From 7c792461c8e4e4f1f8734fed143630c74e76b27f Mon Sep 17 00:00:00 2001 From: zitian-gao Date: Tue, 27 May 2025 16:45:31 +0800 Subject: init eval --- .../evaluation/latex2sympy/gen/PSParser.py | 6486 ++++++++++++++++++++ 1 file changed, 6486 insertions(+) create mode 100755 Qwen2.5-Eval/evaluation/latex2sympy/gen/PSParser.py (limited to 'Qwen2.5-Eval/evaluation/latex2sympy/gen/PSParser.py') diff --git a/Qwen2.5-Eval/evaluation/latex2sympy/gen/PSParser.py b/Qwen2.5-Eval/evaluation/latex2sympy/gen/PSParser.py new file mode 100755 index 0000000..b651b50 --- /dev/null +++ b/Qwen2.5-Eval/evaluation/latex2sympy/gen/PSParser.py @@ -0,0 +1,6486 @@ +# Generated from PS.g4 by ANTLR 4.11.1 +# encoding: utf-8 +from __future__ import print_function +from antlr4 import * +from io import StringIO +import sys + + +def serializedATN(): + return [ + 4, 1, 194, 1046, 2, 0, 7, 0, 2, 1, 7, 1, 2, 2, 7, 2, 2, 3, 7, 3, 2, 4, 7, 4, 2, 5, 7, 5, 2, 6, + 7, 6, 2, 7, 7, 7, 2, 8, 7, 8, 2, 9, 7, 9, 2, 10, 7, 10, 2, 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955, 3, 120, 60, 0, 955, 960, 1, 0, 0, 0, 956, 957, 3, 120, 60, 0, 957, 958, 3, 122, + 61, 0, 958, 960, 1, 0, 0, 0, 959, 953, 1, 0, 0, 0, 959, 956, 1, 0, 0, 0, 960, 961, 1, 0, + 0, 0, 961, 962, 3, 36, 18, 0, 962, 972, 1, 0, 0, 0, 963, 964, 5, 82, 0, 0, 964, 965, 3, + 108, 54, 0, 965, 966, 3, 36, 18, 0, 966, 972, 1, 0, 0, 0, 967, 969, 5, 174, 0, 0, 968, + 970, 3, 120, 60, 0, 969, 968, 1, 0, 0, 0, 969, 970, 1, 0, 0, 0, 970, 972, 1, 0, 0, 0, 971, + 805, 1, 0, 0, 0, 971, 843, 1, 0, 0, 0, 971, 881, 1, 0, 0, 0, 971, 894, 1, 0, 0, 0, 971, + 910, 1, 0, 0, 0, 971, 941, 1, 0, 0, 0, 971, 952, 1, 0, 0, 0, 971, 963, 1, 0, 0, 0, 971, + 967, 1, 0, 0, 0, 972, 103, 1, 0, 0, 0, 973, 974, 3, 32, 16, 0, 974, 975, 5, 171, 0, 0, + 975, 976, 3, 104, 52, 0, 976, 979, 1, 0, 0, 0, 977, 979, 3, 32, 16, 0, 978, 973, 1, 0, + 0, 0, 978, 977, 1, 0, 0, 0, 979, 105, 1, 0, 0, 0, 980, 989, 3, 80, 40, 0, 981, 982, 3, + 32, 16, 0, 982, 983, 5, 171, 0, 0, 983, 989, 1, 0, 0, 0, 984, 985, 3, 32, 16, 0, 985, + 986, 5, 171, 0, 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1, 0, 0, 0, 1022, 1023, 1, 0, 0, 0, 1023, 1024, + 5, 56, 0, 0, 1024, 1026, 1, 0, 0, 0, 1025, 1017, 1, 0, 0, 0, 1025, 1018, 1, 0, 0, 0, 1026, + 119, 1, 0, 0, 0, 1027, 1033, 5, 168, 0, 0, 1028, 1034, 3, 80, 40, 0, 1029, 1030, 5, + 55, 0, 0, 1030, 1031, 3, 32, 16, 0, 1031, 1032, 5, 56, 0, 0, 1032, 1034, 1, 0, 0, 0, + 1033, 1028, 1, 0, 0, 0, 1033, 1029, 1, 0, 0, 0, 1034, 121, 1, 0, 0, 0, 1035, 1036, 5, + 167, 0, 0, 1036, 1037, 5, 55, 0, 0, 1037, 1038, 3, 30, 15, 0, 1038, 1039, 5, 56, 0, + 0, 1039, 123, 1, 0, 0, 0, 1040, 1041, 5, 167, 0, 0, 1041, 1042, 5, 55, 0, 0, 1042, 1043, + 3, 30, 15, 0, 1043, 1044, 5, 56, 0, 0, 1044, 125, 1, 0, 0, 0, 92, 130, 140, 146, 160, + 167, 176, 180, 188, 194, 202, 206, 215, 226, 266, 275, 285, 288, 304, 315, 326, + 334, 336, 344, 347, 353, 360, 366, 374, 380, 388, 402, 405, 409, 422, 425, 429, + 443, 455, 569, 587, 637, 671, 705, 716, 719, 725, 735, 745, 755, 779, 795, 803, + 807, 810, 813, 816, 818, 821, 826, 831, 836, 841, 845, 848, 851, 854, 856, 859, + 864, 869, 874, 879, 883, 886, 892, 896, 900, 906, 931, 934, 939, 946, 959, 969, + 971, 978, 988, 999, 1012, 1021, 1025, 1033 + ] + + +class PSParser (Parser): + + grammarFileName = "PS.g4" + + atn = ATNDeserializer().deserialize(serializedATN()) + + decisionsToDFA = [DFA(ds, i) for i, ds in enumerate(atn.decisionToState)] + + sharedContextCache = PredictionContextCache() + + literalNames = [u"", u"'\\acute'", u"'\\bar'", u"'\\overline'", + u"'\\breve'", u"'\\check'", u"'\\widecheck'", u"'\\dot'", + u"'\\ddot'", u"'\\grave'", u"'\\hat'", u"'\\tilde'", + u"'\\widetilde'", u"'\\vec'", u"'\\overrightarrow'", + u"'\\bm'", u"'\\boldsymbol'", u"'\\text'", u"'\\textit'", + u"'\\mathbb'", u"'\\mathbin'", u"'\\mathbf'", u"'\\mathcal'", + u"'\\mathclap'", u"'\\mathclose'", u"'\\mathellipsis'", + u"'\\mathfrak'", u"'\\mathinner'", u"'\\mathnormal'", + u"'\\mathop'", u"'\\mathopen'", u"'\\mathord'", u"'\\mathpunct'", + u"'\\mathrel'", u"'\\mathring'", u"'\\mathrlap'", u"'\\mathrm'", + u"'\\mathscr'", u"'\\mathsf'", u"'\\mathsterling'", + u"'\\mathtt'", u"'^T'", u"'^{T}'", u"'^{\\top}'", u"'''", + u"", u"'\\$'", u"'+'", u"'-'", u"'*'", u"", + u"'('", u"')'", u"'\\lgroup'", u"'\\rgroup'", u"'{'", + u"'}'", u"'\\{'", u"'\\}'", u"'\\lbrace'", u"'\\rbrace'", + u"'['", u"']'", u"'\\lbrack'", u"'\\rbrack'", u"'|'", + u"'\\lvert'", u"'\\rvert'", u"'\\vert'", u"'\\|'", + u"'\\lfloor'", u"'\\rfloor'", u"'\\llcorner'", u"'\\lrcorner'", + u"'\\lceil'", u"'\\rceil'", u"'\\ulcorner'", u"'\\urcorner'", + u"'\\left'", u"'\\right'", u"'\\mleft'", u"'\\mright'", + u"'\\lim'", u"", u"'\\int'", u"'\\sum'", u"'\\prod'", + u"'\\log'", u"'\\ln'", u"'\\exp'", u"'\\sin'", u"'\\cos'", + u"'\\tan'", u"'\\csc'", u"'\\sec'", u"'\\cot'", u"'\\arcsin'", + u"'\\arccos'", u"'\\arctan'", u"'\\arccsc'", u"'\\arcsec'", + u"'\\arccot'", u"'\\sinh'", u"'\\cosh'", u"'\\tanh'", + u"'\\arsinh'", u"'\\arcosh'", u"'\\artanh'", u"'\\arcsinh'", + u"'\\arccosh'", u"'\\arctanh'", u"'arsinh'", u"'arcsinh'", + u"'arcosh'", u"'arccosh'", u"'artanh'", u"'arctanh'", + u"'gcd'", u"'lcm'", u"'floor'", u"'ceil'", u"'\\sqrt'", + u"'\\gcd'", u"'\\lcm'", u"'\\floor'", u"'\\ceil'", + u"'\\max'", u"'\\min'", u"'\\det'", u"'eye'", u"'zeros'", + u"'ones'", u"'cols'", u"'rows'", u"'diag'", u"'norm'", + u"'rank'", u"", u"'rref'", u"'hstack'", u"'vstack'", + u"", u"'nullspace'", u"", u"", + u"", u"", u"'\\times'", u"'\\cdot'", + u"'\\div'", u"'\\frac'", u"", u"'\\choose'", + u"'\\mod'", u"'\\mathit'", u"'\\operatorname'", u"'matrix'", + u"'pmatrix'", u"'bmatrix'", u"'vmatrix'", u"", + u"", u"", u"", u"", + u"'&'", u"'\\\\'", u"'_'", u"'^'", u"':'", u"';'", + u"','", u"'.'", u"", u"", u"'E'", + u"", u"", u"", u"", + u"", u"'\\in'", u"'='", u"", u"'<'", + u"", u"'>'", u"", u"", u"'!'"] + + symbolicNames = [u"", u"", u"", u"", + u"", u"", u"", u"", + u"", u"", u"", u"", + u"", u"", u"", u"", + u"", u"", u"", u"", + u"", u"", u"", u"", + u"", u"", u"", u"", + u"", u"", u"", u"", + u"", u"", u"", u"", + u"", u"", u"", u"", + u"", u"", u"", u"", + u"", u"WS", u"DOLLAR_SIGN", u"ADD", u"SUB", + u"MUL", u"DIV", u"L_PAREN", u"R_PAREN", u"L_GROUP", + u"R_GROUP", u"L_BRACE", u"R_BRACE", u"L_BRACE_VISUAL", + u"R_BRACE_VISUAL", u"L_BRACE_CMD", u"R_BRACE_CMD", + u"L_BRACKET", u"R_BRACKET", u"L_BRACK", u"R_BRACK", + u"BAR", u"L_VERT", u"R_VERT", u"VERT", u"NORM", u"L_FLOOR", + u"R_FLOOR", u"LL_CORNER", u"LR_CORNER", u"L_CEIL", + u"R_CEIL", u"UL_CORNER", u"UR_CORNER", u"L_LEFT", + u"R_RIGHT", u"ML_LEFT", u"MR_RIGHT", u"FUNC_LIM", + u"LIM_APPROACH_SYM", u"FUNC_INT", u"FUNC_SUM", u"FUNC_PROD", + u"FUNC_LOG", u"FUNC_LN", u"FUNC_EXP", u"FUNC_SIN", + u"FUNC_COS", u"FUNC_TAN", u"FUNC_CSC", u"FUNC_SEC", + u"FUNC_COT", u"FUNC_ARCSIN", u"FUNC_ARCCOS", u"FUNC_ARCTAN", + u"FUNC_ARCCSC", u"FUNC_ARCSEC", u"FUNC_ARCCOT", u"FUNC_SINH", + u"FUNC_COSH", u"FUNC_TANH", u"FUNC_ARSINH", u"FUNC_ARCOSH", + u"FUNC_ARTANH", u"FUNC_ARCSINH", u"FUNC_ARCCOSH", + u"FUNC_ARCTANH", u"FUNC_ARSINH_NAME", u"FUNC_ARCSINH_NAME", + u"FUNC_ARCOSH_NAME", u"FUNC_ARCCOSH_NAME", u"FUNC_ARTANH_NAME", + u"FUNC_ARCTANH_NAME", u"FUNC_GCD_NAME", u"FUNC_LCM_NAME", + u"FUNC_FLOOR_NAME", u"FUNC_CEIL_NAME", u"FUNC_SQRT", + u"FUNC_GCD", u"FUNC_LCM", u"FUNC_FLOOR", u"FUNC_CEIL", + u"FUNC_MAX", u"FUNC_MIN", u"FUNC_DET", u"FUNC_EYE_NAME", + u"FUNC_ZEROS_NAME", u"FUNC_ONES_NAME", u"FUNC_COLS_NAME", + u"FUNC_ROWS_NAME", u"FUNC_DIAG_NAME", u"FUNC_NORM_NAME", + u"FUNC_RANK_NAME", u"FUNC_TRACE_NAME", u"FUNC_RREF_NAME", + u"FUNC_HSTACK_NAME", u"FUNC_VSTACK_NAME", u"FUNC_ORTHOGONALIZE_NAME", + u"FUNC_NULLSPACE_NAME", u"FUNC_DIAGONALIZE_NAME", + u"FUNC_EIGENVALS_NAME", u"FUNC_EIGENVECTORS_NAME", + u"FUNC_SVD_NAME", u"CMD_TIMES", u"CMD_CDOT", u"CMD_DIV", + u"CMD_FRAC", u"CMD_BINOM", u"CMD_CHOOSE", u"CMD_MOD", + u"CMD_MATHIT", u"CMD_OPERATORNAME", u"MATRIX_TYPE_MATRIX", + u"MATRIX_TYPE_PMATRIX", u"MATRIX_TYPE_BMATRIX", u"MATRIX_TYPE_DET", + u"MATRIX_TYPES", u"CMD_MATRIX_START", u"CMD_MATRIX_END", + u"CMD_DET_START", u"CMD_DET_END", u"MATRIX_DEL_COL", + u"MATRIX_DEL_ROW", u"UNDERSCORE", u"CARET", u"COLON", + u"SEMICOLON", u"COMMA", u"PERIOD", u"DIFFERENTIAL", + u"EXP_E", u"E_NOTATION_E", u"LETTER_NO_E", u"MATRIX_XRIGHTARROW", + u"TRANSFORM_EXCHANGE", u"NUMBER", u"E_NOTATION", u"IN", + u"ASSIGNMENT", u"EQUAL", u"LT", u"LTE", u"GT", u"GTE", + u"UNEQUAL", u"BANG", u"PERCENT_NUMBER", u"GREEK_CMD", + u"OTHER_SYMBOL_CMD", u"SYMBOL", u"VARIABLE"] + + RULE_accent_symbol = 0 + RULE_math = 1 + RULE_transpose = 2 + RULE_transform_atom = 3 + RULE_transform_scale = 4 + RULE_transform_swap = 5 + RULE_transform_assignment = 6 + RULE_elementary_transform = 7 + RULE_elementary_transforms = 8 + RULE_matrix = 9 + RULE_det = 10 + RULE_matrix_row = 11 + RULE_relation = 12 + RULE_relation_list = 13 + RULE_relation_list_content = 14 + RULE_equality = 15 + RULE_expr = 16 + RULE_additive = 17 + RULE_mp = 18 + RULE_mp_nofunc = 19 + RULE_unary = 20 + RULE_unary_nofunc = 21 + RULE_postfix = 22 + RULE_postfix_nofunc = 23 + RULE_postfix_op = 24 + RULE_eval_at = 25 + RULE_eval_at_sub = 26 + RULE_eval_at_sup = 27 + RULE_exp = 28 + RULE_exp_nofunc = 29 + RULE_comp = 30 + RULE_comp_nofunc = 31 + RULE_group = 32 + RULE_norm_group = 33 + RULE_abs_group = 34 + RULE_floor_group = 35 + RULE_ceil_group = 36 + RULE_accent = 37 + RULE_atom_expr_no_supexpr = 38 + RULE_atom_expr = 39 + RULE_atom = 40 + RULE_mathit = 41 + RULE_mathit_text = 42 + RULE_frac = 43 + RULE_binom = 44 + RULE_func_normal_functions_single_arg = 45 + RULE_func_normal_functions_multi_arg = 46 + RULE_func_operator_names_single_arg = 47 + RULE_func_operator_names_multi_arg = 48 + RULE_func_normal_single_arg = 49 + RULE_func_normal_multi_arg = 50 + RULE_func = 51 + RULE_args = 52 + RULE_func_common_args = 53 + RULE_limit_sub = 54 + RULE_func_single_arg = 55 + RULE_func_single_arg_noparens = 56 + RULE_func_multi_arg = 57 + RULE_func_multi_arg_noparens = 58 + RULE_subexpr = 59 + RULE_supexpr = 60 + RULE_subeq = 61 + RULE_supeq = 62 + + ruleNames = [u"accent_symbol", u"math", u"transpose", u"transform_atom", + u"transform_scale", u"transform_swap", u"transform_assignment", + u"elementary_transform", u"elementary_transforms", u"matrix", + u"det", u"matrix_row", u"relation", u"relation_list", + u"relation_list_content", u"equality", u"expr", u"additive", + u"mp", u"mp_nofunc", u"unary", u"unary_nofunc", u"postfix", + u"postfix_nofunc", u"postfix_op", u"eval_at", u"eval_at_sub", + u"eval_at_sup", u"exp", u"exp_nofunc", u"comp", u"comp_nofunc", + u"group", u"norm_group", u"abs_group", u"floor_group", + u"ceil_group", u"accent", u"atom_expr_no_supexpr", u"atom_expr", + u"atom", u"mathit", u"mathit_text", u"frac", u"binom", + u"func_normal_functions_single_arg", u"func_normal_functions_multi_arg", + u"func_operator_names_single_arg", u"func_operator_names_multi_arg", + u"func_normal_single_arg", u"func_normal_multi_arg", + u"func", u"args", u"func_common_args", u"limit_sub", + u"func_single_arg", u"func_single_arg_noparens", u"func_multi_arg", + u"func_multi_arg_noparens", u"subexpr", u"supexpr", u"subeq", + u"supeq"] + + EOF = Token.EOF + T__0 = 1 + T__1 = 2 + T__2 = 3 + T__3 = 4 + T__4 = 5 + T__5 = 6 + T__6 = 7 + T__7 = 8 + T__8 = 9 + T__9 = 10 + T__10 = 11 + T__11 = 12 + T__12 = 13 + T__13 = 14 + T__14 = 15 + T__15 = 16 + T__16 = 17 + T__17 = 18 + T__18 = 19 + T__19 = 20 + T__20 = 21 + T__21 = 22 + T__22 = 23 + T__23 = 24 + T__24 = 25 + T__25 = 26 + T__26 = 27 + T__27 = 28 + T__28 = 29 + T__29 = 30 + T__30 = 31 + T__31 = 32 + T__32 = 33 + T__33 = 34 + T__34 = 35 + T__35 = 36 + T__36 = 37 + T__37 = 38 + T__38 = 39 + T__39 = 40 + T__40 = 41 + T__41 = 42 + T__42 = 43 + T__43 = 44 + WS = 45 + DOLLAR_SIGN = 46 + ADD = 47 + SUB = 48 + MUL = 49 + DIV = 50 + L_PAREN = 51 + R_PAREN = 52 + L_GROUP = 53 + R_GROUP = 54 + L_BRACE = 55 + R_BRACE = 56 + L_BRACE_VISUAL = 57 + R_BRACE_VISUAL = 58 + L_BRACE_CMD = 59 + R_BRACE_CMD = 60 + L_BRACKET = 61 + R_BRACKET = 62 + L_BRACK = 63 + R_BRACK = 64 + BAR = 65 + L_VERT = 66 + R_VERT = 67 + VERT = 68 + NORM = 69 + L_FLOOR = 70 + R_FLOOR = 71 + LL_CORNER = 72 + LR_CORNER = 73 + L_CEIL = 74 + R_CEIL = 75 + UL_CORNER = 76 + UR_CORNER = 77 + L_LEFT = 78 + R_RIGHT = 79 + ML_LEFT = 80 + MR_RIGHT = 81 + FUNC_LIM = 82 + LIM_APPROACH_SYM = 83 + FUNC_INT = 84 + FUNC_SUM = 85 + FUNC_PROD = 86 + FUNC_LOG = 87 + FUNC_LN = 88 + FUNC_EXP = 89 + FUNC_SIN = 90 + FUNC_COS = 91 + FUNC_TAN = 92 + FUNC_CSC = 93 + FUNC_SEC = 94 + FUNC_COT = 95 + FUNC_ARCSIN = 96 + FUNC_ARCCOS = 97 + FUNC_ARCTAN = 98 + FUNC_ARCCSC = 99 + FUNC_ARCSEC = 100 + FUNC_ARCCOT = 101 + FUNC_SINH = 102 + FUNC_COSH = 103 + FUNC_TANH = 104 + FUNC_ARSINH = 105 + FUNC_ARCOSH = 106 + FUNC_ARTANH = 107 + FUNC_ARCSINH = 108 + FUNC_ARCCOSH = 109 + FUNC_ARCTANH = 110 + FUNC_ARSINH_NAME = 111 + FUNC_ARCSINH_NAME = 112 + FUNC_ARCOSH_NAME = 113 + FUNC_ARCCOSH_NAME = 114 + FUNC_ARTANH_NAME = 115 + FUNC_ARCTANH_NAME = 116 + FUNC_GCD_NAME = 117 + FUNC_LCM_NAME = 118 + FUNC_FLOOR_NAME = 119 + FUNC_CEIL_NAME = 120 + FUNC_SQRT = 121 + FUNC_GCD = 122 + FUNC_LCM = 123 + FUNC_FLOOR = 124 + FUNC_CEIL = 125 + FUNC_MAX = 126 + FUNC_MIN = 127 + FUNC_DET = 128 + FUNC_EYE_NAME = 129 + FUNC_ZEROS_NAME = 130 + FUNC_ONES_NAME = 131 + FUNC_COLS_NAME = 132 + FUNC_ROWS_NAME = 133 + FUNC_DIAG_NAME = 134 + FUNC_NORM_NAME = 135 + FUNC_RANK_NAME = 136 + FUNC_TRACE_NAME = 137 + FUNC_RREF_NAME = 138 + FUNC_HSTACK_NAME = 139 + FUNC_VSTACK_NAME = 140 + FUNC_ORTHOGONALIZE_NAME = 141 + FUNC_NULLSPACE_NAME = 142 + FUNC_DIAGONALIZE_NAME = 143 + FUNC_EIGENVALS_NAME = 144 + FUNC_EIGENVECTORS_NAME = 145 + FUNC_SVD_NAME = 146 + CMD_TIMES = 147 + CMD_CDOT = 148 + CMD_DIV = 149 + CMD_FRAC = 150 + CMD_BINOM = 151 + CMD_CHOOSE = 152 + CMD_MOD = 153 + CMD_MATHIT = 154 + CMD_OPERATORNAME = 155 + MATRIX_TYPE_MATRIX = 156 + MATRIX_TYPE_PMATRIX = 157 + MATRIX_TYPE_BMATRIX = 158 + MATRIX_TYPE_DET = 159 + MATRIX_TYPES = 160 + CMD_MATRIX_START = 161 + CMD_MATRIX_END = 162 + CMD_DET_START = 163 + CMD_DET_END = 164 + MATRIX_DEL_COL = 165 + MATRIX_DEL_ROW = 166 + UNDERSCORE = 167 + CARET = 168 + COLON = 169 + SEMICOLON = 170 + COMMA = 171 + PERIOD = 172 + DIFFERENTIAL = 173 + EXP_E = 174 + E_NOTATION_E = 175 + LETTER_NO_E = 176 + MATRIX_XRIGHTARROW = 177 + TRANSFORM_EXCHANGE = 178 + NUMBER = 179 + E_NOTATION = 180 + IN = 181 + ASSIGNMENT = 182 + EQUAL = 183 + LT = 184 + LTE = 185 + GT = 186 + GTE = 187 + UNEQUAL = 188 + BANG = 189 + PERCENT_NUMBER = 190 + GREEK_CMD = 191 + OTHER_SYMBOL_CMD = 192 + SYMBOL = 193 + VARIABLE = 194 + + def __init__(self, input, output=sys.stdout): + super(PSParser, self).__init__(input, output=output) + self.checkVersion("4.11.1") + self._interp = ParserATNSimulator(self, self.atn, self.decisionsToDFA, self.sharedContextCache) + self._predicates = None + + class Accent_symbolContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Accent_symbolContext, self).__init__(parent, invokingState) + self.parser = parser + + def CMD_MATHIT(self): + return self.getToken(PSParser.CMD_MATHIT, 0) + + def getRuleIndex(self): + return PSParser.RULE_accent_symbol + + def enterRule(self, listener): + if hasattr(listener, "enterAccent_symbol"): + listener.enterAccent_symbol(self) + + def exitRule(self, listener): + if hasattr(listener, "exitAccent_symbol"): + listener.exitAccent_symbol(self) + + def accent_symbol(self): + + localctx = PSParser.Accent_symbolContext(self, self._ctx, self.state) + self.enterRule(localctx, 0, self.RULE_accent_symbol) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 126 + _la = self._input.LA(1) + if not(((_la) & ~0x3f) == 0 and ((1 << _la) & 2199023255550) != 0 or _la == 154): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class MathContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.MathContext, self).__init__(parent, invokingState) + self.parser = parser + + def relation(self): + return self.getTypedRuleContext(PSParser.RelationContext, 0) + + def relation_list(self): + return self.getTypedRuleContext(PSParser.Relation_listContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_math + + def enterRule(self, listener): + if hasattr(listener, "enterMath"): + listener.enterMath(self) + + def exitRule(self, listener): + if hasattr(listener, "exitMath"): + listener.exitMath(self) + + def math(self): + + localctx = PSParser.MathContext(self, self._ctx, self.state) + self.enterRule(localctx, 2, self.RULE_math) + try: + self.state = 130 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 0, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 128 + self.relation(0) + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 129 + self.relation_list() + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class TransposeContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.TransposeContext, self).__init__(parent, invokingState) + self.parser = parser + + def getRuleIndex(self): + return PSParser.RULE_transpose + + def enterRule(self, listener): + if hasattr(listener, "enterTranspose"): + listener.enterTranspose(self) + + def exitRule(self, listener): + if hasattr(listener, "exitTranspose"): + listener.exitTranspose(self) + + def transpose(self): + + localctx = PSParser.TransposeContext(self, self._ctx, self.state) + self.enterRule(localctx, 4, self.RULE_transpose) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 132 + _la = self._input.LA(1) + if not(((_la) & ~0x3f) == 0 and ((1 << _la) & 32985348833280) != 0): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Transform_atomContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Transform_atomContext, self).__init__(parent, invokingState) + self.parser = parser + + def LETTER_NO_E(self): + return self.getToken(PSParser.LETTER_NO_E, 0) + + def UNDERSCORE(self): + return self.getToken(PSParser.UNDERSCORE, 0) + + def NUMBER(self): + return self.getToken(PSParser.NUMBER, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def getRuleIndex(self): + return PSParser.RULE_transform_atom + + def enterRule(self, listener): + if hasattr(listener, "enterTransform_atom"): + listener.enterTransform_atom(self) + + def exitRule(self, listener): + if hasattr(listener, "exitTransform_atom"): + listener.exitTransform_atom(self) + + def transform_atom(self): + + localctx = PSParser.Transform_atomContext(self, self._ctx, self.state) + self.enterRule(localctx, 6, self.RULE_transform_atom) + try: + self.enterOuterAlt(localctx, 1) + self.state = 134 + self.match(PSParser.LETTER_NO_E) + self.state = 135 + self.match(PSParser.UNDERSCORE) + self.state = 140 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [179]: + self.state = 136 + self.match(PSParser.NUMBER) + pass + elif token in [55]: + self.state = 137 + self.match(PSParser.L_BRACE) + self.state = 138 + self.match(PSParser.NUMBER) + self.state = 139 + self.match(PSParser.R_BRACE) + pass + else: + raise NoViableAltException(self) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Transform_scaleContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Transform_scaleContext, self).__init__(parent, invokingState) + self.parser = parser + + def transform_atom(self): + return self.getTypedRuleContext(PSParser.Transform_atomContext, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def group(self): + return self.getTypedRuleContext(PSParser.GroupContext, 0) + + def ADD(self): + return self.getToken(PSParser.ADD, 0) + + def SUB(self): + return self.getToken(PSParser.SUB, 0) + + def getRuleIndex(self): + return PSParser.RULE_transform_scale + + def enterRule(self, listener): + if hasattr(listener, "enterTransform_scale"): + listener.enterTransform_scale(self) + + def exitRule(self, listener): + if hasattr(listener, "exitTransform_scale"): + listener.exitTransform_scale(self) + + def transform_scale(self): + + localctx = PSParser.Transform_scaleContext(self, self._ctx, self.state) + self.enterRule(localctx, 8, self.RULE_transform_scale) + try: + self.enterOuterAlt(localctx, 1) + self.state = 146 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 2, self._ctx) + if la_ == 1: + self.state = 142 + self.expr() + pass + + elif la_ == 2: + self.state = 143 + self.group() + pass + + elif la_ == 3: + self.state = 144 + self.match(PSParser.ADD) + pass + + elif la_ == 4: + self.state = 145 + self.match(PSParser.SUB) + pass + + self.state = 148 + self.transform_atom() + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Transform_swapContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Transform_swapContext, self).__init__(parent, invokingState) + self.parser = parser + + def transform_atom(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.Transform_atomContext) + else: + return self.getTypedRuleContext(PSParser.Transform_atomContext, i) + + def TRANSFORM_EXCHANGE(self): + return self.getToken(PSParser.TRANSFORM_EXCHANGE, 0) + + def getRuleIndex(self): + return PSParser.RULE_transform_swap + + def enterRule(self, listener): + if hasattr(listener, "enterTransform_swap"): + listener.enterTransform_swap(self) + + def exitRule(self, listener): + if hasattr(listener, "exitTransform_swap"): + listener.exitTransform_swap(self) + + def transform_swap(self): + + localctx = PSParser.Transform_swapContext(self, self._ctx, self.state) + self.enterRule(localctx, 10, self.RULE_transform_swap) + try: + self.enterOuterAlt(localctx, 1) + self.state = 150 + self.transform_atom() + self.state = 151 + self.match(PSParser.TRANSFORM_EXCHANGE) + self.state = 152 + self.transform_atom() + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Transform_assignmentContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Transform_assignmentContext, self).__init__(parent, invokingState) + self.parser = parser + + def transform_atom(self): + return self.getTypedRuleContext(PSParser.Transform_atomContext, 0) + + def transform_scale(self): + return self.getTypedRuleContext(PSParser.Transform_scaleContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_transform_assignment + + def enterRule(self, listener): + if hasattr(listener, "enterTransform_assignment"): + listener.enterTransform_assignment(self) + + def exitRule(self, listener): + if hasattr(listener, "exitTransform_assignment"): + listener.exitTransform_assignment(self) + + def transform_assignment(self): + + localctx = PSParser.Transform_assignmentContext(self, self._ctx, self.state) + self.enterRule(localctx, 12, self.RULE_transform_assignment) + try: + self.enterOuterAlt(localctx, 1) + self.state = 154 + self.transform_atom() + self.state = 155 + self.transform_scale() + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Elementary_transformContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Elementary_transformContext, self).__init__(parent, invokingState) + self.parser = parser + + def transform_assignment(self): + return self.getTypedRuleContext(PSParser.Transform_assignmentContext, 0) + + def transform_scale(self): + return self.getTypedRuleContext(PSParser.Transform_scaleContext, 0) + + def transform_swap(self): + return self.getTypedRuleContext(PSParser.Transform_swapContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_elementary_transform + + def enterRule(self, listener): + if hasattr(listener, "enterElementary_transform"): + listener.enterElementary_transform(self) + + def exitRule(self, listener): + if hasattr(listener, "exitElementary_transform"): + listener.exitElementary_transform(self) + + def elementary_transform(self): + + localctx = PSParser.Elementary_transformContext(self, self._ctx, self.state) + self.enterRule(localctx, 14, self.RULE_elementary_transform) + try: + self.state = 160 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 3, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 157 + self.transform_assignment() + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 158 + self.transform_scale() + pass + + elif la_ == 3: + self.enterOuterAlt(localctx, 3) + self.state = 159 + self.transform_swap() + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Elementary_transformsContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Elementary_transformsContext, self).__init__(parent, invokingState) + self.parser = parser + + def elementary_transform(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.Elementary_transformContext) + else: + return self.getTypedRuleContext(PSParser.Elementary_transformContext, i) + + def COMMA(self, i=None): + if i is None: + return self.getTokens(PSParser.COMMA) + else: + return self.getToken(PSParser.COMMA, i) + + def getRuleIndex(self): + return PSParser.RULE_elementary_transforms + + def enterRule(self, listener): + if hasattr(listener, "enterElementary_transforms"): + listener.enterElementary_transforms(self) + + def exitRule(self, listener): + if hasattr(listener, "exitElementary_transforms"): + listener.exitElementary_transforms(self) + + def elementary_transforms(self): + + localctx = PSParser.Elementary_transformsContext(self, self._ctx, self.state) + self.enterRule(localctx, 16, self.RULE_elementary_transforms) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 162 + self.elementary_transform() + self.state = 167 + self._errHandler.sync(self) + _la = self._input.LA(1) + while _la == 171: + self.state = 163 + self.match(PSParser.COMMA) + self.state = 164 + self.elementary_transform() + self.state = 169 + self._errHandler.sync(self) + _la = self._input.LA(1) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class MatrixContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.MatrixContext, self).__init__(parent, invokingState) + self.parser = parser + + def CMD_MATRIX_START(self): + return self.getToken(PSParser.CMD_MATRIX_START, 0) + + def matrix_row(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.Matrix_rowContext) + else: + return self.getTypedRuleContext(PSParser.Matrix_rowContext, i) + + def CMD_MATRIX_END(self): + return self.getToken(PSParser.CMD_MATRIX_END, 0) + + def MATRIX_DEL_ROW(self, i=None): + if i is None: + return self.getTokens(PSParser.MATRIX_DEL_ROW) + else: + return self.getToken(PSParser.MATRIX_DEL_ROW, i) + + def MATRIX_XRIGHTARROW(self): + return self.getToken(PSParser.MATRIX_XRIGHTARROW, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def elementary_transforms(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.Elementary_transformsContext) + else: + return self.getTypedRuleContext(PSParser.Elementary_transformsContext, i) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def L_BRACKET(self): + return self.getToken(PSParser.L_BRACKET, 0) + + def R_BRACKET(self): + return self.getToken(PSParser.R_BRACKET, 0) + + def getRuleIndex(self): + return PSParser.RULE_matrix + + def enterRule(self, listener): + if hasattr(listener, "enterMatrix"): + listener.enterMatrix(self) + + def exitRule(self, listener): + if hasattr(listener, "exitMatrix"): + listener.exitMatrix(self) + + def matrix(self): + + localctx = PSParser.MatrixContext(self, self._ctx, self.state) + self.enterRule(localctx, 18, self.RULE_matrix) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 170 + self.match(PSParser.CMD_MATRIX_START) + self.state = 171 + self.matrix_row() + self.state = 176 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 5, self._ctx) + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + self.state = 172 + self.match(PSParser.MATRIX_DEL_ROW) + self.state = 173 + self.matrix_row() + self.state = 178 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 5, self._ctx) + + self.state = 180 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 166: + self.state = 179 + self.match(PSParser.MATRIX_DEL_ROW) + + self.state = 182 + self.match(PSParser.CMD_MATRIX_END) + self.state = 194 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 8, self._ctx) + if la_ == 1: + self.state = 183 + self.match(PSParser.MATRIX_XRIGHTARROW) + self.state = 188 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 61: + self.state = 184 + self.match(PSParser.L_BRACKET) + self.state = 185 + self.elementary_transforms() + self.state = 186 + self.match(PSParser.R_BRACKET) + + self.state = 190 + self.match(PSParser.L_BRACE) + self.state = 191 + self.elementary_transforms() + self.state = 192 + self.match(PSParser.R_BRACE) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class DetContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.DetContext, self).__init__(parent, invokingState) + self.parser = parser + + def CMD_DET_START(self): + return self.getToken(PSParser.CMD_DET_START, 0) + + def matrix_row(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.Matrix_rowContext) + else: + return self.getTypedRuleContext(PSParser.Matrix_rowContext, i) + + def CMD_DET_END(self): + return self.getToken(PSParser.CMD_DET_END, 0) + + def MATRIX_DEL_ROW(self, i=None): + if i is None: + return self.getTokens(PSParser.MATRIX_DEL_ROW) + else: + return self.getToken(PSParser.MATRIX_DEL_ROW, i) + + def getRuleIndex(self): + return PSParser.RULE_det + + def enterRule(self, listener): + if hasattr(listener, "enterDet"): + listener.enterDet(self) + + def exitRule(self, listener): + if hasattr(listener, "exitDet"): + listener.exitDet(self) + + def det(self): + + localctx = PSParser.DetContext(self, self._ctx, self.state) + self.enterRule(localctx, 20, self.RULE_det) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 196 + self.match(PSParser.CMD_DET_START) + self.state = 197 + self.matrix_row() + self.state = 202 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 9, self._ctx) + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + self.state = 198 + self.match(PSParser.MATRIX_DEL_ROW) + self.state = 199 + self.matrix_row() + self.state = 204 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 9, self._ctx) + + self.state = 206 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 166: + self.state = 205 + self.match(PSParser.MATRIX_DEL_ROW) + + self.state = 208 + self.match(PSParser.CMD_DET_END) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Matrix_rowContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Matrix_rowContext, self).__init__(parent, invokingState) + self.parser = parser + + def expr(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.ExprContext) + else: + return self.getTypedRuleContext(PSParser.ExprContext, i) + + def MATRIX_DEL_COL(self, i=None): + if i is None: + return self.getTokens(PSParser.MATRIX_DEL_COL) + else: + return self.getToken(PSParser.MATRIX_DEL_COL, i) + + def getRuleIndex(self): + return PSParser.RULE_matrix_row + + def enterRule(self, listener): + if hasattr(listener, "enterMatrix_row"): + listener.enterMatrix_row(self) + + def exitRule(self, listener): + if hasattr(listener, "exitMatrix_row"): + listener.exitMatrix_row(self) + + def matrix_row(self): + + localctx = PSParser.Matrix_rowContext(self, self._ctx, self.state) + self.enterRule(localctx, 22, self.RULE_matrix_row) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 210 + self.expr() + self.state = 215 + self._errHandler.sync(self) + _la = self._input.LA(1) + while _la == 165: + self.state = 211 + self.match(PSParser.MATRIX_DEL_COL) + self.state = 212 + self.expr() + self.state = 217 + self._errHandler.sync(self) + _la = self._input.LA(1) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class RelationContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.RelationContext, self).__init__(parent, invokingState) + self.parser = parser + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def relation(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.RelationContext) + else: + return self.getTypedRuleContext(PSParser.RelationContext, i) + + def IN(self): + return self.getToken(PSParser.IN, 0) + + def ASSIGNMENT(self): + return self.getToken(PSParser.ASSIGNMENT, 0) + + def EQUAL(self): + return self.getToken(PSParser.EQUAL, 0) + + def LT(self): + return self.getToken(PSParser.LT, 0) + + def LTE(self): + return self.getToken(PSParser.LTE, 0) + + def GT(self): + return self.getToken(PSParser.GT, 0) + + def GTE(self): + return self.getToken(PSParser.GTE, 0) + + def UNEQUAL(self): + return self.getToken(PSParser.UNEQUAL, 0) + + def getRuleIndex(self): + return PSParser.RULE_relation + + def enterRule(self, listener): + if hasattr(listener, "enterRelation"): + listener.enterRelation(self) + + def exitRule(self, listener): + if hasattr(listener, "exitRelation"): + listener.exitRelation(self) + + def relation(self, _p=0): + _parentctx = self._ctx + _parentState = self.state + localctx = PSParser.RelationContext(self, self._ctx, _parentState) + _prevctx = localctx + _startState = 24 + self.enterRecursionRule(localctx, 24, self.RULE_relation, _p) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 219 + self.expr() + self._ctx.stop = self._input.LT(-1) + self.state = 226 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 12, self._ctx) + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + if self._parseListeners is not None: + self.triggerExitRuleEvent() + _prevctx = localctx + localctx = PSParser.RelationContext(self, _parentctx, _parentState) + self.pushNewRecursionContext(localctx, _startState, self.RULE_relation) + self.state = 221 + if not self.precpred(self._ctx, 2): + from antlr4.error.Errors import FailedPredicateException + raise FailedPredicateException(self, "self.precpred(self._ctx, 2)") + self.state = 222 + _la = self._input.LA(1) + if not((((_la - 181)) & ~0x3f) == 0 and ((1 << (_la - 181)) & 255) != 0): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 223 + self.relation(3) + self.state = 228 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 12, self._ctx) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.unrollRecursionContexts(_parentctx) + return localctx + + class Relation_listContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Relation_listContext, self).__init__(parent, invokingState) + self.parser = parser + + def relation_list_content(self): + return self.getTypedRuleContext(PSParser.Relation_list_contentContext, 0) + + def L_BRACKET(self): + return self.getToken(PSParser.L_BRACKET, 0) + + def R_BRACKET(self): + return self.getToken(PSParser.R_BRACKET, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def L_BRACE_VISUAL(self): + return self.getToken(PSParser.L_BRACE_VISUAL, 0) + + def R_BRACE_VISUAL(self): + return self.getToken(PSParser.R_BRACE_VISUAL, 0) + + def L_LEFT(self): + return self.getToken(PSParser.L_LEFT, 0) + + def R_RIGHT(self): + return self.getToken(PSParser.R_RIGHT, 0) + + def ML_LEFT(self): + return self.getToken(PSParser.ML_LEFT, 0) + + def MR_RIGHT(self): + return self.getToken(PSParser.MR_RIGHT, 0) + + def getRuleIndex(self): + return PSParser.RULE_relation_list + + def enterRule(self, listener): + if hasattr(listener, "enterRelation_list"): + listener.enterRelation_list(self) + + def exitRule(self, listener): + if hasattr(listener, "exitRelation_list"): + listener.exitRelation_list(self) + + def relation_list(self): + + localctx = PSParser.Relation_listContext(self, self._ctx, self.state) + self.enterRule(localctx, 26, self.RULE_relation_list) + try: + self.state = 266 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 13, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 229 + self.relation_list_content() + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 230 + self.match(PSParser.L_BRACKET) + self.state = 231 + self.relation_list_content() + self.state = 232 + self.match(PSParser.R_BRACKET) + pass + + elif la_ == 3: + self.enterOuterAlt(localctx, 3) + self.state = 234 + self.match(PSParser.L_BRACE) + self.state = 235 + self.relation_list_content() + self.state = 236 + self.match(PSParser.R_BRACE) + pass + + elif la_ == 4: + self.enterOuterAlt(localctx, 4) + self.state = 238 + self.match(PSParser.L_BRACE_VISUAL) + self.state = 239 + self.relation_list_content() + self.state = 240 + self.match(PSParser.R_BRACE_VISUAL) + pass + + elif la_ == 5: + self.enterOuterAlt(localctx, 5) + self.state = 242 + self.match(PSParser.L_LEFT) + self.state = 243 + self.match(PSParser.L_BRACKET) + self.state = 244 + self.relation_list_content() + self.state = 245 + self.match(PSParser.R_RIGHT) + self.state = 246 + self.match(PSParser.R_BRACKET) + pass + + elif la_ == 6: + self.enterOuterAlt(localctx, 6) + self.state = 248 + self.match(PSParser.L_LEFT) + self.state = 249 + self.match(PSParser.L_BRACE_VISUAL) + self.state = 250 + self.relation_list_content() + self.state = 251 + self.match(PSParser.R_RIGHT) + self.state = 252 + self.match(PSParser.R_BRACE_VISUAL) + pass + + elif la_ == 7: + self.enterOuterAlt(localctx, 7) + self.state = 254 + self.match(PSParser.ML_LEFT) + self.state = 255 + self.match(PSParser.L_BRACKET) + self.state = 256 + self.relation_list_content() + self.state = 257 + self.match(PSParser.MR_RIGHT) + self.state = 258 + self.match(PSParser.R_BRACKET) + pass + + elif la_ == 8: + self.enterOuterAlt(localctx, 8) + self.state = 260 + self.match(PSParser.ML_LEFT) + self.state = 261 + self.match(PSParser.L_BRACE_VISUAL) + self.state = 262 + self.relation_list_content() + self.state = 263 + self.match(PSParser.MR_RIGHT) + self.state = 264 + self.match(PSParser.R_BRACE_VISUAL) + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Relation_list_contentContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Relation_list_contentContext, self).__init__(parent, invokingState) + self.parser = parser + + def relation(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.RelationContext) + else: + return self.getTypedRuleContext(PSParser.RelationContext, i) + + def COMMA(self, i=None): + if i is None: + return self.getTokens(PSParser.COMMA) + else: + return self.getToken(PSParser.COMMA, i) + + def SEMICOLON(self, i=None): + if i is None: + return self.getTokens(PSParser.SEMICOLON) + else: + return self.getToken(PSParser.SEMICOLON, i) + + def getRuleIndex(self): + return PSParser.RULE_relation_list_content + + def enterRule(self, listener): + if hasattr(listener, "enterRelation_list_content"): + listener.enterRelation_list_content(self) + + def exitRule(self, listener): + if hasattr(listener, "exitRelation_list_content"): + listener.exitRelation_list_content(self) + + def relation_list_content(self): + + localctx = PSParser.Relation_list_contentContext(self, self._ctx, self.state) + self.enterRule(localctx, 28, self.RULE_relation_list_content) + self._la = 0 # Token type + try: + self.state = 288 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 16, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 268 + self.relation(0) + self.state = 269 + self.match(PSParser.COMMA) + self.state = 270 + self.relation(0) + self.state = 275 + self._errHandler.sync(self) + _la = self._input.LA(1) + while _la == 171: + self.state = 271 + self.match(PSParser.COMMA) + self.state = 272 + self.relation(0) + self.state = 277 + self._errHandler.sync(self) + _la = self._input.LA(1) + + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 278 + self.relation(0) + self.state = 279 + self.match(PSParser.SEMICOLON) + self.state = 280 + self.relation(0) + self.state = 285 + self._errHandler.sync(self) + _la = self._input.LA(1) + while _la == 170: + self.state = 281 + self.match(PSParser.SEMICOLON) + self.state = 282 + self.relation(0) + self.state = 287 + self._errHandler.sync(self) + _la = self._input.LA(1) + + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class EqualityContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.EqualityContext, self).__init__(parent, invokingState) + self.parser = parser + + def expr(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.ExprContext) + else: + return self.getTypedRuleContext(PSParser.ExprContext, i) + + def EQUAL(self): + return self.getToken(PSParser.EQUAL, 0) + + def ASSIGNMENT(self): + return self.getToken(PSParser.ASSIGNMENT, 0) + + def getRuleIndex(self): + return PSParser.RULE_equality + + def enterRule(self, listener): + if hasattr(listener, "enterEquality"): + listener.enterEquality(self) + + def exitRule(self, listener): + if hasattr(listener, "exitEquality"): + listener.exitEquality(self) + + def equality(self): + + localctx = PSParser.EqualityContext(self, self._ctx, self.state) + self.enterRule(localctx, 30, self.RULE_equality) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 290 + self.expr() + self.state = 291 + _la = self._input.LA(1) + if not(_la == 182 or _la == 183): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 292 + self.expr() + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class ExprContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.ExprContext, self).__init__(parent, invokingState) + self.parser = parser + + def additive(self): + return self.getTypedRuleContext(PSParser.AdditiveContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_expr + + def enterRule(self, listener): + if hasattr(listener, "enterExpr"): + listener.enterExpr(self) + + def exitRule(self, listener): + if hasattr(listener, "exitExpr"): + listener.exitExpr(self) + + def expr(self): + + localctx = PSParser.ExprContext(self, self._ctx, self.state) + self.enterRule(localctx, 32, self.RULE_expr) + try: + self.enterOuterAlt(localctx, 1) + self.state = 294 + self.additive(0) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class AdditiveContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.AdditiveContext, self).__init__(parent, invokingState) + self.parser = parser + + def mp(self): + return self.getTypedRuleContext(PSParser.MpContext, 0) + + def additive(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.AdditiveContext) + else: + return self.getTypedRuleContext(PSParser.AdditiveContext, i) + + def ADD(self): + return self.getToken(PSParser.ADD, 0) + + def SUB(self): + return self.getToken(PSParser.SUB, 0) + + def getRuleIndex(self): + return PSParser.RULE_additive + + def enterRule(self, listener): + if hasattr(listener, "enterAdditive"): + listener.enterAdditive(self) + + def exitRule(self, listener): + if hasattr(listener, "exitAdditive"): + listener.exitAdditive(self) + + def additive(self, _p=0): + _parentctx = self._ctx + _parentState = self.state + localctx = PSParser.AdditiveContext(self, self._ctx, _parentState) + _prevctx = localctx + _startState = 34 + self.enterRecursionRule(localctx, 34, self.RULE_additive, _p) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 297 + self.mp(0) + self._ctx.stop = self._input.LT(-1) + self.state = 304 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 17, self._ctx) + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + if self._parseListeners is not None: + self.triggerExitRuleEvent() + _prevctx = localctx + localctx = PSParser.AdditiveContext(self, _parentctx, _parentState) + self.pushNewRecursionContext(localctx, _startState, self.RULE_additive) + self.state = 299 + if not self.precpred(self._ctx, 2): + from antlr4.error.Errors import FailedPredicateException + raise FailedPredicateException(self, "self.precpred(self._ctx, 2)") + self.state = 300 + _la = self._input.LA(1) + if not(_la == 47 or _la == 48): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 301 + self.additive(3) + self.state = 306 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 17, self._ctx) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.unrollRecursionContexts(_parentctx) + return localctx + + class MpContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.MpContext, self).__init__(parent, invokingState) + self.parser = parser + + def unary(self): + return self.getTypedRuleContext(PSParser.UnaryContext, 0) + + def mp(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.MpContext) + else: + return self.getTypedRuleContext(PSParser.MpContext, i) + + def MUL(self): + return self.getToken(PSParser.MUL, 0) + + def CMD_TIMES(self): + return self.getToken(PSParser.CMD_TIMES, 0) + + def CMD_CDOT(self): + return self.getToken(PSParser.CMD_CDOT, 0) + + def DIV(self): + return self.getToken(PSParser.DIV, 0) + + def CMD_DIV(self): + return self.getToken(PSParser.CMD_DIV, 0) + + def COLON(self): + return self.getToken(PSParser.COLON, 0) + + def CMD_MOD(self): + return self.getToken(PSParser.CMD_MOD, 0) + + def getRuleIndex(self): + return PSParser.RULE_mp + + def enterRule(self, listener): + if hasattr(listener, "enterMp"): + listener.enterMp(self) + + def exitRule(self, listener): + if hasattr(listener, "exitMp"): + listener.exitMp(self) + + def mp(self, _p=0): + _parentctx = self._ctx + _parentState = self.state + localctx = PSParser.MpContext(self, self._ctx, _parentState) + _prevctx = localctx + _startState = 36 + self.enterRecursionRule(localctx, 36, self.RULE_mp, _p) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 308 + self.unary() + self._ctx.stop = self._input.LT(-1) + self.state = 315 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 18, self._ctx) + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + if self._parseListeners is not None: + self.triggerExitRuleEvent() + _prevctx = localctx + localctx = PSParser.MpContext(self, _parentctx, _parentState) + self.pushNewRecursionContext(localctx, _startState, self.RULE_mp) + self.state = 310 + if not self.precpred(self._ctx, 2): + from antlr4.error.Errors import FailedPredicateException + raise FailedPredicateException(self, "self.precpred(self._ctx, 2)") + self.state = 311 + _la = self._input.LA(1) + if not(_la == 49 or _la == 50 or (((_la - 147)) & ~0x3f) == 0 and ((1 << (_la - 147)) & 4194375) != 0): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 312 + self.mp(3) + self.state = 317 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 18, self._ctx) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.unrollRecursionContexts(_parentctx) + return localctx + + class Mp_nofuncContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Mp_nofuncContext, self).__init__(parent, invokingState) + self.parser = parser + + def unary_nofunc(self): + return self.getTypedRuleContext(PSParser.Unary_nofuncContext, 0) + + def mp_nofunc(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.Mp_nofuncContext) + else: + return self.getTypedRuleContext(PSParser.Mp_nofuncContext, i) + + def MUL(self): + return self.getToken(PSParser.MUL, 0) + + def CMD_TIMES(self): + return self.getToken(PSParser.CMD_TIMES, 0) + + def CMD_CDOT(self): + return self.getToken(PSParser.CMD_CDOT, 0) + + def DIV(self): + return self.getToken(PSParser.DIV, 0) + + def CMD_DIV(self): + return self.getToken(PSParser.CMD_DIV, 0) + + def COLON(self): + return self.getToken(PSParser.COLON, 0) + + def CMD_MOD(self): + return self.getToken(PSParser.CMD_MOD, 0) + + def getRuleIndex(self): + return PSParser.RULE_mp_nofunc + + def enterRule(self, listener): + if hasattr(listener, "enterMp_nofunc"): + listener.enterMp_nofunc(self) + + def exitRule(self, listener): + if hasattr(listener, "exitMp_nofunc"): + listener.exitMp_nofunc(self) + + def mp_nofunc(self, _p=0): + _parentctx = self._ctx + _parentState = self.state + localctx = PSParser.Mp_nofuncContext(self, self._ctx, _parentState) + _prevctx = localctx + _startState = 38 + self.enterRecursionRule(localctx, 38, self.RULE_mp_nofunc, _p) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 319 + self.unary_nofunc() + self._ctx.stop = self._input.LT(-1) + self.state = 326 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 19, self._ctx) + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + if self._parseListeners is not None: + self.triggerExitRuleEvent() + _prevctx = localctx + localctx = PSParser.Mp_nofuncContext(self, _parentctx, _parentState) + self.pushNewRecursionContext(localctx, _startState, self.RULE_mp_nofunc) + self.state = 321 + if not self.precpred(self._ctx, 2): + from antlr4.error.Errors import FailedPredicateException + raise FailedPredicateException(self, "self.precpred(self._ctx, 2)") + self.state = 322 + _la = self._input.LA(1) + if not(_la == 49 or _la == 50 or (((_la - 147)) & ~0x3f) == 0 and ((1 << (_la - 147)) & 4194375) != 0): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 323 + self.mp_nofunc(3) + self.state = 328 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 19, self._ctx) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.unrollRecursionContexts(_parentctx) + return localctx + + class UnaryContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.UnaryContext, self).__init__(parent, invokingState) + self.parser = parser + + def unary(self): + return self.getTypedRuleContext(PSParser.UnaryContext, 0) + + def ADD(self): + return self.getToken(PSParser.ADD, 0) + + def SUB(self): + return self.getToken(PSParser.SUB, 0) + + def postfix(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.PostfixContext) + else: + return self.getTypedRuleContext(PSParser.PostfixContext, i) + + def getRuleIndex(self): + return PSParser.RULE_unary + + def enterRule(self, listener): + if hasattr(listener, "enterUnary"): + listener.enterUnary(self) + + def exitRule(self, listener): + if hasattr(listener, "exitUnary"): + listener.exitUnary(self) + + def unary(self): + + localctx = PSParser.UnaryContext(self, self._ctx, self.state) + self.enterRule(localctx, 40, self.RULE_unary) + self._la = 0 # Token type + try: + self.state = 336 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [47, 48]: + self.enterOuterAlt(localctx, 1) + self.state = 329 + _la = self._input.LA(1) + if not(_la == 47 or _la == 48): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 330 + self.unary() + pass + elif token in [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 51, 53, 55, 57, 59, 61, 63, 65, 66, 68, 69, 70, 72, 74, 76, 78, 80, 82, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 121, 122, 123, 124, 125, 126, 127, 128, 150, 151, 154, 155, 161, 163, 173, 174, 176, 179, 180, 190, 191, 192, 193, 194]: + self.enterOuterAlt(localctx, 2) + self.state = 332 + self._errHandler.sync(self) + _alt = 1 + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + self.state = 331 + self.postfix() + + else: + raise NoViableAltException(self) + self.state = 334 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 20, self._ctx) + + pass + else: + raise NoViableAltException(self) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Unary_nofuncContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Unary_nofuncContext, self).__init__(parent, invokingState) + self.parser = parser + + def unary_nofunc(self): + return self.getTypedRuleContext(PSParser.Unary_nofuncContext, 0) + + def ADD(self): + return self.getToken(PSParser.ADD, 0) + + def SUB(self): + return self.getToken(PSParser.SUB, 0) + + def postfix(self): + return self.getTypedRuleContext(PSParser.PostfixContext, 0) + + def postfix_nofunc(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.Postfix_nofuncContext) + else: + return self.getTypedRuleContext(PSParser.Postfix_nofuncContext, i) + + def getRuleIndex(self): + return PSParser.RULE_unary_nofunc + + def enterRule(self, listener): + if hasattr(listener, "enterUnary_nofunc"): + listener.enterUnary_nofunc(self) + + def exitRule(self, listener): + if hasattr(listener, "exitUnary_nofunc"): + listener.exitUnary_nofunc(self) + + def unary_nofunc(self): + + localctx = PSParser.Unary_nofuncContext(self, self._ctx, self.state) + self.enterRule(localctx, 42, self.RULE_unary_nofunc) + self._la = 0 # Token type + try: + self.state = 347 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [47, 48]: + self.enterOuterAlt(localctx, 1) + self.state = 338 + _la = self._input.LA(1) + if not(_la == 47 or _la == 48): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 339 + self.unary_nofunc() + pass + elif token in [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 51, 53, 55, 57, 59, 61, 63, 65, 66, 68, 69, 70, 72, 74, 76, 78, 80, 82, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 121, 122, 123, 124, 125, 126, 127, 128, 150, 151, 154, 155, 161, 163, 173, 174, 176, 179, 180, 190, 191, 192, 193, 194]: + self.enterOuterAlt(localctx, 2) + self.state = 340 + self.postfix() + self.state = 344 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 22, self._ctx) + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + self.state = 341 + self.postfix_nofunc() + self.state = 346 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 22, self._ctx) + + pass + else: + raise NoViableAltException(self) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class PostfixContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.PostfixContext, self).__init__(parent, invokingState) + self.parser = parser + + def exp(self): + return self.getTypedRuleContext(PSParser.ExpContext, 0) + + def postfix_op(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.Postfix_opContext) + else: + return self.getTypedRuleContext(PSParser.Postfix_opContext, i) + + def getRuleIndex(self): + return PSParser.RULE_postfix + + def enterRule(self, listener): + if hasattr(listener, "enterPostfix"): + listener.enterPostfix(self) + + def exitRule(self, listener): + if hasattr(listener, "exitPostfix"): + listener.exitPostfix(self) + + def postfix(self): + + localctx = PSParser.PostfixContext(self, self._ctx, self.state) + self.enterRule(localctx, 44, self.RULE_postfix) + try: + self.enterOuterAlt(localctx, 1) + self.state = 349 + self.exp(0) + self.state = 353 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 24, self._ctx) + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + self.state = 350 + self.postfix_op() + self.state = 355 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 24, self._ctx) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Postfix_nofuncContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Postfix_nofuncContext, self).__init__(parent, invokingState) + self.parser = parser + + def exp_nofunc(self): + return self.getTypedRuleContext(PSParser.Exp_nofuncContext, 0) + + def postfix_op(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.Postfix_opContext) + else: + return self.getTypedRuleContext(PSParser.Postfix_opContext, i) + + def getRuleIndex(self): + return PSParser.RULE_postfix_nofunc + + def enterRule(self, listener): + if hasattr(listener, "enterPostfix_nofunc"): + listener.enterPostfix_nofunc(self) + + def exitRule(self, listener): + if hasattr(listener, "exitPostfix_nofunc"): + listener.exitPostfix_nofunc(self) + + def postfix_nofunc(self): + + localctx = PSParser.Postfix_nofuncContext(self, self._ctx, self.state) + self.enterRule(localctx, 46, self.RULE_postfix_nofunc) + try: + self.enterOuterAlt(localctx, 1) + self.state = 356 + self.exp_nofunc(0) + self.state = 360 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 25, self._ctx) + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + self.state = 357 + self.postfix_op() + self.state = 362 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 25, self._ctx) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Postfix_opContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Postfix_opContext, self).__init__(parent, invokingState) + self.parser = parser + + def BANG(self): + return self.getToken(PSParser.BANG, 0) + + def eval_at(self): + return self.getTypedRuleContext(PSParser.Eval_atContext, 0) + + def transpose(self): + return self.getTypedRuleContext(PSParser.TransposeContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_postfix_op + + def enterRule(self, listener): + if hasattr(listener, "enterPostfix_op"): + listener.enterPostfix_op(self) + + def exitRule(self, listener): + if hasattr(listener, "exitPostfix_op"): + listener.exitPostfix_op(self) + + def postfix_op(self): + + localctx = PSParser.Postfix_opContext(self, self._ctx, self.state) + self.enterRule(localctx, 48, self.RULE_postfix_op) + try: + self.state = 366 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [189]: + self.enterOuterAlt(localctx, 1) + self.state = 363 + self.match(PSParser.BANG) + pass + elif token in [65]: + self.enterOuterAlt(localctx, 2) + self.state = 364 + self.eval_at() + pass + elif token in [41, 42, 43, 44]: + self.enterOuterAlt(localctx, 3) + self.state = 365 + self.transpose() + pass + else: + raise NoViableAltException(self) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Eval_atContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Eval_atContext, self).__init__(parent, invokingState) + self.parser = parser + + def BAR(self): + return self.getToken(PSParser.BAR, 0) + + def eval_at_sup(self): + return self.getTypedRuleContext(PSParser.Eval_at_supContext, 0) + + def eval_at_sub(self): + return self.getTypedRuleContext(PSParser.Eval_at_subContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_eval_at + + def enterRule(self, listener): + if hasattr(listener, "enterEval_at"): + listener.enterEval_at(self) + + def exitRule(self, listener): + if hasattr(listener, "exitEval_at"): + listener.exitEval_at(self) + + def eval_at(self): + + localctx = PSParser.Eval_atContext(self, self._ctx, self.state) + self.enterRule(localctx, 50, self.RULE_eval_at) + try: + self.enterOuterAlt(localctx, 1) + self.state = 368 + self.match(PSParser.BAR) + self.state = 374 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 27, self._ctx) + if la_ == 1: + self.state = 369 + self.eval_at_sup() + pass + + elif la_ == 2: + self.state = 370 + self.eval_at_sub() + pass + + elif la_ == 3: + self.state = 371 + self.eval_at_sup() + self.state = 372 + self.eval_at_sub() + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Eval_at_subContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Eval_at_subContext, self).__init__(parent, invokingState) + self.parser = parser + + def UNDERSCORE(self): + return self.getToken(PSParser.UNDERSCORE, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def equality(self): + return self.getTypedRuleContext(PSParser.EqualityContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_eval_at_sub + + def enterRule(self, listener): + if hasattr(listener, "enterEval_at_sub"): + listener.enterEval_at_sub(self) + + def exitRule(self, listener): + if hasattr(listener, "exitEval_at_sub"): + listener.exitEval_at_sub(self) + + def eval_at_sub(self): + + localctx = PSParser.Eval_at_subContext(self, self._ctx, self.state) + self.enterRule(localctx, 52, self.RULE_eval_at_sub) + try: + self.enterOuterAlt(localctx, 1) + self.state = 376 + self.match(PSParser.UNDERSCORE) + self.state = 377 + self.match(PSParser.L_BRACE) + self.state = 380 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 28, self._ctx) + if la_ == 1: + self.state = 378 + self.expr() + pass + + elif la_ == 2: + self.state = 379 + self.equality() + pass + + self.state = 382 + self.match(PSParser.R_BRACE) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Eval_at_supContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Eval_at_supContext, self).__init__(parent, invokingState) + self.parser = parser + + def CARET(self): + return self.getToken(PSParser.CARET, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def equality(self): + return self.getTypedRuleContext(PSParser.EqualityContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_eval_at_sup + + def enterRule(self, listener): + if hasattr(listener, "enterEval_at_sup"): + listener.enterEval_at_sup(self) + + def exitRule(self, listener): + if hasattr(listener, "exitEval_at_sup"): + listener.exitEval_at_sup(self) + + def eval_at_sup(self): + + localctx = PSParser.Eval_at_supContext(self, self._ctx, self.state) + self.enterRule(localctx, 54, self.RULE_eval_at_sup) + try: + self.enterOuterAlt(localctx, 1) + self.state = 384 + self.match(PSParser.CARET) + self.state = 385 + self.match(PSParser.L_BRACE) + self.state = 388 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 29, self._ctx) + if la_ == 1: + self.state = 386 + self.expr() + pass + + elif la_ == 2: + self.state = 387 + self.equality() + pass + + self.state = 390 + self.match(PSParser.R_BRACE) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class ExpContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.ExpContext, self).__init__(parent, invokingState) + self.parser = parser + + def comp(self): + return self.getTypedRuleContext(PSParser.CompContext, 0) + + def exp(self): + return self.getTypedRuleContext(PSParser.ExpContext, 0) + + def CARET(self): + return self.getToken(PSParser.CARET, 0) + + def atom(self): + return self.getTypedRuleContext(PSParser.AtomContext, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def subexpr(self): + return self.getTypedRuleContext(PSParser.SubexprContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_exp + + def enterRule(self, listener): + if hasattr(listener, "enterExp"): + listener.enterExp(self) + + def exitRule(self, listener): + if hasattr(listener, "exitExp"): + listener.exitExp(self) + + def exp(self, _p=0): + _parentctx = self._ctx + _parentState = self.state + localctx = PSParser.ExpContext(self, self._ctx, _parentState) + _prevctx = localctx + _startState = 56 + self.enterRecursionRule(localctx, 56, self.RULE_exp, _p) + try: + self.enterOuterAlt(localctx, 1) + self.state = 393 + self.comp() + self._ctx.stop = self._input.LT(-1) + self.state = 409 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 32, self._ctx) + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + if self._parseListeners is not None: + self.triggerExitRuleEvent() + _prevctx = localctx + localctx = PSParser.ExpContext(self, _parentctx, _parentState) + self.pushNewRecursionContext(localctx, _startState, self.RULE_exp) + self.state = 395 + if not self.precpred(self._ctx, 2): + from antlr4.error.Errors import FailedPredicateException + raise FailedPredicateException(self, "self.precpred(self._ctx, 2)") + self.state = 396 + self.match(PSParser.CARET) + self.state = 402 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 154, 173, 176, 179, 180, 190, 191, 192, 193, 194]: + self.state = 397 + self.atom() + pass + elif token in [55]: + self.state = 398 + self.match(PSParser.L_BRACE) + self.state = 399 + self.expr() + self.state = 400 + self.match(PSParser.R_BRACE) + pass + else: + raise NoViableAltException(self) + + self.state = 405 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 31, self._ctx) + if la_ == 1: + self.state = 404 + self.subexpr() + + self.state = 411 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 32, self._ctx) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.unrollRecursionContexts(_parentctx) + return localctx + + class Exp_nofuncContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Exp_nofuncContext, self).__init__(parent, invokingState) + self.parser = parser + + def comp_nofunc(self): + return self.getTypedRuleContext(PSParser.Comp_nofuncContext, 0) + + def exp_nofunc(self): + return self.getTypedRuleContext(PSParser.Exp_nofuncContext, 0) + + def CARET(self): + return self.getToken(PSParser.CARET, 0) + + def atom(self): + return self.getTypedRuleContext(PSParser.AtomContext, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def subexpr(self): + return self.getTypedRuleContext(PSParser.SubexprContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_exp_nofunc + + def enterRule(self, listener): + if hasattr(listener, "enterExp_nofunc"): + listener.enterExp_nofunc(self) + + def exitRule(self, listener): + if hasattr(listener, "exitExp_nofunc"): + listener.exitExp_nofunc(self) + + def exp_nofunc(self, _p=0): + _parentctx = self._ctx + _parentState = self.state + localctx = PSParser.Exp_nofuncContext(self, self._ctx, _parentState) + _prevctx = localctx + _startState = 58 + self.enterRecursionRule(localctx, 58, self.RULE_exp_nofunc, _p) + try: + self.enterOuterAlt(localctx, 1) + self.state = 413 + self.comp_nofunc() + self._ctx.stop = self._input.LT(-1) + self.state = 429 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 35, self._ctx) + while _alt != 2 and _alt != ATN.INVALID_ALT_NUMBER: + if _alt == 1: + if self._parseListeners is not None: + self.triggerExitRuleEvent() + _prevctx = localctx + localctx = PSParser.Exp_nofuncContext(self, _parentctx, _parentState) + self.pushNewRecursionContext(localctx, _startState, self.RULE_exp_nofunc) + self.state = 415 + if not self.precpred(self._ctx, 2): + from antlr4.error.Errors import FailedPredicateException + raise FailedPredicateException(self, "self.precpred(self._ctx, 2)") + self.state = 416 + self.match(PSParser.CARET) + self.state = 422 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 154, 173, 176, 179, 180, 190, 191, 192, 193, 194]: + self.state = 417 + self.atom() + pass + elif token in [55]: + self.state = 418 + self.match(PSParser.L_BRACE) + self.state = 419 + self.expr() + self.state = 420 + self.match(PSParser.R_BRACE) + pass + else: + raise NoViableAltException(self) + + self.state = 425 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 34, self._ctx) + if la_ == 1: + self.state = 424 + self.subexpr() + + self.state = 431 + self._errHandler.sync(self) + _alt = self._interp.adaptivePredict(self._input, 35, self._ctx) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.unrollRecursionContexts(_parentctx) + return localctx + + class CompContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.CompContext, self).__init__(parent, invokingState) + self.parser = parser + + def group(self): + return self.getTypedRuleContext(PSParser.GroupContext, 0) + + def norm_group(self): + return self.getTypedRuleContext(PSParser.Norm_groupContext, 0) + + def abs_group(self): + return self.getTypedRuleContext(PSParser.Abs_groupContext, 0) + + def floor_group(self): + return self.getTypedRuleContext(PSParser.Floor_groupContext, 0) + + def ceil_group(self): + return self.getTypedRuleContext(PSParser.Ceil_groupContext, 0) + + def func(self): + return self.getTypedRuleContext(PSParser.FuncContext, 0) + + def atom(self): + return self.getTypedRuleContext(PSParser.AtomContext, 0) + + def frac(self): + return self.getTypedRuleContext(PSParser.FracContext, 0) + + def binom(self): + return self.getTypedRuleContext(PSParser.BinomContext, 0) + + def matrix(self): + return self.getTypedRuleContext(PSParser.MatrixContext, 0) + + def det(self): + return self.getTypedRuleContext(PSParser.DetContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_comp + + def enterRule(self, listener): + if hasattr(listener, "enterComp"): + listener.enterComp(self) + + def exitRule(self, listener): + if hasattr(listener, "exitComp"): + listener.exitComp(self) + + def comp(self): + + localctx = PSParser.CompContext(self, self._ctx, self.state) + self.enterRule(localctx, 60, self.RULE_comp) + try: + self.state = 443 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 36, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 432 + self.group() + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 433 + self.norm_group() + pass + + elif la_ == 3: + self.enterOuterAlt(localctx, 3) + self.state = 434 + self.abs_group() + pass + + elif la_ == 4: + self.enterOuterAlt(localctx, 4) + self.state = 435 + self.floor_group() + pass + + elif la_ == 5: + self.enterOuterAlt(localctx, 5) + self.state = 436 + self.ceil_group() + pass + + elif la_ == 6: + self.enterOuterAlt(localctx, 6) + self.state = 437 + self.func() + pass + + elif la_ == 7: + self.enterOuterAlt(localctx, 7) + self.state = 438 + self.atom() + pass + + elif la_ == 8: + self.enterOuterAlt(localctx, 8) + self.state = 439 + self.frac() + pass + + elif la_ == 9: + self.enterOuterAlt(localctx, 9) + self.state = 440 + self.binom() + pass + + elif la_ == 10: + self.enterOuterAlt(localctx, 10) + self.state = 441 + self.matrix() + pass + + elif la_ == 11: + self.enterOuterAlt(localctx, 11) + self.state = 442 + self.det() + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Comp_nofuncContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Comp_nofuncContext, self).__init__(parent, invokingState) + self.parser = parser + + def group(self): + return self.getTypedRuleContext(PSParser.GroupContext, 0) + + def norm_group(self): + return self.getTypedRuleContext(PSParser.Norm_groupContext, 0) + + def abs_group(self): + return self.getTypedRuleContext(PSParser.Abs_groupContext, 0) + + def floor_group(self): + return self.getTypedRuleContext(PSParser.Floor_groupContext, 0) + + def ceil_group(self): + return self.getTypedRuleContext(PSParser.Ceil_groupContext, 0) + + def atom(self): + return self.getTypedRuleContext(PSParser.AtomContext, 0) + + def frac(self): + return self.getTypedRuleContext(PSParser.FracContext, 0) + + def binom(self): + return self.getTypedRuleContext(PSParser.BinomContext, 0) + + def matrix(self): + return self.getTypedRuleContext(PSParser.MatrixContext, 0) + + def det(self): + return self.getTypedRuleContext(PSParser.DetContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_comp_nofunc + + def enterRule(self, listener): + if hasattr(listener, "enterComp_nofunc"): + listener.enterComp_nofunc(self) + + def exitRule(self, listener): + if hasattr(listener, "exitComp_nofunc"): + listener.exitComp_nofunc(self) + + def comp_nofunc(self): + + localctx = PSParser.Comp_nofuncContext(self, self._ctx, self.state) + self.enterRule(localctx, 62, self.RULE_comp_nofunc) + try: + self.state = 455 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 37, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 445 + self.group() + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 446 + self.norm_group() + pass + + elif la_ == 3: + self.enterOuterAlt(localctx, 3) + self.state = 447 + self.abs_group() + pass + + elif la_ == 4: + self.enterOuterAlt(localctx, 4) + self.state = 448 + self.floor_group() + pass + + elif la_ == 5: + self.enterOuterAlt(localctx, 5) + self.state = 449 + self.ceil_group() + pass + + elif la_ == 6: + self.enterOuterAlt(localctx, 6) + self.state = 450 + self.atom() + pass + + elif la_ == 7: + self.enterOuterAlt(localctx, 7) + self.state = 451 + self.frac() + pass + + elif la_ == 8: + self.enterOuterAlt(localctx, 8) + self.state = 452 + self.binom() + pass + + elif la_ == 9: + self.enterOuterAlt(localctx, 9) + self.state = 453 + self.matrix() + pass + + elif la_ == 10: + self.enterOuterAlt(localctx, 10) + self.state = 454 + self.det() + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class GroupContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.GroupContext, self).__init__(parent, invokingState) + self.parser = parser + + def L_PAREN(self): + return self.getToken(PSParser.L_PAREN, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def R_PAREN(self): + return self.getToken(PSParser.R_PAREN, 0) + + def L_GROUP(self): + return self.getToken(PSParser.L_GROUP, 0) + + def R_GROUP(self): + return self.getToken(PSParser.R_GROUP, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def L_BRACE_VISUAL(self): + return self.getToken(PSParser.L_BRACE_VISUAL, 0) + + def R_BRACE_VISUAL(self): + return self.getToken(PSParser.R_BRACE_VISUAL, 0) + + def L_BRACE_CMD(self): + return self.getToken(PSParser.L_BRACE_CMD, 0) + + def R_BRACE_CMD(self): + return self.getToken(PSParser.R_BRACE_CMD, 0) + + def L_BRACKET(self): + return self.getToken(PSParser.L_BRACKET, 0) + + def R_BRACKET(self): + return self.getToken(PSParser.R_BRACKET, 0) + + def L_BRACK(self): + return self.getToken(PSParser.L_BRACK, 0) + + def R_BRACK(self): + return self.getToken(PSParser.R_BRACK, 0) + + def L_LEFT(self): + return self.getToken(PSParser.L_LEFT, 0) + + def R_RIGHT(self): + return self.getToken(PSParser.R_RIGHT, 0) + + def ML_LEFT(self): + return self.getToken(PSParser.ML_LEFT, 0) + + def MR_RIGHT(self): + return self.getToken(PSParser.MR_RIGHT, 0) + + def getRuleIndex(self): + return PSParser.RULE_group + + def enterRule(self, listener): + if hasattr(listener, "enterGroup"): + listener.enterGroup(self) + + def exitRule(self, listener): + if hasattr(listener, "exitGroup"): + listener.exitGroup(self) + + def group(self): + + localctx = PSParser.GroupContext(self, self._ctx, self.state) + self.enterRule(localctx, 64, self.RULE_group) + try: + self.state = 569 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 38, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 457 + self.match(PSParser.L_PAREN) + self.state = 458 + self.expr() + self.state = 459 + self.match(PSParser.R_PAREN) + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 461 + self.match(PSParser.L_GROUP) + self.state = 462 + self.expr() + self.state = 463 + self.match(PSParser.R_GROUP) + pass + + elif la_ == 3: + self.enterOuterAlt(localctx, 3) + self.state = 465 + self.match(PSParser.L_BRACE) + self.state = 466 + self.expr() + self.state = 467 + self.match(PSParser.R_BRACE) + pass + + elif la_ == 4: + self.enterOuterAlt(localctx, 4) + self.state = 469 + self.match(PSParser.L_BRACE_VISUAL) + self.state = 470 + self.expr() + self.state = 471 + self.match(PSParser.R_BRACE_VISUAL) + pass + + elif la_ == 5: + self.enterOuterAlt(localctx, 5) + self.state = 473 + self.match(PSParser.L_BRACE_CMD) + self.state = 474 + self.expr() + self.state = 475 + self.match(PSParser.R_BRACE_CMD) + pass + + elif la_ == 6: + self.enterOuterAlt(localctx, 6) + self.state = 477 + self.match(PSParser.L_BRACKET) + self.state = 478 + self.expr() + self.state = 479 + self.match(PSParser.R_BRACKET) + pass + + elif la_ == 7: + self.enterOuterAlt(localctx, 7) + self.state = 481 + self.match(PSParser.L_BRACK) + self.state = 482 + self.expr() + self.state = 483 + self.match(PSParser.R_BRACK) + pass + + elif la_ == 8: + self.enterOuterAlt(localctx, 8) + self.state = 485 + self.match(PSParser.L_LEFT) + self.state = 486 + self.match(PSParser.L_PAREN) + self.state = 487 + self.expr() + self.state = 488 + self.match(PSParser.R_RIGHT) + self.state = 489 + self.match(PSParser.R_PAREN) + pass + + elif la_ == 9: + self.enterOuterAlt(localctx, 9) + self.state = 491 + self.match(PSParser.L_LEFT) + self.state = 492 + self.match(PSParser.L_GROUP) + self.state = 493 + self.expr() + self.state = 494 + self.match(PSParser.R_RIGHT) + self.state = 495 + self.match(PSParser.R_GROUP) + pass + + elif la_ == 10: + self.enterOuterAlt(localctx, 10) + self.state = 497 + self.match(PSParser.L_LEFT) + self.state = 498 + self.match(PSParser.L_BRACE) + self.state = 499 + self.expr() + self.state = 500 + self.match(PSParser.R_RIGHT) + self.state = 501 + self.match(PSParser.R_BRACE) + pass + + elif la_ == 11: + self.enterOuterAlt(localctx, 11) + self.state = 503 + self.match(PSParser.L_LEFT) + self.state = 504 + self.match(PSParser.L_BRACE_VISUAL) + self.state = 505 + self.expr() + self.state = 506 + self.match(PSParser.R_RIGHT) + self.state = 507 + self.match(PSParser.R_BRACE_VISUAL) + pass + + elif la_ == 12: + self.enterOuterAlt(localctx, 12) + self.state = 509 + self.match(PSParser.L_LEFT) + self.state = 510 + self.match(PSParser.L_BRACE_CMD) + self.state = 511 + self.expr() + self.state = 512 + self.match(PSParser.R_RIGHT) + self.state = 513 + self.match(PSParser.R_BRACE_CMD) + pass + + elif la_ == 13: + self.enterOuterAlt(localctx, 13) + self.state = 515 + self.match(PSParser.L_LEFT) + self.state = 516 + self.match(PSParser.L_BRACKET) + self.state = 517 + self.expr() + self.state = 518 + self.match(PSParser.R_RIGHT) + self.state = 519 + self.match(PSParser.R_BRACKET) + pass + + elif la_ == 14: + self.enterOuterAlt(localctx, 14) + self.state = 521 + self.match(PSParser.L_LEFT) + self.state = 522 + self.match(PSParser.L_BRACK) + self.state = 523 + self.expr() + self.state = 524 + self.match(PSParser.R_RIGHT) + self.state = 525 + self.match(PSParser.R_BRACK) + pass + + elif la_ == 15: + self.enterOuterAlt(localctx, 15) + self.state = 527 + self.match(PSParser.ML_LEFT) + self.state = 528 + self.match(PSParser.L_PAREN) + self.state = 529 + self.expr() + self.state = 530 + self.match(PSParser.MR_RIGHT) + self.state = 531 + self.match(PSParser.R_PAREN) + pass + + elif la_ == 16: + self.enterOuterAlt(localctx, 16) + self.state = 533 + self.match(PSParser.ML_LEFT) + self.state = 534 + self.match(PSParser.L_GROUP) + self.state = 535 + self.expr() + self.state = 536 + self.match(PSParser.MR_RIGHT) + self.state = 537 + self.match(PSParser.R_GROUP) + pass + + elif la_ == 17: + self.enterOuterAlt(localctx, 17) + self.state = 539 + self.match(PSParser.ML_LEFT) + self.state = 540 + self.match(PSParser.L_BRACE) + self.state = 541 + self.expr() + self.state = 542 + self.match(PSParser.MR_RIGHT) + self.state = 543 + self.match(PSParser.R_BRACE) + pass + + elif la_ == 18: + self.enterOuterAlt(localctx, 18) + self.state = 545 + self.match(PSParser.ML_LEFT) + self.state = 546 + self.match(PSParser.L_BRACE_VISUAL) + self.state = 547 + self.expr() + self.state = 548 + self.match(PSParser.MR_RIGHT) + self.state = 549 + self.match(PSParser.R_BRACE_VISUAL) + pass + + elif la_ == 19: + self.enterOuterAlt(localctx, 19) + self.state = 551 + self.match(PSParser.ML_LEFT) + self.state = 552 + self.match(PSParser.L_BRACE_CMD) + self.state = 553 + self.expr() + self.state = 554 + self.match(PSParser.MR_RIGHT) + self.state = 555 + self.match(PSParser.R_BRACE_CMD) + pass + + elif la_ == 20: + self.enterOuterAlt(localctx, 20) + self.state = 557 + self.match(PSParser.ML_LEFT) + self.state = 558 + self.match(PSParser.L_BRACKET) + self.state = 559 + self.expr() + self.state = 560 + self.match(PSParser.MR_RIGHT) + self.state = 561 + self.match(PSParser.R_BRACKET) + pass + + elif la_ == 21: + self.enterOuterAlt(localctx, 21) + self.state = 563 + self.match(PSParser.ML_LEFT) + self.state = 564 + self.match(PSParser.L_BRACK) + self.state = 565 + self.expr() + self.state = 566 + self.match(PSParser.MR_RIGHT) + self.state = 567 + self.match(PSParser.R_BRACK) + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Norm_groupContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Norm_groupContext, self).__init__(parent, invokingState) + self.parser = parser + + def NORM(self, i=None): + if i is None: + return self.getTokens(PSParser.NORM) + else: + return self.getToken(PSParser.NORM, i) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def L_LEFT(self): + return self.getToken(PSParser.L_LEFT, 0) + + def R_RIGHT(self): + return self.getToken(PSParser.R_RIGHT, 0) + + def ML_LEFT(self): + return self.getToken(PSParser.ML_LEFT, 0) + + def MR_RIGHT(self): + return self.getToken(PSParser.MR_RIGHT, 0) + + def getRuleIndex(self): + return PSParser.RULE_norm_group + + def enterRule(self, listener): + if hasattr(listener, "enterNorm_group"): + listener.enterNorm_group(self) + + def exitRule(self, listener): + if hasattr(listener, "exitNorm_group"): + listener.exitNorm_group(self) + + def norm_group(self): + + localctx = PSParser.Norm_groupContext(self, self._ctx, self.state) + self.enterRule(localctx, 66, self.RULE_norm_group) + try: + self.state = 587 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [69]: + self.enterOuterAlt(localctx, 1) + self.state = 571 + self.match(PSParser.NORM) + self.state = 572 + self.expr() + self.state = 573 + self.match(PSParser.NORM) + pass + elif token in [78]: + self.enterOuterAlt(localctx, 2) + self.state = 575 + self.match(PSParser.L_LEFT) + self.state = 576 + self.match(PSParser.NORM) + self.state = 577 + self.expr() + self.state = 578 + self.match(PSParser.R_RIGHT) + self.state = 579 + self.match(PSParser.NORM) + pass + elif token in [80]: + self.enterOuterAlt(localctx, 3) + self.state = 581 + self.match(PSParser.ML_LEFT) + self.state = 582 + self.match(PSParser.NORM) + self.state = 583 + self.expr() + self.state = 584 + self.match(PSParser.MR_RIGHT) + self.state = 585 + self.match(PSParser.NORM) + pass + else: + raise NoViableAltException(self) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Abs_groupContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Abs_groupContext, self).__init__(parent, invokingState) + self.parser = parser + + def BAR(self, i=None): + if i is None: + return self.getTokens(PSParser.BAR) + else: + return self.getToken(PSParser.BAR, i) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def L_VERT(self): + return self.getToken(PSParser.L_VERT, 0) + + def R_VERT(self): + return self.getToken(PSParser.R_VERT, 0) + + def VERT(self, i=None): + if i is None: + return self.getTokens(PSParser.VERT) + else: + return self.getToken(PSParser.VERT, i) + + def L_LEFT(self): + return self.getToken(PSParser.L_LEFT, 0) + + def R_RIGHT(self): + return self.getToken(PSParser.R_RIGHT, 0) + + def ML_LEFT(self): + return self.getToken(PSParser.ML_LEFT, 0) + + def MR_RIGHT(self): + return self.getToken(PSParser.MR_RIGHT, 0) + + def getRuleIndex(self): + return PSParser.RULE_abs_group + + def enterRule(self, listener): + if hasattr(listener, "enterAbs_group"): + listener.enterAbs_group(self) + + def exitRule(self, listener): + if hasattr(listener, "exitAbs_group"): + listener.exitAbs_group(self) + + def abs_group(self): + + localctx = PSParser.Abs_groupContext(self, self._ctx, self.state) + self.enterRule(localctx, 68, self.RULE_abs_group) + try: + self.state = 637 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 40, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 589 + self.match(PSParser.BAR) + self.state = 590 + self.expr() + self.state = 591 + self.match(PSParser.BAR) + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 593 + self.match(PSParser.L_VERT) + self.state = 594 + self.expr() + self.state = 595 + self.match(PSParser.R_VERT) + pass + + elif la_ == 3: + self.enterOuterAlt(localctx, 3) + self.state = 597 + self.match(PSParser.VERT) + self.state = 598 + self.expr() + self.state = 599 + self.match(PSParser.VERT) + pass + + elif la_ == 4: + self.enterOuterAlt(localctx, 4) + self.state = 601 + self.match(PSParser.L_LEFT) + self.state = 602 + self.match(PSParser.BAR) + self.state = 603 + self.expr() + self.state = 604 + self.match(PSParser.R_RIGHT) + self.state = 605 + self.match(PSParser.BAR) + pass + + elif la_ == 5: + self.enterOuterAlt(localctx, 5) + self.state = 607 + self.match(PSParser.L_LEFT) + self.state = 608 + self.match(PSParser.L_VERT) + self.state = 609 + self.expr() + self.state = 610 + self.match(PSParser.R_RIGHT) + self.state = 611 + self.match(PSParser.R_VERT) + pass + + elif la_ == 6: + self.enterOuterAlt(localctx, 6) + self.state = 613 + self.match(PSParser.L_LEFT) + self.state = 614 + self.match(PSParser.VERT) + self.state = 615 + self.expr() + self.state = 616 + self.match(PSParser.R_RIGHT) + self.state = 617 + self.match(PSParser.VERT) + pass + + elif la_ == 7: + self.enterOuterAlt(localctx, 7) + self.state = 619 + self.match(PSParser.ML_LEFT) + self.state = 620 + self.match(PSParser.BAR) + self.state = 621 + self.expr() + self.state = 622 + self.match(PSParser.MR_RIGHT) + self.state = 623 + self.match(PSParser.BAR) + pass + + elif la_ == 8: + self.enterOuterAlt(localctx, 8) + self.state = 625 + self.match(PSParser.ML_LEFT) + self.state = 626 + self.match(PSParser.L_VERT) + self.state = 627 + self.expr() + self.state = 628 + self.match(PSParser.MR_RIGHT) + self.state = 629 + self.match(PSParser.R_VERT) + pass + + elif la_ == 9: + self.enterOuterAlt(localctx, 9) + self.state = 631 + self.match(PSParser.ML_LEFT) + self.state = 632 + self.match(PSParser.VERT) + self.state = 633 + self.expr() + self.state = 634 + self.match(PSParser.MR_RIGHT) + self.state = 635 + self.match(PSParser.VERT) + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Floor_groupContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Floor_groupContext, self).__init__(parent, invokingState) + self.parser = parser + + def L_FLOOR(self): + return self.getToken(PSParser.L_FLOOR, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def R_FLOOR(self): + return self.getToken(PSParser.R_FLOOR, 0) + + def LL_CORNER(self): + return self.getToken(PSParser.LL_CORNER, 0) + + def LR_CORNER(self): + return self.getToken(PSParser.LR_CORNER, 0) + + def L_LEFT(self): + return self.getToken(PSParser.L_LEFT, 0) + + def R_RIGHT(self): + return self.getToken(PSParser.R_RIGHT, 0) + + def ML_LEFT(self): + return self.getToken(PSParser.ML_LEFT, 0) + + def MR_RIGHT(self): + return self.getToken(PSParser.MR_RIGHT, 0) + + def getRuleIndex(self): + return PSParser.RULE_floor_group + + def enterRule(self, listener): + if hasattr(listener, "enterFloor_group"): + listener.enterFloor_group(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFloor_group"): + listener.exitFloor_group(self) + + def floor_group(self): + + localctx = PSParser.Floor_groupContext(self, self._ctx, self.state) + self.enterRule(localctx, 70, self.RULE_floor_group) + try: + self.state = 671 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 41, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 639 + self.match(PSParser.L_FLOOR) + self.state = 640 + self.expr() + self.state = 641 + self.match(PSParser.R_FLOOR) + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 643 + self.match(PSParser.LL_CORNER) + self.state = 644 + self.expr() + self.state = 645 + self.match(PSParser.LR_CORNER) + pass + + elif la_ == 3: + self.enterOuterAlt(localctx, 3) + self.state = 647 + self.match(PSParser.L_LEFT) + self.state = 648 + self.match(PSParser.L_FLOOR) + self.state = 649 + self.expr() + self.state = 650 + self.match(PSParser.R_RIGHT) + self.state = 651 + self.match(PSParser.R_FLOOR) + pass + + elif la_ == 4: + self.enterOuterAlt(localctx, 4) + self.state = 653 + self.match(PSParser.L_LEFT) + self.state = 654 + self.match(PSParser.LL_CORNER) + self.state = 655 + self.expr() + self.state = 656 + self.match(PSParser.R_RIGHT) + self.state = 657 + self.match(PSParser.LR_CORNER) + pass + + elif la_ == 5: + self.enterOuterAlt(localctx, 5) + self.state = 659 + self.match(PSParser.ML_LEFT) + self.state = 660 + self.match(PSParser.L_FLOOR) + self.state = 661 + self.expr() + self.state = 662 + self.match(PSParser.MR_RIGHT) + self.state = 663 + self.match(PSParser.R_FLOOR) + pass + + elif la_ == 6: + self.enterOuterAlt(localctx, 6) + self.state = 665 + self.match(PSParser.ML_LEFT) + self.state = 666 + self.match(PSParser.LL_CORNER) + self.state = 667 + self.expr() + self.state = 668 + self.match(PSParser.MR_RIGHT) + self.state = 669 + self.match(PSParser.LR_CORNER) + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Ceil_groupContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Ceil_groupContext, self).__init__(parent, invokingState) + self.parser = parser + + def L_CEIL(self): + return self.getToken(PSParser.L_CEIL, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def R_CEIL(self): + return self.getToken(PSParser.R_CEIL, 0) + + def UL_CORNER(self): + return self.getToken(PSParser.UL_CORNER, 0) + + def UR_CORNER(self): + return self.getToken(PSParser.UR_CORNER, 0) + + def L_LEFT(self): + return self.getToken(PSParser.L_LEFT, 0) + + def R_RIGHT(self): + return self.getToken(PSParser.R_RIGHT, 0) + + def ML_LEFT(self): + return self.getToken(PSParser.ML_LEFT, 0) + + def MR_RIGHT(self): + return self.getToken(PSParser.MR_RIGHT, 0) + + def getRuleIndex(self): + return PSParser.RULE_ceil_group + + def enterRule(self, listener): + if hasattr(listener, "enterCeil_group"): + listener.enterCeil_group(self) + + def exitRule(self, listener): + if hasattr(listener, "exitCeil_group"): + listener.exitCeil_group(self) + + def ceil_group(self): + + localctx = PSParser.Ceil_groupContext(self, self._ctx, self.state) + self.enterRule(localctx, 72, self.RULE_ceil_group) + try: + self.state = 705 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 42, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 673 + self.match(PSParser.L_CEIL) + self.state = 674 + self.expr() + self.state = 675 + self.match(PSParser.R_CEIL) + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 677 + self.match(PSParser.UL_CORNER) + self.state = 678 + self.expr() + self.state = 679 + self.match(PSParser.UR_CORNER) + pass + + elif la_ == 3: + self.enterOuterAlt(localctx, 3) + self.state = 681 + self.match(PSParser.L_LEFT) + self.state = 682 + self.match(PSParser.L_CEIL) + self.state = 683 + self.expr() + self.state = 684 + self.match(PSParser.R_RIGHT) + self.state = 685 + self.match(PSParser.R_CEIL) + pass + + elif la_ == 4: + self.enterOuterAlt(localctx, 4) + self.state = 687 + self.match(PSParser.L_LEFT) + self.state = 688 + self.match(PSParser.UL_CORNER) + self.state = 689 + self.expr() + self.state = 690 + self.match(PSParser.R_RIGHT) + self.state = 691 + self.match(PSParser.UR_CORNER) + pass + + elif la_ == 5: + self.enterOuterAlt(localctx, 5) + self.state = 693 + self.match(PSParser.ML_LEFT) + self.state = 694 + self.match(PSParser.L_CEIL) + self.state = 695 + self.expr() + self.state = 696 + self.match(PSParser.MR_RIGHT) + self.state = 697 + self.match(PSParser.R_CEIL) + pass + + elif la_ == 6: + self.enterOuterAlt(localctx, 6) + self.state = 699 + self.match(PSParser.ML_LEFT) + self.state = 700 + self.match(PSParser.UL_CORNER) + self.state = 701 + self.expr() + self.state = 702 + self.match(PSParser.MR_RIGHT) + self.state = 703 + self.match(PSParser.UR_CORNER) + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class AccentContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.AccentContext, self).__init__(parent, invokingState) + self.parser = parser + self.base = None # ExprContext + + def accent_symbol(self): + return self.getTypedRuleContext(PSParser.Accent_symbolContext, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_accent + + def enterRule(self, listener): + if hasattr(listener, "enterAccent"): + listener.enterAccent(self) + + def exitRule(self, listener): + if hasattr(listener, "exitAccent"): + listener.exitAccent(self) + + def accent(self): + + localctx = PSParser.AccentContext(self, self._ctx, self.state) + self.enterRule(localctx, 74, self.RULE_accent) + try: + self.enterOuterAlt(localctx, 1) + self.state = 707 + self.accent_symbol() + self.state = 708 + self.match(PSParser.L_BRACE) + self.state = 709 + localctx.base = self.expr() + self.state = 710 + self.match(PSParser.R_BRACE) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Atom_expr_no_supexprContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Atom_expr_no_supexprContext, self).__init__(parent, invokingState) + self.parser = parser + + def LETTER_NO_E(self): + return self.getToken(PSParser.LETTER_NO_E, 0) + + def GREEK_CMD(self): + return self.getToken(PSParser.GREEK_CMD, 0) + + def OTHER_SYMBOL_CMD(self): + return self.getToken(PSParser.OTHER_SYMBOL_CMD, 0) + + def accent(self): + return self.getTypedRuleContext(PSParser.AccentContext, 0) + + def subexpr(self): + return self.getTypedRuleContext(PSParser.SubexprContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_atom_expr_no_supexpr + + def enterRule(self, listener): + if hasattr(listener, "enterAtom_expr_no_supexpr"): + listener.enterAtom_expr_no_supexpr(self) + + def exitRule(self, listener): + if hasattr(listener, "exitAtom_expr_no_supexpr"): + listener.exitAtom_expr_no_supexpr(self) + + def atom_expr_no_supexpr(self): + + localctx = PSParser.Atom_expr_no_supexprContext(self, self._ctx, self.state) + self.enterRule(localctx, 76, self.RULE_atom_expr_no_supexpr) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 716 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [176]: + self.state = 712 + self.match(PSParser.LETTER_NO_E) + pass + elif token in [191]: + self.state = 713 + self.match(PSParser.GREEK_CMD) + pass + elif token in [192]: + self.state = 714 + self.match(PSParser.OTHER_SYMBOL_CMD) + pass + elif token in [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 154]: + self.state = 715 + self.accent() + pass + else: + raise NoViableAltException(self) + + self.state = 719 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 167: + self.state = 718 + self.subexpr() + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Atom_exprContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Atom_exprContext, self).__init__(parent, invokingState) + self.parser = parser + + def LETTER_NO_E(self): + return self.getToken(PSParser.LETTER_NO_E, 0) + + def GREEK_CMD(self): + return self.getToken(PSParser.GREEK_CMD, 0) + + def OTHER_SYMBOL_CMD(self): + return self.getToken(PSParser.OTHER_SYMBOL_CMD, 0) + + def accent(self): + return self.getTypedRuleContext(PSParser.AccentContext, 0) + + def supexpr(self): + return self.getTypedRuleContext(PSParser.SupexprContext, 0) + + def subexpr(self): + return self.getTypedRuleContext(PSParser.SubexprContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_atom_expr + + def enterRule(self, listener): + if hasattr(listener, "enterAtom_expr"): + listener.enterAtom_expr(self) + + def exitRule(self, listener): + if hasattr(listener, "exitAtom_expr"): + listener.exitAtom_expr(self) + + def atom_expr(self): + + localctx = PSParser.Atom_exprContext(self, self._ctx, self.state) + self.enterRule(localctx, 78, self.RULE_atom_expr) + try: + self.enterOuterAlt(localctx, 1) + self.state = 725 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [176]: + self.state = 721 + self.match(PSParser.LETTER_NO_E) + pass + elif token in [191]: + self.state = 722 + self.match(PSParser.GREEK_CMD) + pass + elif token in [192]: + self.state = 723 + self.match(PSParser.OTHER_SYMBOL_CMD) + pass + elif token in [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 154]: + self.state = 724 + self.accent() + pass + else: + raise NoViableAltException(self) + + self.state = 735 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 46, self._ctx) + if la_ == 1: + self.state = 727 + self.supexpr() + self.state = 728 + self.subexpr() + + elif la_ == 2: + self.state = 730 + self.subexpr() + self.state = 731 + self.supexpr() + + elif la_ == 3: + self.state = 733 + self.subexpr() + + elif la_ == 4: + self.state = 734 + self.supexpr() + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class AtomContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.AtomContext, self).__init__(parent, invokingState) + self.parser = parser + + def atom_expr(self): + return self.getTypedRuleContext(PSParser.Atom_exprContext, 0) + + def SYMBOL(self): + return self.getToken(PSParser.SYMBOL, 0) + + def NUMBER(self): + return self.getToken(PSParser.NUMBER, 0) + + def PERCENT_NUMBER(self): + return self.getToken(PSParser.PERCENT_NUMBER, 0) + + def E_NOTATION(self): + return self.getToken(PSParser.E_NOTATION, 0) + + def DIFFERENTIAL(self): + return self.getToken(PSParser.DIFFERENTIAL, 0) + + def mathit(self): + return self.getTypedRuleContext(PSParser.MathitContext, 0) + + def VARIABLE(self): + return self.getToken(PSParser.VARIABLE, 0) + + def getRuleIndex(self): + return PSParser.RULE_atom + + def enterRule(self, listener): + if hasattr(listener, "enterAtom"): + listener.enterAtom(self) + + def exitRule(self, listener): + if hasattr(listener, "exitAtom"): + listener.exitAtom(self) + + def atom(self): + + localctx = PSParser.AtomContext(self, self._ctx, self.state) + self.enterRule(localctx, 80, self.RULE_atom) + try: + self.state = 745 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 47, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 737 + self.atom_expr() + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 738 + self.match(PSParser.SYMBOL) + pass + + elif la_ == 3: + self.enterOuterAlt(localctx, 3) + self.state = 739 + self.match(PSParser.NUMBER) + pass + + elif la_ == 4: + self.enterOuterAlt(localctx, 4) + self.state = 740 + self.match(PSParser.PERCENT_NUMBER) + pass + + elif la_ == 5: + self.enterOuterAlt(localctx, 5) + self.state = 741 + self.match(PSParser.E_NOTATION) + pass + + elif la_ == 6: + self.enterOuterAlt(localctx, 6) + self.state = 742 + self.match(PSParser.DIFFERENTIAL) + pass + + elif la_ == 7: + self.enterOuterAlt(localctx, 7) + self.state = 743 + self.mathit() + pass + + elif la_ == 8: + self.enterOuterAlt(localctx, 8) + self.state = 744 + self.match(PSParser.VARIABLE) + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class MathitContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.MathitContext, self).__init__(parent, invokingState) + self.parser = parser + + def CMD_MATHIT(self): + return self.getToken(PSParser.CMD_MATHIT, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def mathit_text(self): + return self.getTypedRuleContext(PSParser.Mathit_textContext, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def getRuleIndex(self): + return PSParser.RULE_mathit + + def enterRule(self, listener): + if hasattr(listener, "enterMathit"): + listener.enterMathit(self) + + def exitRule(self, listener): + if hasattr(listener, "exitMathit"): + listener.exitMathit(self) + + def mathit(self): + + localctx = PSParser.MathitContext(self, self._ctx, self.state) + self.enterRule(localctx, 82, self.RULE_mathit) + try: + self.enterOuterAlt(localctx, 1) + self.state = 747 + self.match(PSParser.CMD_MATHIT) + self.state = 748 + self.match(PSParser.L_BRACE) + self.state = 749 + self.mathit_text() + self.state = 750 + self.match(PSParser.R_BRACE) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Mathit_textContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Mathit_textContext, self).__init__(parent, invokingState) + self.parser = parser + + def LETTER_NO_E(self, i=None): + if i is None: + return self.getTokens(PSParser.LETTER_NO_E) + else: + return self.getToken(PSParser.LETTER_NO_E, i) + + def E_NOTATION_E(self, i=None): + if i is None: + return self.getTokens(PSParser.E_NOTATION_E) + else: + return self.getToken(PSParser.E_NOTATION_E, i) + + def EXP_E(self, i=None): + if i is None: + return self.getTokens(PSParser.EXP_E) + else: + return self.getToken(PSParser.EXP_E, i) + + def getRuleIndex(self): + return PSParser.RULE_mathit_text + + def enterRule(self, listener): + if hasattr(listener, "enterMathit_text"): + listener.enterMathit_text(self) + + def exitRule(self, listener): + if hasattr(listener, "exitMathit_text"): + listener.exitMathit_text(self) + + def mathit_text(self): + + localctx = PSParser.Mathit_textContext(self, self._ctx, self.state) + self.enterRule(localctx, 84, self.RULE_mathit_text) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 753 + self._errHandler.sync(self) + _la = self._input.LA(1) + while True: + self.state = 752 + _la = self._input.LA(1) + if not((((_la - 174)) & ~0x3f) == 0 and ((1 << (_la - 174)) & 7) != 0): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 755 + self._errHandler.sync(self) + _la = self._input.LA(1) + if not ((((_la - 174)) & ~0x3f) == 0 and ((1 << (_la - 174)) & 7) != 0): + break + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class FracContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.FracContext, self).__init__(parent, invokingState) + self.parser = parser + self.upper = None # ExprContext + self.lower = None # ExprContext + + def CMD_FRAC(self): + return self.getToken(PSParser.CMD_FRAC, 0) + + def L_BRACE(self, i=None): + if i is None: + return self.getTokens(PSParser.L_BRACE) + else: + return self.getToken(PSParser.L_BRACE, i) + + def R_BRACE(self, i=None): + if i is None: + return self.getTokens(PSParser.R_BRACE) + else: + return self.getToken(PSParser.R_BRACE, i) + + def expr(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.ExprContext) + else: + return self.getTypedRuleContext(PSParser.ExprContext, i) + + def getRuleIndex(self): + return PSParser.RULE_frac + + def enterRule(self, listener): + if hasattr(listener, "enterFrac"): + listener.enterFrac(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFrac"): + listener.exitFrac(self) + + def frac(self): + + localctx = PSParser.FracContext(self, self._ctx, self.state) + self.enterRule(localctx, 86, self.RULE_frac) + try: + self.enterOuterAlt(localctx, 1) + self.state = 757 + self.match(PSParser.CMD_FRAC) + self.state = 758 + self.match(PSParser.L_BRACE) + self.state = 759 + localctx.upper = self.expr() + self.state = 760 + self.match(PSParser.R_BRACE) + self.state = 761 + self.match(PSParser.L_BRACE) + self.state = 762 + localctx.lower = self.expr() + self.state = 763 + self.match(PSParser.R_BRACE) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class BinomContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.BinomContext, self).__init__(parent, invokingState) + self.parser = parser + self.upper = None # ExprContext + self.lower = None # ExprContext + + def L_BRACE(self, i=None): + if i is None: + return self.getTokens(PSParser.L_BRACE) + else: + return self.getToken(PSParser.L_BRACE, i) + + def CMD_CHOOSE(self): + return self.getToken(PSParser.CMD_CHOOSE, 0) + + def R_BRACE(self, i=None): + if i is None: + return self.getTokens(PSParser.R_BRACE) + else: + return self.getToken(PSParser.R_BRACE, i) + + def expr(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.ExprContext) + else: + return self.getTypedRuleContext(PSParser.ExprContext, i) + + def CMD_BINOM(self): + return self.getToken(PSParser.CMD_BINOM, 0) + + def getRuleIndex(self): + return PSParser.RULE_binom + + def enterRule(self, listener): + if hasattr(listener, "enterBinom"): + listener.enterBinom(self) + + def exitRule(self, listener): + if hasattr(listener, "exitBinom"): + listener.exitBinom(self) + + def binom(self): + + localctx = PSParser.BinomContext(self, self._ctx, self.state) + self.enterRule(localctx, 88, self.RULE_binom) + try: + self.state = 779 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [55]: + self.enterOuterAlt(localctx, 1) + self.state = 765 + self.match(PSParser.L_BRACE) + self.state = 766 + localctx.upper = self.expr() + self.state = 767 + self.match(PSParser.CMD_CHOOSE) + self.state = 768 + localctx.lower = self.expr() + self.state = 769 + self.match(PSParser.R_BRACE) + pass + elif token in [151]: + self.enterOuterAlt(localctx, 2) + self.state = 771 + self.match(PSParser.CMD_BINOM) + self.state = 772 + self.match(PSParser.L_BRACE) + self.state = 773 + localctx.upper = self.expr() + self.state = 774 + self.match(PSParser.R_BRACE) + self.state = 775 + self.match(PSParser.L_BRACE) + self.state = 776 + localctx.lower = self.expr() + self.state = 777 + self.match(PSParser.R_BRACE) + pass + else: + raise NoViableAltException(self) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Func_normal_functions_single_argContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Func_normal_functions_single_argContext, self).__init__(parent, invokingState) + self.parser = parser + + def FUNC_LOG(self): + return self.getToken(PSParser.FUNC_LOG, 0) + + def FUNC_LN(self): + return self.getToken(PSParser.FUNC_LN, 0) + + def FUNC_EXP(self): + return self.getToken(PSParser.FUNC_EXP, 0) + + def FUNC_SIN(self): + return self.getToken(PSParser.FUNC_SIN, 0) + + def FUNC_COS(self): + return self.getToken(PSParser.FUNC_COS, 0) + + def FUNC_TAN(self): + return self.getToken(PSParser.FUNC_TAN, 0) + + def FUNC_CSC(self): + return self.getToken(PSParser.FUNC_CSC, 0) + + def FUNC_SEC(self): + return self.getToken(PSParser.FUNC_SEC, 0) + + def FUNC_COT(self): + return self.getToken(PSParser.FUNC_COT, 0) + + def FUNC_ARCSIN(self): + return self.getToken(PSParser.FUNC_ARCSIN, 0) + + def FUNC_ARCCOS(self): + return self.getToken(PSParser.FUNC_ARCCOS, 0) + + def FUNC_ARCTAN(self): + return self.getToken(PSParser.FUNC_ARCTAN, 0) + + def FUNC_ARCCSC(self): + return self.getToken(PSParser.FUNC_ARCCSC, 0) + + def FUNC_ARCSEC(self): + return self.getToken(PSParser.FUNC_ARCSEC, 0) + + def FUNC_ARCCOT(self): + return self.getToken(PSParser.FUNC_ARCCOT, 0) + + def FUNC_SINH(self): + return self.getToken(PSParser.FUNC_SINH, 0) + + def FUNC_COSH(self): + return self.getToken(PSParser.FUNC_COSH, 0) + + def FUNC_TANH(self): + return self.getToken(PSParser.FUNC_TANH, 0) + + def FUNC_ARSINH(self): + return self.getToken(PSParser.FUNC_ARSINH, 0) + + def FUNC_ARCOSH(self): + return self.getToken(PSParser.FUNC_ARCOSH, 0) + + def FUNC_ARTANH(self): + return self.getToken(PSParser.FUNC_ARTANH, 0) + + def FUNC_ARCSINH(self): + return self.getToken(PSParser.FUNC_ARCSINH, 0) + + def FUNC_ARCCOSH(self): + return self.getToken(PSParser.FUNC_ARCCOSH, 0) + + def FUNC_ARCTANH(self): + return self.getToken(PSParser.FUNC_ARCTANH, 0) + + def FUNC_FLOOR(self): + return self.getToken(PSParser.FUNC_FLOOR, 0) + + def FUNC_CEIL(self): + return self.getToken(PSParser.FUNC_CEIL, 0) + + def FUNC_DET(self): + return self.getToken(PSParser.FUNC_DET, 0) + + def getRuleIndex(self): + return PSParser.RULE_func_normal_functions_single_arg + + def enterRule(self, listener): + if hasattr(listener, "enterFunc_normal_functions_single_arg"): + listener.enterFunc_normal_functions_single_arg(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc_normal_functions_single_arg"): + listener.exitFunc_normal_functions_single_arg(self) + + def func_normal_functions_single_arg(self): + + localctx = PSParser.Func_normal_functions_single_argContext(self, self._ctx, self.state) + self.enterRule(localctx, 90, self.RULE_func_normal_functions_single_arg) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 781 + _la = self._input.LA(1) + if not((((_la - 87)) & ~0x3f) == 0 and ((1 << (_la - 87)) & 2611356893183) != 0): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Func_normal_functions_multi_argContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Func_normal_functions_multi_argContext, self).__init__(parent, invokingState) + self.parser = parser + + def FUNC_GCD(self): + return self.getToken(PSParser.FUNC_GCD, 0) + + def FUNC_LCM(self): + return self.getToken(PSParser.FUNC_LCM, 0) + + def FUNC_MAX(self): + return self.getToken(PSParser.FUNC_MAX, 0) + + def FUNC_MIN(self): + return self.getToken(PSParser.FUNC_MIN, 0) + + def getRuleIndex(self): + return PSParser.RULE_func_normal_functions_multi_arg + + def enterRule(self, listener): + if hasattr(listener, "enterFunc_normal_functions_multi_arg"): + listener.enterFunc_normal_functions_multi_arg(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc_normal_functions_multi_arg"): + listener.exitFunc_normal_functions_multi_arg(self) + + def func_normal_functions_multi_arg(self): + + localctx = PSParser.Func_normal_functions_multi_argContext(self, self._ctx, self.state) + self.enterRule(localctx, 92, self.RULE_func_normal_functions_multi_arg) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 783 + _la = self._input.LA(1) + if not((((_la - 122)) & ~0x3f) == 0 and ((1 << (_la - 122)) & 51) != 0): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Func_operator_names_single_argContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Func_operator_names_single_argContext, self).__init__(parent, invokingState) + self.parser = parser + + def FUNC_ARSINH_NAME(self): + return self.getToken(PSParser.FUNC_ARSINH_NAME, 0) + + def FUNC_ARCOSH_NAME(self): + return self.getToken(PSParser.FUNC_ARCOSH_NAME, 0) + + def FUNC_ARTANH_NAME(self): + return self.getToken(PSParser.FUNC_ARTANH_NAME, 0) + + def FUNC_ARCSINH_NAME(self): + return self.getToken(PSParser.FUNC_ARCSINH_NAME, 0) + + def FUNC_ARCCOSH_NAME(self): + return self.getToken(PSParser.FUNC_ARCCOSH_NAME, 0) + + def FUNC_ARCTANH_NAME(self): + return self.getToken(PSParser.FUNC_ARCTANH_NAME, 0) + + def FUNC_FLOOR_NAME(self): + return self.getToken(PSParser.FUNC_FLOOR_NAME, 0) + + def FUNC_CEIL_NAME(self): + return self.getToken(PSParser.FUNC_CEIL_NAME, 0) + + def FUNC_EYE_NAME(self): + return self.getToken(PSParser.FUNC_EYE_NAME, 0) + + def FUNC_RANK_NAME(self): + return self.getToken(PSParser.FUNC_RANK_NAME, 0) + + def FUNC_TRACE_NAME(self): + return self.getToken(PSParser.FUNC_TRACE_NAME, 0) + + def FUNC_RREF_NAME(self): + return self.getToken(PSParser.FUNC_RREF_NAME, 0) + + def FUNC_NULLSPACE_NAME(self): + return self.getToken(PSParser.FUNC_NULLSPACE_NAME, 0) + + def FUNC_DIAGONALIZE_NAME(self): + return self.getToken(PSParser.FUNC_DIAGONALIZE_NAME, 0) + + def FUNC_NORM_NAME(self): + return self.getToken(PSParser.FUNC_NORM_NAME, 0) + + def FUNC_EIGENVALS_NAME(self): + return self.getToken(PSParser.FUNC_EIGENVALS_NAME, 0) + + def FUNC_EIGENVECTORS_NAME(self): + return self.getToken(PSParser.FUNC_EIGENVECTORS_NAME, 0) + + def FUNC_SVD_NAME(self): + return self.getToken(PSParser.FUNC_SVD_NAME, 0) + + def FUNC_COLS_NAME(self): + return self.getToken(PSParser.FUNC_COLS_NAME, 0) + + def FUNC_ROWS_NAME(self): + return self.getToken(PSParser.FUNC_ROWS_NAME, 0) + + def getRuleIndex(self): + return PSParser.RULE_func_operator_names_single_arg + + def enterRule(self, listener): + if hasattr(listener, "enterFunc_operator_names_single_arg"): + listener.enterFunc_operator_names_single_arg(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc_operator_names_single_arg"): + listener.exitFunc_operator_names_single_arg(self) + + def func_operator_names_single_arg(self): + + localctx = PSParser.Func_operator_names_single_argContext(self, self._ctx, self.state) + self.enterRule(localctx, 94, self.RULE_func_operator_names_single_arg) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 785 + _la = self._input.LA(1) + if not((((_la - 111)) & ~0x3f) == 0 and ((1 << (_la - 111)) & 66830205759) != 0): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Func_operator_names_multi_argContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Func_operator_names_multi_argContext, self).__init__(parent, invokingState) + self.parser = parser + + def FUNC_GCD_NAME(self): + return self.getToken(PSParser.FUNC_GCD_NAME, 0) + + def FUNC_LCM_NAME(self): + return self.getToken(PSParser.FUNC_LCM_NAME, 0) + + def FUNC_ZEROS_NAME(self): + return self.getToken(PSParser.FUNC_ZEROS_NAME, 0) + + def FUNC_ORTHOGONALIZE_NAME(self): + return self.getToken(PSParser.FUNC_ORTHOGONALIZE_NAME, 0) + + def FUNC_ONES_NAME(self): + return self.getToken(PSParser.FUNC_ONES_NAME, 0) + + def FUNC_DIAG_NAME(self): + return self.getToken(PSParser.FUNC_DIAG_NAME, 0) + + def FUNC_HSTACK_NAME(self): + return self.getToken(PSParser.FUNC_HSTACK_NAME, 0) + + def FUNC_VSTACK_NAME(self): + return self.getToken(PSParser.FUNC_VSTACK_NAME, 0) + + def getRuleIndex(self): + return PSParser.RULE_func_operator_names_multi_arg + + def enterRule(self, listener): + if hasattr(listener, "enterFunc_operator_names_multi_arg"): + listener.enterFunc_operator_names_multi_arg(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc_operator_names_multi_arg"): + listener.exitFunc_operator_names_multi_arg(self) + + def func_operator_names_multi_arg(self): + + localctx = PSParser.Func_operator_names_multi_argContext(self, self._ctx, self.state) + self.enterRule(localctx, 96, self.RULE_func_operator_names_multi_arg) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 787 + _la = self._input.LA(1) + if not((((_la - 117)) & ~0x3f) == 0 and ((1 << (_la - 117)) & 29515779) != 0): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Func_normal_single_argContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Func_normal_single_argContext, self).__init__(parent, invokingState) + self.parser = parser + self.func_operator_name = None # Func_operator_names_single_argContext + + def func_normal_functions_single_arg(self): + return self.getTypedRuleContext(PSParser.Func_normal_functions_single_argContext, 0) + + def CMD_OPERATORNAME(self): + return self.getToken(PSParser.CMD_OPERATORNAME, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def func_operator_names_single_arg(self): + return self.getTypedRuleContext(PSParser.Func_operator_names_single_argContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_func_normal_single_arg + + def enterRule(self, listener): + if hasattr(listener, "enterFunc_normal_single_arg"): + listener.enterFunc_normal_single_arg(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc_normal_single_arg"): + listener.exitFunc_normal_single_arg(self) + + def func_normal_single_arg(self): + + localctx = PSParser.Func_normal_single_argContext(self, self._ctx, self.state) + self.enterRule(localctx, 98, self.RULE_func_normal_single_arg) + try: + self.state = 795 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 124, 125, 128]: + self.enterOuterAlt(localctx, 1) + self.state = 789 + self.func_normal_functions_single_arg() + pass + elif token in [155]: + self.enterOuterAlt(localctx, 2) + self.state = 790 + self.match(PSParser.CMD_OPERATORNAME) + self.state = 791 + self.match(PSParser.L_BRACE) + self.state = 792 + localctx.func_operator_name = self.func_operator_names_single_arg() + self.state = 793 + self.match(PSParser.R_BRACE) + pass + else: + raise NoViableAltException(self) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Func_normal_multi_argContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Func_normal_multi_argContext, self).__init__(parent, invokingState) + self.parser = parser + self.func_operator_name = None # Func_operator_names_multi_argContext + + def func_normal_functions_multi_arg(self): + return self.getTypedRuleContext(PSParser.Func_normal_functions_multi_argContext, 0) + + def CMD_OPERATORNAME(self): + return self.getToken(PSParser.CMD_OPERATORNAME, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def func_operator_names_multi_arg(self): + return self.getTypedRuleContext(PSParser.Func_operator_names_multi_argContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_func_normal_multi_arg + + def enterRule(self, listener): + if hasattr(listener, "enterFunc_normal_multi_arg"): + listener.enterFunc_normal_multi_arg(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc_normal_multi_arg"): + listener.exitFunc_normal_multi_arg(self) + + def func_normal_multi_arg(self): + + localctx = PSParser.Func_normal_multi_argContext(self, self._ctx, self.state) + self.enterRule(localctx, 100, self.RULE_func_normal_multi_arg) + try: + self.state = 803 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [122, 123, 126, 127]: + self.enterOuterAlt(localctx, 1) + self.state = 797 + self.func_normal_functions_multi_arg() + pass + elif token in [155]: + self.enterOuterAlt(localctx, 2) + self.state = 798 + self.match(PSParser.CMD_OPERATORNAME) + self.state = 799 + self.match(PSParser.L_BRACE) + self.state = 800 + localctx.func_operator_name = self.func_operator_names_multi_arg() + self.state = 801 + self.match(PSParser.R_BRACE) + pass + else: + raise NoViableAltException(self) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class FuncContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.FuncContext, self).__init__(parent, invokingState) + self.parser = parser + self.root = None # ExprContext + self.base = None # ExprContext + + def func_normal_single_arg(self): + return self.getTypedRuleContext(PSParser.Func_normal_single_argContext, 0) + + def L_PAREN(self): + return self.getToken(PSParser.L_PAREN, 0) + + def func_single_arg(self): + return self.getTypedRuleContext(PSParser.Func_single_argContext, 0) + + def R_PAREN(self): + return self.getToken(PSParser.R_PAREN, 0) + + def func_single_arg_noparens(self): + return self.getTypedRuleContext(PSParser.Func_single_arg_noparensContext, 0) + + def subexpr(self): + return self.getTypedRuleContext(PSParser.SubexprContext, 0) + + def supexpr(self): + return self.getTypedRuleContext(PSParser.SupexprContext, 0) + + def L_LEFT(self): + return self.getToken(PSParser.L_LEFT, 0) + + def R_RIGHT(self): + return self.getToken(PSParser.R_RIGHT, 0) + + def ML_LEFT(self): + return self.getToken(PSParser.ML_LEFT, 0) + + def MR_RIGHT(self): + return self.getToken(PSParser.MR_RIGHT, 0) + + def func_normal_multi_arg(self): + return self.getTypedRuleContext(PSParser.Func_normal_multi_argContext, 0) + + def func_multi_arg(self): + return self.getTypedRuleContext(PSParser.Func_multi_argContext, 0) + + def func_multi_arg_noparens(self): + return self.getTypedRuleContext(PSParser.Func_multi_arg_noparensContext, 0) + + def atom_expr_no_supexpr(self): + return self.getTypedRuleContext(PSParser.Atom_expr_no_supexprContext, 0) + + def func_common_args(self): + return self.getTypedRuleContext(PSParser.Func_common_argsContext, 0) + + def L_BRACKET(self): + return self.getToken(PSParser.L_BRACKET, 0) + + def R_BRACKET(self): + return self.getToken(PSParser.R_BRACKET, 0) + + def L_BRACE(self, i=None): + if i is None: + return self.getTokens(PSParser.L_BRACE) + else: + return self.getToken(PSParser.L_BRACE, i) + + def R_BRACE(self, i=None): + if i is None: + return self.getTokens(PSParser.R_BRACE) + else: + return self.getToken(PSParser.R_BRACE, i) + + def FUNC_INT(self): + return self.getToken(PSParser.FUNC_INT, 0) + + def DIFFERENTIAL(self): + return self.getToken(PSParser.DIFFERENTIAL, 0) + + def frac(self): + return self.getTypedRuleContext(PSParser.FracContext, 0) + + def additive(self): + return self.getTypedRuleContext(PSParser.AdditiveContext, 0) + + def UNDERSCORE(self): + return self.getToken(PSParser.UNDERSCORE, 0) + + def CARET(self): + return self.getToken(PSParser.CARET, 0) + + def FUNC_SQRT(self): + return self.getToken(PSParser.FUNC_SQRT, 0) + + def expr(self, i=None): + if i is None: + return self.getTypedRuleContexts(PSParser.ExprContext) + else: + return self.getTypedRuleContext(PSParser.ExprContext, i) + + def mp(self): + return self.getTypedRuleContext(PSParser.MpContext, 0) + + def FUNC_SUM(self): + return self.getToken(PSParser.FUNC_SUM, 0) + + def FUNC_PROD(self): + return self.getToken(PSParser.FUNC_PROD, 0) + + def subeq(self): + return self.getTypedRuleContext(PSParser.SubeqContext, 0) + + def FUNC_LIM(self): + return self.getToken(PSParser.FUNC_LIM, 0) + + def limit_sub(self): + return self.getTypedRuleContext(PSParser.Limit_subContext, 0) + + def EXP_E(self): + return self.getToken(PSParser.EXP_E, 0) + + def getRuleIndex(self): + return PSParser.RULE_func + + def enterRule(self, listener): + if hasattr(listener, "enterFunc"): + listener.enterFunc(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc"): + listener.exitFunc(self) + + def func(self): + + localctx = PSParser.FuncContext(self, self._ctx, self.state) + self.enterRule(localctx, 102, self.RULE_func) + self._la = 0 # Token type + try: + self.state = 971 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 84, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 805 + self.func_normal_single_arg() + self.state = 818 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 56, self._ctx) + if la_ == 1: + self.state = 807 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 167: + self.state = 806 + self.subexpr() + + self.state = 810 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 168: + self.state = 809 + self.supexpr() + + pass + + elif la_ == 2: + self.state = 813 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 168: + self.state = 812 + self.supexpr() + + self.state = 816 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 167: + self.state = 815 + self.subexpr() + + pass + + self.state = 841 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 61, self._ctx) + if la_ == 1: + self.state = 821 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 78: + self.state = 820 + self.match(PSParser.L_LEFT) + + self.state = 823 + self.match(PSParser.L_PAREN) + self.state = 824 + self.func_single_arg() + self.state = 826 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 79: + self.state = 825 + self.match(PSParser.R_RIGHT) + + self.state = 828 + self.match(PSParser.R_PAREN) + pass + + elif la_ == 2: + self.state = 831 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 80: + self.state = 830 + self.match(PSParser.ML_LEFT) + + self.state = 833 + self.match(PSParser.L_PAREN) + self.state = 834 + self.func_single_arg() + self.state = 836 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 81: + self.state = 835 + self.match(PSParser.MR_RIGHT) + + self.state = 838 + self.match(PSParser.R_PAREN) + pass + + elif la_ == 3: + self.state = 840 + self.func_single_arg_noparens() + pass + + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 843 + self.func_normal_multi_arg() + self.state = 856 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 66, self._ctx) + if la_ == 1: + self.state = 845 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 167: + self.state = 844 + self.subexpr() + + self.state = 848 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 168: + self.state = 847 + self.supexpr() + + pass + + elif la_ == 2: + self.state = 851 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 168: + self.state = 850 + self.supexpr() + + self.state = 854 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 167: + self.state = 853 + self.subexpr() + + pass + + self.state = 879 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 71, self._ctx) + if la_ == 1: + self.state = 859 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 78: + self.state = 858 + self.match(PSParser.L_LEFT) + + self.state = 861 + self.match(PSParser.L_PAREN) + self.state = 862 + self.func_multi_arg() + self.state = 864 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 79: + self.state = 863 + self.match(PSParser.R_RIGHT) + + self.state = 866 + self.match(PSParser.R_PAREN) + pass + + elif la_ == 2: + self.state = 869 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 80: + self.state = 868 + self.match(PSParser.ML_LEFT) + + self.state = 871 + self.match(PSParser.L_PAREN) + self.state = 872 + self.func_multi_arg() + self.state = 874 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 81: + self.state = 873 + self.match(PSParser.MR_RIGHT) + + self.state = 876 + self.match(PSParser.R_PAREN) + pass + + elif la_ == 3: + self.state = 878 + self.func_multi_arg_noparens() + pass + + pass + + elif la_ == 3: + self.enterOuterAlt(localctx, 3) + self.state = 881 + self.atom_expr_no_supexpr() + self.state = 883 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 168: + self.state = 882 + self.supexpr() + + self.state = 886 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 78: + self.state = 885 + self.match(PSParser.L_LEFT) + + self.state = 888 + _la = self._input.LA(1) + if not(_la == 51 or _la == 61): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 889 + self.func_common_args() + self.state = 890 + _la = self._input.LA(1) + if not(_la == 52 or _la == 62): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 892 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 74, self._ctx) + if la_ == 1: + self.state = 891 + self.match(PSParser.R_RIGHT) + + pass + + elif la_ == 4: + self.enterOuterAlt(localctx, 4) + self.state = 894 + self.atom_expr_no_supexpr() + self.state = 896 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 168: + self.state = 895 + self.supexpr() + + self.state = 898 + self.match(PSParser.L_BRACE) + self.state = 900 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 78: + self.state = 899 + self.match(PSParser.L_LEFT) + + self.state = 902 + _la = self._input.LA(1) + if not(_la == 51 or _la == 61): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 903 + self.func_common_args() + self.state = 904 + _la = self._input.LA(1) + if not(_la == 52 or _la == 62): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 906 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 79: + self.state = 905 + self.match(PSParser.R_RIGHT) + + self.state = 908 + self.match(PSParser.R_BRACE) + pass + + elif la_ == 5: + self.enterOuterAlt(localctx, 5) + self.state = 910 + self.match(PSParser.FUNC_INT) + self.state = 931 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 78, self._ctx) + if la_ == 1: + self.state = 911 + self.subexpr() + self.state = 912 + self.supexpr() + + elif la_ == 2: + self.state = 914 + self.supexpr() + self.state = 915 + self.subexpr() + + elif la_ == 3: + self.state = 917 + self.match(PSParser.UNDERSCORE) + self.state = 918 + self.match(PSParser.L_BRACE) + self.state = 919 + self.match(PSParser.R_BRACE) + + self.state = 921 + self.match(PSParser.CARET) + self.state = 922 + self.match(PSParser.L_BRACE) + self.state = 923 + self.match(PSParser.R_BRACE) + + elif la_ == 4: + self.state = 924 + self.match(PSParser.CARET) + self.state = 925 + self.match(PSParser.L_BRACE) + self.state = 926 + self.match(PSParser.R_BRACE) + + self.state = 928 + self.match(PSParser.UNDERSCORE) + self.state = 929 + self.match(PSParser.L_BRACE) + self.state = 930 + self.match(PSParser.R_BRACE) + + self.state = 939 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 80, self._ctx) + if la_ == 1: + self.state = 934 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 79, self._ctx) + if la_ == 1: + self.state = 933 + self.additive(0) + + self.state = 936 + self.match(PSParser.DIFFERENTIAL) + pass + + elif la_ == 2: + self.state = 937 + self.frac() + pass + + elif la_ == 3: + self.state = 938 + self.additive(0) + pass + + pass + + elif la_ == 6: + self.enterOuterAlt(localctx, 6) + self.state = 941 + self.match(PSParser.FUNC_SQRT) + self.state = 946 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 61: + self.state = 942 + self.match(PSParser.L_BRACKET) + self.state = 943 + localctx.root = self.expr() + self.state = 944 + self.match(PSParser.R_BRACKET) + + self.state = 948 + self.match(PSParser.L_BRACE) + self.state = 949 + localctx.base = self.expr() + self.state = 950 + self.match(PSParser.R_BRACE) + pass + + elif la_ == 7: + self.enterOuterAlt(localctx, 7) + self.state = 952 + _la = self._input.LA(1) + if not(_la == 85 or _la == 86): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 959 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [167]: + self.state = 953 + self.subeq() + self.state = 954 + self.supexpr() + pass + elif token in [168]: + self.state = 956 + self.supexpr() + self.state = 957 + self.subeq() + pass + else: + raise NoViableAltException(self) + + self.state = 961 + self.mp(0) + pass + + elif la_ == 8: + self.enterOuterAlt(localctx, 8) + self.state = 963 + self.match(PSParser.FUNC_LIM) + self.state = 964 + self.limit_sub() + self.state = 965 + self.mp(0) + pass + + elif la_ == 9: + self.enterOuterAlt(localctx, 9) + self.state = 967 + self.match(PSParser.EXP_E) + self.state = 969 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 83, self._ctx) + if la_ == 1: + self.state = 968 + self.supexpr() + + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class ArgsContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.ArgsContext, self).__init__(parent, invokingState) + self.parser = parser + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def COMMA(self): + return self.getToken(PSParser.COMMA, 0) + + def args(self): + return self.getTypedRuleContext(PSParser.ArgsContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_args + + def enterRule(self, listener): + if hasattr(listener, "enterArgs"): + listener.enterArgs(self) + + def exitRule(self, listener): + if hasattr(listener, "exitArgs"): + listener.exitArgs(self) + + def args(self): + + localctx = PSParser.ArgsContext(self, self._ctx, self.state) + self.enterRule(localctx, 104, self.RULE_args) + try: + self.state = 978 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 85, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 973 + self.expr() + self.state = 974 + self.match(PSParser.COMMA) + self.state = 975 + self.args() + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 977 + self.expr() + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Func_common_argsContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Func_common_argsContext, self).__init__(parent, invokingState) + self.parser = parser + + def atom(self): + return self.getTypedRuleContext(PSParser.AtomContext, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def COMMA(self): + return self.getToken(PSParser.COMMA, 0) + + def args(self): + return self.getTypedRuleContext(PSParser.ArgsContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_func_common_args + + def enterRule(self, listener): + if hasattr(listener, "enterFunc_common_args"): + listener.enterFunc_common_args(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc_common_args"): + listener.exitFunc_common_args(self) + + def func_common_args(self): + + localctx = PSParser.Func_common_argsContext(self, self._ctx, self.state) + self.enterRule(localctx, 106, self.RULE_func_common_args) + try: + self.state = 988 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 86, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 980 + self.atom() + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 981 + self.expr() + self.state = 982 + self.match(PSParser.COMMA) + pass + + elif la_ == 3: + self.enterOuterAlt(localctx, 3) + self.state = 984 + self.expr() + self.state = 985 + self.match(PSParser.COMMA) + self.state = 986 + self.args() + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Limit_subContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Limit_subContext, self).__init__(parent, invokingState) + self.parser = parser + + def UNDERSCORE(self): + return self.getToken(PSParser.UNDERSCORE, 0) + + def L_BRACE(self, i=None): + if i is None: + return self.getTokens(PSParser.L_BRACE) + else: + return self.getToken(PSParser.L_BRACE, i) + + def LIM_APPROACH_SYM(self): + return self.getToken(PSParser.LIM_APPROACH_SYM, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def R_BRACE(self, i=None): + if i is None: + return self.getTokens(PSParser.R_BRACE) + else: + return self.getToken(PSParser.R_BRACE, i) + + def LETTER_NO_E(self): + return self.getToken(PSParser.LETTER_NO_E, 0) + + def GREEK_CMD(self): + return self.getToken(PSParser.GREEK_CMD, 0) + + def OTHER_SYMBOL_CMD(self): + return self.getToken(PSParser.OTHER_SYMBOL_CMD, 0) + + def CARET(self): + return self.getToken(PSParser.CARET, 0) + + def ADD(self): + return self.getToken(PSParser.ADD, 0) + + def SUB(self): + return self.getToken(PSParser.SUB, 0) + + def getRuleIndex(self): + return PSParser.RULE_limit_sub + + def enterRule(self, listener): + if hasattr(listener, "enterLimit_sub"): + listener.enterLimit_sub(self) + + def exitRule(self, listener): + if hasattr(listener, "exitLimit_sub"): + listener.exitLimit_sub(self) + + def limit_sub(self): + + localctx = PSParser.Limit_subContext(self, self._ctx, self.state) + self.enterRule(localctx, 108, self.RULE_limit_sub) + self._la = 0 # Token type + try: + self.enterOuterAlt(localctx, 1) + self.state = 990 + self.match(PSParser.UNDERSCORE) + self.state = 991 + self.match(PSParser.L_BRACE) + self.state = 992 + _la = self._input.LA(1) + if not((((_la - 176)) & ~0x3f) == 0 and ((1 << (_la - 176)) & 98305) != 0): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 993 + self.match(PSParser.LIM_APPROACH_SYM) + self.state = 994 + self.expr() + self.state = 999 + self._errHandler.sync(self) + _la = self._input.LA(1) + if _la == 168: + self.state = 995 + self.match(PSParser.CARET) + self.state = 996 + self.match(PSParser.L_BRACE) + self.state = 997 + _la = self._input.LA(1) + if not(_la == 47 or _la == 48): + self._errHandler.recoverInline(self) + else: + self._errHandler.reportMatch(self) + self.consume() + self.state = 998 + self.match(PSParser.R_BRACE) + + self.state = 1001 + self.match(PSParser.R_BRACE) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Func_single_argContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Func_single_argContext, self).__init__(parent, invokingState) + self.parser = parser + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_func_single_arg + + def enterRule(self, listener): + if hasattr(listener, "enterFunc_single_arg"): + listener.enterFunc_single_arg(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc_single_arg"): + listener.exitFunc_single_arg(self) + + def func_single_arg(self): + + localctx = PSParser.Func_single_argContext(self, self._ctx, self.state) + self.enterRule(localctx, 110, self.RULE_func_single_arg) + try: + self.enterOuterAlt(localctx, 1) + self.state = 1003 + self.expr() + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Func_single_arg_noparensContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Func_single_arg_noparensContext, self).__init__(parent, invokingState) + self.parser = parser + + def mp_nofunc(self): + return self.getTypedRuleContext(PSParser.Mp_nofuncContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_func_single_arg_noparens + + def enterRule(self, listener): + if hasattr(listener, "enterFunc_single_arg_noparens"): + listener.enterFunc_single_arg_noparens(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc_single_arg_noparens"): + listener.exitFunc_single_arg_noparens(self) + + def func_single_arg_noparens(self): + + localctx = PSParser.Func_single_arg_noparensContext(self, self._ctx, self.state) + self.enterRule(localctx, 112, self.RULE_func_single_arg_noparens) + try: + self.enterOuterAlt(localctx, 1) + self.state = 1005 + self.mp_nofunc(0) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Func_multi_argContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Func_multi_argContext, self).__init__(parent, invokingState) + self.parser = parser + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def COMMA(self): + return self.getToken(PSParser.COMMA, 0) + + def func_multi_arg(self): + return self.getTypedRuleContext(PSParser.Func_multi_argContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_func_multi_arg + + def enterRule(self, listener): + if hasattr(listener, "enterFunc_multi_arg"): + listener.enterFunc_multi_arg(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc_multi_arg"): + listener.exitFunc_multi_arg(self) + + def func_multi_arg(self): + + localctx = PSParser.Func_multi_argContext(self, self._ctx, self.state) + self.enterRule(localctx, 114, self.RULE_func_multi_arg) + try: + self.state = 1012 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 88, self._ctx) + if la_ == 1: + self.enterOuterAlt(localctx, 1) + self.state = 1007 + self.expr() + pass + + elif la_ == 2: + self.enterOuterAlt(localctx, 2) + self.state = 1008 + self.expr() + self.state = 1009 + self.match(PSParser.COMMA) + self.state = 1010 + self.func_multi_arg() + pass + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class Func_multi_arg_noparensContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.Func_multi_arg_noparensContext, self).__init__(parent, invokingState) + self.parser = parser + + def mp_nofunc(self): + return self.getTypedRuleContext(PSParser.Mp_nofuncContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_func_multi_arg_noparens + + def enterRule(self, listener): + if hasattr(listener, "enterFunc_multi_arg_noparens"): + listener.enterFunc_multi_arg_noparens(self) + + def exitRule(self, listener): + if hasattr(listener, "exitFunc_multi_arg_noparens"): + listener.exitFunc_multi_arg_noparens(self) + + def func_multi_arg_noparens(self): + + localctx = PSParser.Func_multi_arg_noparensContext(self, self._ctx, self.state) + self.enterRule(localctx, 116, self.RULE_func_multi_arg_noparens) + try: + self.enterOuterAlt(localctx, 1) + self.state = 1014 + self.mp_nofunc(0) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class SubexprContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.SubexprContext, self).__init__(parent, invokingState) + self.parser = parser + + def UNDERSCORE(self): + return self.getToken(PSParser.UNDERSCORE, 0) + + def atom(self): + return self.getTypedRuleContext(PSParser.AtomContext, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def args(self): + return self.getTypedRuleContext(PSParser.ArgsContext, 0) + + def getRuleIndex(self): + return PSParser.RULE_subexpr + + def enterRule(self, listener): + if hasattr(listener, "enterSubexpr"): + listener.enterSubexpr(self) + + def exitRule(self, listener): + if hasattr(listener, "exitSubexpr"): + listener.exitSubexpr(self) + + def subexpr(self): + + localctx = PSParser.SubexprContext(self, self._ctx, self.state) + self.enterRule(localctx, 118, self.RULE_subexpr) + try: + self.enterOuterAlt(localctx, 1) + self.state = 1016 + self.match(PSParser.UNDERSCORE) + self.state = 1025 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 154, 173, 176, 179, 180, 190, 191, 192, 193, 194]: + self.state = 1017 + self.atom() + pass + elif token in [55]: + self.state = 1018 + self.match(PSParser.L_BRACE) + self.state = 1021 + self._errHandler.sync(self) + la_ = self._interp.adaptivePredict(self._input, 89, self._ctx) + if la_ == 1: + self.state = 1019 + self.expr() + pass + + elif la_ == 2: + self.state = 1020 + self.args() + pass + + self.state = 1023 + self.match(PSParser.R_BRACE) + pass + else: + raise NoViableAltException(self) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class SupexprContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.SupexprContext, self).__init__(parent, invokingState) + self.parser = parser + + def CARET(self): + return self.getToken(PSParser.CARET, 0) + + def atom(self): + return self.getTypedRuleContext(PSParser.AtomContext, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def expr(self): + return self.getTypedRuleContext(PSParser.ExprContext, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def getRuleIndex(self): + return PSParser.RULE_supexpr + + def enterRule(self, listener): + if hasattr(listener, "enterSupexpr"): + listener.enterSupexpr(self) + + def exitRule(self, listener): + if hasattr(listener, "exitSupexpr"): + listener.exitSupexpr(self) + + def supexpr(self): + + localctx = PSParser.SupexprContext(self, self._ctx, self.state) + self.enterRule(localctx, 120, self.RULE_supexpr) + try: + self.enterOuterAlt(localctx, 1) + self.state = 1027 + self.match(PSParser.CARET) + self.state = 1033 + self._errHandler.sync(self) + token = self._input.LA(1) + if token in [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 154, 173, 176, 179, 180, 190, 191, 192, 193, 194]: + self.state = 1028 + self.atom() + pass + elif token in [55]: + self.state = 1029 + self.match(PSParser.L_BRACE) + self.state = 1030 + self.expr() + self.state = 1031 + self.match(PSParser.R_BRACE) + pass + else: + raise NoViableAltException(self) + + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class SubeqContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.SubeqContext, self).__init__(parent, invokingState) + self.parser = parser + + def UNDERSCORE(self): + return self.getToken(PSParser.UNDERSCORE, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def equality(self): + return self.getTypedRuleContext(PSParser.EqualityContext, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def getRuleIndex(self): + return PSParser.RULE_subeq + + def enterRule(self, listener): + if hasattr(listener, "enterSubeq"): + listener.enterSubeq(self) + + def exitRule(self, listener): + if hasattr(listener, "exitSubeq"): + listener.exitSubeq(self) + + def subeq(self): + + localctx = PSParser.SubeqContext(self, self._ctx, self.state) + self.enterRule(localctx, 122, self.RULE_subeq) + try: + self.enterOuterAlt(localctx, 1) + self.state = 1035 + self.match(PSParser.UNDERSCORE) + self.state = 1036 + self.match(PSParser.L_BRACE) + self.state = 1037 + self.equality() + self.state = 1038 + self.match(PSParser.R_BRACE) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + class SupeqContext(ParserRuleContext): + + def __init__(self, parser, parent=None, invokingState=-1): + super(PSParser.SupeqContext, self).__init__(parent, invokingState) + self.parser = parser + + def UNDERSCORE(self): + return self.getToken(PSParser.UNDERSCORE, 0) + + def L_BRACE(self): + return self.getToken(PSParser.L_BRACE, 0) + + def equality(self): + return self.getTypedRuleContext(PSParser.EqualityContext, 0) + + def R_BRACE(self): + return self.getToken(PSParser.R_BRACE, 0) + + def getRuleIndex(self): + return PSParser.RULE_supeq + + def enterRule(self, listener): + if hasattr(listener, "enterSupeq"): + listener.enterSupeq(self) + + def exitRule(self, listener): + if hasattr(listener, "exitSupeq"): + listener.exitSupeq(self) + + def supeq(self): + + localctx = PSParser.SupeqContext(self, self._ctx, self.state) + self.enterRule(localctx, 124, self.RULE_supeq) + try: + self.enterOuterAlt(localctx, 1) + self.state = 1040 + self.match(PSParser.UNDERSCORE) + self.state = 1041 + self.match(PSParser.L_BRACE) + self.state = 1042 + self.equality() + self.state = 1043 + self.match(PSParser.R_BRACE) + except RecognitionException as re: + localctx.exception = re + self._errHandler.reportError(self, re) + self._errHandler.recover(self, re) + finally: + self.exitRule() + return localctx + + def sempred(self, localctx, ruleIndex, predIndex): + if self._predicates == None: + self._predicates = dict() + self._predicates[12] = self.relation_sempred + self._predicates[17] = self.additive_sempred + self._predicates[18] = self.mp_sempred + self._predicates[19] = self.mp_nofunc_sempred + self._predicates[28] = self.exp_sempred + self._predicates[29] = self.exp_nofunc_sempred + pred = self._predicates.get(ruleIndex, None) + if pred is None: + raise Exception("No predicate with index:" + str(ruleIndex)) + else: + return pred(localctx, predIndex) + + def relation_sempred(self, localctx, predIndex): + if predIndex == 0: + return self.precpred(self._ctx, 2) + + def additive_sempred(self, localctx, predIndex): + if predIndex == 1: + return self.precpred(self._ctx, 2) + + def mp_sempred(self, localctx, predIndex): + if predIndex == 2: + return self.precpred(self._ctx, 2) + + def mp_nofunc_sempred(self, localctx, predIndex): + if predIndex == 3: + return self.precpred(self._ctx, 2) + + def exp_sempred(self, localctx, predIndex): + if predIndex == 4: + return self.precpred(self._ctx, 2) + + def exp_nofunc_sempred(self, localctx, predIndex): + if predIndex == 5: + return self.precpred(self._ctx, 2) -- cgit v1.2.3