_Boolean_true = lt_int_bool(sK7,2800) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_68])]) ).
tff(f1551,plain,
( spl263_56
<=> $less(sK7,2800) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_56])]) ).
tff(f1591,plain,
( ( c_Boolean_true = lt_int_bool(sK7,2800) )
| ~ spl263_56 ),
inference(resolution,[],[f1552,f672]) ).
tff(f1552,plain,
( $less(sK7,2800)
| ~ spl263_56 ),
inference(avatar_component_clause,[],[f1551]) ).
tff(f1595,plain,
( spl263_67
| ~ spl263_56 ),
inference(avatar_split_clause,[],[f1590,f1551,f1593]) ).
tff(f1593,plain,
( spl263_67
<=> ( c_Boolean_true = gt_int_bool(2800,sK7) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_67])]) ).
tff(f1590,plain,
( ( c_Boolean_true = gt_int_bool(2800,sK7) )
| ~ spl263_56 ),
inference(resolution,[],[f1552,f676]) ).
tff(f1588,plain,
( spl263_65
| spl263_66
| spl263_6 ),
inference(avatar_split_clause,[],[f1546,f1076,f1586,f1583]) ).
tff(f1076,plain,
( spl263_6
<=> $less(sK11,1) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_6])]) ).
tff(f1546,plain,
( $less(1,sK11)
| ( 1 = sK11 )
| spl263_6 ),
inference(resolution,[],[f142,f1077]) ).
tff(f1077,plain,
( ~ $less(sK11,1)
| spl263_6 ),
inference(avatar_component_clause,[],[f1076]) ).
tff(f142,plain,
! [X0: $int,X1: $int] :
( $less(X1,X0)
| $less(X0,X1)
| ( X0 = X1 ) ),
introduced(theory_axiom_147,[]) ).
tff(f1581,plain,
( spl263_63
| spl263_64
| spl263_13 ),
inference(avatar_split_clause,[],[f1545,f1104,f1579,f1576]) ).
tff(f1576,plain,
( spl263_63
<=> ( 0 = sK7 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_63])]) ).
tff(f1104,plain,
( spl263_13
<=> $less(sK7,0) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_13])]) ).
tff(f1545,plain,
( $less(0,sK7)
| ( 0 = sK7 )
| spl263_13 ),
inference(resolution,[],[f142,f1105]) ).
tff(f1105,plain,
( ~ $less(sK7,0)
| spl263_13 ),
inference(avatar_component_clause,[],[f1104]) ).
tff(f1574,plain,
( spl263_61
| spl263_62
| spl263_5 ),
inference(avatar_split_clause,[],[f1544,f1072,f1572,f1569]) ).
tff(f1544,plain,
( $less(sK11,sK7)
| ( sK7 = sK11 )
| spl263_5 ),
inference(resolution,[],[f142,f1073]) ).
tff(f1567,plain,
( spl263_59
| spl263_60
| spl263_16 ),
inference(avatar_split_clause,[],[f1543,f1116,f1565,f1562]) ).
tff(f1562,plain,
( spl263_59
<=> ( 0 = sK5 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_59])]) ).
tff(f1116,plain,
( spl263_16
<=> $less(sK5,0) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_16])]) ).
tff(f1543,plain,
( $less(0,sK5)
| ( 0 = sK5 )
| spl263_16 ),
inference(resolution,[],[f142,f1117]) ).
tff(f1117,plain,
( ~ $less(sK5,0)
| spl263_16 ),
inference(avatar_component_clause,[],[f1116]) ).
tff(f1560,plain,
( spl263_57
| spl263_58
| spl263_15 ),
inference(avatar_split_clause,[],[f1542,f1112,f1558,f1555]) ).
tff(f1558,plain,
( spl263_58
<=> $less(sK5,2800) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_58])]) ).
tff(f1112,plain,
( spl263_15
<=> $less(2800,sK5) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_15])]) ).
tff(f1542,plain,
( $less(sK5,2800)
| ( 2800 = sK5 )
| spl263_15 ),
inference(resolution,[],[f142,f1113]) ).
tff(f1113,plain,
( ~ $less(2800,sK5)
| spl263_15 ),
inference(avatar_component_clause,[],[f1112]) ).
tff(f1553,plain,
( spl263_55
| spl263_56
| spl263_12 ),
inference(avatar_split_clause,[],[f1541,f1100,f1551,f1548]) ).
tff(f1548,plain,
( spl263_55
<=> ( 2800 = sK7 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_55])]) ).
tff(f1100,plain,
( spl263_12
<=> $less(2800,sK7) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_12])]) ).
tff(f1541,plain,
( $less(sK7,2800)
| ( 2800 = sK7 )
| spl263_12 ),
inference(resolution,[],[f142,f1101]) ).
tff(f1101,plain,
( ~ $less(2800,sK7)
| spl263_12 ),
inference(avatar_component_clause,[],[f1100]) ).
tff(f1533,plain,
( spl263_54
| spl263_6 ),
inference(avatar_split_clause,[],[f1509,f1076,f1531]) ).
tff(f1531,plain,
( spl263_54
<=> ! [X16: $int] :
( ~ $less(X16,1)
| ~ $less(sK11,X16) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_54])]) ).
tff(f1509,plain,
( ! [X16: $int] :
( ~ $less(X16,1)
| ~ $less(sK11,X16) )
| spl263_6 ),
inference(resolution,[],[f141,f1077]) ).
tff(f141,plain,
! [X2: $int,X0: $int,X1: $int] :
( $less(X0,X2)
| ~ $less(X1,X2)
| ~ $less(X0,X1) ),
introduced(theory_axiom_146,[]) ).
tff(f1529,plain,
( spl263_53
| spl263_13 ),
inference(avatar_split_clause,[],[f1508,f1104,f1527]) ).
tff(f1527,plain,
( spl263_53
<=> ! [X15: $int] :
( ~ $less(X15,0)
| ~ $less(sK7,X15) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_53])]) ).
tff(f1508,plain,
( ! [X15: $int] :
( ~ $less(X15,0)
| ~ $less(sK7,X15) )
| spl263_13 ),
inference(resolution,[],[f141,f1105]) ).
tff(f1525,plain,
( spl263_52
| spl263_5 ),
inference(avatar_split_clause,[],[f1507,f1072,f1523]) ).
tff(f1523,plain,
( spl263_52
<=> ! [X14: $int] :
( ~ $less(X14,sK11)
| ~ $less(sK7,X14) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_52])]) ).
tff(f1507,plain,
( ! [X14: $int] :
( ~ $less(X14,sK11)
| ~ $less(sK7,X14) )
| spl263_5 ),
inference(resolution,[],[f141,f1073]) ).
tff(f1521,plain,
( spl263_51
| spl263_16 ),
inference(avatar_split_clause,[],[f1506,f1116,f1519]) ).
tff(f1519,plain,
( spl263_51
<=> ! [X13: $int] :
( ~ $less(X13,0)
| ~ $less(sK5,X13) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_51])]) ).
tff(f1506,plain,
( ! [X13: $int] :
( ~ $less(X13,0)
| ~ $less(sK5,X13) )
| spl263_16 ),
inference(resolution,[],[f141,f1117]) ).
tff(f1517,plain,
( spl263_50
| spl263_15 ),
inference(avatar_split_clause,[],[f1505,f1112,f1515]) ).
tff(f1515,plain,
( spl263_50
<=> ! [X12: $int] :
( ~ $less(X12,sK5)
| ~ $less(2800,X12) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_50])]) ).
tff(f1505,plain,
( ! [X12: $int] :
( ~ $less(X12,sK5)
| ~ $less(2800,X12) )
| spl263_15 ),
inference(resolution,[],[f141,f1113]) ).
tff(f1513,plain,
( spl263_49
| spl263_12 ),
inference(avatar_split_clause,[],[f1504,f1100,f1511]) ).
tff(f1511,plain,
( spl263_49
<=> ! [X11: $int] :
( ~ $less(X11,sK7)
| ~ $less(2800,X11) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_49])]) ).
tff(f1504,plain,
( ! [X11: $int] :
( ~ $less(X11,sK7)
| ~ $less(2800,X11) )
| spl263_12 ),
inference(resolution,[],[f141,f1101]) ).
tff(f1495,plain,
( spl263_48
| spl263_6 ),
inference(avatar_split_clause,[],[f1471,f1076,f1493]) ).
tff(f1493,plain,
( spl263_48
<=> ( c_Boolean_true = le_int_bool(1,sK11) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_48])]) ).
tff(f1471,plain,
( ( c_Boolean_true = le_int_bool(1,sK11) )
| spl263_6 ),
inference(resolution,[],[f678,f1077]) ).
tff(f678,plain,
! [X0: $int,X1: $int] :
( $less(X1,X0)
| ( c_Boolean_true = le_int_bool(X0,X1) ) ),
inference(cnf_transformation,[],[f365]) ).
tff(f365,plain,
! [X0: $int,X1: $int] :
( ( ( c_Boolean_true = le_int_bool(X0,X1) )
| $less(X1,X0) )
& ( ~ $less(X1,X0)
| ( c_Boolean_true != le_int_bool(X0,X1) ) ) ),
inference(nnf_transformation,[],[f178]) ).
tff(f178,plain,
! [X0: $int,X1: $int] :
( ( c_Boolean_true = le_int_bool(X0,X1) )
<=> ~ $less(X1,X0) ),
inference(rectify,[],[f108]) ).
tff(f108,plain,
! [X24: $int,X25: $int] :
( ( c_Boolean_true = le_int_bool(X24,X25) )
<=> ~ $less(X25,X24) ),
inference(theory_normalization,[],[f17]) ).
tff(f17,axiom,
! [X24: $int,X25: $int] :
( ( c_Boolean_true = le_int_bool(X24,X25) )
<=> $lesseq(X24,X25) ),
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_17) ).
tff(f1491,plain,
( spl263_47
| spl263_13 ),
inference(avatar_split_clause,[],[f1470,f1104,f1489]) ).
tff(f1489,plain,
( spl263_47
<=> ( c_Boolean_true = le_int_bool(0,sK7) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_47])]) ).
tff(f1470,plain,
( ( c_Boolean_true = le_int_bool(0,sK7) )
| spl263_13 ),
inference(resolution,[],[f678,f1105]) ).
tff(f1487,plain,
( spl263_46
| spl263_5 ),
inference(avatar_split_clause,[],[f1469,f1072,f1485]) ).
tff(f1485,plain,
( spl263_46
<=> ( c_Boolean_true = le_int_bool(sK11,sK7) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_46])]) ).
tff(f1469,plain,
( ( c_Boolean_true = le_int_bool(sK11,sK7) )
| spl263_5 ),
inference(resolution,[],[f678,f1073]) ).
tff(f1483,plain,
( spl263_45
| spl263_16 ),
inference(avatar_split_clause,[],[f1468,f1116,f1481]) ).
tff(f1481,plain,
( spl263_45
<=> ( c_Boolean_true = le_int_bool(0,sK5) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_45])]) ).
tff(f1468,plain,
( ( c_Boolean_true = le_int_bool(0,sK5) )
| spl263_16 ),
inference(resolution,[],[f678,f1117]) ).
tff(f1479,plain,
( spl263_44
| spl263_15 ),
inference(avatar_split_clause,[],[f1467,f1112,f1477]) ).
tff(f1477,plain,
( spl263_44
<=> ( c_Boolean_true = le_int_bool(sK5,2800) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_44])]) ).
tff(f1467,plain,
( ( c_Boolean_true = le_int_bool(sK5,2800) )
| spl263_15 ),
inference(resolution,[],[f678,f1113]) ).
tff(f1475,plain,
( spl263_43
| spl263_12 ),
inference(avatar_split_clause,[],[f1466,f1100,f1473]) ).
tff(f1473,plain,
( spl263_43
<=> ( c_Boolean_true = le_int_bool(sK7,2800) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_43])]) ).
tff(f1466,plain,
( ( c_Boolean_true = le_int_bool(sK7,2800) )
| spl263_12 ),
inference(resolution,[],[f678,f1101]) ).
tff(f1461,plain,
( spl263_42
| ~ spl263_32 ),
inference(avatar_split_clause,[],[f1453,f1370,f1459]) ).
tff(f1459,plain,
( spl263_42
<=> ( c_Boolean_true = lt_int_bool(1,sK9) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_42])]) ).
tff(f1370,plain,
( spl263_32
<=> $less(1,sK9) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_32])]) ).
tff(f1453,plain,
( ( c_Boolean_true = lt_int_bool(1,sK9) )
| ~ spl263_32 ),
inference(resolution,[],[f1371,f672]) ).
tff(f1371,plain,
( $less(1,sK9)
| ~ spl263_32 ),
inference(avatar_component_clause,[],[f1370]) ).
tff(f1457,plain,
( spl263_41
| ~ spl263_32 ),
inference(avatar_split_clause,[],[f1452,f1370,f1455]) ).
tff(f1455,plain,
( spl263_41
<=> ( c_Boolean_true = gt_int_bool(sK9,1) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_41])]) ).
tff(f1452,plain,
( ( c_Boolean_true = gt_int_bool(sK9,1) )
| ~ spl263_32 ),
inference(resolution,[],[f1371,f676]) ).
tff(f1450,plain,
( spl263_40
| ~ spl263_30 ),
inference(avatar_split_clause,[],[f1445,f1363,f1448]) ).
tff(f1448,plain,
( spl263_40
<=> ( c_Boolean_true = gt_int_bool(sK13,1) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_40])]) ).
tff(f1363,plain,
( spl263_30
<=> $less(1,sK13) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_30])]) ).
tff(f1445,plain,
( ( c_Boolean_true = gt_int_bool(sK13,1) )
| ~ spl263_30 ),
inference(resolution,[],[f676,f1364]) ).
tff(f1364,plain,
( $less(1,sK13)
| ~ spl263_30 ),
inference(avatar_component_clause,[],[f1363]) ).
tff(f1440,plain,
( spl263_39
| spl263_6 ),
inference(avatar_split_clause,[],[f1416,f1076,f1438]) ).
tff(f1438,plain,
( spl263_39
<=> ( c_Boolean_true = ge_int_bool(sK11,1) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_39])]) ).
tff(f1416,plain,
( ( c_Boolean_true = ge_int_bool(sK11,1) )
| spl263_6 ),
inference(resolution,[],[f674,f1077]) ).
tff(f674,plain,
! [X0: $int,X1: $int] :
( $less(X0,X1)
| ( c_Boolean_true = ge_int_bool(X0,X1) ) ),
inference(cnf_transformation,[],[f363]) ).
tff(f363,plain,
! [X0: $int,X1: $int] :
( ( ( c_Boolean_true = ge_int_bool(X0,X1) )
| $less(X0,X1) )
& ( ~ $less(X0,X1)
| ( c_Boolean_true != ge_int_bool(X0,X1) ) ) ),
inference(nnf_transformation,[],[f176]) ).
tff(f176,plain,
! [X0: $int,X1: $int] :
( ( c_Boolean_true = ge_int_bool(X0,X1) )
<=> ~ $less(X0,X1) ),
inference(rectify,[],[f106]) ).
tff(f106,plain,
! [X28: $int,X29: $int] :
( ( c_Boolean_true = ge_int_bool(X28,X29) )
<=> ~ $less(X28,X29) ),
inference(theory_normalization,[],[f19]) ).
tff(f19,axiom,
! [X28: $int,X29: $int] :
( ( c_Boolean_true = ge_int_bool(X28,X29) )
<=> $greatereq(X28,X29) ),
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_19) ).
tff(f1436,plain,
( spl263_38
| spl263_13 ),
inference(avatar_split_clause,[],[f1415,f1104,f1434]) ).
tff(f1434,plain,
( spl263_38
<=> ( c_Boolean_true = ge_int_bool(sK7,0) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_38])]) ).
tff(f1415,plain,
( ( c_Boolean_true = ge_int_bool(sK7,0) )
| spl263_13 ),
inference(resolution,[],[f674,f1105]) ).
tff(f1432,plain,
( spl263_37
| spl263_5 ),
inference(avatar_split_clause,[],[f1414,f1072,f1430]) ).
tff(f1430,plain,
( spl263_37
<=> ( c_Boolean_true = ge_int_bool(sK7,sK11) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_37])]) ).
tff(f1414,plain,
( ( c_Boolean_true = ge_int_bool(sK7,sK11) )
| spl263_5 ),
inference(resolution,[],[f674,f1073]) ).
tff(f1428,plain,
( spl263_36
| spl263_16 ),
inference(avatar_split_clause,[],[f1413,f1116,f1426]) ).
tff(f1426,plain,
( spl263_36
<=> ( c_Boolean_true = ge_int_bool(sK5,0) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_36])]) ).
tff(f1413,plain,
( ( c_Boolean_true = ge_int_bool(sK5,0) )
| spl263_16 ),
inference(resolution,[],[f674,f1117]) ).
tff(f1424,plain,
( spl263_35
| spl263_15 ),
inference(avatar_split_clause,[],[f1412,f1112,f1422]) ).
tff(f1422,plain,
( spl263_35
<=> ( c_Boolean_true = ge_int_bool(2800,sK5) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_35])]) ).
tff(f1412,plain,
( ( c_Boolean_true = ge_int_bool(2800,sK5) )
| spl263_15 ),
inference(resolution,[],[f674,f1113]) ).
tff(f1420,plain,
( spl263_34
| spl263_12 ),
inference(avatar_split_clause,[],[f1411,f1100,f1418]) ).
tff(f1418,plain,
( spl263_34
<=> ( c_Boolean_true = ge_int_bool(2800,sK7) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_34])]) ).
tff(f1411,plain,
( ( c_Boolean_true = ge_int_bool(2800,sK7) )
| spl263_12 ),
inference(resolution,[],[f674,f1101]) ).
tff(f1406,plain,
( spl263_33
| ~ spl263_30 ),
inference(avatar_split_clause,[],[f1402,f1363,f1404]) ).
tff(f1404,plain,
( spl263_33
<=> ( c_Boolean_true = lt_int_bool(1,sK13) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_33])]) ).
tff(f1402,plain,
( ( c_Boolean_true = lt_int_bool(1,sK13) )
| ~ spl263_30 ),
inference(resolution,[],[f672,f1364]) ).
tff(f1372,plain,
( ~ spl263_31
| spl263_32
| ~ spl263_24 ),
inference(avatar_split_clause,[],[f1358,f1282,f1370,f1367]) ).
tff(f1367,plain,
( spl263_31
<=> $less(0,sK9) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_31])]) ).
tff(f1282,plain,
( spl263_24
<=> ( sK9 = sK28(sK7) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_24])]) ).
tff(f1358,plain,
( $less(1,sK9)
| ~ $less(0,sK9)
| ~ spl263_24 ),
inference(superposition,[],[f655,f1283]) ).
tff(f1283,plain,
( ( sK9 = sK28(sK7) )
| ~ spl263_24 ),
inference(avatar_component_clause,[],[f1282]) ).
tff(f655,plain,
! [X0: $int] :
( $less(1,sK28(X0))
| ~ $less(0,sK28(X0)) ),
inference(cnf_transformation,[],[f357]) ).
tff(f1365,plain,
( ~ spl263_29
| spl263_30
| ~ spl263_23 ),
inference(avatar_split_clause,[],[f1357,f1275,f1363,f1360]) ).
tff(f1360,plain,
( spl263_29
<=> $less(0,sK13) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_29])]) ).
tff(f1357,plain,
( $less(1,sK13)
| ~ $less(0,sK13)
| ~ spl263_23 ),
inference(superposition,[],[f655,f1276]) ).
tff(f1347,plain,
spl263_28,
inference(avatar_split_clause,[],[f1342,f1344]) ).
tff(f1344,plain,
( spl263_28
<=> ( 0 = sK28(0) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_28])]) ).
tff(f1342,plain,
0 = sK28(0),
inference(superposition,[],[f654,f1301]) ).
tff(f1301,plain,
! [X4: $int] : ( 0 = $product(0,X4) ),
inference(superposition,[],[f146,f149]) ).
tff(f149,plain,
! [X0: $int] : ( 0 = $product(X0,0) ),
introduced(theory_axiom_152,[]) ).
tff(f1346,plain,
spl263_28,
inference(avatar_split_clause,[],[f1339,f1344]) ).
tff(f1339,plain,
0 = sK28(0),
inference(superposition,[],[f1301,f654]) ).
tff(f1334,plain,
( spl263_27
| ~ spl263_9 ),
inference(avatar_split_clause,[],[f1320,f1088,f1326]) ).
tff(f1326,plain,
( spl263_27
<=> ( sK9 = $product(2,sK7) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_27])]) ).
tff(f1320,plain,
( ( sK9 = $product(2,sK7) )
| ~ spl263_9 ),
inference(superposition,[],[f1089,f146]) ).
tff(f1333,plain,
( spl263_26
| ~ spl263_4 ),
inference(avatar_split_clause,[],[f1319,f1068,f1322]) ).
tff(f1322,plain,
( spl263_26
<=> ( sK13 = $product(2,sK11) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_26])]) ).
tff(f1319,plain,
( ( sK13 = $product(2,sK11) )
| ~ spl263_4 ),
inference(superposition,[],[f1069,f146]) ).
tff(f1332,plain,
( spl263_27
| ~ spl263_9 ),
inference(avatar_split_clause,[],[f1315,f1088,f1326]) ).
tff(f1315,plain,
( ( sK9 = $product(2,sK7) )
| ~ spl263_9 ),
inference(superposition,[],[f1089,f146]) ).
tff(f1331,plain,
( spl263_26
| ~ spl263_4 ),
inference(avatar_split_clause,[],[f1314,f1068,f1322]) ).
tff(f1314,plain,
( ( sK13 = $product(2,sK11) )
| ~ spl263_4 ),
inference(superposition,[],[f1069,f146]) ).
tff(f1330,plain,
( spl263_27
| ~ spl263_9 ),
inference(avatar_split_clause,[],[f1310,f1088,f1326]) ).
tff(f1310,plain,
( ( sK9 = $product(2,sK7) )
| ~ spl263_9 ),
inference(superposition,[],[f146,f1089]) ).
tff(f1329,plain,
( spl263_26
| ~ spl263_4 ),
inference(avatar_split_clause,[],[f1309,f1068,f1322]) ).
tff(f1309,plain,
( ( sK13 = $product(2,sK11) )
| ~ spl263_4 ),
inference(superposition,[],[f146,f1069]) ).
tff(f1328,plain,
( spl263_27
| ~ spl263_9 ),
inference(avatar_split_clause,[],[f1305,f1088,f1326]) ).
tff(f1305,plain,
( ( sK9 = $product(2,sK7) )
| ~ spl263_9 ),
inference(superposition,[],[f146,f1089]) ).
tff(f1324,plain,
( spl263_26
| ~ spl263_4 ),
inference(avatar_split_clause,[],[f1304,f1068,f1322]) ).
tff(f1304,plain,
( ( sK13 = $product(2,sK11) )
| ~ spl263_4 ),
inference(superposition,[],[f146,f1069]) ).
tff(f1300,plain,
( spl263_25
| ~ spl263_22 ),
inference(avatar_split_clause,[],[f1293,f1265,f1295]) ).
tff(f1295,plain,
( spl263_25
<=> ( 0 = $sum(-2800,sK5) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_25])]) ).
tff(f1293,plain,
( ( 0 = $sum(-2800,sK5) )
| ~ spl263_22 ),
inference(superposition,[],[f1266,f135]) ).
tff(f1299,plain,
( spl263_25
| ~ spl263_22 ),
inference(avatar_split_clause,[],[f1291,f1265,f1295]) ).
tff(f1291,plain,
( ( 0 = $sum(-2800,sK5) )
| ~ spl263_22 ),
inference(superposition,[],[f1266,f135]) ).
tff(f1298,plain,
( spl263_25
| ~ spl263_22 ),
inference(avatar_split_clause,[],[f1289,f1265,f1295]) ).
tff(f1289,plain,
( ( 0 = $sum(-2800,sK5) )
| ~ spl263_22 ),
inference(superposition,[],[f135,f1266]) ).
tff(f1297,plain,
( spl263_25
| ~ spl263_22 ),
inference(avatar_split_clause,[],[f1287,f1265,f1295]) ).
tff(f1287,plain,
( ( 0 = $sum(-2800,sK5) )
| ~ spl263_22 ),
inference(superposition,[],[f135,f1266]) ).
tff(f1285,plain,
( spl263_24
| ~ spl263_9 ),
inference(avatar_split_clause,[],[f1280,f1088,f1282]) ).
tff(f1280,plain,
( ( sK9 = sK28(sK7) )
| ~ spl263_9 ),
inference(superposition,[],[f654,f1089]) ).
tff(f1284,plain,
( spl263_24
| ~ spl263_9 ),
inference(avatar_split_clause,[],[f1279,f1088,f1282]) ).
tff(f1279,plain,
( ( sK9 = sK28(sK7) )
| ~ spl263_9 ),
inference(superposition,[],[f1089,f654]) ).
tff(f1278,plain,
( spl263_23
| ~ spl263_4 ),
inference(avatar_split_clause,[],[f1273,f1068,f1275]) ).
tff(f1273,plain,
( ( sK13 = sK28(sK11) )
| ~ spl263_4 ),
inference(superposition,[],[f654,f1069]) ).
tff(f1277,plain,
( spl263_23
| ~ spl263_4 ),
inference(avatar_split_clause,[],[f1272,f1068,f1275]) ).
tff(f1272,plain,
( ( sK13 = sK28(sK11) )
| ~ spl263_4 ),
inference(superposition,[],[f1069,f654]) ).
tff(f1267,plain,
( spl263_22
| ~ spl263_14
| ~ spl263_19 ),
inference(avatar_split_clause,[],[f1263,f1128,f1108,f1265]) ).
tff(f1108,plain,
( spl263_14
<=> ( 0 = $sum(sK5,$uminus(sK3)) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_14])]) ).
tff(f1128,plain,
( spl263_19
<=> ( 2800 = sK3 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_19])]) ).
tff(f1263,plain,
( ( 0 = $sum(sK5,-2800) )
| ~ spl263_14
| ~ spl263_19 ),
inference(evaluation,[],[f1262]) ).
tff(f1262,plain,
( ( 0 = $sum(sK5,$uminus(2800)) )
| ~ spl263_14
| ~ spl263_19 ),
inference(forward_demodulation,[],[f1109,f1129]) ).
tff(f1129,plain,
( ( 2800 = sK3 )
| ~ spl263_19 ),
inference(avatar_component_clause,[],[f1128]) ).
tff(f1109,plain,
( ( 0 = $sum(sK5,$uminus(sK3)) )
| ~ spl263_14 ),
inference(avatar_component_clause,[],[f1108]) ).
tff(f1261,plain,
( spl263_21
| ~ spl263_17 ),
inference(avatar_split_clause,[],[f1257,f1120,f1259]) ).
tff(f1259,plain,
( spl263_21
<=> valid_range(sK29(sK1),sK30(type_global,sK4),0,2800) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_21])]) ).
tff(f1120,plain,
( spl263_17
<=> valid_range(c_sort(type_alloc_table,sK1),c_sort(type_pointer(type_global),sK4),0,2800) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_17])]) ).
tff(f1257,plain,
( valid_range(sK29(sK1),sK30(type_global,sK4),0,2800)
| ~ spl263_17 ),
inference(forward_demodulation,[],[f1256,f656]) ).
tff(f1256,plain,
( valid_range(c_sort(type_alloc_table,sK1),sK30(type_global,sK4),0,2800)
| ~ spl263_17 ),
inference(forward_demodulation,[],[f1121,f679]) ).
tff(f1121,plain,
( valid_range(c_sort(type_alloc_table,sK1),c_sort(type_pointer(type_global),sK4),0,2800)
| ~ spl263_17 ),
inference(avatar_component_clause,[],[f1120]) ).
tff(f1134,plain,
spl263_20,
inference(avatar_split_clause,[],[f607,f1132]) ).
tff(f1132,plain,
( spl263_20
<=> ( 0 = sK2 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_20])]) ).
tff(f607,plain,
0 = sK2,
inference(cnf_transformation,[],[f355]) ).
tff(f1130,plain,
spl263_19,
inference(avatar_split_clause,[],[f608,f1128]) ).
tff(f608,plain,
2800 = sK3,
inference(cnf_transformation,[],[f355]) ).
tff(f1126,plain,
spl263_18,
inference(avatar_split_clause,[],[f609,f1124]) ).
tff(f1124,plain,
( spl263_18
<=> ( 10000 = sK0 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_18])]) ).
tff(f609,plain,
10000 = sK0,
inference(cnf_transformation,[],[f355]) ).
tff(f1122,plain,
spl263_17,
inference(avatar_split_clause,[],[f610,f1120]) ).
tff(f610,plain,
valid_range(c_sort(type_alloc_table,sK1),c_sort(type_pointer(type_global),sK4),0,2800),
inference(cnf_transformation,[],[f355]) ).
tff(f1118,plain,
~ spl263_16,
inference(avatar_split_clause,[],[f611,f1116]) ).
tff(f611,plain,
~ $less(sK5,0),
inference(cnf_transformation,[],[f355]) ).
tff(f1114,plain,
~ spl263_15,
inference(avatar_split_clause,[],[f612,f1112]) ).
tff(f612,plain,
~ $less(2800,sK5),
inference(cnf_transformation,[],[f355]) ).
tff(f1110,plain,
spl263_14,
inference(avatar_split_clause,[],[f615,f1108]) ).
tff(f615,plain,
0 = $sum(sK5,$uminus(sK3)),
inference(cnf_transformation,[],[f355]) ).
tff(f1106,plain,
~ spl263_13,
inference(avatar_split_clause,[],[f616,f1104]) ).
tff(f616,plain,
~ $less(sK7,0),
inference(cnf_transformation,[],[f355]) ).
tff(f1102,plain,
~ spl263_12,
inference(avatar_split_clause,[],[f617,f1100]) ).
tff(f617,plain,
~ $less(2800,sK7),
inference(cnf_transformation,[],[f355]) ).
tff(f1098,plain,
spl263_11,
inference(avatar_split_clause,[],[f618,f1096]) ).
tff(f618,plain,
0 = '%'(sK7,14),
inference(cnf_transformation,[],[f355]) ).
tff(f1094,plain,
spl263_10,
inference(avatar_split_clause,[],[f619,f1092]) ).
tff(f1092,plain,
( spl263_10
<=> ( 0 = sK8 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_10])]) ).
tff(f619,plain,
0 = sK8,
inference(cnf_transformation,[],[f355]) ).
tff(f1090,plain,
spl263_9,
inference(avatar_split_clause,[],[f620,f1088]) ).
tff(f620,plain,
$product(sK7,2) = sK9,
inference(cnf_transformation,[],[f355]) ).
tff(f1086,plain,
~ spl263_8,
inference(avatar_split_clause,[],[f621,f1084]) ).
tff(f1084,plain,
( spl263_8
<=> ( 0 = sK9 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_8])]) ).
tff(f621,plain,
0 != sK9,
inference(cnf_transformation,[],[f355]) ).
tff(f1082,plain,
spl263_7,
inference(avatar_split_clause,[],[f622,f1080]) ).
tff(f1080,plain,
( spl263_7
<=> ( sK7 = sK10 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_7])]) ).
tff(f622,plain,
sK7 = sK10,
inference(cnf_transformation,[],[f355]) ).
tff(f1078,plain,
~ spl263_6,
inference(avatar_split_clause,[],[f623,f1076]) ).
tff(f623,plain,
~ $less(sK11,1),
inference(cnf_transformation,[],[f355]) ).
tff(f1074,plain,
~ spl263_5,
inference(avatar_split_clause,[],[f624,f1072]) ).
tff(f624,plain,
~ $less(sK7,sK11),
inference(cnf_transformation,[],[f355]) ).
tff(f1070,plain,
spl263_4,
inference(avatar_split_clause,[],[f625,f1068]) ).
tff(f625,plain,
sK13 = $product(sK11,2),
inference(cnf_transformation,[],[f355]) ).
tff(f1065,plain,
spl263_3,
inference(avatar_split_clause,[],[f606,f1063]) ).
tff(f1063,plain,
( spl263_3
<=> ( whydivide(10000,5) = 2000 ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_3])]) ).
tff(f606,plain,
whydivide(10000,5) = 2000,
inference(cnf_transformation,[],[f100]) ).
tff(f100,axiom,
whydivide(10000,5) = 2000,
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_100) ).
tff(f1061,plain,
spl263_2,
inference(avatar_split_clause,[],[f605,f1059]) ).
tff(f1059,plain,
( spl263_2
<=> ( 0 = '%'(2800,14) ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_2])]) ).
tff(f605,plain,
0 = '%'(2800,14),
inference(cnf_transformation,[],[f96]) ).
tff(f96,axiom,
0 = '%'(2800,14),
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_96) ).
tff(f1057,plain,
~ spl263_1,
inference(avatar_split_clause,[],[f604,f1054]) ).
tff(f1054,plain,
( spl263_1
<=> ( c_Boolean_true = c_Boolean_false ) ),
introduced(avatar_definition,[new_symbols(naming,[spl263_1])]) ).
tff(f604,plain,
c_Boolean_true != c_Boolean_false,
inference(cnf_transformation,[],[f2]) ).
tff(f2,axiom,
c_Boolean_true != c_Boolean_false,
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_2) ).
tff(f1056,plain,
~ spl263_1,
inference(avatar_split_clause,[],[f603,f1054]) ).
tff(f603,plain,
c_Boolean_true != c_Boolean_false,
inference(cnf_transformation,[],[f49]) ).
tff(f49,axiom,
c_Boolean_true != c_Boolean_false,
file('/export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712',formula_49) ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.11/0.14 % Problem : SWW811_1 : TPTP v8.1.2. Released v7.0.0.
% 0.11/0.16 % Command : vampire --ignore_missing on --mode portfolio/casc [--schedule casc_hol_2020] -p tptp -om szs -t %d %s
% 0.16/0.37 % Computer : n010.cluster.edu
% 0.16/0.37 % Model : x86_64 x86_64
% 0.16/0.37 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.16/0.37 % Memory : 8042.1875MB
% 0.16/0.37 % OS : Linux 3.10.0-693.el7.x86_64
% 0.16/0.37 % CPULimit : 300
% 0.16/0.37 % WCLimit : 300
% 0.16/0.37 % DateTime : Wed Aug 30 16:30:03 EDT 2023
% 0.16/0.37 % CPUTime :
% 0.23/0.43 % (30894)Running in auto input_syntax mode. Trying TPTP
% 0.23/0.45 % (30895)fmb+10_1_bce=on:fmbas=function:fmbsr=1.2:fde=unused:nm=0_846 on Vampire---4 for (846ds/0Mi)
% 0.23/0.45 % (30896)fmb+10_1_bce=on:fmbdsb=on:fmbes=contour:fmbswr=3:fde=none:nm=0_793 on Vampire---4 for (793ds/0Mi)
% 0.23/0.45 % (30898)fmb+10_1_bce=on:fmbsr=1.5:nm=32_533 on Vampire---4 for (533ds/0Mi)
% 0.23/0.45 % (30897)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 Vampire---4 for (569ds/0Mi)
% 0.23/0.45 % (30899)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 Vampire---4 for (531ds/0Mi)
% 0.23/0.45 % (30900)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 Vampire---4 for (522ds/0Mi)
% 0.23/0.45 % (30901)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 Vampire---4 for (497ds/0Mi)
% 0.23/0.46 % (30896)WARNING: trying to run FMB on interpreted or otherwise provably infinite-domain problem!
% 0.23/0.46 % (30896)Terminated due to inappropriate strategy.
% 0.23/0.46 % (30896)------------------------------
% 0.23/0.46 % (30896)Version: Vampire 4.7 (commit 05ef610bd on 2023-06-21 19:03:17 +0100)
% 0.23/0.46 % (30896)Linked with Z3 4.9.1.0 6ed071b44407cf6623b8d3c0dceb2a8fb7040cee z3-4.8.4-6427-g6ed071b44
% 0.23/0.46 % (30896)Termination reason: Inappropriate
% 0.23/0.46
% 0.23/0.46 % (30896)Memory used [KB]: 2558
% 0.23/0.46 % (30896)Time elapsed: 0.014 s
% 0.23/0.46 % (30896)------------------------------
% 0.23/0.46 % (30896)------------------------------
% 0.23/0.46 % (30898)WARNING: trying to run FMB on interpreted or otherwise provably infinite-domain problem!
% 0.23/0.46 % (30898)Terminated due to inappropriate strategy.
% 0.23/0.46 % (30898)------------------------------
% 0.23/0.46 % (30898)Version: Vampire 4.7 (commit 05ef610bd on 2023-06-21 19:03:17 +0100)
% 0.23/0.46 % (30898)Linked with Z3 4.9.1.0 6ed071b44407cf6623b8d3c0dceb2a8fb7040cee z3-4.8.4-6427-g6ed071b44
% 0.23/0.46 % (30898)Termination reason: Inappropriate
% 0.23/0.46
% 0.23/0.46 % (30898)Memory used [KB]: 2558
% 0.23/0.46 % (30898)Time elapsed: 0.014 s
% 0.23/0.46 % (30895)WARNING: trying to run FMB on interpreted or otherwise provably infinite-domain problem!
% 0.23/0.46 % (30898)------------------------------
% 0.23/0.46 % (30898)------------------------------
% 0.23/0.46 % (30895)Terminated due to inappropriate strategy.
% 0.23/0.46 % (30895)------------------------------
% 0.23/0.46 % (30895)Version: Vampire 4.7 (commit 05ef610bd on 2023-06-21 19:03:17 +0100)
% 0.23/0.46 % (30895)Linked with Z3 4.9.1.0 6ed071b44407cf6623b8d3c0dceb2a8fb7040cee z3-4.8.4-6427-g6ed071b44
% 0.23/0.46 % (30895)Termination reason: Inappropriate
% 0.23/0.46
% 0.23/0.46 % (30895)Memory used [KB]: 2558
% 0.23/0.46 % (30895)Time elapsed: 0.014 s
% 0.23/0.46 % (30895)------------------------------
% 0.23/0.46 % (30895)------------------------------
% 0.23/0.46 % (30902)fmb+10_1_fmbas=expand:fmbsr=1.1:gsp=on:nm=4_411 on Vampire---4 for (411ds/0Mi)
% 0.23/0.46 % (30904)lrs-11_2:5_fsd=off:fde=none:nm=4:nwc=5.0:sims=off:sp=reverse_weighted_frequency:stl=62_367 on Vampire---4 for (367ds/0Mi)
% 0.23/0.46 % (30903)ott+1_9_av=off:bd=off:bs=on:gsp=on:lcm=predicate:nm=4:sp=weighted_frequency:urr=on_382 on Vampire---4 for (382ds/0Mi)
% 0.23/0.48 % (30902)WARNING: trying to run FMB on interpreted or otherwise provably infinite-domain problem!
% 0.23/0.48 % (30902)Terminated due to inappropriate strategy.
% 0.23/0.48 % (30902)------------------------------
% 0.23/0.48 % (30902)Version: Vampire 4.7 (commit 05ef610bd on 2023-06-21 19:03:17 +0100)
% 0.23/0.48 % (30902)Linked with Z3 4.9.1.0 6ed071b44407cf6623b8d3c0dceb2a8fb7040cee z3-4.8.4-6427-g6ed071b44
% 0.23/0.48 % (30902)Termination reason: Inappropriate
% 0.23/0.48
% 0.23/0.48 % (30902)Memory used [KB]: 2558
% 0.23/0.48 % (30902)Time elapsed: 0.018 s
% 0.23/0.48 % (30902)------------------------------
% 0.23/0.48 % (30902)------------------------------
% 0.23/0.49 % (30905)ott+4_64_acc=on:anc=none:bs=on:bsr=on:fsd=off:gs=on:gsem=off:irw=on:msp=off:nwc=2.5:nicw=on:sims=off_354 on Vampire---4 for (354ds/0Mi)
% 242.50/35.99 % (30905)Time limit reached!
% 242.50/35.99 % (30905)------------------------------
% 242.50/35.99 % (30905)Version: Vampire 4.7 (commit 05ef610bd on 2023-06-21 19:03:17 +0100)
% 242.50/35.99 % (30905)Linked with Z3 4.9.1.0 6ed071b44407cf6623b8d3c0dceb2a8fb7040cee z3-4.8.4-6427-g6ed071b44
% 242.50/35.99 % (30905)Termination reason: Time limit
% 242.50/35.99 % (30905)Termination phase: Saturation
% 242.50/35.99
% 242.50/35.99 % (30905)Memory used [KB]: 158249
% 242.50/35.99 % (30905)Time elapsed: 35.500 s
% 242.50/35.99 % (30905)------------------------------
% 242.50/35.99 % (30905)------------------------------
% 243.04/36.02 % (30993)ott-11_10:1_aac=none:add=off:afr=on:amm=off:anc=all_dependent:bd=off:fsd=off:fde=none:gsp=on:irw=on:lma=on:nm=64:nwc=1.2:nicw=on:sas=z3:sp=occurrence_186 on Vampire---4 for (186ds/0Mi)
% 244.12/36.20 % (30993)First to succeed.
% 244.12/36.21 % (30993)Refutation found. Thanks to Tanya!
% 244.12/36.21 % SZS status Unsatisfiable for Vampire---4
% 244.12/36.21 % SZS output start Proof for Vampire---4
% See solution above
% 244.12/36.21 % (30993)------------------------------
% 244.12/36.21 % (30993)Version: Vampire 4.7 (commit 05ef610bd on 2023-06-21 19:03:17 +0100)
% 244.12/36.21 % (30993)Linked with Z3 4.9.1.0 6ed071b44407cf6623b8d3c0dceb2a8fb7040cee z3-4.8.4-6427-g6ed071b44
% 244.12/36.21 % (30993)Termination reason: Refutation
% 244.12/36.21
% 244.12/36.21 % (30993)Memory used [KB]: 3709
% 244.12/36.21 % (30993)Time elapsed: 0.197 s
% 244.12/36.21 % (30993)------------------------------
% 244.12/36.21 % (30993)------------------------------
% 244.12/36.21 % (30894)Success in time 35.834 s
% 244.12/36.21 30903 Aborted by signal SIGHUP on /export/starexec/sandbox2/tmp/tmp.N5J68KJTj2/Vampire---4.8_30712
% 244.12/36.21 % (30903)------------------------------
% 244.12/36.21 % (30903)Version: Vampire 4.7 (commit 05ef610bd on 2023-06-21 19:03:17 +0100)
% 244.12/36.21 % (30903)Linked with Z3 4.9.1.0 6ed071b44407cf6623b8d3c0dceb2a8fb7040cee z3-4.8.4-6427-g6ed071b44
% 244.12/36.21 % (30903)Termination reason: Unknown
% 244.12/36.21 % (30903)Termination phase: Saturation
% 244.12/36.21
% 244.12/36.21 % (30903)Memory used [KB]: 253300
% 244.12/36.21 % (30903)Time elapsed: 35.746 s
% 244.12/36.21 % (30903)------------------------------
% 244.12/36.21 % (30903)------------------------------
% 244.12/36.21 % Vampire---4.8 exiting
%------------------------------------------------------------------------------