// @generated by pegen.py from ./Grammar/python.gram #include "pegen.h" static const int n_keyword_lists = 15; static KeywordToken *reserved_keywords[] = { NULL, NULL, (KeywordToken[]) { {"if", 510}, {"in", 518}, {"is", 526}, {"as", 531}, {"or", 532}, {NULL, -1}, }, (KeywordToken[]) { {"del", 503}, {"try", 511}, {"for", 517}, {"def", 522}, {"not", 525}, {"and", 533}, {NULL, -1}, }, (KeywordToken[]) { {"pass", 502}, {"from", 514}, {"elif", 515}, {"else", 516}, {"with", 519}, {"True", 527}, {"None", 529}, {NULL, -1}, }, (KeywordToken[]) { {"raise", 501}, {"yield", 504}, {"break", 506}, {"while", 512}, {"class", 523}, {"False", 528}, {NULL, -1}, }, (KeywordToken[]) { {"return", 500}, {"assert", 505}, {"global", 508}, {"import", 513}, {"except", 520}, {"lambda", 524}, {NULL, -1}, }, (KeywordToken[]) { {"finally", 521}, {NULL, -1}, }, (KeywordToken[]) { {"continue", 507}, {"nonlocal", 509}, {NULL, -1}, }, NULL, NULL, NULL, NULL, NULL, (KeywordToken[]) { {"__new_parser__", 530}, {NULL, -1}, }, }; #define file_type 1000 #define interactive_type 1001 #define eval_type 1002 #define func_type_type 1003 #define fstring_type 1004 #define type_expressions_type 1005 #define statements_type 1006 #define statement_type 1007 #define statement_newline_type 1008 #define simple_stmt_type 1009 #define small_stmt_type 1010 #define compound_stmt_type 1011 #define assignment_type 1012 #define augassign_type 1013 #define global_stmt_type 1014 #define nonlocal_stmt_type 1015 #define yield_stmt_type 1016 #define assert_stmt_type 1017 #define del_stmt_type 1018 #define import_stmt_type 1019 #define import_name_type 1020 #define import_from_type 1021 #define import_from_targets_type 1022 #define import_from_as_names_type 1023 #define import_from_as_name_type 1024 #define dotted_as_names_type 1025 #define dotted_as_name_type 1026 #define dotted_name_type 1027 // Left-recursive #define if_stmt_type 1028 #define elif_stmt_type 1029 #define else_block_type 1030 #define while_stmt_type 1031 #define for_stmt_type 1032 #define with_stmt_type 1033 #define with_item_type 1034 #define try_stmt_type 1035 #define except_block_type 1036 #define finally_block_type 1037 #define return_stmt_type 1038 #define raise_stmt_type 1039 #define function_def_type 1040 #define function_def_raw_type 1041 #define func_type_comment_type 1042 #define params_type 1043 #define parameters_type 1044 #define slash_no_default_type 1045 #define slash_with_default_type 1046 #define star_etc_type 1047 #define kwds_type 1048 #define param_no_default_type 1049 #define param_with_default_type 1050 #define param_maybe_default_type 1051 #define param_type 1052 #define annotation_type 1053 #define default_type 1054 #define decorators_type 1055 #define class_def_type 1056 #define class_def_raw_type 1057 #define block_type 1058 #define expressions_list_type 1059 #define star_expressions_type 1060 #define star_expression_type 1061 #define star_named_expressions_type 1062 #define star_named_expression_type 1063 #define named_expression_type 1064 #define annotated_rhs_type 1065 #define expressions_type 1066 #define expression_type 1067 #define lambdef_type 1068 #define lambda_parameters_type 1069 #define lambda_slash_no_default_type 1070 #define lambda_slash_with_default_type 1071 #define lambda_star_etc_type 1072 #define lambda_kwds_type 1073 #define lambda_param_no_default_type 1074 #define lambda_param_with_default_type 1075 #define lambda_param_maybe_default_type 1076 #define lambda_param_type 1077 #define disjunction_type 1078 #define conjunction_type 1079 #define inversion_type 1080 #define comparison_type 1081 #define compare_op_bitwise_or_pair_type 1082 #define eq_bitwise_or_type 1083 #define noteq_bitwise_or_type 1084 #define lte_bitwise_or_type 1085 #define lt_bitwise_or_type 1086 #define gte_bitwise_or_type 1087 #define gt_bitwise_or_type 1088 #define notin_bitwise_or_type 1089 #define in_bitwise_or_type 1090 #define isnot_bitwise_or_type 1091 #define is_bitwise_or_type 1092 #define bitwise_or_type 1093 // Left-recursive #define bitwise_xor_type 1094 // Left-recursive #define bitwise_and_type 1095 // Left-recursive #define shift_expr_type 1096 // Left-recursive #define sum_type 1097 // Left-recursive #define term_type 1098 // Left-recursive #define factor_type 1099 #define power_type 1100 #define await_primary_type 1101 #define primary_type 1102 // Left-recursive #define slices_type 1103 #define slice_type 1104 #define atom_type 1105 #define strings_type 1106 #define list_type 1107 #define listcomp_type 1108 #define tuple_type 1109 #define group_type 1110 #define genexp_type 1111 #define set_type 1112 #define setcomp_type 1113 #define dict_type 1114 #define dictcomp_type 1115 #define kvpairs_type 1116 #define kvpair_type 1117 #define for_if_clauses_type 1118 #define for_if_clause_type 1119 #define yield_expr_type 1120 #define arguments_type 1121 #define args_type 1122 #define kwargs_type 1123 #define starred_expression_type 1124 #define kwarg_or_starred_type 1125 #define kwarg_or_double_starred_type 1126 #define star_targets_type 1127 #define star_targets_seq_type 1128 #define star_target_type 1129 #define star_atom_type 1130 #define inside_paren_ann_assign_target_type 1131 #define ann_assign_subscript_attribute_target_type 1132 #define del_targets_type 1133 #define del_target_type 1134 #define del_t_atom_type 1135 #define targets_type 1136 #define target_type 1137 #define t_primary_type 1138 // Left-recursive #define t_lookahead_type 1139 #define t_atom_type 1140 #define incorrect_arguments_type 1141 #define invalid_named_expression_type 1142 #define invalid_assignment_type 1143 #define invalid_block_type 1144 #define invalid_comprehension_type 1145 #define invalid_parameters_type 1146 #define invalid_star_etc_type 1147 #define invalid_lambda_star_etc_type 1148 #define invalid_double_type_comments_type 1149 #define _loop0_1_type 1150 #define _loop0_2_type 1151 #define _loop0_4_type 1152 #define _gather_3_type 1153 #define _loop0_6_type 1154 #define _gather_5_type 1155 #define _loop0_8_type 1156 #define _gather_7_type 1157 #define _loop0_10_type 1158 #define _gather_9_type 1159 #define _loop1_11_type 1160 #define _loop0_13_type 1161 #define _gather_12_type 1162 #define _tmp_14_type 1163 #define _tmp_15_type 1164 #define _tmp_16_type 1165 #define _tmp_17_type 1166 #define _tmp_18_type 1167 #define _tmp_19_type 1168 #define _tmp_20_type 1169 #define _tmp_21_type 1170 #define _loop1_22_type 1171 #define _tmp_23_type 1172 #define _tmp_24_type 1173 #define _loop0_26_type 1174 #define _gather_25_type 1175 #define _loop0_28_type 1176 #define _gather_27_type 1177 #define _tmp_29_type 1178 #define _loop0_30_type 1179 #define _loop1_31_type 1180 #define _loop0_33_type 1181 #define _gather_32_type 1182 #define _tmp_34_type 1183 #define _loop0_36_type 1184 #define _gather_35_type 1185 #define _tmp_37_type 1186 #define _loop0_39_type 1187 #define _gather_38_type 1188 #define _loop0_41_type 1189 #define _gather_40_type 1190 #define _loop0_43_type 1191 #define _gather_42_type 1192 #define _loop0_45_type 1193 #define _gather_44_type 1194 #define _tmp_46_type 1195 #define _loop1_47_type 1196 #define _tmp_48_type 1197 #define _tmp_49_type 1198 #define _tmp_50_type 1199 #define _tmp_51_type 1200 #define _tmp_52_type 1201 #define _loop0_53_type 1202 #define _loop0_54_type 1203 #define _loop0_55_type 1204 #define _loop1_56_type 1205 #define _loop0_57_type 1206 #define _loop1_58_type 1207 #define _loop1_59_type 1208 #define _loop1_60_type 1209 #define _loop0_61_type 1210 #define _loop1_62_type 1211 #define _loop0_63_type 1212 #define _loop1_64_type 1213 #define _loop0_65_type 1214 #define _loop1_66_type 1215 #define _loop1_67_type 1216 #define _tmp_68_type 1217 #define _loop0_70_type 1218 #define _gather_69_type 1219 #define _loop1_71_type 1220 #define _loop0_73_type 1221 #define _gather_72_type 1222 #define _loop1_74_type 1223 #define _loop0_75_type 1224 #define _loop0_76_type 1225 #define _loop0_77_type 1226 #define _loop1_78_type 1227 #define _loop0_79_type 1228 #define _loop1_80_type 1229 #define _loop1_81_type 1230 #define _loop1_82_type 1231 #define _loop0_83_type 1232 #define _loop1_84_type 1233 #define _loop0_85_type 1234 #define _loop1_86_type 1235 #define _loop0_87_type 1236 #define _loop1_88_type 1237 #define _loop1_89_type 1238 #define _loop1_90_type 1239 #define _loop1_91_type 1240 #define _tmp_92_type 1241 #define _loop0_94_type 1242 #define _gather_93_type 1243 #define _tmp_95_type 1244 #define _tmp_96_type 1245 #define _tmp_97_type 1246 #define _tmp_98_type 1247 #define _loop1_99_type 1248 #define _tmp_100_type 1249 #define _tmp_101_type 1250 #define _loop0_103_type 1251 #define _gather_102_type 1252 #define _loop1_104_type 1253 #define _loop0_105_type 1254 #define _loop0_106_type 1255 #define _tmp_107_type 1256 #define _tmp_108_type 1257 #define _loop0_110_type 1258 #define _gather_109_type 1259 #define _loop0_112_type 1260 #define _gather_111_type 1261 #define _loop0_114_type 1262 #define _gather_113_type 1263 #define _loop0_116_type 1264 #define _gather_115_type 1265 #define _loop0_117_type 1266 #define _loop0_119_type 1267 #define _gather_118_type 1268 #define _tmp_120_type 1269 #define _loop0_122_type 1270 #define _gather_121_type 1271 #define _loop0_124_type 1272 #define _gather_123_type 1273 #define _tmp_125_type 1274 #define _tmp_126_type 1275 #define _tmp_127_type 1276 #define _tmp_128_type 1277 #define _tmp_129_type 1278 #define _loop0_130_type 1279 #define _tmp_131_type 1280 #define _tmp_132_type 1281 #define _tmp_133_type 1282 #define _tmp_134_type 1283 #define _tmp_135_type 1284 #define _tmp_136_type 1285 #define _tmp_137_type 1286 #define _tmp_138_type 1287 #define _tmp_139_type 1288 #define _tmp_140_type 1289 #define _tmp_141_type 1290 #define _tmp_142_type 1291 #define _tmp_143_type 1292 #define _tmp_144_type 1293 #define _loop1_145_type 1294 #define _tmp_146_type 1295 #define _tmp_147_type 1296 static mod_ty file_rule(Parser *p); static mod_ty interactive_rule(Parser *p); static mod_ty eval_rule(Parser *p); static mod_ty func_type_rule(Parser *p); static expr_ty fstring_rule(Parser *p); static asdl_seq* type_expressions_rule(Parser *p); static asdl_seq* statements_rule(Parser *p); static asdl_seq* statement_rule(Parser *p); static asdl_seq* statement_newline_rule(Parser *p); static asdl_seq* simple_stmt_rule(Parser *p); static stmt_ty small_stmt_rule(Parser *p); static stmt_ty compound_stmt_rule(Parser *p); static stmt_ty assignment_rule(Parser *p); static AugOperator* augassign_rule(Parser *p); static stmt_ty global_stmt_rule(Parser *p); static stmt_ty nonlocal_stmt_rule(Parser *p); static stmt_ty yield_stmt_rule(Parser *p); static stmt_ty assert_stmt_rule(Parser *p); static stmt_ty del_stmt_rule(Parser *p); static stmt_ty import_stmt_rule(Parser *p); static stmt_ty import_name_rule(Parser *p); static stmt_ty import_from_rule(Parser *p); static asdl_seq* import_from_targets_rule(Parser *p); static asdl_seq* import_from_as_names_rule(Parser *p); static alias_ty import_from_as_name_rule(Parser *p); static asdl_seq* dotted_as_names_rule(Parser *p); static alias_ty dotted_as_name_rule(Parser *p); static expr_ty dotted_name_rule(Parser *p); static stmt_ty if_stmt_rule(Parser *p); static stmt_ty elif_stmt_rule(Parser *p); static asdl_seq* else_block_rule(Parser *p); static stmt_ty while_stmt_rule(Parser *p); static stmt_ty for_stmt_rule(Parser *p); static stmt_ty with_stmt_rule(Parser *p); static withitem_ty with_item_rule(Parser *p); static stmt_ty try_stmt_rule(Parser *p); static excepthandler_ty except_block_rule(Parser *p); static asdl_seq* finally_block_rule(Parser *p); static stmt_ty return_stmt_rule(Parser *p); static stmt_ty raise_stmt_rule(Parser *p); static stmt_ty function_def_rule(Parser *p); static stmt_ty function_def_raw_rule(Parser *p); static Token* func_type_comment_rule(Parser *p); static arguments_ty params_rule(Parser *p); static arguments_ty parameters_rule(Parser *p); static asdl_seq* slash_no_default_rule(Parser *p); static SlashWithDefault* slash_with_default_rule(Parser *p); static StarEtc* star_etc_rule(Parser *p); static arg_ty kwds_rule(Parser *p); static arg_ty param_no_default_rule(Parser *p); static NameDefaultPair* param_with_default_rule(Parser *p); static NameDefaultPair* param_maybe_default_rule(Parser *p); static arg_ty param_rule(Parser *p); static expr_ty annotation_rule(Parser *p); static expr_ty default_rule(Parser *p); static asdl_seq* decorators_rule(Parser *p); static stmt_ty class_def_rule(Parser *p); static stmt_ty class_def_raw_rule(Parser *p); static asdl_seq* block_rule(Parser *p); static asdl_seq* expressions_list_rule(Parser *p); static expr_ty star_expressions_rule(Parser *p); static expr_ty star_expression_rule(Parser *p); static asdl_seq* star_named_expressions_rule(Parser *p); static expr_ty star_named_expression_rule(Parser *p); static expr_ty named_expression_rule(Parser *p); static expr_ty annotated_rhs_rule(Parser *p); static expr_ty expressions_rule(Parser *p); static expr_ty expression_rule(Parser *p); static expr_ty lambdef_rule(Parser *p); static arguments_ty lambda_parameters_rule(Parser *p); static asdl_seq* lambda_slash_no_default_rule(Parser *p); static SlashWithDefault* lambda_slash_with_default_rule(Parser *p); static StarEtc* lambda_star_etc_rule(Parser *p); static arg_ty lambda_kwds_rule(Parser *p); static arg_ty lambda_param_no_default_rule(Parser *p); static NameDefaultPair* lambda_param_with_default_rule(Parser *p); static NameDefaultPair* lambda_param_maybe_default_rule(Parser *p); static arg_ty lambda_param_rule(Parser *p); static expr_ty disjunction_rule(Parser *p); static expr_ty conjunction_rule(Parser *p); static expr_ty inversion_rule(Parser *p); static expr_ty comparison_rule(Parser *p); static CmpopExprPair* compare_op_bitwise_or_pair_rule(Parser *p); static CmpopExprPair* eq_bitwise_or_rule(Parser *p); static CmpopExprPair* noteq_bitwise_or_rule(Parser *p); static CmpopExprPair* lte_bitwise_or_rule(Parser *p); static CmpopExprPair* lt_bitwise_or_rule(Parser *p); static CmpopExprPair* gte_bitwise_or_rule(Parser *p); static CmpopExprPair* gt_bitwise_or_rule(Parser *p); static CmpopExprPair* notin_bitwise_or_rule(Parser *p); static CmpopExprPair* in_bitwise_or_rule(Parser *p); static CmpopExprPair* isnot_bitwise_or_rule(Parser *p); static CmpopExprPair* is_bitwise_or_rule(Parser *p); static expr_ty bitwise_or_rule(Parser *p); static expr_ty bitwise_xor_rule(Parser *p); static expr_ty bitwise_and_rule(Parser *p); static expr_ty shift_expr_rule(Parser *p); static expr_ty sum_rule(Parser *p); static expr_ty term_rule(Parser *p); static expr_ty factor_rule(Parser *p); static expr_ty power_rule(Parser *p); static expr_ty await_primary_rule(Parser *p); static expr_ty primary_rule(Parser *p); static expr_ty slices_rule(Parser *p); static expr_ty slice_rule(Parser *p); static expr_ty atom_rule(Parser *p); static expr_ty strings_rule(Parser *p); static expr_ty list_rule(Parser *p); static expr_ty listcomp_rule(Parser *p); static expr_ty tuple_rule(Parser *p); static expr_ty group_rule(Parser *p); static expr_ty genexp_rule(Parser *p); static expr_ty set_rule(Parser *p); static expr_ty setcomp_rule(Parser *p); static expr_ty dict_rule(Parser *p); static expr_ty dictcomp_rule(Parser *p); static asdl_seq* kvpairs_rule(Parser *p); static KeyValuePair* kvpair_rule(Parser *p); static asdl_seq* for_if_clauses_rule(Parser *p); static comprehension_ty for_if_clause_rule(Parser *p); static expr_ty yield_expr_rule(Parser *p); static expr_ty arguments_rule(Parser *p); static expr_ty args_rule(Parser *p); static asdl_seq* kwargs_rule(Parser *p); static expr_ty starred_expression_rule(Parser *p); static KeywordOrStarred* kwarg_or_starred_rule(Parser *p); static KeywordOrStarred* kwarg_or_double_starred_rule(Parser *p); static expr_ty star_targets_rule(Parser *p); static asdl_seq* star_targets_seq_rule(Parser *p); static expr_ty star_target_rule(Parser *p); static expr_ty star_atom_rule(Parser *p); static expr_ty inside_paren_ann_assign_target_rule(Parser *p); static expr_ty ann_assign_subscript_attribute_target_rule(Parser *p); static asdl_seq* del_targets_rule(Parser *p); static expr_ty del_target_rule(Parser *p); static expr_ty del_t_atom_rule(Parser *p); static asdl_seq* targets_rule(Parser *p); static expr_ty target_rule(Parser *p); static expr_ty t_primary_rule(Parser *p); static void *t_lookahead_rule(Parser *p); static expr_ty t_atom_rule(Parser *p); static void *incorrect_arguments_rule(Parser *p); static void *invalid_named_expression_rule(Parser *p); static void *invalid_assignment_rule(Parser *p); static void *invalid_block_rule(Parser *p); static void *invalid_comprehension_rule(Parser *p); static void *invalid_parameters_rule(Parser *p); static void *invalid_star_etc_rule(Parser *p); static void *invalid_lambda_star_etc_rule(Parser *p); static void *invalid_double_type_comments_rule(Parser *p); static asdl_seq *_loop0_1_rule(Parser *p); static asdl_seq *_loop0_2_rule(Parser *p); static asdl_seq *_loop0_4_rule(Parser *p); static asdl_seq *_gather_3_rule(Parser *p); static asdl_seq *_loop0_6_rule(Parser *p); static asdl_seq *_gather_5_rule(Parser *p); static asdl_seq *_loop0_8_rule(Parser *p); static asdl_seq *_gather_7_rule(Parser *p); static asdl_seq *_loop0_10_rule(Parser *p); static asdl_seq *_gather_9_rule(Parser *p); static asdl_seq *_loop1_11_rule(Parser *p); static asdl_seq *_loop0_13_rule(Parser *p); static asdl_seq *_gather_12_rule(Parser *p); static void *_tmp_14_rule(Parser *p); static void *_tmp_15_rule(Parser *p); static void *_tmp_16_rule(Parser *p); static void *_tmp_17_rule(Parser *p); static void *_tmp_18_rule(Parser *p); static void *_tmp_19_rule(Parser *p); static void *_tmp_20_rule(Parser *p); static void *_tmp_21_rule(Parser *p); static asdl_seq *_loop1_22_rule(Parser *p); static void *_tmp_23_rule(Parser *p); static void *_tmp_24_rule(Parser *p); static asdl_seq *_loop0_26_rule(Parser *p); static asdl_seq *_gather_25_rule(Parser *p); static asdl_seq *_loop0_28_rule(Parser *p); static asdl_seq *_gather_27_rule(Parser *p); static void *_tmp_29_rule(Parser *p); static asdl_seq *_loop0_30_rule(Parser *p); static asdl_seq *_loop1_31_rule(Parser *p); static asdl_seq *_loop0_33_rule(Parser *p); static asdl_seq *_gather_32_rule(Parser *p); static void *_tmp_34_rule(Parser *p); static asdl_seq *_loop0_36_rule(Parser *p); static asdl_seq *_gather_35_rule(Parser *p); static void *_tmp_37_rule(Parser *p); static asdl_seq *_loop0_39_rule(Parser *p); static asdl_seq *_gather_38_rule(Parser *p); static asdl_seq *_loop0_41_rule(Parser *p); static asdl_seq *_gather_40_rule(Parser *p); static asdl_seq *_loop0_43_rule(Parser *p); static asdl_seq *_gather_42_rule(Parser *p); static asdl_seq *_loop0_45_rule(Parser *p); static asdl_seq *_gather_44_rule(Parser *p); static void *_tmp_46_rule(Parser *p); static asdl_seq *_loop1_47_rule(Parser *p); static void *_tmp_48_rule(Parser *p); static void *_tmp_49_rule(Parser *p); static void *_tmp_50_rule(Parser *p); static void *_tmp_51_rule(Parser *p); static void *_tmp_52_rule(Parser *p); static asdl_seq *_loop0_53_rule(Parser *p); static asdl_seq *_loop0_54_rule(Parser *p); static asdl_seq *_loop0_55_rule(Parser *p); static asdl_seq *_loop1_56_rule(Parser *p); static asdl_seq *_loop0_57_rule(Parser *p); static asdl_seq *_loop1_58_rule(Parser *p); static asdl_seq *_loop1_59_rule(Parser *p); static asdl_seq *_loop1_60_rule(Parser *p); static asdl_seq *_loop0_61_rule(Parser *p); static asdl_seq *_loop1_62_rule(Parser *p); static asdl_seq *_loop0_63_rule(Parser *p); static asdl_seq *_loop1_64_rule(Parser *p); static asdl_seq *_loop0_65_rule(Parser *p); static asdl_seq *_loop1_66_rule(Parser *p); static asdl_seq *_loop1_67_rule(Parser *p); static void *_tmp_68_rule(Parser *p); static asdl_seq *_loop0_70_rule(Parser *p); static asdl_seq *_gather_69_rule(Parser *p); static asdl_seq *_loop1_71_rule(Parser *p); static asdl_seq *_loop0_73_rule(Parser *p); static asdl_seq *_gather_72_rule(Parser *p); static asdl_seq *_loop1_74_rule(Parser *p); static asdl_seq *_loop0_75_rule(Parser *p); static asdl_seq *_loop0_76_rule(Parser *p); static asdl_seq *_loop0_77_rule(Parser *p); static asdl_seq *_loop1_78_rule(Parser *p); static asdl_seq *_loop0_79_rule(Parser *p); static asdl_seq *_loop1_80_rule(Parser *p); static asdl_seq *_loop1_81_rule(Parser *p); static asdl_seq *_loop1_82_rule(Parser *p); static asdl_seq *_loop0_83_rule(Parser *p); static asdl_seq *_loop1_84_rule(Parser *p); static asdl_seq *_loop0_85_rule(Parser *p); static asdl_seq *_loop1_86_rule(Parser *p); static asdl_seq *_loop0_87_rule(Parser *p); static asdl_seq *_loop1_88_rule(Parser *p); static asdl_seq *_loop1_89_rule(Parser *p); static asdl_seq *_loop1_90_rule(Parser *p); static asdl_seq *_loop1_91_rule(Parser *p); static void *_tmp_92_rule(Parser *p); static asdl_seq *_loop0_94_rule(Parser *p); static asdl_seq *_gather_93_rule(Parser *p); static void *_tmp_95_rule(Parser *p); static void *_tmp_96_rule(Parser *p); static void *_tmp_97_rule(Parser *p); static void *_tmp_98_rule(Parser *p); static asdl_seq *_loop1_99_rule(Parser *p); static void *_tmp_100_rule(Parser *p); static void *_tmp_101_rule(Parser *p); static asdl_seq *_loop0_103_rule(Parser *p); static asdl_seq *_gather_102_rule(Parser *p); static asdl_seq *_loop1_104_rule(Parser *p); static asdl_seq *_loop0_105_rule(Parser *p); static asdl_seq *_loop0_106_rule(Parser *p); static void *_tmp_107_rule(Parser *p); static void *_tmp_108_rule(Parser *p); static asdl_seq *_loop0_110_rule(Parser *p); static asdl_seq *_gather_109_rule(Parser *p); static asdl_seq *_loop0_112_rule(Parser *p); static asdl_seq *_gather_111_rule(Parser *p); static asdl_seq *_loop0_114_rule(Parser *p); static asdl_seq *_gather_113_rule(Parser *p); static asdl_seq *_loop0_116_rule(Parser *p); static asdl_seq *_gather_115_rule(Parser *p); static asdl_seq *_loop0_117_rule(Parser *p); static asdl_seq *_loop0_119_rule(Parser *p); static asdl_seq *_gather_118_rule(Parser *p); static void *_tmp_120_rule(Parser *p); static asdl_seq *_loop0_122_rule(Parser *p); static asdl_seq *_gather_121_rule(Parser *p); static asdl_seq *_loop0_124_rule(Parser *p); static asdl_seq *_gather_123_rule(Parser *p); static void *_tmp_125_rule(Parser *p); static void *_tmp_126_rule(Parser *p); static void *_tmp_127_rule(Parser *p); static void *_tmp_128_rule(Parser *p); static void *_tmp_129_rule(Parser *p); static asdl_seq *_loop0_130_rule(Parser *p); static void *_tmp_131_rule(Parser *p); static void *_tmp_132_rule(Parser *p); static void *_tmp_133_rule(Parser *p); static void *_tmp_134_rule(Parser *p); static void *_tmp_135_rule(Parser *p); static void *_tmp_136_rule(Parser *p); static void *_tmp_137_rule(Parser *p); static void *_tmp_138_rule(Parser *p); static void *_tmp_139_rule(Parser *p); static void *_tmp_140_rule(Parser *p); static void *_tmp_141_rule(Parser *p); static void *_tmp_142_rule(Parser *p); static void *_tmp_143_rule(Parser *p); static void *_tmp_144_rule(Parser *p); static asdl_seq *_loop1_145_rule(Parser *p); static void *_tmp_146_rule(Parser *p); static void *_tmp_147_rule(Parser *p); // file: statements? $ static mod_ty file_rule(Parser *p) { if (p->error_indicator) { return NULL; } mod_ty res = NULL; int mark = p->mark; { // statements? $ void *a; Token * endmarker_var; if ( (a = statements_rule(p), 1) // statements? && (endmarker_var = _PyPegen_expect_token(p, ENDMARKER)) // token='ENDMARKER' ) { res = _PyPegen_make_module ( p , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // interactive: statement_newline static mod_ty interactive_rule(Parser *p) { if (p->error_indicator) { return NULL; } mod_ty res = NULL; int mark = p->mark; { // statement_newline asdl_seq* a; if ( (a = statement_newline_rule(p)) // statement_newline ) { res = Interactive ( a , p -> arena ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // eval: expressions NEWLINE* $ static mod_ty eval_rule(Parser *p) { if (p->error_indicator) { return NULL; } mod_ty res = NULL; int mark = p->mark; { // expressions NEWLINE* $ asdl_seq * _loop0_1_var; expr_ty a; Token * endmarker_var; if ( (a = expressions_rule(p)) // expressions && (_loop0_1_var = _loop0_1_rule(p)) // NEWLINE* && (endmarker_var = _PyPegen_expect_token(p, ENDMARKER)) // token='ENDMARKER' ) { res = Expression ( a , p -> arena ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // func_type: '(' type_expressions? ')' '->' expression NEWLINE* $ static mod_ty func_type_rule(Parser *p) { if (p->error_indicator) { return NULL; } mod_ty res = NULL; int mark = p->mark; { // '(' type_expressions? ')' '->' expression NEWLINE* $ asdl_seq * _loop0_2_var; void *a; expr_ty b; Token * endmarker_var; Token * literal; Token * literal_1; Token * literal_2; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = type_expressions_rule(p), 1) // type_expressions? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' && (literal_2 = _PyPegen_expect_token(p, 51)) // token='->' && (b = expression_rule(p)) // expression && (_loop0_2_var = _loop0_2_rule(p)) // NEWLINE* && (endmarker_var = _PyPegen_expect_token(p, ENDMARKER)) // token='ENDMARKER' ) { res = FunctionType ( a , b , p -> arena ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // fstring: star_expressions static expr_ty fstring_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; { // star_expressions expr_ty star_expressions_var; if ( (star_expressions_var = star_expressions_rule(p)) // star_expressions ) { res = star_expressions_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // type_expressions: // | ','.expression+ ',' '*' expression ',' '**' expression // | ','.expression+ ',' '*' expression // | ','.expression+ ',' '**' expression // | '*' expression ',' '**' expression // | '*' expression // | '**' expression // | ','.expression+ static asdl_seq* type_expressions_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // ','.expression+ ',' '*' expression ',' '**' expression asdl_seq * a; expr_ty b; expr_ty c; Token * literal; Token * literal_1; Token * literal_2; Token * literal_3; if ( (a = _gather_3_rule(p)) // ','.expression+ && (literal = _PyPegen_expect_token(p, 12)) // token=',' && (literal_1 = _PyPegen_expect_token(p, 16)) // token='*' && (b = expression_rule(p)) // expression && (literal_2 = _PyPegen_expect_token(p, 12)) // token=',' && (literal_3 = _PyPegen_expect_token(p, 35)) // token='**' && (c = expression_rule(p)) // expression ) { res = _PyPegen_seq_append_to_end ( p , CHECK ( _PyPegen_seq_append_to_end ( p , a , b ) ) , c ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ','.expression+ ',' '*' expression asdl_seq * a; expr_ty b; Token * literal; Token * literal_1; if ( (a = _gather_5_rule(p)) // ','.expression+ && (literal = _PyPegen_expect_token(p, 12)) // token=',' && (literal_1 = _PyPegen_expect_token(p, 16)) // token='*' && (b = expression_rule(p)) // expression ) { res = _PyPegen_seq_append_to_end ( p , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ','.expression+ ',' '**' expression asdl_seq * a; expr_ty b; Token * literal; Token * literal_1; if ( (a = _gather_7_rule(p)) // ','.expression+ && (literal = _PyPegen_expect_token(p, 12)) // token=',' && (literal_1 = _PyPegen_expect_token(p, 35)) // token='**' && (b = expression_rule(p)) // expression ) { res = _PyPegen_seq_append_to_end ( p , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '*' expression ',' '**' expression expr_ty a; expr_ty b; Token * literal; Token * literal_1; Token * literal_2; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (a = expression_rule(p)) // expression && (literal_1 = _PyPegen_expect_token(p, 12)) // token=',' && (literal_2 = _PyPegen_expect_token(p, 35)) // token='**' && (b = expression_rule(p)) // expression ) { res = _PyPegen_seq_append_to_end ( p , CHECK ( _PyPegen_singleton_seq ( p , a ) ) , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '*' expression expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (a = expression_rule(p)) // expression ) { res = _PyPegen_singleton_seq ( p , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '**' expression expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 35)) // token='**' && (a = expression_rule(p)) // expression ) { res = _PyPegen_singleton_seq ( p , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ','.expression+ asdl_seq * _gather_9_var; if ( (_gather_9_var = _gather_9_rule(p)) // ','.expression+ ) { res = _gather_9_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // statements: statement+ static asdl_seq* statements_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // statement+ asdl_seq * a; if ( (a = _loop1_11_rule(p)) // statement+ ) { res = _PyPegen_seq_flatten ( p , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // statement: compound_stmt | simple_stmt static asdl_seq* statement_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // compound_stmt stmt_ty a; if ( (a = compound_stmt_rule(p)) // compound_stmt ) { res = _PyPegen_singleton_seq ( p , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // simple_stmt asdl_seq* simple_stmt_var; if ( (simple_stmt_var = simple_stmt_rule(p)) // simple_stmt ) { res = simple_stmt_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // statement_newline: compound_stmt NEWLINE | simple_stmt | NEWLINE | $ static asdl_seq* statement_newline_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // compound_stmt NEWLINE stmt_ty a; Token * newline_var; if ( (a = compound_stmt_rule(p)) // compound_stmt && (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' ) { res = _PyPegen_singleton_seq ( p , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // simple_stmt asdl_seq* simple_stmt_var; if ( (simple_stmt_var = simple_stmt_rule(p)) // simple_stmt ) { res = simple_stmt_var; goto done; } p->mark = mark; } { // NEWLINE Token * newline_var; if ( (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _PyPegen_singleton_seq ( p , CHECK ( _Py_Pass ( EXTRA ) ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // $ Token * endmarker_var; if ( (endmarker_var = _PyPegen_expect_token(p, ENDMARKER)) // token='ENDMARKER' ) { res = _PyPegen_interactive_exit ( p ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // simple_stmt: small_stmt !';' NEWLINE | ';'.small_stmt+ ';'? NEWLINE static asdl_seq* simple_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // small_stmt !';' NEWLINE stmt_ty a; Token * newline_var; if ( (a = small_stmt_rule(p)) // small_stmt && _PyPegen_lookahead_with_int(0, _PyPegen_expect_token, p, 13) // token=';' && (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' ) { res = _PyPegen_singleton_seq ( p , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ';'.small_stmt+ ';'? NEWLINE asdl_seq * a; Token * newline_var; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = _gather_12_rule(p)) // ';'.small_stmt+ && (opt_var = _PyPegen_expect_token(p, 13), 1) // ';'? && (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // small_stmt: // | assignment // | star_expressions // | &'return' return_stmt // | &('import' | 'from') import_stmt // | &'raise' raise_stmt // | 'pass' // | &'del' del_stmt // | &'yield' yield_stmt // | &'assert' assert_stmt // | 'break' // | 'continue' // | &'global' global_stmt // | &'nonlocal' nonlocal_stmt static stmt_ty small_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; if (_PyPegen_is_memoized(p, small_stmt_type, &res)) return res; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // assignment stmt_ty assignment_var; if ( (assignment_var = assignment_rule(p)) // assignment ) { res = assignment_var; goto done; } p->mark = mark; } { // star_expressions expr_ty e; if ( (e = star_expressions_rule(p)) // star_expressions ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Expr ( e , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // &'return' return_stmt stmt_ty return_stmt_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 500) // token='return' && (return_stmt_var = return_stmt_rule(p)) // return_stmt ) { res = return_stmt_var; goto done; } p->mark = mark; } { // &('import' | 'from') import_stmt stmt_ty import_stmt_var; if ( _PyPegen_lookahead(1, _tmp_14_rule, p) && (import_stmt_var = import_stmt_rule(p)) // import_stmt ) { res = import_stmt_var; goto done; } p->mark = mark; } { // &'raise' raise_stmt stmt_ty raise_stmt_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 501) // token='raise' && (raise_stmt_var = raise_stmt_rule(p)) // raise_stmt ) { res = raise_stmt_var; goto done; } p->mark = mark; } { // 'pass' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 502)) // token='pass' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Pass ( EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // &'del' del_stmt stmt_ty del_stmt_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 503) // token='del' && (del_stmt_var = del_stmt_rule(p)) // del_stmt ) { res = del_stmt_var; goto done; } p->mark = mark; } { // &'yield' yield_stmt stmt_ty yield_stmt_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 504) // token='yield' && (yield_stmt_var = yield_stmt_rule(p)) // yield_stmt ) { res = yield_stmt_var; goto done; } p->mark = mark; } { // &'assert' assert_stmt stmt_ty assert_stmt_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 505) // token='assert' && (assert_stmt_var = assert_stmt_rule(p)) // assert_stmt ) { res = assert_stmt_var; goto done; } p->mark = mark; } { // 'break' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 506)) // token='break' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Break ( EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'continue' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 507)) // token='continue' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Continue ( EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // &'global' global_stmt stmt_ty global_stmt_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 508) // token='global' && (global_stmt_var = global_stmt_rule(p)) // global_stmt ) { res = global_stmt_var; goto done; } p->mark = mark; } { // &'nonlocal' nonlocal_stmt stmt_ty nonlocal_stmt_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 509) // token='nonlocal' && (nonlocal_stmt_var = nonlocal_stmt_rule(p)) // nonlocal_stmt ) { res = nonlocal_stmt_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, small_stmt_type, res); return res; } // compound_stmt: // | &('def' | '@' | ASYNC) function_def // | &'if' if_stmt // | &('class' | '@') class_def // | &('with' | ASYNC) with_stmt // | &('for' | ASYNC) for_stmt // | &'try' try_stmt // | &'while' while_stmt static stmt_ty compound_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; { // &('def' | '@' | ASYNC) function_def stmt_ty function_def_var; if ( _PyPegen_lookahead(1, _tmp_15_rule, p) && (function_def_var = function_def_rule(p)) // function_def ) { res = function_def_var; goto done; } p->mark = mark; } { // &'if' if_stmt stmt_ty if_stmt_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 510) // token='if' && (if_stmt_var = if_stmt_rule(p)) // if_stmt ) { res = if_stmt_var; goto done; } p->mark = mark; } { // &('class' | '@') class_def stmt_ty class_def_var; if ( _PyPegen_lookahead(1, _tmp_16_rule, p) && (class_def_var = class_def_rule(p)) // class_def ) { res = class_def_var; goto done; } p->mark = mark; } { // &('with' | ASYNC) with_stmt stmt_ty with_stmt_var; if ( _PyPegen_lookahead(1, _tmp_17_rule, p) && (with_stmt_var = with_stmt_rule(p)) // with_stmt ) { res = with_stmt_var; goto done; } p->mark = mark; } { // &('for' | ASYNC) for_stmt stmt_ty for_stmt_var; if ( _PyPegen_lookahead(1, _tmp_18_rule, p) && (for_stmt_var = for_stmt_rule(p)) // for_stmt ) { res = for_stmt_var; goto done; } p->mark = mark; } { // &'try' try_stmt stmt_ty try_stmt_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 511) // token='try' && (try_stmt_var = try_stmt_rule(p)) // try_stmt ) { res = try_stmt_var; goto done; } p->mark = mark; } { // &'while' while_stmt stmt_ty while_stmt_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 512) // token='while' && (while_stmt_var = while_stmt_rule(p)) // while_stmt ) { res = while_stmt_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // assignment: // | NAME ':' expression ['=' annotated_rhs] // | ('(' inside_paren_ann_assign_target ')' | ann_assign_subscript_attribute_target) ':' expression ['=' annotated_rhs] // | ((star_targets '='))+ (yield_expr | star_expressions) TYPE_COMMENT? // | target augassign (yield_expr | star_expressions) // | invalid_assignment static stmt_ty assignment_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // NAME ':' expression ['=' annotated_rhs] expr_ty a; expr_ty b; void *c; Token * literal; if ( (a = _PyPegen_name_token(p)) // NAME && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = expression_rule(p)) // expression && (c = _tmp_19_rule(p), 1) // ['=' annotated_rhs] ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = CHECK_VERSION ( 6 , "Variable annotation syntax is" , _Py_AnnAssign ( CHECK ( _PyPegen_set_expr_context ( p , a , Store ) ) , b , c , 1 , EXTRA ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ('(' inside_paren_ann_assign_target ')' | ann_assign_subscript_attribute_target) ':' expression ['=' annotated_rhs] void *a; expr_ty b; void *c; Token * literal; if ( (a = _tmp_20_rule(p)) // '(' inside_paren_ann_assign_target ')' | ann_assign_subscript_attribute_target && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = expression_rule(p)) // expression && (c = _tmp_21_rule(p), 1) // ['=' annotated_rhs] ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = CHECK_VERSION ( 6 , "Variable annotations syntax is" , _Py_AnnAssign ( a , b , c , 0 , EXTRA ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ((star_targets '='))+ (yield_expr | star_expressions) TYPE_COMMENT? asdl_seq * a; void *b; void *tc; if ( (a = _loop1_22_rule(p)) // ((star_targets '='))+ && (b = _tmp_23_rule(p)) // yield_expr | star_expressions && (tc = _PyPegen_expect_token(p, TYPE_COMMENT), 1) // TYPE_COMMENT? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Assign ( a , b , NEW_TYPE_COMMENT ( p , tc ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // target augassign (yield_expr | star_expressions) expr_ty a; AugOperator* b; void *c; if ( (a = target_rule(p)) // target && (b = augassign_rule(p)) // augassign && (c = _tmp_24_rule(p)) // yield_expr | star_expressions ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_AugAssign ( a , b -> kind , c , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // invalid_assignment void *invalid_assignment_var; if ( (invalid_assignment_var = invalid_assignment_rule(p)) // invalid_assignment ) { res = invalid_assignment_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // augassign: // | '+=' // | '-=' // | '*=' // | '@=' // | '/=' // | '%=' // | '&=' // | '|=' // | '^=' // | '<<=' // | '>>=' // | '**=' // | '//=' static AugOperator* augassign_rule(Parser *p) { if (p->error_indicator) { return NULL; } AugOperator* res = NULL; int mark = p->mark; { // '+=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 36)) // token='+=' ) { res = _PyPegen_augoperator ( p , Add ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '-=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 37)) // token='-=' ) { res = _PyPegen_augoperator ( p , Sub ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '*=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 38)) // token='*=' ) { res = _PyPegen_augoperator ( p , Mult ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '@=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 50)) // token='@=' ) { res = CHECK_VERSION ( 5 , "The '@' operator is" , _PyPegen_augoperator ( p , MatMult ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '/=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 39)) // token='/=' ) { res = _PyPegen_augoperator ( p , Div ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '%=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 40)) // token='%=' ) { res = _PyPegen_augoperator ( p , Mod ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '&=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 41)) // token='&=' ) { res = _PyPegen_augoperator ( p , BitAnd ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '|=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 42)) // token='|=' ) { res = _PyPegen_augoperator ( p , BitOr ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '^=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 43)) // token='^=' ) { res = _PyPegen_augoperator ( p , BitXor ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '<<=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 44)) // token='<<=' ) { res = _PyPegen_augoperator ( p , LShift ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '>>=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 45)) // token='>>=' ) { res = _PyPegen_augoperator ( p , RShift ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '**=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 46)) // token='**=' ) { res = _PyPegen_augoperator ( p , Pow ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '//=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 48)) // token='//=' ) { res = _PyPegen_augoperator ( p , FloorDiv ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // global_stmt: 'global' ','.NAME+ static stmt_ty global_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'global' ','.NAME+ asdl_seq * a; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 508)) // token='global' && (a = _gather_25_rule(p)) // ','.NAME+ ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Global ( CHECK ( _PyPegen_map_names_to_ids ( p , a ) ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // nonlocal_stmt: 'nonlocal' ','.NAME+ static stmt_ty nonlocal_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'nonlocal' ','.NAME+ asdl_seq * a; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 509)) // token='nonlocal' && (a = _gather_27_rule(p)) // ','.NAME+ ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Nonlocal ( CHECK ( _PyPegen_map_names_to_ids ( p , a ) ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // yield_stmt: yield_expr static stmt_ty yield_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // yield_expr expr_ty y; if ( (y = yield_expr_rule(p)) // yield_expr ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Expr ( y , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // assert_stmt: 'assert' expression [',' expression] static stmt_ty assert_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'assert' expression [',' expression] expr_ty a; void *b; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 505)) // token='assert' && (a = expression_rule(p)) // expression && (b = _tmp_29_rule(p), 1) // [',' expression] ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Assert ( a , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // del_stmt: 'del' del_targets static stmt_ty del_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'del' del_targets asdl_seq* a; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 503)) // token='del' && (a = del_targets_rule(p)) // del_targets ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Delete ( a , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // import_stmt: import_name | import_from static stmt_ty import_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; { // import_name stmt_ty import_name_var; if ( (import_name_var = import_name_rule(p)) // import_name ) { res = import_name_var; goto done; } p->mark = mark; } { // import_from stmt_ty import_from_var; if ( (import_from_var = import_from_rule(p)) // import_from ) { res = import_from_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // import_name: 'import' dotted_as_names static stmt_ty import_name_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'import' dotted_as_names asdl_seq* a; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 513)) // token='import' && (a = dotted_as_names_rule(p)) // dotted_as_names ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Import ( a , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // import_from: // | 'from' (('.' | '...'))* dotted_name 'import' import_from_targets // | 'from' (('.' | '...'))+ 'import' import_from_targets static stmt_ty import_from_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'from' (('.' | '...'))* dotted_name 'import' import_from_targets asdl_seq * a; expr_ty b; asdl_seq* c; Token * keyword; Token * keyword_1; if ( (keyword = _PyPegen_expect_token(p, 514)) // token='from' && (a = _loop0_30_rule(p)) // (('.' | '...'))* && (b = dotted_name_rule(p)) // dotted_name && (keyword_1 = _PyPegen_expect_token(p, 513)) // token='import' && (c = import_from_targets_rule(p)) // import_from_targets ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_ImportFrom ( b -> v . Name . id , c , _PyPegen_seq_count_dots ( a ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'from' (('.' | '...'))+ 'import' import_from_targets asdl_seq * a; asdl_seq* b; Token * keyword; Token * keyword_1; if ( (keyword = _PyPegen_expect_token(p, 514)) // token='from' && (a = _loop1_31_rule(p)) // (('.' | '...'))+ && (keyword_1 = _PyPegen_expect_token(p, 513)) // token='import' && (b = import_from_targets_rule(p)) // import_from_targets ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_ImportFrom ( NULL , b , _PyPegen_seq_count_dots ( a ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // import_from_targets: '(' import_from_as_names ','? ')' | import_from_as_names | '*' static asdl_seq* import_from_targets_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // '(' import_from_as_names ','? ')' asdl_seq* a; Token * literal; Token * literal_1; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = import_from_as_names_rule(p)) // import_from_as_names && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // import_from_as_names asdl_seq* import_from_as_names_var; if ( (import_from_as_names_var = import_from_as_names_rule(p)) // import_from_as_names ) { res = import_from_as_names_var; goto done; } p->mark = mark; } { // '*' Token * literal; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' ) { res = _PyPegen_singleton_seq ( p , CHECK ( _PyPegen_alias_for_star ( p ) ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // import_from_as_names: ','.import_from_as_name+ static asdl_seq* import_from_as_names_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // ','.import_from_as_name+ asdl_seq * a; if ( (a = _gather_32_rule(p)) // ','.import_from_as_name+ ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // import_from_as_name: NAME ['as' NAME] static alias_ty import_from_as_name_rule(Parser *p) { if (p->error_indicator) { return NULL; } alias_ty res = NULL; int mark = p->mark; { // NAME ['as' NAME] expr_ty a; void *b; if ( (a = _PyPegen_name_token(p)) // NAME && (b = _tmp_34_rule(p), 1) // ['as' NAME] ) { res = _Py_alias ( a -> v . Name . id , ( b ) ? ( ( expr_ty ) b ) -> v . Name . id : NULL , p -> arena ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // dotted_as_names: ','.dotted_as_name+ static asdl_seq* dotted_as_names_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // ','.dotted_as_name+ asdl_seq * a; if ( (a = _gather_35_rule(p)) // ','.dotted_as_name+ ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // dotted_as_name: dotted_name ['as' NAME] static alias_ty dotted_as_name_rule(Parser *p) { if (p->error_indicator) { return NULL; } alias_ty res = NULL; int mark = p->mark; { // dotted_name ['as' NAME] expr_ty a; void *b; if ( (a = dotted_name_rule(p)) // dotted_name && (b = _tmp_37_rule(p), 1) // ['as' NAME] ) { res = _Py_alias ( a -> v . Name . id , ( b ) ? ( ( expr_ty ) b ) -> v . Name . id : NULL , p -> arena ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // Left-recursive // dotted_name: dotted_name '.' NAME | NAME static expr_ty dotted_name_raw(Parser *); static expr_ty dotted_name_rule(Parser *p) { expr_ty res = NULL; if (_PyPegen_is_memoized(p, dotted_name_type, &res)) return res; int mark = p->mark; int resmark = p->mark; while (1) { int tmpvar_0 = _PyPegen_update_memo(p, mark, dotted_name_type, res); if (tmpvar_0) { return res; } p->mark = mark; void *raw = dotted_name_raw(p); if (raw == NULL || p->mark <= resmark) break; resmark = p->mark; res = raw; } p->mark = resmark; return res; } static expr_ty dotted_name_raw(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; { // dotted_name '.' NAME expr_ty a; expr_ty b; Token * literal; if ( (a = dotted_name_rule(p)) // dotted_name && (literal = _PyPegen_expect_token(p, 23)) // token='.' && (b = _PyPegen_name_token(p)) // NAME ) { res = _PyPegen_join_names_with_dot ( p , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // NAME expr_ty name_var; if ( (name_var = _PyPegen_name_token(p)) // NAME ) { res = name_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // if_stmt: // | 'if' named_expression ':' block elif_stmt // | 'if' named_expression ':' block else_block? static stmt_ty if_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'if' named_expression ':' block elif_stmt expr_ty a; asdl_seq* b; stmt_ty c; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 510)) // token='if' && (a = named_expression_rule(p)) // named_expression && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block && (c = elif_stmt_rule(p)) // elif_stmt ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_If ( a , b , CHECK ( _PyPegen_singleton_seq ( p , c ) ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'if' named_expression ':' block else_block? expr_ty a; asdl_seq* b; void *c; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 510)) // token='if' && (a = named_expression_rule(p)) // named_expression && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block && (c = else_block_rule(p), 1) // else_block? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_If ( a , b , c , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // elif_stmt: // | 'elif' named_expression ':' block elif_stmt // | 'elif' named_expression ':' block else_block? static stmt_ty elif_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'elif' named_expression ':' block elif_stmt expr_ty a; asdl_seq* b; stmt_ty c; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 515)) // token='elif' && (a = named_expression_rule(p)) // named_expression && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block && (c = elif_stmt_rule(p)) // elif_stmt ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_If ( a , b , CHECK ( _PyPegen_singleton_seq ( p , c ) ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'elif' named_expression ':' block else_block? expr_ty a; asdl_seq* b; void *c; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 515)) // token='elif' && (a = named_expression_rule(p)) // named_expression && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block && (c = else_block_rule(p), 1) // else_block? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_If ( a , b , c , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // else_block: 'else' ':' block static asdl_seq* else_block_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // 'else' ':' block asdl_seq* b; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 516)) // token='else' && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block ) { res = b; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // while_stmt: 'while' named_expression ':' block else_block? static stmt_ty while_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'while' named_expression ':' block else_block? expr_ty a; asdl_seq* b; void *c; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 512)) // token='while' && (a = named_expression_rule(p)) // named_expression && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block && (c = else_block_rule(p), 1) // else_block? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_While ( a , b , c , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // for_stmt: // | 'for' star_targets 'in' star_expressions ':' TYPE_COMMENT? block else_block? // | ASYNC 'for' star_targets 'in' star_expressions ':' TYPE_COMMENT? block else_block? static stmt_ty for_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'for' star_targets 'in' star_expressions ':' TYPE_COMMENT? block else_block? asdl_seq* b; void *el; expr_ty ex; Token * keyword; Token * keyword_1; Token * literal; expr_ty t; void *tc; if ( (keyword = _PyPegen_expect_token(p, 517)) // token='for' && (t = star_targets_rule(p)) // star_targets && (keyword_1 = _PyPegen_expect_token(p, 518)) // token='in' && (ex = star_expressions_rule(p)) // star_expressions && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (tc = _PyPegen_expect_token(p, TYPE_COMMENT), 1) // TYPE_COMMENT? && (b = block_rule(p)) // block && (el = else_block_rule(p), 1) // else_block? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_For ( t , ex , b , el , NEW_TYPE_COMMENT ( p , tc ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ASYNC 'for' star_targets 'in' star_expressions ':' TYPE_COMMENT? block else_block? Token * async_var; asdl_seq* b; void *el; expr_ty ex; Token * keyword; Token * keyword_1; Token * literal; expr_ty t; void *tc; if ( (async_var = _PyPegen_expect_token(p, ASYNC)) // token='ASYNC' && (keyword = _PyPegen_expect_token(p, 517)) // token='for' && (t = star_targets_rule(p)) // star_targets && (keyword_1 = _PyPegen_expect_token(p, 518)) // token='in' && (ex = star_expressions_rule(p)) // star_expressions && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (tc = _PyPegen_expect_token(p, TYPE_COMMENT), 1) // TYPE_COMMENT? && (b = block_rule(p)) // block && (el = else_block_rule(p), 1) // else_block? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = CHECK_VERSION ( 5 , "Async for loops are" , _Py_AsyncFor ( t , ex , b , el , NEW_TYPE_COMMENT ( p , tc ) , EXTRA ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // with_stmt: // | 'with' '(' ','.with_item+ ','? ')' ':' block // | 'with' ','.with_item+ ':' TYPE_COMMENT? block // | ASYNC 'with' '(' ','.with_item+ ','? ')' ':' block // | ASYNC 'with' ','.with_item+ ':' TYPE_COMMENT? block static stmt_ty with_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'with' '(' ','.with_item+ ','? ')' ':' block asdl_seq * a; asdl_seq* b; Token * keyword; Token * literal; Token * literal_1; Token * literal_2; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (keyword = _PyPegen_expect_token(p, 519)) // token='with' && (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = _gather_38_rule(p)) // ','.with_item+ && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' && (literal_2 = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_With ( a , b , NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'with' ','.with_item+ ':' TYPE_COMMENT? block asdl_seq * a; asdl_seq* b; Token * keyword; Token * literal; void *tc; if ( (keyword = _PyPegen_expect_token(p, 519)) // token='with' && (a = _gather_40_rule(p)) // ','.with_item+ && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (tc = _PyPegen_expect_token(p, TYPE_COMMENT), 1) // TYPE_COMMENT? && (b = block_rule(p)) // block ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_With ( a , b , NEW_TYPE_COMMENT ( p , tc ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ASYNC 'with' '(' ','.with_item+ ','? ')' ':' block asdl_seq * a; Token * async_var; asdl_seq* b; Token * keyword; Token * literal; Token * literal_1; Token * literal_2; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (async_var = _PyPegen_expect_token(p, ASYNC)) // token='ASYNC' && (keyword = _PyPegen_expect_token(p, 519)) // token='with' && (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = _gather_42_rule(p)) // ','.with_item+ && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' && (literal_2 = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = CHECK_VERSION ( 5 , "Async with statements are" , _Py_AsyncWith ( a , b , NULL , EXTRA ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ASYNC 'with' ','.with_item+ ':' TYPE_COMMENT? block asdl_seq * a; Token * async_var; asdl_seq* b; Token * keyword; Token * literal; void *tc; if ( (async_var = _PyPegen_expect_token(p, ASYNC)) // token='ASYNC' && (keyword = _PyPegen_expect_token(p, 519)) // token='with' && (a = _gather_44_rule(p)) // ','.with_item+ && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (tc = _PyPegen_expect_token(p, TYPE_COMMENT), 1) // TYPE_COMMENT? && (b = block_rule(p)) // block ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = CHECK_VERSION ( 5 , "Async with statements are" , _Py_AsyncWith ( a , b , NEW_TYPE_COMMENT ( p , tc ) , EXTRA ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // with_item: expression ['as' target] static withitem_ty with_item_rule(Parser *p) { if (p->error_indicator) { return NULL; } withitem_ty res = NULL; int mark = p->mark; { // expression ['as' target] expr_ty e; void *o; if ( (e = expression_rule(p)) // expression && (o = _tmp_46_rule(p), 1) // ['as' target] ) { res = _Py_withitem ( e , o , p -> arena ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // try_stmt: // | 'try' ':' block finally_block // | 'try' ':' block except_block+ else_block? finally_block? static stmt_ty try_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'try' ':' block finally_block asdl_seq* b; asdl_seq* f; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 511)) // token='try' && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block && (f = finally_block_rule(p)) // finally_block ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Try ( b , NULL , NULL , f , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'try' ':' block except_block+ else_block? finally_block? asdl_seq* b; void *el; asdl_seq * ex; void *f; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 511)) // token='try' && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block && (ex = _loop1_47_rule(p)) // except_block+ && (el = else_block_rule(p), 1) // else_block? && (f = finally_block_rule(p), 1) // finally_block? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Try ( b , ex , el , f , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // except_block: 'except' expression ['as' target] ':' block | 'except' ':' block static excepthandler_ty except_block_rule(Parser *p) { if (p->error_indicator) { return NULL; } excepthandler_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'except' expression ['as' target] ':' block asdl_seq* b; expr_ty e; Token * keyword; Token * literal; void *t; if ( (keyword = _PyPegen_expect_token(p, 520)) // token='except' && (e = expression_rule(p)) // expression && (t = _tmp_48_rule(p), 1) // ['as' target] && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_ExceptHandler ( e , ( t ) ? ( ( expr_ty ) t ) -> v . Name . id : NULL , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'except' ':' block asdl_seq* b; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 520)) // token='except' && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = block_rule(p)) // block ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_ExceptHandler ( NULL , NULL , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // finally_block: 'finally' ':' block static asdl_seq* finally_block_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // 'finally' ':' block asdl_seq* a; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 521)) // token='finally' && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (a = block_rule(p)) // block ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // return_stmt: 'return' star_expressions? static stmt_ty return_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'return' star_expressions? void *a; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 500)) // token='return' && (a = star_expressions_rule(p), 1) // star_expressions? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Return ( a , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // raise_stmt: 'raise' expression ['from' expression] | 'raise' static stmt_ty raise_stmt_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'raise' expression ['from' expression] expr_ty a; void *b; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 501)) // token='raise' && (a = expression_rule(p)) // expression && (b = _tmp_49_rule(p), 1) // ['from' expression] ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Raise ( a , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'raise' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 501)) // token='raise' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Raise ( NULL , NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // function_def: decorators function_def_raw | function_def_raw static stmt_ty function_def_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; { // decorators function_def_raw asdl_seq* d; stmt_ty f; if ( (d = decorators_rule(p)) // decorators && (f = function_def_raw_rule(p)) // function_def_raw ) { res = _PyPegen_function_def_decorators ( p , d , f ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // function_def_raw stmt_ty function_def_raw_var; if ( (function_def_raw_var = function_def_raw_rule(p)) // function_def_raw ) { res = function_def_raw_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // function_def_raw: // | 'def' NAME '(' params? ')' ['->' expression] ':' func_type_comment? block // | ASYNC 'def' NAME '(' params? ')' ['->' expression] ':' func_type_comment? block static stmt_ty function_def_raw_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'def' NAME '(' params? ')' ['->' expression] ':' func_type_comment? block void *a; asdl_seq* b; Token * keyword; Token * literal; Token * literal_1; Token * literal_2; expr_ty n; void *params; void *tc; if ( (keyword = _PyPegen_expect_token(p, 522)) // token='def' && (n = _PyPegen_name_token(p)) // NAME && (literal = _PyPegen_expect_token(p, 7)) // token='(' && (params = params_rule(p), 1) // params? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' && (a = _tmp_50_rule(p), 1) // ['->' expression] && (literal_2 = _PyPegen_expect_token(p, 11)) // token=':' && (tc = func_type_comment_rule(p), 1) // func_type_comment? && (b = block_rule(p)) // block ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_FunctionDef ( n -> v . Name . id , ( params ) ? params : CHECK ( _PyPegen_empty_arguments ( p ) ) , b , NULL , a , NEW_TYPE_COMMENT ( p , tc ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ASYNC 'def' NAME '(' params? ')' ['->' expression] ':' func_type_comment? block void *a; Token * async_var; asdl_seq* b; Token * keyword; Token * literal; Token * literal_1; Token * literal_2; expr_ty n; void *params; void *tc; if ( (async_var = _PyPegen_expect_token(p, ASYNC)) // token='ASYNC' && (keyword = _PyPegen_expect_token(p, 522)) // token='def' && (n = _PyPegen_name_token(p)) // NAME && (literal = _PyPegen_expect_token(p, 7)) // token='(' && (params = params_rule(p), 1) // params? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' && (a = _tmp_51_rule(p), 1) // ['->' expression] && (literal_2 = _PyPegen_expect_token(p, 11)) // token=':' && (tc = func_type_comment_rule(p), 1) // func_type_comment? && (b = block_rule(p)) // block ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = CHECK_VERSION ( 5 , "Async functions are" , _Py_AsyncFunctionDef ( n -> v . Name . id , ( params ) ? params : CHECK ( _PyPegen_empty_arguments ( p ) ) , b , NULL , a , NEW_TYPE_COMMENT ( p , tc ) , EXTRA ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // func_type_comment: // | NEWLINE TYPE_COMMENT &(NEWLINE INDENT) // | invalid_double_type_comments // | TYPE_COMMENT static Token* func_type_comment_rule(Parser *p) { if (p->error_indicator) { return NULL; } Token* res = NULL; int mark = p->mark; { // NEWLINE TYPE_COMMENT &(NEWLINE INDENT) Token * newline_var; Token * t; if ( (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' && (t = _PyPegen_expect_token(p, TYPE_COMMENT)) // token='TYPE_COMMENT' && _PyPegen_lookahead(1, _tmp_52_rule, p) ) { res = t; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // invalid_double_type_comments void *invalid_double_type_comments_var; if ( (invalid_double_type_comments_var = invalid_double_type_comments_rule(p)) // invalid_double_type_comments ) { res = invalid_double_type_comments_var; goto done; } p->mark = mark; } { // TYPE_COMMENT Token * type_comment_var; if ( (type_comment_var = _PyPegen_expect_token(p, TYPE_COMMENT)) // token='TYPE_COMMENT' ) { res = type_comment_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // params: invalid_parameters | parameters static arguments_ty params_rule(Parser *p) { if (p->error_indicator) { return NULL; } arguments_ty res = NULL; int mark = p->mark; { // invalid_parameters void *invalid_parameters_var; if ( (invalid_parameters_var = invalid_parameters_rule(p)) // invalid_parameters ) { res = invalid_parameters_var; goto done; } p->mark = mark; } { // parameters arguments_ty parameters_var; if ( (parameters_var = parameters_rule(p)) // parameters ) { res = parameters_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // parameters: // | slash_no_default param_no_default* param_with_default* star_etc? // | slash_with_default param_with_default* star_etc? // | param_no_default+ param_with_default* star_etc? // | param_with_default+ star_etc? // | star_etc static arguments_ty parameters_rule(Parser *p) { if (p->error_indicator) { return NULL; } arguments_ty res = NULL; int mark = p->mark; { // slash_no_default param_no_default* param_with_default* star_etc? asdl_seq* a; asdl_seq * b; asdl_seq * c; void *d; if ( (a = slash_no_default_rule(p)) // slash_no_default && (b = _loop0_53_rule(p)) // param_no_default* && (c = _loop0_54_rule(p)) // param_with_default* && (d = star_etc_rule(p), 1) // star_etc? ) { res = _PyPegen_make_arguments ( p , a , NULL , b , c , d ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // slash_with_default param_with_default* star_etc? SlashWithDefault* a; asdl_seq * b; void *c; if ( (a = slash_with_default_rule(p)) // slash_with_default && (b = _loop0_55_rule(p)) // param_with_default* && (c = star_etc_rule(p), 1) // star_etc? ) { res = _PyPegen_make_arguments ( p , NULL , a , NULL , b , c ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // param_no_default+ param_with_default* star_etc? asdl_seq * a; asdl_seq * b; void *c; if ( (a = _loop1_56_rule(p)) // param_no_default+ && (b = _loop0_57_rule(p)) // param_with_default* && (c = star_etc_rule(p), 1) // star_etc? ) { res = _PyPegen_make_arguments ( p , NULL , NULL , a , b , c ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // param_with_default+ star_etc? asdl_seq * a; void *b; if ( (a = _loop1_58_rule(p)) // param_with_default+ && (b = star_etc_rule(p), 1) // star_etc? ) { res = _PyPegen_make_arguments ( p , NULL , NULL , NULL , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // star_etc StarEtc* a; if ( (a = star_etc_rule(p)) // star_etc ) { res = _PyPegen_make_arguments ( p , NULL , NULL , NULL , NULL , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // slash_no_default: param_no_default+ '/' ',' | param_no_default+ '/' &')' static asdl_seq* slash_no_default_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // param_no_default+ '/' ',' asdl_seq * a; Token * literal; Token * literal_1; if ( (a = _loop1_59_rule(p)) // param_no_default+ && (literal = _PyPegen_expect_token(p, 17)) // token='/' && (literal_1 = _PyPegen_expect_token(p, 12)) // token=',' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // param_no_default+ '/' &')' asdl_seq * a; Token * literal; if ( (a = _loop1_60_rule(p)) // param_no_default+ && (literal = _PyPegen_expect_token(p, 17)) // token='/' && _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 8) // token=')' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // slash_with_default: // | param_no_default* param_with_default+ '/' ',' // | param_no_default* param_with_default+ '/' &')' static SlashWithDefault* slash_with_default_rule(Parser *p) { if (p->error_indicator) { return NULL; } SlashWithDefault* res = NULL; int mark = p->mark; { // param_no_default* param_with_default+ '/' ',' asdl_seq * a; asdl_seq * b; Token * literal; Token * literal_1; if ( (a = _loop0_61_rule(p)) // param_no_default* && (b = _loop1_62_rule(p)) // param_with_default+ && (literal = _PyPegen_expect_token(p, 17)) // token='/' && (literal_1 = _PyPegen_expect_token(p, 12)) // token=',' ) { res = _PyPegen_slash_with_default ( p , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // param_no_default* param_with_default+ '/' &')' asdl_seq * a; asdl_seq * b; Token * literal; if ( (a = _loop0_63_rule(p)) // param_no_default* && (b = _loop1_64_rule(p)) // param_with_default+ && (literal = _PyPegen_expect_token(p, 17)) // token='/' && _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 8) // token=')' ) { res = _PyPegen_slash_with_default ( p , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // star_etc: // | '*' param_no_default param_maybe_default* kwds? // | '*' ',' param_maybe_default+ kwds? // | kwds // | invalid_star_etc static StarEtc* star_etc_rule(Parser *p) { if (p->error_indicator) { return NULL; } StarEtc* res = NULL; int mark = p->mark; { // '*' param_no_default param_maybe_default* kwds? arg_ty a; asdl_seq * b; void *c; Token * literal; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (a = param_no_default_rule(p)) // param_no_default && (b = _loop0_65_rule(p)) // param_maybe_default* && (c = kwds_rule(p), 1) // kwds? ) { res = _PyPegen_star_etc ( p , a , b , c ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '*' ',' param_maybe_default+ kwds? asdl_seq * b; void *c; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (literal_1 = _PyPegen_expect_token(p, 12)) // token=',' && (b = _loop1_66_rule(p)) // param_maybe_default+ && (c = kwds_rule(p), 1) // kwds? ) { res = _PyPegen_star_etc ( p , NULL , b , c ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // kwds arg_ty a; if ( (a = kwds_rule(p)) // kwds ) { res = _PyPegen_star_etc ( p , NULL , NULL , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // invalid_star_etc void *invalid_star_etc_var; if ( (invalid_star_etc_var = invalid_star_etc_rule(p)) // invalid_star_etc ) { res = invalid_star_etc_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // kwds: '**' param_no_default static arg_ty kwds_rule(Parser *p) { if (p->error_indicator) { return NULL; } arg_ty res = NULL; int mark = p->mark; { // '**' param_no_default arg_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 35)) // token='**' && (a = param_no_default_rule(p)) // param_no_default ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // param_no_default: param ',' TYPE_COMMENT? | param TYPE_COMMENT? &')' static arg_ty param_no_default_rule(Parser *p) { if (p->error_indicator) { return NULL; } arg_ty res = NULL; int mark = p->mark; { // param ',' TYPE_COMMENT? arg_ty a; Token * literal; void *tc; if ( (a = param_rule(p)) // param && (literal = _PyPegen_expect_token(p, 12)) // token=',' && (tc = _PyPegen_expect_token(p, TYPE_COMMENT), 1) // TYPE_COMMENT? ) { res = _PyPegen_add_type_comment_to_arg ( p , a , tc ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // param TYPE_COMMENT? &')' arg_ty a; void *tc; if ( (a = param_rule(p)) // param && (tc = _PyPegen_expect_token(p, TYPE_COMMENT), 1) // TYPE_COMMENT? && _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 8) // token=')' ) { res = _PyPegen_add_type_comment_to_arg ( p , a , tc ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // param_with_default: param default ',' TYPE_COMMENT? | param default TYPE_COMMENT? &')' static NameDefaultPair* param_with_default_rule(Parser *p) { if (p->error_indicator) { return NULL; } NameDefaultPair* res = NULL; int mark = p->mark; { // param default ',' TYPE_COMMENT? arg_ty a; expr_ty c; Token * literal; void *tc; if ( (a = param_rule(p)) // param && (c = default_rule(p)) // default && (literal = _PyPegen_expect_token(p, 12)) // token=',' && (tc = _PyPegen_expect_token(p, TYPE_COMMENT), 1) // TYPE_COMMENT? ) { res = _PyPegen_name_default_pair ( p , a , c , tc ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // param default TYPE_COMMENT? &')' arg_ty a; expr_ty c; void *tc; if ( (a = param_rule(p)) // param && (c = default_rule(p)) // default && (tc = _PyPegen_expect_token(p, TYPE_COMMENT), 1) // TYPE_COMMENT? && _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 8) // token=')' ) { res = _PyPegen_name_default_pair ( p , a , c , tc ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // param_maybe_default: // | param default? ',' TYPE_COMMENT? // | param default? TYPE_COMMENT? &')' static NameDefaultPair* param_maybe_default_rule(Parser *p) { if (p->error_indicator) { return NULL; } NameDefaultPair* res = NULL; int mark = p->mark; { // param default? ',' TYPE_COMMENT? arg_ty a; void *c; Token * literal; void *tc; if ( (a = param_rule(p)) // param && (c = default_rule(p), 1) // default? && (literal = _PyPegen_expect_token(p, 12)) // token=',' && (tc = _PyPegen_expect_token(p, TYPE_COMMENT), 1) // TYPE_COMMENT? ) { res = _PyPegen_name_default_pair ( p , a , c , tc ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // param default? TYPE_COMMENT? &')' arg_ty a; void *c; void *tc; if ( (a = param_rule(p)) // param && (c = default_rule(p), 1) // default? && (tc = _PyPegen_expect_token(p, TYPE_COMMENT), 1) // TYPE_COMMENT? && _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 8) // token=')' ) { res = _PyPegen_name_default_pair ( p , a , c , tc ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // param: NAME annotation? static arg_ty param_rule(Parser *p) { if (p->error_indicator) { return NULL; } arg_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // NAME annotation? expr_ty a; void *b; if ( (a = _PyPegen_name_token(p)) // NAME && (b = annotation_rule(p), 1) // annotation? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_arg ( a -> v . Name . id , b , NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // annotation: ':' expression static expr_ty annotation_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; { // ':' expression expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 11)) // token=':' && (a = expression_rule(p)) // expression ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // default: '=' expression static expr_ty default_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; { // '=' expression expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 22)) // token='=' && (a = expression_rule(p)) // expression ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // decorators: (('@' named_expression NEWLINE))+ static asdl_seq* decorators_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // (('@' named_expression NEWLINE))+ asdl_seq * a; if ( (a = _loop1_67_rule(p)) // (('@' named_expression NEWLINE))+ ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // class_def: decorators class_def_raw | class_def_raw static stmt_ty class_def_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; { // decorators class_def_raw asdl_seq* a; stmt_ty b; if ( (a = decorators_rule(p)) // decorators && (b = class_def_raw_rule(p)) // class_def_raw ) { res = _PyPegen_class_def_decorators ( p , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // class_def_raw stmt_ty class_def_raw_var; if ( (class_def_raw_var = class_def_raw_rule(p)) // class_def_raw ) { res = class_def_raw_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // class_def_raw: 'class' NAME ['(' arguments? ')'] ':' block static stmt_ty class_def_raw_rule(Parser *p) { if (p->error_indicator) { return NULL; } stmt_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'class' NAME ['(' arguments? ')'] ':' block expr_ty a; void *b; asdl_seq* c; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 523)) // token='class' && (a = _PyPegen_name_token(p)) // NAME && (b = _tmp_68_rule(p), 1) // ['(' arguments? ')'] && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (c = block_rule(p)) // block ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_ClassDef ( a -> v . Name . id , ( b ) ? ( ( expr_ty ) b ) -> v . Call . args : NULL , ( b ) ? ( ( expr_ty ) b ) -> v . Call . keywords : NULL , c , NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // block: NEWLINE INDENT statements DEDENT | simple_stmt | invalid_block static asdl_seq* block_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; if (_PyPegen_is_memoized(p, block_type, &res)) return res; int mark = p->mark; { // NEWLINE INDENT statements DEDENT asdl_seq* a; Token * dedent_var; Token * indent_var; Token * newline_var; if ( (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' && (indent_var = _PyPegen_expect_token(p, INDENT)) // token='INDENT' && (a = statements_rule(p)) // statements && (dedent_var = _PyPegen_expect_token(p, DEDENT)) // token='DEDENT' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // simple_stmt asdl_seq* simple_stmt_var; if ( (simple_stmt_var = simple_stmt_rule(p)) // simple_stmt ) { res = simple_stmt_var; goto done; } p->mark = mark; } { // invalid_block void *invalid_block_var; if ( (invalid_block_var = invalid_block_rule(p)) // invalid_block ) { res = invalid_block_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, block_type, res); return res; } // expressions_list: ','.star_expression+ ','? static asdl_seq* expressions_list_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // ','.star_expression+ ','? asdl_seq * a; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = _gather_69_rule(p)) // ','.star_expression+ && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // star_expressions: // | star_expression ((',' star_expression))+ ','? // | star_expression ',' // | star_expression static expr_ty star_expressions_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // star_expression ((',' star_expression))+ ','? expr_ty a; asdl_seq * b; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = star_expression_rule(p)) // star_expression && (b = _loop1_71_rule(p)) // ((',' star_expression))+ && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Tuple ( CHECK ( _PyPegen_seq_insert_in_front ( p , a , b ) ) , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // star_expression ',' expr_ty a; Token * literal; if ( (a = star_expression_rule(p)) // star_expression && (literal = _PyPegen_expect_token(p, 12)) // token=',' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Tuple ( CHECK ( _PyPegen_singleton_seq ( p , a ) ) , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // star_expression expr_ty star_expression_var; if ( (star_expression_var = star_expression_rule(p)) // star_expression ) { res = star_expression_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // star_expression: '*' bitwise_or | expression static expr_ty star_expression_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, star_expression_type, &res)) return res; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '*' bitwise_or expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (a = bitwise_or_rule(p)) // bitwise_or ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Starred ( a , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // expression expr_ty expression_var; if ( (expression_var = expression_rule(p)) // expression ) { res = expression_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, star_expression_type, res); return res; } // star_named_expressions: ','.star_named_expression+ ','? static asdl_seq* star_named_expressions_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // ','.star_named_expression+ ','? asdl_seq * a; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = _gather_72_rule(p)) // ','.star_named_expression+ && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // star_named_expression: '*' bitwise_or | named_expression static expr_ty star_named_expression_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '*' bitwise_or expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (a = bitwise_or_rule(p)) // bitwise_or ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Starred ( a , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // named_expression expr_ty named_expression_var; if ( (named_expression_var = named_expression_rule(p)) // named_expression ) { res = named_expression_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // named_expression: NAME ':=' expression | expression !':=' | invalid_named_expression static expr_ty named_expression_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // NAME ':=' expression expr_ty a; expr_ty b; Token * literal; if ( (a = _PyPegen_name_token(p)) // NAME && (literal = _PyPegen_expect_token(p, 53)) // token=':=' && (b = expression_rule(p)) // expression ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_NamedExpr ( CHECK ( _PyPegen_set_expr_context ( p , a , Store ) ) , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // expression !':=' expr_ty expression_var; if ( (expression_var = expression_rule(p)) // expression && _PyPegen_lookahead_with_int(0, _PyPegen_expect_token, p, 53) // token=':=' ) { res = expression_var; goto done; } p->mark = mark; } { // invalid_named_expression void *invalid_named_expression_var; if ( (invalid_named_expression_var = invalid_named_expression_rule(p)) // invalid_named_expression ) { res = invalid_named_expression_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // annotated_rhs: yield_expr | star_expressions static expr_ty annotated_rhs_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; { // yield_expr expr_ty yield_expr_var; if ( (yield_expr_var = yield_expr_rule(p)) // yield_expr ) { res = yield_expr_var; goto done; } p->mark = mark; } { // star_expressions expr_ty star_expressions_var; if ( (star_expressions_var = star_expressions_rule(p)) // star_expressions ) { res = star_expressions_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // expressions: expression ((',' expression))+ ','? | expression ',' | expression static expr_ty expressions_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // expression ((',' expression))+ ','? expr_ty a; asdl_seq * b; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = expression_rule(p)) // expression && (b = _loop1_74_rule(p)) // ((',' expression))+ && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Tuple ( CHECK ( _PyPegen_seq_insert_in_front ( p , a , b ) ) , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // expression ',' expr_ty a; Token * literal; if ( (a = expression_rule(p)) // expression && (literal = _PyPegen_expect_token(p, 12)) // token=',' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Tuple ( CHECK ( _PyPegen_singleton_seq ( p , a ) ) , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // expression expr_ty expression_var; if ( (expression_var = expression_rule(p)) // expression ) { res = expression_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // expression: disjunction 'if' disjunction 'else' expression | disjunction | lambdef static expr_ty expression_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, expression_type, &res)) return res; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // disjunction 'if' disjunction 'else' expression expr_ty a; expr_ty b; expr_ty c; Token * keyword; Token * keyword_1; if ( (a = disjunction_rule(p)) // disjunction && (keyword = _PyPegen_expect_token(p, 510)) // token='if' && (b = disjunction_rule(p)) // disjunction && (keyword_1 = _PyPegen_expect_token(p, 516)) // token='else' && (c = expression_rule(p)) // expression ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_IfExp ( b , a , c , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // disjunction expr_ty disjunction_var; if ( (disjunction_var = disjunction_rule(p)) // disjunction ) { res = disjunction_var; goto done; } p->mark = mark; } { // lambdef expr_ty lambdef_var; if ( (lambdef_var = lambdef_rule(p)) // lambdef ) { res = lambdef_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, expression_type, res); return res; } // lambdef: 'lambda' lambda_parameters? ':' expression static expr_ty lambdef_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'lambda' lambda_parameters? ':' expression void *a; expr_ty b; Token * keyword; Token * literal; if ( (keyword = _PyPegen_expect_token(p, 524)) // token='lambda' && (a = lambda_parameters_rule(p), 1) // lambda_parameters? && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = expression_rule(p)) // expression ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Lambda ( ( a ) ? a : CHECK ( _PyPegen_empty_arguments ( p ) ) , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // lambda_parameters: // | lambda_slash_no_default lambda_param_no_default* lambda_param_with_default* lambda_star_etc? // | lambda_slash_with_default lambda_param_with_default* lambda_star_etc? // | lambda_param_no_default+ lambda_param_with_default* lambda_star_etc? // | lambda_param_with_default+ lambda_star_etc? // | lambda_star_etc static arguments_ty lambda_parameters_rule(Parser *p) { if (p->error_indicator) { return NULL; } arguments_ty res = NULL; int mark = p->mark; { // lambda_slash_no_default lambda_param_no_default* lambda_param_with_default* lambda_star_etc? asdl_seq* a; asdl_seq * b; asdl_seq * c; void *d; if ( (a = lambda_slash_no_default_rule(p)) // lambda_slash_no_default && (b = _loop0_75_rule(p)) // lambda_param_no_default* && (c = _loop0_76_rule(p)) // lambda_param_with_default* && (d = lambda_star_etc_rule(p), 1) // lambda_star_etc? ) { res = _PyPegen_make_arguments ( p , a , NULL , b , c , d ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // lambda_slash_with_default lambda_param_with_default* lambda_star_etc? SlashWithDefault* a; asdl_seq * b; void *c; if ( (a = lambda_slash_with_default_rule(p)) // lambda_slash_with_default && (b = _loop0_77_rule(p)) // lambda_param_with_default* && (c = lambda_star_etc_rule(p), 1) // lambda_star_etc? ) { res = _PyPegen_make_arguments ( p , NULL , a , NULL , b , c ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // lambda_param_no_default+ lambda_param_with_default* lambda_star_etc? asdl_seq * a; asdl_seq * b; void *c; if ( (a = _loop1_78_rule(p)) // lambda_param_no_default+ && (b = _loop0_79_rule(p)) // lambda_param_with_default* && (c = lambda_star_etc_rule(p), 1) // lambda_star_etc? ) { res = _PyPegen_make_arguments ( p , NULL , NULL , a , b , c ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // lambda_param_with_default+ lambda_star_etc? asdl_seq * a; void *b; if ( (a = _loop1_80_rule(p)) // lambda_param_with_default+ && (b = lambda_star_etc_rule(p), 1) // lambda_star_etc? ) { res = _PyPegen_make_arguments ( p , NULL , NULL , NULL , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // lambda_star_etc StarEtc* a; if ( (a = lambda_star_etc_rule(p)) // lambda_star_etc ) { res = _PyPegen_make_arguments ( p , NULL , NULL , NULL , NULL , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // lambda_slash_no_default: // | lambda_param_no_default+ '/' ',' // | lambda_param_no_default+ '/' &':' static asdl_seq* lambda_slash_no_default_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // lambda_param_no_default+ '/' ',' asdl_seq * a; Token * literal; Token * literal_1; if ( (a = _loop1_81_rule(p)) // lambda_param_no_default+ && (literal = _PyPegen_expect_token(p, 17)) // token='/' && (literal_1 = _PyPegen_expect_token(p, 12)) // token=',' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // lambda_param_no_default+ '/' &':' asdl_seq * a; Token * literal; if ( (a = _loop1_82_rule(p)) // lambda_param_no_default+ && (literal = _PyPegen_expect_token(p, 17)) // token='/' && _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 11) // token=':' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // lambda_slash_with_default: // | lambda_param_no_default* lambda_param_with_default+ '/' ',' // | lambda_param_no_default* lambda_param_with_default+ '/' &':' static SlashWithDefault* lambda_slash_with_default_rule(Parser *p) { if (p->error_indicator) { return NULL; } SlashWithDefault* res = NULL; int mark = p->mark; { // lambda_param_no_default* lambda_param_with_default+ '/' ',' asdl_seq * a; asdl_seq * b; Token * literal; Token * literal_1; if ( (a = _loop0_83_rule(p)) // lambda_param_no_default* && (b = _loop1_84_rule(p)) // lambda_param_with_default+ && (literal = _PyPegen_expect_token(p, 17)) // token='/' && (literal_1 = _PyPegen_expect_token(p, 12)) // token=',' ) { res = _PyPegen_slash_with_default ( p , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // lambda_param_no_default* lambda_param_with_default+ '/' &':' asdl_seq * a; asdl_seq * b; Token * literal; if ( (a = _loop0_85_rule(p)) // lambda_param_no_default* && (b = _loop1_86_rule(p)) // lambda_param_with_default+ && (literal = _PyPegen_expect_token(p, 17)) // token='/' && _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 11) // token=':' ) { res = _PyPegen_slash_with_default ( p , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // lambda_star_etc: // | '*' lambda_param_no_default lambda_param_maybe_default* lambda_kwds? // | '*' ',' lambda_param_maybe_default+ lambda_kwds? // | lambda_kwds // | invalid_lambda_star_etc static StarEtc* lambda_star_etc_rule(Parser *p) { if (p->error_indicator) { return NULL; } StarEtc* res = NULL; int mark = p->mark; { // '*' lambda_param_no_default lambda_param_maybe_default* lambda_kwds? arg_ty a; asdl_seq * b; void *c; Token * literal; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (a = lambda_param_no_default_rule(p)) // lambda_param_no_default && (b = _loop0_87_rule(p)) // lambda_param_maybe_default* && (c = lambda_kwds_rule(p), 1) // lambda_kwds? ) { res = _PyPegen_star_etc ( p , a , b , c ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '*' ',' lambda_param_maybe_default+ lambda_kwds? asdl_seq * b; void *c; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (literal_1 = _PyPegen_expect_token(p, 12)) // token=',' && (b = _loop1_88_rule(p)) // lambda_param_maybe_default+ && (c = lambda_kwds_rule(p), 1) // lambda_kwds? ) { res = _PyPegen_star_etc ( p , NULL , b , c ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // lambda_kwds arg_ty a; if ( (a = lambda_kwds_rule(p)) // lambda_kwds ) { res = _PyPegen_star_etc ( p , NULL , NULL , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // invalid_lambda_star_etc void *invalid_lambda_star_etc_var; if ( (invalid_lambda_star_etc_var = invalid_lambda_star_etc_rule(p)) // invalid_lambda_star_etc ) { res = invalid_lambda_star_etc_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // lambda_kwds: '**' lambda_param_no_default static arg_ty lambda_kwds_rule(Parser *p) { if (p->error_indicator) { return NULL; } arg_ty res = NULL; int mark = p->mark; { // '**' lambda_param_no_default arg_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 35)) // token='**' && (a = lambda_param_no_default_rule(p)) // lambda_param_no_default ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // lambda_param_no_default: lambda_param ',' | lambda_param &':' static arg_ty lambda_param_no_default_rule(Parser *p) { if (p->error_indicator) { return NULL; } arg_ty res = NULL; int mark = p->mark; { // lambda_param ',' arg_ty a; Token * literal; if ( (a = lambda_param_rule(p)) // lambda_param && (literal = _PyPegen_expect_token(p, 12)) // token=',' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // lambda_param &':' arg_ty a; if ( (a = lambda_param_rule(p)) // lambda_param && _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 11) // token=':' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // lambda_param_with_default: lambda_param default ',' | lambda_param default &':' static NameDefaultPair* lambda_param_with_default_rule(Parser *p) { if (p->error_indicator) { return NULL; } NameDefaultPair* res = NULL; int mark = p->mark; { // lambda_param default ',' arg_ty a; expr_ty c; Token * literal; if ( (a = lambda_param_rule(p)) // lambda_param && (c = default_rule(p)) // default && (literal = _PyPegen_expect_token(p, 12)) // token=',' ) { res = _PyPegen_name_default_pair ( p , a , c , NULL ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // lambda_param default &':' arg_ty a; expr_ty c; if ( (a = lambda_param_rule(p)) // lambda_param && (c = default_rule(p)) // default && _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 11) // token=':' ) { res = _PyPegen_name_default_pair ( p , a , c , NULL ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // lambda_param_maybe_default: lambda_param default? ',' | lambda_param default? &':' static NameDefaultPair* lambda_param_maybe_default_rule(Parser *p) { if (p->error_indicator) { return NULL; } NameDefaultPair* res = NULL; int mark = p->mark; { // lambda_param default? ',' arg_ty a; void *c; Token * literal; if ( (a = lambda_param_rule(p)) // lambda_param && (c = default_rule(p), 1) // default? && (literal = _PyPegen_expect_token(p, 12)) // token=',' ) { res = _PyPegen_name_default_pair ( p , a , c , NULL ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // lambda_param default? &':' arg_ty a; void *c; if ( (a = lambda_param_rule(p)) // lambda_param && (c = default_rule(p), 1) // default? && _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 11) // token=':' ) { res = _PyPegen_name_default_pair ( p , a , c , NULL ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // lambda_param: NAME static arg_ty lambda_param_rule(Parser *p) { if (p->error_indicator) { return NULL; } arg_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // NAME expr_ty a; if ( (a = _PyPegen_name_token(p)) // NAME ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_arg ( a -> v . Name . id , NULL , NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // disjunction: conjunction (('or' conjunction))+ | conjunction static expr_ty disjunction_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, disjunction_type, &res)) return res; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // conjunction (('or' conjunction))+ expr_ty a; asdl_seq * b; if ( (a = conjunction_rule(p)) // conjunction && (b = _loop1_89_rule(p)) // (('or' conjunction))+ ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BoolOp ( Or , CHECK ( _PyPegen_seq_insert_in_front ( p , a , b ) ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // conjunction expr_ty conjunction_var; if ( (conjunction_var = conjunction_rule(p)) // conjunction ) { res = conjunction_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, disjunction_type, res); return res; } // conjunction: inversion (('and' inversion))+ | inversion static expr_ty conjunction_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, conjunction_type, &res)) return res; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // inversion (('and' inversion))+ expr_ty a; asdl_seq * b; if ( (a = inversion_rule(p)) // inversion && (b = _loop1_90_rule(p)) // (('and' inversion))+ ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BoolOp ( And , CHECK ( _PyPegen_seq_insert_in_front ( p , a , b ) ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // inversion expr_ty inversion_var; if ( (inversion_var = inversion_rule(p)) // inversion ) { res = inversion_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, conjunction_type, res); return res; } // inversion: 'not' inversion | comparison static expr_ty inversion_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, inversion_type, &res)) return res; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'not' inversion expr_ty a; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 525)) // token='not' && (a = inversion_rule(p)) // inversion ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_UnaryOp ( Not , a , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // comparison expr_ty comparison_var; if ( (comparison_var = comparison_rule(p)) // comparison ) { res = comparison_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, inversion_type, res); return res; } // comparison: bitwise_or compare_op_bitwise_or_pair+ | bitwise_or static expr_ty comparison_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // bitwise_or compare_op_bitwise_or_pair+ expr_ty a; asdl_seq * b; if ( (a = bitwise_or_rule(p)) // bitwise_or && (b = _loop1_91_rule(p)) // compare_op_bitwise_or_pair+ ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Compare ( a , CHECK ( _PyPegen_get_cmpops ( p , b ) ) , CHECK ( _PyPegen_get_exprs ( p , b ) ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // bitwise_or expr_ty bitwise_or_var; if ( (bitwise_or_var = bitwise_or_rule(p)) // bitwise_or ) { res = bitwise_or_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // compare_op_bitwise_or_pair: // | eq_bitwise_or // | noteq_bitwise_or // | lte_bitwise_or // | lt_bitwise_or // | gte_bitwise_or // | gt_bitwise_or // | notin_bitwise_or // | in_bitwise_or // | isnot_bitwise_or // | is_bitwise_or static CmpopExprPair* compare_op_bitwise_or_pair_rule(Parser *p) { if (p->error_indicator) { return NULL; } CmpopExprPair* res = NULL; int mark = p->mark; { // eq_bitwise_or CmpopExprPair* eq_bitwise_or_var; if ( (eq_bitwise_or_var = eq_bitwise_or_rule(p)) // eq_bitwise_or ) { res = eq_bitwise_or_var; goto done; } p->mark = mark; } { // noteq_bitwise_or CmpopExprPair* noteq_bitwise_or_var; if ( (noteq_bitwise_or_var = noteq_bitwise_or_rule(p)) // noteq_bitwise_or ) { res = noteq_bitwise_or_var; goto done; } p->mark = mark; } { // lte_bitwise_or CmpopExprPair* lte_bitwise_or_var; if ( (lte_bitwise_or_var = lte_bitwise_or_rule(p)) // lte_bitwise_or ) { res = lte_bitwise_or_var; goto done; } p->mark = mark; } { // lt_bitwise_or CmpopExprPair* lt_bitwise_or_var; if ( (lt_bitwise_or_var = lt_bitwise_or_rule(p)) // lt_bitwise_or ) { res = lt_bitwise_or_var; goto done; } p->mark = mark; } { // gte_bitwise_or CmpopExprPair* gte_bitwise_or_var; if ( (gte_bitwise_or_var = gte_bitwise_or_rule(p)) // gte_bitwise_or ) { res = gte_bitwise_or_var; goto done; } p->mark = mark; } { // gt_bitwise_or CmpopExprPair* gt_bitwise_or_var; if ( (gt_bitwise_or_var = gt_bitwise_or_rule(p)) // gt_bitwise_or ) { res = gt_bitwise_or_var; goto done; } p->mark = mark; } { // notin_bitwise_or CmpopExprPair* notin_bitwise_or_var; if ( (notin_bitwise_or_var = notin_bitwise_or_rule(p)) // notin_bitwise_or ) { res = notin_bitwise_or_var; goto done; } p->mark = mark; } { // in_bitwise_or CmpopExprPair* in_bitwise_or_var; if ( (in_bitwise_or_var = in_bitwise_or_rule(p)) // in_bitwise_or ) { res = in_bitwise_or_var; goto done; } p->mark = mark; } { // isnot_bitwise_or CmpopExprPair* isnot_bitwise_or_var; if ( (isnot_bitwise_or_var = isnot_bitwise_or_rule(p)) // isnot_bitwise_or ) { res = isnot_bitwise_or_var; goto done; } p->mark = mark; } { // is_bitwise_or CmpopExprPair* is_bitwise_or_var; if ( (is_bitwise_or_var = is_bitwise_or_rule(p)) // is_bitwise_or ) { res = is_bitwise_or_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // eq_bitwise_or: '==' bitwise_or static CmpopExprPair* eq_bitwise_or_rule(Parser *p) { if (p->error_indicator) { return NULL; } CmpopExprPair* res = NULL; int mark = p->mark; { // '==' bitwise_or expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 27)) // token='==' && (a = bitwise_or_rule(p)) // bitwise_or ) { res = _PyPegen_cmpop_expr_pair ( p , Eq , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // noteq_bitwise_or: ('!=') bitwise_or static CmpopExprPair* noteq_bitwise_or_rule(Parser *p) { if (p->error_indicator) { return NULL; } CmpopExprPair* res = NULL; int mark = p->mark; { // ('!=') bitwise_or void *_tmp_92_var; expr_ty a; if ( (_tmp_92_var = _tmp_92_rule(p)) // '!=' && (a = bitwise_or_rule(p)) // bitwise_or ) { res = _PyPegen_cmpop_expr_pair ( p , NotEq , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // lte_bitwise_or: '<=' bitwise_or static CmpopExprPair* lte_bitwise_or_rule(Parser *p) { if (p->error_indicator) { return NULL; } CmpopExprPair* res = NULL; int mark = p->mark; { // '<=' bitwise_or expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 29)) // token='<=' && (a = bitwise_or_rule(p)) // bitwise_or ) { res = _PyPegen_cmpop_expr_pair ( p , LtE , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // lt_bitwise_or: '<' bitwise_or static CmpopExprPair* lt_bitwise_or_rule(Parser *p) { if (p->error_indicator) { return NULL; } CmpopExprPair* res = NULL; int mark = p->mark; { // '<' bitwise_or expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 20)) // token='<' && (a = bitwise_or_rule(p)) // bitwise_or ) { res = _PyPegen_cmpop_expr_pair ( p , Lt , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // gte_bitwise_or: '>=' bitwise_or static CmpopExprPair* gte_bitwise_or_rule(Parser *p) { if (p->error_indicator) { return NULL; } CmpopExprPair* res = NULL; int mark = p->mark; { // '>=' bitwise_or expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 30)) // token='>=' && (a = bitwise_or_rule(p)) // bitwise_or ) { res = _PyPegen_cmpop_expr_pair ( p , GtE , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // gt_bitwise_or: '>' bitwise_or static CmpopExprPair* gt_bitwise_or_rule(Parser *p) { if (p->error_indicator) { return NULL; } CmpopExprPair* res = NULL; int mark = p->mark; { // '>' bitwise_or expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 21)) // token='>' && (a = bitwise_or_rule(p)) // bitwise_or ) { res = _PyPegen_cmpop_expr_pair ( p , Gt , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // notin_bitwise_or: 'not' 'in' bitwise_or static CmpopExprPair* notin_bitwise_or_rule(Parser *p) { if (p->error_indicator) { return NULL; } CmpopExprPair* res = NULL; int mark = p->mark; { // 'not' 'in' bitwise_or expr_ty a; Token * keyword; Token * keyword_1; if ( (keyword = _PyPegen_expect_token(p, 525)) // token='not' && (keyword_1 = _PyPegen_expect_token(p, 518)) // token='in' && (a = bitwise_or_rule(p)) // bitwise_or ) { res = _PyPegen_cmpop_expr_pair ( p , NotIn , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // in_bitwise_or: 'in' bitwise_or static CmpopExprPair* in_bitwise_or_rule(Parser *p) { if (p->error_indicator) { return NULL; } CmpopExprPair* res = NULL; int mark = p->mark; { // 'in' bitwise_or expr_ty a; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 518)) // token='in' && (a = bitwise_or_rule(p)) // bitwise_or ) { res = _PyPegen_cmpop_expr_pair ( p , In , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // isnot_bitwise_or: 'is' 'not' bitwise_or static CmpopExprPair* isnot_bitwise_or_rule(Parser *p) { if (p->error_indicator) { return NULL; } CmpopExprPair* res = NULL; int mark = p->mark; { // 'is' 'not' bitwise_or expr_ty a; Token * keyword; Token * keyword_1; if ( (keyword = _PyPegen_expect_token(p, 526)) // token='is' && (keyword_1 = _PyPegen_expect_token(p, 525)) // token='not' && (a = bitwise_or_rule(p)) // bitwise_or ) { res = _PyPegen_cmpop_expr_pair ( p , IsNot , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // is_bitwise_or: 'is' bitwise_or static CmpopExprPair* is_bitwise_or_rule(Parser *p) { if (p->error_indicator) { return NULL; } CmpopExprPair* res = NULL; int mark = p->mark; { // 'is' bitwise_or expr_ty a; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 526)) // token='is' && (a = bitwise_or_rule(p)) // bitwise_or ) { res = _PyPegen_cmpop_expr_pair ( p , Is , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // Left-recursive // bitwise_or: bitwise_or '|' bitwise_xor | bitwise_xor static expr_ty bitwise_or_raw(Parser *); static expr_ty bitwise_or_rule(Parser *p) { expr_ty res = NULL; if (_PyPegen_is_memoized(p, bitwise_or_type, &res)) return res; int mark = p->mark; int resmark = p->mark; while (1) { int tmpvar_1 = _PyPegen_update_memo(p, mark, bitwise_or_type, res); if (tmpvar_1) { return res; } p->mark = mark; void *raw = bitwise_or_raw(p); if (raw == NULL || p->mark <= resmark) break; resmark = p->mark; res = raw; } p->mark = resmark; return res; } static expr_ty bitwise_or_raw(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // bitwise_or '|' bitwise_xor expr_ty a; expr_ty b; Token * literal; if ( (a = bitwise_or_rule(p)) // bitwise_or && (literal = _PyPegen_expect_token(p, 18)) // token='|' && (b = bitwise_xor_rule(p)) // bitwise_xor ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , BitOr , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // bitwise_xor expr_ty bitwise_xor_var; if ( (bitwise_xor_var = bitwise_xor_rule(p)) // bitwise_xor ) { res = bitwise_xor_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // Left-recursive // bitwise_xor: bitwise_xor '^' bitwise_and | bitwise_and static expr_ty bitwise_xor_raw(Parser *); static expr_ty bitwise_xor_rule(Parser *p) { expr_ty res = NULL; if (_PyPegen_is_memoized(p, bitwise_xor_type, &res)) return res; int mark = p->mark; int resmark = p->mark; while (1) { int tmpvar_2 = _PyPegen_update_memo(p, mark, bitwise_xor_type, res); if (tmpvar_2) { return res; } p->mark = mark; void *raw = bitwise_xor_raw(p); if (raw == NULL || p->mark <= resmark) break; resmark = p->mark; res = raw; } p->mark = resmark; return res; } static expr_ty bitwise_xor_raw(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // bitwise_xor '^' bitwise_and expr_ty a; expr_ty b; Token * literal; if ( (a = bitwise_xor_rule(p)) // bitwise_xor && (literal = _PyPegen_expect_token(p, 32)) // token='^' && (b = bitwise_and_rule(p)) // bitwise_and ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , BitXor , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // bitwise_and expr_ty bitwise_and_var; if ( (bitwise_and_var = bitwise_and_rule(p)) // bitwise_and ) { res = bitwise_and_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // Left-recursive // bitwise_and: bitwise_and '&' shift_expr | shift_expr static expr_ty bitwise_and_raw(Parser *); static expr_ty bitwise_and_rule(Parser *p) { expr_ty res = NULL; if (_PyPegen_is_memoized(p, bitwise_and_type, &res)) return res; int mark = p->mark; int resmark = p->mark; while (1) { int tmpvar_3 = _PyPegen_update_memo(p, mark, bitwise_and_type, res); if (tmpvar_3) { return res; } p->mark = mark; void *raw = bitwise_and_raw(p); if (raw == NULL || p->mark <= resmark) break; resmark = p->mark; res = raw; } p->mark = resmark; return res; } static expr_ty bitwise_and_raw(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // bitwise_and '&' shift_expr expr_ty a; expr_ty b; Token * literal; if ( (a = bitwise_and_rule(p)) // bitwise_and && (literal = _PyPegen_expect_token(p, 19)) // token='&' && (b = shift_expr_rule(p)) // shift_expr ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , BitAnd , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // shift_expr expr_ty shift_expr_var; if ( (shift_expr_var = shift_expr_rule(p)) // shift_expr ) { res = shift_expr_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // Left-recursive // shift_expr: shift_expr '<<' sum | shift_expr '>>' sum | sum static expr_ty shift_expr_raw(Parser *); static expr_ty shift_expr_rule(Parser *p) { expr_ty res = NULL; if (_PyPegen_is_memoized(p, shift_expr_type, &res)) return res; int mark = p->mark; int resmark = p->mark; while (1) { int tmpvar_4 = _PyPegen_update_memo(p, mark, shift_expr_type, res); if (tmpvar_4) { return res; } p->mark = mark; void *raw = shift_expr_raw(p); if (raw == NULL || p->mark <= resmark) break; resmark = p->mark; res = raw; } p->mark = resmark; return res; } static expr_ty shift_expr_raw(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // shift_expr '<<' sum expr_ty a; expr_ty b; Token * literal; if ( (a = shift_expr_rule(p)) // shift_expr && (literal = _PyPegen_expect_token(p, 33)) // token='<<' && (b = sum_rule(p)) // sum ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , LShift , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // shift_expr '>>' sum expr_ty a; expr_ty b; Token * literal; if ( (a = shift_expr_rule(p)) // shift_expr && (literal = _PyPegen_expect_token(p, 34)) // token='>>' && (b = sum_rule(p)) // sum ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , RShift , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // sum expr_ty sum_var; if ( (sum_var = sum_rule(p)) // sum ) { res = sum_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // Left-recursive // sum: sum '+' term | sum '-' term | term static expr_ty sum_raw(Parser *); static expr_ty sum_rule(Parser *p) { expr_ty res = NULL; if (_PyPegen_is_memoized(p, sum_type, &res)) return res; int mark = p->mark; int resmark = p->mark; while (1) { int tmpvar_5 = _PyPegen_update_memo(p, mark, sum_type, res); if (tmpvar_5) { return res; } p->mark = mark; void *raw = sum_raw(p); if (raw == NULL || p->mark <= resmark) break; resmark = p->mark; res = raw; } p->mark = resmark; return res; } static expr_ty sum_raw(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // sum '+' term expr_ty a; expr_ty b; Token * literal; if ( (a = sum_rule(p)) // sum && (literal = _PyPegen_expect_token(p, 14)) // token='+' && (b = term_rule(p)) // term ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , Add , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // sum '-' term expr_ty a; expr_ty b; Token * literal; if ( (a = sum_rule(p)) // sum && (literal = _PyPegen_expect_token(p, 15)) // token='-' && (b = term_rule(p)) // term ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , Sub , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // term expr_ty term_var; if ( (term_var = term_rule(p)) // term ) { res = term_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // Left-recursive // term: // | term '*' factor // | term '/' factor // | term '//' factor // | term '%' factor // | term '@' factor // | factor static expr_ty term_raw(Parser *); static expr_ty term_rule(Parser *p) { expr_ty res = NULL; if (_PyPegen_is_memoized(p, term_type, &res)) return res; int mark = p->mark; int resmark = p->mark; while (1) { int tmpvar_6 = _PyPegen_update_memo(p, mark, term_type, res); if (tmpvar_6) { return res; } p->mark = mark; void *raw = term_raw(p); if (raw == NULL || p->mark <= resmark) break; resmark = p->mark; res = raw; } p->mark = resmark; return res; } static expr_ty term_raw(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // term '*' factor expr_ty a; expr_ty b; Token * literal; if ( (a = term_rule(p)) // term && (literal = _PyPegen_expect_token(p, 16)) // token='*' && (b = factor_rule(p)) // factor ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , Mult , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // term '/' factor expr_ty a; expr_ty b; Token * literal; if ( (a = term_rule(p)) // term && (literal = _PyPegen_expect_token(p, 17)) // token='/' && (b = factor_rule(p)) // factor ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , Div , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // term '//' factor expr_ty a; expr_ty b; Token * literal; if ( (a = term_rule(p)) // term && (literal = _PyPegen_expect_token(p, 47)) // token='//' && (b = factor_rule(p)) // factor ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , FloorDiv , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // term '%' factor expr_ty a; expr_ty b; Token * literal; if ( (a = term_rule(p)) // term && (literal = _PyPegen_expect_token(p, 24)) // token='%' && (b = factor_rule(p)) // factor ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , Mod , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // term '@' factor expr_ty a; expr_ty b; Token * literal; if ( (a = term_rule(p)) // term && (literal = _PyPegen_expect_token(p, 49)) // token='@' && (b = factor_rule(p)) // factor ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = CHECK_VERSION ( 5 , "The '@' operator is" , _Py_BinOp ( a , MatMult , b , EXTRA ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // factor expr_ty factor_var; if ( (factor_var = factor_rule(p)) // factor ) { res = factor_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // factor: '+' factor | '-' factor | '~' factor | power static expr_ty factor_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, factor_type, &res)) return res; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '+' factor expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 14)) // token='+' && (a = factor_rule(p)) // factor ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_UnaryOp ( UAdd , a , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '-' factor expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 15)) // token='-' && (a = factor_rule(p)) // factor ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_UnaryOp ( USub , a , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '~' factor expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 31)) // token='~' && (a = factor_rule(p)) // factor ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_UnaryOp ( Invert , a , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // power expr_ty power_var; if ( (power_var = power_rule(p)) // power ) { res = power_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, factor_type, res); return res; } // power: await_primary '**' factor | await_primary static expr_ty power_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // await_primary '**' factor expr_ty a; expr_ty b; Token * literal; if ( (a = await_primary_rule(p)) // await_primary && (literal = _PyPegen_expect_token(p, 35)) // token='**' && (b = factor_rule(p)) // factor ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_BinOp ( a , Pow , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // await_primary expr_ty await_primary_var; if ( (await_primary_var = await_primary_rule(p)) // await_primary ) { res = await_primary_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // await_primary: AWAIT primary | primary static expr_ty await_primary_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, await_primary_type, &res)) return res; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // AWAIT primary expr_ty a; Token * await_var; if ( (await_var = _PyPegen_expect_token(p, AWAIT)) // token='AWAIT' && (a = primary_rule(p)) // primary ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = CHECK_VERSION ( 5 , "Await expressions are" , _Py_Await ( a , EXTRA ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // primary expr_ty primary_var; if ( (primary_var = primary_rule(p)) // primary ) { res = primary_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, await_primary_type, res); return res; } // Left-recursive // primary: // | primary '.' NAME // | primary genexp // | primary '(' arguments? ')' // | primary '[' slices ']' // | atom static expr_ty primary_raw(Parser *); static expr_ty primary_rule(Parser *p) { expr_ty res = NULL; if (_PyPegen_is_memoized(p, primary_type, &res)) return res; int mark = p->mark; int resmark = p->mark; while (1) { int tmpvar_7 = _PyPegen_update_memo(p, mark, primary_type, res); if (tmpvar_7) { return res; } p->mark = mark; void *raw = primary_raw(p); if (raw == NULL || p->mark <= resmark) break; resmark = p->mark; res = raw; } p->mark = resmark; return res; } static expr_ty primary_raw(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // primary '.' NAME expr_ty a; expr_ty b; Token * literal; if ( (a = primary_rule(p)) // primary && (literal = _PyPegen_expect_token(p, 23)) // token='.' && (b = _PyPegen_name_token(p)) // NAME ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Attribute ( a , b -> v . Name . id , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // primary genexp expr_ty a; expr_ty b; if ( (a = primary_rule(p)) // primary && (b = genexp_rule(p)) // genexp ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Call ( a , CHECK ( _PyPegen_singleton_seq ( p , b ) ) , NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // primary '(' arguments? ')' expr_ty a; void *b; Token * literal; Token * literal_1; if ( (a = primary_rule(p)) // primary && (literal = _PyPegen_expect_token(p, 7)) // token='(' && (b = arguments_rule(p), 1) // arguments? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Call ( a , ( b ) ? ( ( expr_ty ) b ) -> v . Call . args : NULL , ( b ) ? ( ( expr_ty ) b ) -> v . Call . keywords : NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // primary '[' slices ']' expr_ty a; expr_ty b; Token * literal; Token * literal_1; if ( (a = primary_rule(p)) // primary && (literal = _PyPegen_expect_token(p, 9)) // token='[' && (b = slices_rule(p)) // slices && (literal_1 = _PyPegen_expect_token(p, 10)) // token=']' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Subscript ( a , b , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // atom expr_ty atom_var; if ( (atom_var = atom_rule(p)) // atom ) { res = atom_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // slices: slice !',' | ','.slice+ ','? static expr_ty slices_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // slice !',' expr_ty a; if ( (a = slice_rule(p)) // slice && _PyPegen_lookahead_with_int(0, _PyPegen_expect_token, p, 12) // token=',' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ','.slice+ ','? asdl_seq * a; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = _gather_93_rule(p)) // ','.slice+ && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Tuple ( a , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // slice: expression? ':' expression? [':' expression?] | expression static expr_ty slice_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // expression? ':' expression? [':' expression?] void *a; void *b; void *c; Token * literal; if ( (a = expression_rule(p), 1) // expression? && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = expression_rule(p), 1) // expression? && (c = _tmp_95_rule(p), 1) // [':' expression?] ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Slice ( a , b , c , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // expression expr_ty a; if ( (a = expression_rule(p)) // expression ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // atom: // | NAME // | 'True' // | 'False' // | 'None' // | '__new_parser__' // | &STRING strings // | NUMBER // | &'(' (tuple | group | genexp) // | &'[' (list | listcomp) // | &'{' (dict | set | dictcomp | setcomp) // | '...' static expr_ty atom_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // NAME expr_ty name_var; if ( (name_var = _PyPegen_name_token(p)) // NAME ) { res = name_var; goto done; } p->mark = mark; } { // 'True' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 527)) // token='True' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Constant ( Py_True , NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'False' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 528)) // token='False' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Constant ( Py_False , NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'None' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 529)) // token='None' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Constant ( Py_None , NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '__new_parser__' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 530)) // token='__new_parser__' ) { res = RAISE_SYNTAX_ERROR ( "You found it!" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // &STRING strings expr_ty strings_var; if ( _PyPegen_lookahead(1, _PyPegen_string_token, p) && (strings_var = strings_rule(p)) // strings ) { res = strings_var; goto done; } p->mark = mark; } { // NUMBER expr_ty number_var; if ( (number_var = _PyPegen_number_token(p)) // NUMBER ) { res = number_var; goto done; } p->mark = mark; } { // &'(' (tuple | group | genexp) void *_tmp_96_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 7) // token='(' && (_tmp_96_var = _tmp_96_rule(p)) // tuple | group | genexp ) { res = _tmp_96_var; goto done; } p->mark = mark; } { // &'[' (list | listcomp) void *_tmp_97_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 9) // token='[' && (_tmp_97_var = _tmp_97_rule(p)) // list | listcomp ) { res = _tmp_97_var; goto done; } p->mark = mark; } { // &'{' (dict | set | dictcomp | setcomp) void *_tmp_98_var; if ( _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 25) // token='{' && (_tmp_98_var = _tmp_98_rule(p)) // dict | set | dictcomp | setcomp ) { res = _tmp_98_var; goto done; } p->mark = mark; } { // '...' Token * literal; if ( (literal = _PyPegen_expect_token(p, 52)) // token='...' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Constant ( Py_Ellipsis , NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // strings: STRING+ static expr_ty strings_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, strings_type, &res)) return res; int mark = p->mark; { // STRING+ asdl_seq * a; if ( (a = _loop1_99_rule(p)) // STRING+ ) { res = _PyPegen_concatenate_strings ( p , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, strings_type, res); return res; } // list: '[' star_named_expressions? ']' static expr_ty list_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '[' star_named_expressions? ']' void *a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 9)) // token='[' && (a = star_named_expressions_rule(p), 1) // star_named_expressions? && (literal_1 = _PyPegen_expect_token(p, 10)) // token=']' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_List ( a , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // listcomp: '[' named_expression for_if_clauses ']' | invalid_comprehension static expr_ty listcomp_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '[' named_expression for_if_clauses ']' expr_ty a; asdl_seq* b; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 9)) // token='[' && (a = named_expression_rule(p)) // named_expression && (b = for_if_clauses_rule(p)) // for_if_clauses && (literal_1 = _PyPegen_expect_token(p, 10)) // token=']' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_ListComp ( a , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // invalid_comprehension void *invalid_comprehension_var; if ( (invalid_comprehension_var = invalid_comprehension_rule(p)) // invalid_comprehension ) { res = invalid_comprehension_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // tuple: '(' [star_named_expression ',' star_named_expressions?] ')' static expr_ty tuple_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '(' [star_named_expression ',' star_named_expressions?] ')' void *a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = _tmp_100_rule(p), 1) // [star_named_expression ',' star_named_expressions?] && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Tuple ( a , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // group: '(' (yield_expr | named_expression) ')' static expr_ty group_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; { // '(' (yield_expr | named_expression) ')' void *a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = _tmp_101_rule(p)) // yield_expr | named_expression && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // genexp: '(' expression for_if_clauses ')' | invalid_comprehension static expr_ty genexp_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '(' expression for_if_clauses ')' expr_ty a; asdl_seq* b; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = expression_rule(p)) // expression && (b = for_if_clauses_rule(p)) // for_if_clauses && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_GeneratorExp ( a , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // invalid_comprehension void *invalid_comprehension_var; if ( (invalid_comprehension_var = invalid_comprehension_rule(p)) // invalid_comprehension ) { res = invalid_comprehension_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // set: '{' expressions_list '}' static expr_ty set_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '{' expressions_list '}' asdl_seq* a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 25)) // token='{' && (a = expressions_list_rule(p)) // expressions_list && (literal_1 = _PyPegen_expect_token(p, 26)) // token='}' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Set ( a , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // setcomp: '{' expression for_if_clauses '}' | invalid_comprehension static expr_ty setcomp_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '{' expression for_if_clauses '}' expr_ty a; asdl_seq* b; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 25)) // token='{' && (a = expression_rule(p)) // expression && (b = for_if_clauses_rule(p)) // for_if_clauses && (literal_1 = _PyPegen_expect_token(p, 26)) // token='}' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_SetComp ( a , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // invalid_comprehension void *invalid_comprehension_var; if ( (invalid_comprehension_var = invalid_comprehension_rule(p)) // invalid_comprehension ) { res = invalid_comprehension_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // dict: '{' kvpairs? '}' static expr_ty dict_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '{' kvpairs? '}' void *a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 25)) // token='{' && (a = kvpairs_rule(p), 1) // kvpairs? && (literal_1 = _PyPegen_expect_token(p, 26)) // token='}' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Dict ( CHECK ( _PyPegen_get_keys ( p , a ) ) , CHECK ( _PyPegen_get_values ( p , a ) ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // dictcomp: '{' kvpair for_if_clauses '}' static expr_ty dictcomp_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '{' kvpair for_if_clauses '}' KeyValuePair* a; asdl_seq* b; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 25)) // token='{' && (a = kvpair_rule(p)) // kvpair && (b = for_if_clauses_rule(p)) // for_if_clauses && (literal_1 = _PyPegen_expect_token(p, 26)) // token='}' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_DictComp ( a -> key , a -> value , b , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // kvpairs: ','.kvpair+ ','? static asdl_seq* kvpairs_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // ','.kvpair+ ','? asdl_seq * a; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = _gather_102_rule(p)) // ','.kvpair+ && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // kvpair: '**' bitwise_or | expression ':' expression static KeyValuePair* kvpair_rule(Parser *p) { if (p->error_indicator) { return NULL; } KeyValuePair* res = NULL; int mark = p->mark; { // '**' bitwise_or expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 35)) // token='**' && (a = bitwise_or_rule(p)) // bitwise_or ) { res = _PyPegen_key_value_pair ( p , NULL , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // expression ':' expression expr_ty a; expr_ty b; Token * literal; if ( (a = expression_rule(p)) // expression && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (b = expression_rule(p)) // expression ) { res = _PyPegen_key_value_pair ( p , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // for_if_clauses: for_if_clause+ static asdl_seq* for_if_clauses_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // for_if_clause+ asdl_seq * _loop1_104_var; if ( (_loop1_104_var = _loop1_104_rule(p)) // for_if_clause+ ) { res = _loop1_104_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // for_if_clause: // | ASYNC 'for' star_targets 'in' disjunction (('if' disjunction))* // | 'for' star_targets 'in' disjunction (('if' disjunction))* static comprehension_ty for_if_clause_rule(Parser *p) { if (p->error_indicator) { return NULL; } comprehension_ty res = NULL; int mark = p->mark; { // ASYNC 'for' star_targets 'in' disjunction (('if' disjunction))* expr_ty a; Token * async_var; expr_ty b; asdl_seq * c; Token * keyword; Token * keyword_1; if ( (async_var = _PyPegen_expect_token(p, ASYNC)) // token='ASYNC' && (keyword = _PyPegen_expect_token(p, 517)) // token='for' && (a = star_targets_rule(p)) // star_targets && (keyword_1 = _PyPegen_expect_token(p, 518)) // token='in' && (b = disjunction_rule(p)) // disjunction && (c = _loop0_105_rule(p)) // (('if' disjunction))* ) { res = CHECK_VERSION ( 6 , "Async comprehensions are" , _Py_comprehension ( a , b , c , 1 , p -> arena ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'for' star_targets 'in' disjunction (('if' disjunction))* expr_ty a; expr_ty b; asdl_seq * c; Token * keyword; Token * keyword_1; if ( (keyword = _PyPegen_expect_token(p, 517)) // token='for' && (a = star_targets_rule(p)) // star_targets && (keyword_1 = _PyPegen_expect_token(p, 518)) // token='in' && (b = disjunction_rule(p)) // disjunction && (c = _loop0_106_rule(p)) // (('if' disjunction))* ) { res = _Py_comprehension ( a , b , c , 0 , p -> arena ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // yield_expr: 'yield' 'from' expression | 'yield' star_expressions? static expr_ty yield_expr_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // 'yield' 'from' expression expr_ty a; Token * keyword; Token * keyword_1; if ( (keyword = _PyPegen_expect_token(p, 504)) // token='yield' && (keyword_1 = _PyPegen_expect_token(p, 514)) // token='from' && (a = expression_rule(p)) // expression ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_YieldFrom ( a , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // 'yield' star_expressions? void *a; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 504)) // token='yield' && (a = star_expressions_rule(p), 1) // star_expressions? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Yield ( a , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // arguments: args ','? &')' | incorrect_arguments static expr_ty arguments_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, arguments_type, &res)) return res; int mark = p->mark; { // args ','? &')' expr_ty a; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = args_rule(p)) // args && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? && _PyPegen_lookahead_with_int(1, _PyPegen_expect_token, p, 8) // token=')' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // incorrect_arguments void *incorrect_arguments_var; if ( (incorrect_arguments_var = incorrect_arguments_rule(p)) // incorrect_arguments ) { res = incorrect_arguments_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, arguments_type, res); return res; } // args: starred_expression [',' args] | kwargs | named_expression [',' args] static expr_ty args_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // starred_expression [',' args] expr_ty a; void *b; if ( (a = starred_expression_rule(p)) // starred_expression && (b = _tmp_107_rule(p), 1) // [',' args] ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Call ( _PyPegen_dummy_name ( p ) , ( b ) ? CHECK ( _PyPegen_seq_insert_in_front ( p , a , ( ( expr_ty ) b ) -> v . Call . args ) ) : CHECK ( _PyPegen_singleton_seq ( p , a ) ) , ( b ) ? ( ( expr_ty ) b ) -> v . Call . keywords : NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // kwargs asdl_seq* a; if ( (a = kwargs_rule(p)) // kwargs ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Call ( _PyPegen_dummy_name ( p ) , CHECK_NULL_ALLOWED ( _PyPegen_seq_extract_starred_exprs ( p , a ) ) , CHECK_NULL_ALLOWED ( _PyPegen_seq_delete_starred_exprs ( p , a ) ) , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // named_expression [',' args] expr_ty a; void *b; if ( (a = named_expression_rule(p)) // named_expression && (b = _tmp_108_rule(p), 1) // [',' args] ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Call ( _PyPegen_dummy_name ( p ) , ( b ) ? CHECK ( _PyPegen_seq_insert_in_front ( p , a , ( ( expr_ty ) b ) -> v . Call . args ) ) : CHECK ( _PyPegen_singleton_seq ( p , a ) ) , ( b ) ? ( ( expr_ty ) b ) -> v . Call . keywords : NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // kwargs: // | ','.kwarg_or_starred+ ',' ','.kwarg_or_double_starred+ // | ','.kwarg_or_starred+ // | ','.kwarg_or_double_starred+ static asdl_seq* kwargs_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // ','.kwarg_or_starred+ ',' ','.kwarg_or_double_starred+ asdl_seq * a; asdl_seq * b; Token * literal; if ( (a = _gather_109_rule(p)) // ','.kwarg_or_starred+ && (literal = _PyPegen_expect_token(p, 12)) // token=',' && (b = _gather_111_rule(p)) // ','.kwarg_or_double_starred+ ) { res = _PyPegen_join_sequences ( p , a , b ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ','.kwarg_or_starred+ asdl_seq * _gather_113_var; if ( (_gather_113_var = _gather_113_rule(p)) // ','.kwarg_or_starred+ ) { res = _gather_113_var; goto done; } p->mark = mark; } { // ','.kwarg_or_double_starred+ asdl_seq * _gather_115_var; if ( (_gather_115_var = _gather_115_rule(p)) // ','.kwarg_or_double_starred+ ) { res = _gather_115_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // starred_expression: '*' expression static expr_ty starred_expression_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '*' expression expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (a = expression_rule(p)) // expression ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Starred ( a , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // kwarg_or_starred: NAME '=' expression | starred_expression static KeywordOrStarred* kwarg_or_starred_rule(Parser *p) { if (p->error_indicator) { return NULL; } KeywordOrStarred* res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // NAME '=' expression expr_ty a; expr_ty b; Token * literal; if ( (a = _PyPegen_name_token(p)) // NAME && (literal = _PyPegen_expect_token(p, 22)) // token='=' && (b = expression_rule(p)) // expression ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _PyPegen_keyword_or_starred ( p , CHECK ( _Py_keyword ( a -> v . Name . id , b , EXTRA ) ) , 1 ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // starred_expression expr_ty a; if ( (a = starred_expression_rule(p)) // starred_expression ) { res = _PyPegen_keyword_or_starred ( p , a , 0 ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // kwarg_or_double_starred: NAME '=' expression | '**' expression static KeywordOrStarred* kwarg_or_double_starred_rule(Parser *p) { if (p->error_indicator) { return NULL; } KeywordOrStarred* res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // NAME '=' expression expr_ty a; expr_ty b; Token * literal; if ( (a = _PyPegen_name_token(p)) // NAME && (literal = _PyPegen_expect_token(p, 22)) // token='=' && (b = expression_rule(p)) // expression ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _PyPegen_keyword_or_starred ( p , CHECK ( _Py_keyword ( a -> v . Name . id , b , EXTRA ) ) , 1 ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '**' expression expr_ty a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 35)) // token='**' && (a = expression_rule(p)) // expression ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _PyPegen_keyword_or_starred ( p , CHECK ( _Py_keyword ( NULL , a , EXTRA ) ) , 1 ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // star_targets: star_target !',' | star_target ((',' star_target))* ','? static expr_ty star_targets_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // star_target !',' expr_ty a; if ( (a = star_target_rule(p)) // star_target && _PyPegen_lookahead_with_int(0, _PyPegen_expect_token, p, 12) // token=',' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // star_target ((',' star_target))* ','? expr_ty a; asdl_seq * b; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = star_target_rule(p)) // star_target && (b = _loop0_117_rule(p)) // ((',' star_target))* && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Tuple ( CHECK ( _PyPegen_seq_insert_in_front ( p , a , b ) ) , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // star_targets_seq: ','.star_target+ ','? static asdl_seq* star_targets_seq_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // ','.star_target+ ','? asdl_seq * a; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = _gather_118_rule(p)) // ','.star_target+ && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // star_target: // | '*' (!'*' star_target) // | t_primary '.' NAME !t_lookahead // | t_primary '[' slices ']' !t_lookahead // | star_atom static expr_ty star_target_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, star_target_type, &res)) return res; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // '*' (!'*' star_target) void *a; Token * literal; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (a = _tmp_120_rule(p)) // !'*' star_target ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Starred ( CHECK ( _PyPegen_set_expr_context ( p , a , Store ) ) , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // t_primary '.' NAME !t_lookahead expr_ty a; expr_ty b; Token * literal; if ( (a = t_primary_rule(p)) // t_primary && (literal = _PyPegen_expect_token(p, 23)) // token='.' && (b = _PyPegen_name_token(p)) // NAME && _PyPegen_lookahead(0, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Attribute ( a , b -> v . Name . id , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // t_primary '[' slices ']' !t_lookahead expr_ty a; expr_ty b; Token * literal; Token * literal_1; if ( (a = t_primary_rule(p)) // t_primary && (literal = _PyPegen_expect_token(p, 9)) // token='[' && (b = slices_rule(p)) // slices && (literal_1 = _PyPegen_expect_token(p, 10)) // token=']' && _PyPegen_lookahead(0, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Subscript ( a , b , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // star_atom expr_ty star_atom_var; if ( (star_atom_var = star_atom_rule(p)) // star_atom ) { res = star_atom_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, star_target_type, res); return res; } // star_atom: // | NAME // | '(' star_target ')' // | '(' star_targets_seq? ')' // | '[' star_targets_seq? ']' static expr_ty star_atom_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // NAME expr_ty a; if ( (a = _PyPegen_name_token(p)) // NAME ) { res = _PyPegen_set_expr_context ( p , a , Store ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '(' star_target ')' expr_ty a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = star_target_rule(p)) // star_target && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { res = _PyPegen_set_expr_context ( p , a , Store ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '(' star_targets_seq? ')' void *a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = star_targets_seq_rule(p), 1) // star_targets_seq? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Tuple ( a , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '[' star_targets_seq? ']' void *a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 9)) // token='[' && (a = star_targets_seq_rule(p), 1) // star_targets_seq? && (literal_1 = _PyPegen_expect_token(p, 10)) // token=']' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_List ( a , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // inside_paren_ann_assign_target: // | ann_assign_subscript_attribute_target // | NAME // | '(' inside_paren_ann_assign_target ')' static expr_ty inside_paren_ann_assign_target_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; { // ann_assign_subscript_attribute_target expr_ty ann_assign_subscript_attribute_target_var; if ( (ann_assign_subscript_attribute_target_var = ann_assign_subscript_attribute_target_rule(p)) // ann_assign_subscript_attribute_target ) { res = ann_assign_subscript_attribute_target_var; goto done; } p->mark = mark; } { // NAME expr_ty a; if ( (a = _PyPegen_name_token(p)) // NAME ) { res = _PyPegen_set_expr_context ( p , a , Store ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '(' inside_paren_ann_assign_target ')' expr_ty a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = inside_paren_ann_assign_target_rule(p)) // inside_paren_ann_assign_target && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // ann_assign_subscript_attribute_target: // | t_primary '.' NAME !t_lookahead // | t_primary '[' slices ']' !t_lookahead static expr_ty ann_assign_subscript_attribute_target_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // t_primary '.' NAME !t_lookahead expr_ty a; expr_ty b; Token * literal; if ( (a = t_primary_rule(p)) // t_primary && (literal = _PyPegen_expect_token(p, 23)) // token='.' && (b = _PyPegen_name_token(p)) // NAME && _PyPegen_lookahead(0, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Attribute ( a , b -> v . Name . id , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // t_primary '[' slices ']' !t_lookahead expr_ty a; expr_ty b; Token * literal; Token * literal_1; if ( (a = t_primary_rule(p)) // t_primary && (literal = _PyPegen_expect_token(p, 9)) // token='[' && (b = slices_rule(p)) // slices && (literal_1 = _PyPegen_expect_token(p, 10)) // token=']' && _PyPegen_lookahead(0, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Subscript ( a , b , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // del_targets: ','.del_target+ ','? static asdl_seq* del_targets_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // ','.del_target+ ','? asdl_seq * a; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = _gather_121_rule(p)) // ','.del_target+ && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // del_target: // | t_primary '.' NAME !t_lookahead // | t_primary '[' slices ']' !t_lookahead // | del_t_atom static expr_ty del_target_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, del_target_type, &res)) return res; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // t_primary '.' NAME !t_lookahead expr_ty a; expr_ty b; Token * literal; if ( (a = t_primary_rule(p)) // t_primary && (literal = _PyPegen_expect_token(p, 23)) // token='.' && (b = _PyPegen_name_token(p)) // NAME && _PyPegen_lookahead(0, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Attribute ( a , b -> v . Name . id , Del , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // t_primary '[' slices ']' !t_lookahead expr_ty a; expr_ty b; Token * literal; Token * literal_1; if ( (a = t_primary_rule(p)) // t_primary && (literal = _PyPegen_expect_token(p, 9)) // token='[' && (b = slices_rule(p)) // slices && (literal_1 = _PyPegen_expect_token(p, 10)) // token=']' && _PyPegen_lookahead(0, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Subscript ( a , b , Del , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // del_t_atom expr_ty del_t_atom_var; if ( (del_t_atom_var = del_t_atom_rule(p)) // del_t_atom ) { res = del_t_atom_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, del_target_type, res); return res; } // del_t_atom: NAME | '(' del_target ')' | '(' del_targets? ')' | '[' del_targets? ']' static expr_ty del_t_atom_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // NAME expr_ty a; if ( (a = _PyPegen_name_token(p)) // NAME ) { res = _PyPegen_set_expr_context ( p , a , Del ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '(' del_target ')' expr_ty a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = del_target_rule(p)) // del_target && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { res = _PyPegen_set_expr_context ( p , a , Del ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '(' del_targets? ')' void *a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = del_targets_rule(p), 1) // del_targets? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Tuple ( a , Del , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '[' del_targets? ']' void *a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 9)) // token='[' && (a = del_targets_rule(p), 1) // del_targets? && (literal_1 = _PyPegen_expect_token(p, 10)) // token=']' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_List ( a , Del , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // targets: ','.target+ ','? static asdl_seq* targets_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq* res = NULL; int mark = p->mark; { // ','.target+ ','? asdl_seq * a; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (a = _gather_123_rule(p)) // ','.target+ && (opt_var = _PyPegen_expect_token(p, 12), 1) // ','? ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // target: // | t_primary '.' NAME !t_lookahead // | t_primary '[' slices ']' !t_lookahead // | t_atom static expr_ty target_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; if (_PyPegen_is_memoized(p, target_type, &res)) return res; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // t_primary '.' NAME !t_lookahead expr_ty a; expr_ty b; Token * literal; if ( (a = t_primary_rule(p)) // t_primary && (literal = _PyPegen_expect_token(p, 23)) // token='.' && (b = _PyPegen_name_token(p)) // NAME && _PyPegen_lookahead(0, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Attribute ( a , b -> v . Name . id , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // t_primary '[' slices ']' !t_lookahead expr_ty a; expr_ty b; Token * literal; Token * literal_1; if ( (a = t_primary_rule(p)) // t_primary && (literal = _PyPegen_expect_token(p, 9)) // token='[' && (b = slices_rule(p)) // slices && (literal_1 = _PyPegen_expect_token(p, 10)) // token=']' && _PyPegen_lookahead(0, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Subscript ( a , b , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // t_atom expr_ty t_atom_var; if ( (t_atom_var = t_atom_rule(p)) // t_atom ) { res = t_atom_var; goto done; } p->mark = mark; } res = NULL; done: _PyPegen_insert_memo(p, mark, target_type, res); return res; } // Left-recursive // t_primary: // | t_primary '.' NAME &t_lookahead // | t_primary '[' slices ']' &t_lookahead // | t_primary genexp &t_lookahead // | t_primary '(' arguments? ')' &t_lookahead // | atom &t_lookahead static expr_ty t_primary_raw(Parser *); static expr_ty t_primary_rule(Parser *p) { expr_ty res = NULL; if (_PyPegen_is_memoized(p, t_primary_type, &res)) return res; int mark = p->mark; int resmark = p->mark; while (1) { int tmpvar_8 = _PyPegen_update_memo(p, mark, t_primary_type, res); if (tmpvar_8) { return res; } p->mark = mark; void *raw = t_primary_raw(p); if (raw == NULL || p->mark <= resmark) break; resmark = p->mark; res = raw; } p->mark = resmark; return res; } static expr_ty t_primary_raw(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // t_primary '.' NAME &t_lookahead expr_ty a; expr_ty b; Token * literal; if ( (a = t_primary_rule(p)) // t_primary && (literal = _PyPegen_expect_token(p, 23)) // token='.' && (b = _PyPegen_name_token(p)) // NAME && _PyPegen_lookahead(1, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Attribute ( a , b -> v . Name . id , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // t_primary '[' slices ']' &t_lookahead expr_ty a; expr_ty b; Token * literal; Token * literal_1; if ( (a = t_primary_rule(p)) // t_primary && (literal = _PyPegen_expect_token(p, 9)) // token='[' && (b = slices_rule(p)) // slices && (literal_1 = _PyPegen_expect_token(p, 10)) // token=']' && _PyPegen_lookahead(1, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Subscript ( a , b , Load , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // t_primary genexp &t_lookahead expr_ty a; expr_ty b; if ( (a = t_primary_rule(p)) // t_primary && (b = genexp_rule(p)) // genexp && _PyPegen_lookahead(1, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Call ( a , CHECK ( _PyPegen_singleton_seq ( p , b ) ) , NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // t_primary '(' arguments? ')' &t_lookahead expr_ty a; void *b; Token * literal; Token * literal_1; if ( (a = t_primary_rule(p)) // t_primary && (literal = _PyPegen_expect_token(p, 7)) // token='(' && (b = arguments_rule(p), 1) // arguments? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' && _PyPegen_lookahead(1, t_lookahead_rule, p) ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Call ( a , ( b ) ? ( ( expr_ty ) b ) -> v . Call . args : NULL , ( b ) ? ( ( expr_ty ) b ) -> v . Call . keywords : NULL , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // atom &t_lookahead expr_ty a; if ( (a = atom_rule(p)) // atom && _PyPegen_lookahead(1, t_lookahead_rule, p) ) { res = a; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // t_lookahead: '(' | '[' | '.' static void * t_lookahead_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '(' Token * literal; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' ) { res = literal; goto done; } p->mark = mark; } { // '[' Token * literal; if ( (literal = _PyPegen_expect_token(p, 9)) // token='[' ) { res = literal; goto done; } p->mark = mark; } { // '.' Token * literal; if ( (literal = _PyPegen_expect_token(p, 23)) // token='.' ) { res = literal; goto done; } p->mark = mark; } res = NULL; done: return res; } // t_atom: NAME | '(' target ')' | '(' targets? ')' | '[' targets? ']' static expr_ty t_atom_rule(Parser *p) { if (p->error_indicator) { return NULL; } expr_ty res = NULL; int mark = p->mark; if (p->mark == p->fill && _PyPegen_fill_token(p) < 0) { p->error_indicator = 1; return NULL; } int start_lineno = p->tokens[mark]->lineno; UNUSED(start_lineno); // Only used by EXTRA macro int start_col_offset = p->tokens[mark]->col_offset; UNUSED(start_col_offset); // Only used by EXTRA macro { // NAME expr_ty a; if ( (a = _PyPegen_name_token(p)) // NAME ) { res = _PyPegen_set_expr_context ( p , a , Store ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '(' target ')' expr_ty a; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (a = target_rule(p)) // target && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { res = _PyPegen_set_expr_context ( p , a , Store ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '(' targets? ')' void *b; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (b = targets_rule(p), 1) // targets? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_Tuple ( b , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // '[' targets? ']' void *b; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 9)) // token='[' && (b = targets_rule(p), 1) // targets? && (literal_1 = _PyPegen_expect_token(p, 10)) // token=']' ) { Token *token = _PyPegen_get_last_nonnwhitespace_token(p); if (token == NULL) { return NULL; } int end_lineno = token->end_lineno; UNUSED(end_lineno); // Only used by EXTRA macro int end_col_offset = token->end_col_offset; UNUSED(end_col_offset); // Only used by EXTRA macro res = _Py_List ( b , Store , EXTRA ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // incorrect_arguments: // | args ',' '*' // | expression for_if_clauses ',' [args | expression for_if_clauses] // | args ',' args static void * incorrect_arguments_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // args ',' '*' expr_ty args_var; Token * literal; Token * literal_1; if ( (args_var = args_rule(p)) // args && (literal = _PyPegen_expect_token(p, 12)) // token=',' && (literal_1 = _PyPegen_expect_token(p, 16)) // token='*' ) { res = RAISE_SYNTAX_ERROR ( "iterable argument unpacking follows keyword argument unpacking" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // expression for_if_clauses ',' [args | expression for_if_clauses] expr_ty expression_var; asdl_seq* for_if_clauses_var; Token * literal; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (expression_var = expression_rule(p)) // expression && (for_if_clauses_var = for_if_clauses_rule(p)) // for_if_clauses && (literal = _PyPegen_expect_token(p, 12)) // token=',' && (opt_var = _tmp_125_rule(p), 1) // [args | expression for_if_clauses] ) { res = RAISE_SYNTAX_ERROR ( "Generator expression must be parenthesized" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // args ',' args expr_ty a; expr_ty args_var; Token * literal; if ( (a = args_rule(p)) // args && (literal = _PyPegen_expect_token(p, 12)) // token=',' && (args_var = args_rule(p)) // args ) { res = _PyPegen_arguments_parsing_error ( p , a ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // invalid_named_expression: expression ':=' expression static void * invalid_named_expression_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // expression ':=' expression expr_ty a; expr_ty expression_var; Token * literal; if ( (a = expression_rule(p)) // expression && (literal = _PyPegen_expect_token(p, 53)) // token=':=' && (expression_var = expression_rule(p)) // expression ) { res = RAISE_SYNTAX_ERROR ( "cannot use assignment expressions with %s" , _PyPegen_get_expr_name ( a ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // invalid_assignment: // | list ':' // | tuple ':' // | expression ':' expression ['=' annotated_rhs] // | expression ('=' | augassign) (yield_expr | star_expressions) static void * invalid_assignment_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // list ':' expr_ty list_var; Token * literal; if ( (list_var = list_rule(p)) // list && (literal = _PyPegen_expect_token(p, 11)) // token=':' ) { res = RAISE_SYNTAX_ERROR ( "only single target (not list) can be annotated" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // tuple ':' Token * literal; expr_ty tuple_var; if ( (tuple_var = tuple_rule(p)) // tuple && (literal = _PyPegen_expect_token(p, 11)) // token=':' ) { res = RAISE_SYNTAX_ERROR ( "only single target (not tuple) can be annotated" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // expression ':' expression ['=' annotated_rhs] expr_ty expression_var; expr_ty expression_var_1; Token * literal; void *opt_var; UNUSED(opt_var); // Silence compiler warnings if ( (expression_var = expression_rule(p)) // expression && (literal = _PyPegen_expect_token(p, 11)) // token=':' && (expression_var_1 = expression_rule(p)) // expression && (opt_var = _tmp_126_rule(p), 1) // ['=' annotated_rhs] ) { res = RAISE_SYNTAX_ERROR ( "illegal target for annotation" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // expression ('=' | augassign) (yield_expr | star_expressions) void *_tmp_127_var; void *_tmp_128_var; expr_ty a; if ( (a = expression_rule(p)) // expression && (_tmp_127_var = _tmp_127_rule(p)) // '=' | augassign && (_tmp_128_var = _tmp_128_rule(p)) // yield_expr | star_expressions ) { res = RAISE_SYNTAX_ERROR_NO_COL_OFFSET ( "cannot assign to %s" , _PyPegen_get_expr_name ( a ) ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // invalid_block: NEWLINE !INDENT static void * invalid_block_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // NEWLINE !INDENT Token * newline_var; if ( (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' && _PyPegen_lookahead_with_int(0, _PyPegen_expect_token, p, INDENT) // token=INDENT ) { res = RAISE_INDENTATION_ERROR ( "expected an indented block" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // invalid_comprehension: ('[' | '(' | '{') '*' expression for_if_clauses static void * invalid_comprehension_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ('[' | '(' | '{') '*' expression for_if_clauses void *_tmp_129_var; expr_ty expression_var; asdl_seq* for_if_clauses_var; Token * literal; if ( (_tmp_129_var = _tmp_129_rule(p)) // '[' | '(' | '{' && (literal = _PyPegen_expect_token(p, 16)) // token='*' && (expression_var = expression_rule(p)) // expression && (for_if_clauses_var = for_if_clauses_rule(p)) // for_if_clauses ) { res = RAISE_SYNTAX_ERROR ( "iterable unpacking cannot be used in comprehension" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // invalid_parameters: // | param_no_default* (slash_with_default | param_with_default+) param_no_default static void * invalid_parameters_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // param_no_default* (slash_with_default | param_with_default+) param_no_default asdl_seq * _loop0_130_var; void *_tmp_131_var; arg_ty param_no_default_var; if ( (_loop0_130_var = _loop0_130_rule(p)) // param_no_default* && (_tmp_131_var = _tmp_131_rule(p)) // slash_with_default | param_with_default+ && (param_no_default_var = param_no_default_rule(p)) // param_no_default ) { res = RAISE_SYNTAX_ERROR ( "non-default argument follows default argument" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // invalid_star_etc: '*' (')' | ',' (')' | '**')) static void * invalid_star_etc_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '*' (')' | ',' (')' | '**')) void *_tmp_132_var; Token * literal; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (_tmp_132_var = _tmp_132_rule(p)) // ')' | ',' (')' | '**') ) { res = RAISE_SYNTAX_ERROR ( "named arguments must follow bare *" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // invalid_lambda_star_etc: '*' (':' | ',' (':' | '**')) static void * invalid_lambda_star_etc_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '*' (':' | ',' (':' | '**')) void *_tmp_133_var; Token * literal; if ( (literal = _PyPegen_expect_token(p, 16)) // token='*' && (_tmp_133_var = _tmp_133_rule(p)) // ':' | ',' (':' | '**') ) { res = RAISE_SYNTAX_ERROR ( "named arguments must follow bare *" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // invalid_double_type_comments: TYPE_COMMENT NEWLINE TYPE_COMMENT NEWLINE INDENT static void * invalid_double_type_comments_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // TYPE_COMMENT NEWLINE TYPE_COMMENT NEWLINE INDENT Token * indent_var; Token * newline_var; Token * newline_var_1; Token * type_comment_var; Token * type_comment_var_1; if ( (type_comment_var = _PyPegen_expect_token(p, TYPE_COMMENT)) // token='TYPE_COMMENT' && (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' && (type_comment_var_1 = _PyPegen_expect_token(p, TYPE_COMMENT)) // token='TYPE_COMMENT' && (newline_var_1 = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' && (indent_var = _PyPegen_expect_token(p, INDENT)) // token='INDENT' ) { res = RAISE_SYNTAX_ERROR ( "Cannot have two type comments on def" ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_1: NEWLINE static asdl_seq * _loop0_1_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // NEWLINE Token * newline_var; while ( (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' ) { res = newline_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_1"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_1_type, seq); return seq; } // _loop0_2: NEWLINE static asdl_seq * _loop0_2_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // NEWLINE Token * newline_var; while ( (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' ) { res = newline_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_2"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_2_type, seq); return seq; } // _loop0_4: ',' expression static asdl_seq * _loop0_4_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' expression expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = expression_rule(p)) // expression ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_4"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_4_type, seq); return seq; } // _gather_3: expression _loop0_4 static asdl_seq * _gather_3_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // expression _loop0_4 expr_ty elem; asdl_seq * seq; if ( (elem = expression_rule(p)) // expression && (seq = _loop0_4_rule(p)) // _loop0_4 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_6: ',' expression static asdl_seq * _loop0_6_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' expression expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = expression_rule(p)) // expression ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_6"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_6_type, seq); return seq; } // _gather_5: expression _loop0_6 static asdl_seq * _gather_5_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // expression _loop0_6 expr_ty elem; asdl_seq * seq; if ( (elem = expression_rule(p)) // expression && (seq = _loop0_6_rule(p)) // _loop0_6 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_8: ',' expression static asdl_seq * _loop0_8_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' expression expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = expression_rule(p)) // expression ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_8"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_8_type, seq); return seq; } // _gather_7: expression _loop0_8 static asdl_seq * _gather_7_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // expression _loop0_8 expr_ty elem; asdl_seq * seq; if ( (elem = expression_rule(p)) // expression && (seq = _loop0_8_rule(p)) // _loop0_8 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_10: ',' expression static asdl_seq * _loop0_10_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' expression expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = expression_rule(p)) // expression ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_10"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_10_type, seq); return seq; } // _gather_9: expression _loop0_10 static asdl_seq * _gather_9_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // expression _loop0_10 expr_ty elem; asdl_seq * seq; if ( (elem = expression_rule(p)) // expression && (seq = _loop0_10_rule(p)) // _loop0_10 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop1_11: statement static asdl_seq * _loop1_11_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // statement asdl_seq* statement_var; while ( (statement_var = statement_rule(p)) // statement ) { res = statement_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_11"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_11_type, seq); return seq; } // _loop0_13: ';' small_stmt static asdl_seq * _loop0_13_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ';' small_stmt stmt_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 13)) // token=';' && (elem = small_stmt_rule(p)) // small_stmt ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_13"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_13_type, seq); return seq; } // _gather_12: small_stmt _loop0_13 static asdl_seq * _gather_12_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // small_stmt _loop0_13 stmt_ty elem; asdl_seq * seq; if ( (elem = small_stmt_rule(p)) // small_stmt && (seq = _loop0_13_rule(p)) // _loop0_13 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_14: 'import' | 'from' static void * _tmp_14_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'import' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 513)) // token='import' ) { res = keyword; goto done; } p->mark = mark; } { // 'from' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 514)) // token='from' ) { res = keyword; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_15: 'def' | '@' | ASYNC static void * _tmp_15_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'def' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 522)) // token='def' ) { res = keyword; goto done; } p->mark = mark; } { // '@' Token * literal; if ( (literal = _PyPegen_expect_token(p, 49)) // token='@' ) { res = literal; goto done; } p->mark = mark; } { // ASYNC Token * async_var; if ( (async_var = _PyPegen_expect_token(p, ASYNC)) // token='ASYNC' ) { res = async_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_16: 'class' | '@' static void * _tmp_16_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'class' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 523)) // token='class' ) { res = keyword; goto done; } p->mark = mark; } { // '@' Token * literal; if ( (literal = _PyPegen_expect_token(p, 49)) // token='@' ) { res = literal; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_17: 'with' | ASYNC static void * _tmp_17_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'with' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 519)) // token='with' ) { res = keyword; goto done; } p->mark = mark; } { // ASYNC Token * async_var; if ( (async_var = _PyPegen_expect_token(p, ASYNC)) // token='ASYNC' ) { res = async_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_18: 'for' | ASYNC static void * _tmp_18_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'for' Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 517)) // token='for' ) { res = keyword; goto done; } p->mark = mark; } { // ASYNC Token * async_var; if ( (async_var = _PyPegen_expect_token(p, ASYNC)) // token='ASYNC' ) { res = async_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_19: '=' annotated_rhs static void * _tmp_19_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '=' annotated_rhs expr_ty d; Token * literal; if ( (literal = _PyPegen_expect_token(p, 22)) // token='=' && (d = annotated_rhs_rule(p)) // annotated_rhs ) { res = d; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_20: '(' inside_paren_ann_assign_target ')' | ann_assign_subscript_attribute_target static void * _tmp_20_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '(' inside_paren_ann_assign_target ')' expr_ty b; Token * literal; Token * literal_1; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (b = inside_paren_ann_assign_target_rule(p)) // inside_paren_ann_assign_target && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { res = b; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } { // ann_assign_subscript_attribute_target expr_ty ann_assign_subscript_attribute_target_var; if ( (ann_assign_subscript_attribute_target_var = ann_assign_subscript_attribute_target_rule(p)) // ann_assign_subscript_attribute_target ) { res = ann_assign_subscript_attribute_target_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_21: '=' annotated_rhs static void * _tmp_21_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '=' annotated_rhs expr_ty d; Token * literal; if ( (literal = _PyPegen_expect_token(p, 22)) // token='=' && (d = annotated_rhs_rule(p)) // annotated_rhs ) { res = d; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop1_22: (star_targets '=') static asdl_seq * _loop1_22_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // (star_targets '=') void *_tmp_134_var; while ( (_tmp_134_var = _tmp_134_rule(p)) // star_targets '=' ) { res = _tmp_134_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_22"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_22_type, seq); return seq; } // _tmp_23: yield_expr | star_expressions static void * _tmp_23_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // yield_expr expr_ty yield_expr_var; if ( (yield_expr_var = yield_expr_rule(p)) // yield_expr ) { res = yield_expr_var; goto done; } p->mark = mark; } { // star_expressions expr_ty star_expressions_var; if ( (star_expressions_var = star_expressions_rule(p)) // star_expressions ) { res = star_expressions_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_24: yield_expr | star_expressions static void * _tmp_24_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // yield_expr expr_ty yield_expr_var; if ( (yield_expr_var = yield_expr_rule(p)) // yield_expr ) { res = yield_expr_var; goto done; } p->mark = mark; } { // star_expressions expr_ty star_expressions_var; if ( (star_expressions_var = star_expressions_rule(p)) // star_expressions ) { res = star_expressions_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_26: ',' NAME static asdl_seq * _loop0_26_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' NAME expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = _PyPegen_name_token(p)) // NAME ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_26"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_26_type, seq); return seq; } // _gather_25: NAME _loop0_26 static asdl_seq * _gather_25_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // NAME _loop0_26 expr_ty elem; asdl_seq * seq; if ( (elem = _PyPegen_name_token(p)) // NAME && (seq = _loop0_26_rule(p)) // _loop0_26 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_28: ',' NAME static asdl_seq * _loop0_28_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' NAME expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = _PyPegen_name_token(p)) // NAME ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_28"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_28_type, seq); return seq; } // _gather_27: NAME _loop0_28 static asdl_seq * _gather_27_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // NAME _loop0_28 expr_ty elem; asdl_seq * seq; if ( (elem = _PyPegen_name_token(p)) // NAME && (seq = _loop0_28_rule(p)) // _loop0_28 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_29: ',' expression static void * _tmp_29_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ',' expression Token * literal; expr_ty z; if ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (z = expression_rule(p)) // expression ) { res = z; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_30: ('.' | '...') static asdl_seq * _loop0_30_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ('.' | '...') void *_tmp_135_var; while ( (_tmp_135_var = _tmp_135_rule(p)) // '.' | '...' ) { res = _tmp_135_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_30"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_30_type, seq); return seq; } // _loop1_31: ('.' | '...') static asdl_seq * _loop1_31_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ('.' | '...') void *_tmp_136_var; while ( (_tmp_136_var = _tmp_136_rule(p)) // '.' | '...' ) { res = _tmp_136_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_31"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_31_type, seq); return seq; } // _loop0_33: ',' import_from_as_name static asdl_seq * _loop0_33_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' import_from_as_name alias_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = import_from_as_name_rule(p)) // import_from_as_name ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_33"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_33_type, seq); return seq; } // _gather_32: import_from_as_name _loop0_33 static asdl_seq * _gather_32_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // import_from_as_name _loop0_33 alias_ty elem; asdl_seq * seq; if ( (elem = import_from_as_name_rule(p)) // import_from_as_name && (seq = _loop0_33_rule(p)) // _loop0_33 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_34: 'as' NAME static void * _tmp_34_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'as' NAME Token * keyword; expr_ty z; if ( (keyword = _PyPegen_expect_token(p, 531)) // token='as' && (z = _PyPegen_name_token(p)) // NAME ) { res = z; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_36: ',' dotted_as_name static asdl_seq * _loop0_36_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' dotted_as_name alias_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = dotted_as_name_rule(p)) // dotted_as_name ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_36"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_36_type, seq); return seq; } // _gather_35: dotted_as_name _loop0_36 static asdl_seq * _gather_35_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // dotted_as_name _loop0_36 alias_ty elem; asdl_seq * seq; if ( (elem = dotted_as_name_rule(p)) // dotted_as_name && (seq = _loop0_36_rule(p)) // _loop0_36 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_37: 'as' NAME static void * _tmp_37_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'as' NAME Token * keyword; expr_ty z; if ( (keyword = _PyPegen_expect_token(p, 531)) // token='as' && (z = _PyPegen_name_token(p)) // NAME ) { res = z; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_39: ',' with_item static asdl_seq * _loop0_39_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' with_item withitem_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = with_item_rule(p)) // with_item ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_39"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_39_type, seq); return seq; } // _gather_38: with_item _loop0_39 static asdl_seq * _gather_38_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // with_item _loop0_39 withitem_ty elem; asdl_seq * seq; if ( (elem = with_item_rule(p)) // with_item && (seq = _loop0_39_rule(p)) // _loop0_39 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_41: ',' with_item static asdl_seq * _loop0_41_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' with_item withitem_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = with_item_rule(p)) // with_item ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_41"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_41_type, seq); return seq; } // _gather_40: with_item _loop0_41 static asdl_seq * _gather_40_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // with_item _loop0_41 withitem_ty elem; asdl_seq * seq; if ( (elem = with_item_rule(p)) // with_item && (seq = _loop0_41_rule(p)) // _loop0_41 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_43: ',' with_item static asdl_seq * _loop0_43_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' with_item withitem_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = with_item_rule(p)) // with_item ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_43"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_43_type, seq); return seq; } // _gather_42: with_item _loop0_43 static asdl_seq * _gather_42_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // with_item _loop0_43 withitem_ty elem; asdl_seq * seq; if ( (elem = with_item_rule(p)) // with_item && (seq = _loop0_43_rule(p)) // _loop0_43 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_45: ',' with_item static asdl_seq * _loop0_45_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' with_item withitem_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = with_item_rule(p)) // with_item ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_45"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_45_type, seq); return seq; } // _gather_44: with_item _loop0_45 static asdl_seq * _gather_44_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // with_item _loop0_45 withitem_ty elem; asdl_seq * seq; if ( (elem = with_item_rule(p)) // with_item && (seq = _loop0_45_rule(p)) // _loop0_45 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_46: 'as' target static void * _tmp_46_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'as' target Token * keyword; expr_ty t; if ( (keyword = _PyPegen_expect_token(p, 531)) // token='as' && (t = target_rule(p)) // target ) { res = t; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop1_47: except_block static asdl_seq * _loop1_47_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // except_block excepthandler_ty except_block_var; while ( (except_block_var = except_block_rule(p)) // except_block ) { res = except_block_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_47"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_47_type, seq); return seq; } // _tmp_48: 'as' target static void * _tmp_48_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'as' target Token * keyword; expr_ty z; if ( (keyword = _PyPegen_expect_token(p, 531)) // token='as' && (z = target_rule(p)) // target ) { res = z; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_49: 'from' expression static void * _tmp_49_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'from' expression Token * keyword; expr_ty z; if ( (keyword = _PyPegen_expect_token(p, 514)) // token='from' && (z = expression_rule(p)) // expression ) { res = z; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_50: '->' expression static void * _tmp_50_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '->' expression Token * literal; expr_ty z; if ( (literal = _PyPegen_expect_token(p, 51)) // token='->' && (z = expression_rule(p)) // expression ) { res = z; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_51: '->' expression static void * _tmp_51_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '->' expression Token * literal; expr_ty z; if ( (literal = _PyPegen_expect_token(p, 51)) // token='->' && (z = expression_rule(p)) // expression ) { res = z; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_52: NEWLINE INDENT static void * _tmp_52_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // NEWLINE INDENT Token * indent_var; Token * newline_var; if ( (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' && (indent_var = _PyPegen_expect_token(p, INDENT)) // token='INDENT' ) { res = _PyPegen_dummy_name(p, newline_var, indent_var); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_53: param_no_default static asdl_seq * _loop0_53_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_no_default arg_ty param_no_default_var; while ( (param_no_default_var = param_no_default_rule(p)) // param_no_default ) { res = param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_53"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_53_type, seq); return seq; } // _loop0_54: param_with_default static asdl_seq * _loop0_54_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_with_default NameDefaultPair* param_with_default_var; while ( (param_with_default_var = param_with_default_rule(p)) // param_with_default ) { res = param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_54"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_54_type, seq); return seq; } // _loop0_55: param_with_default static asdl_seq * _loop0_55_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_with_default NameDefaultPair* param_with_default_var; while ( (param_with_default_var = param_with_default_rule(p)) // param_with_default ) { res = param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_55"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_55_type, seq); return seq; } // _loop1_56: param_no_default static asdl_seq * _loop1_56_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_no_default arg_ty param_no_default_var; while ( (param_no_default_var = param_no_default_rule(p)) // param_no_default ) { res = param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_56"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_56_type, seq); return seq; } // _loop0_57: param_with_default static asdl_seq * _loop0_57_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_with_default NameDefaultPair* param_with_default_var; while ( (param_with_default_var = param_with_default_rule(p)) // param_with_default ) { res = param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_57"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_57_type, seq); return seq; } // _loop1_58: param_with_default static asdl_seq * _loop1_58_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_with_default NameDefaultPair* param_with_default_var; while ( (param_with_default_var = param_with_default_rule(p)) // param_with_default ) { res = param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_58"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_58_type, seq); return seq; } // _loop1_59: param_no_default static asdl_seq * _loop1_59_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_no_default arg_ty param_no_default_var; while ( (param_no_default_var = param_no_default_rule(p)) // param_no_default ) { res = param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_59"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_59_type, seq); return seq; } // _loop1_60: param_no_default static asdl_seq * _loop1_60_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_no_default arg_ty param_no_default_var; while ( (param_no_default_var = param_no_default_rule(p)) // param_no_default ) { res = param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_60"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_60_type, seq); return seq; } // _loop0_61: param_no_default static asdl_seq * _loop0_61_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_no_default arg_ty param_no_default_var; while ( (param_no_default_var = param_no_default_rule(p)) // param_no_default ) { res = param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_61"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_61_type, seq); return seq; } // _loop1_62: param_with_default static asdl_seq * _loop1_62_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_with_default NameDefaultPair* param_with_default_var; while ( (param_with_default_var = param_with_default_rule(p)) // param_with_default ) { res = param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_62"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_62_type, seq); return seq; } // _loop0_63: param_no_default static asdl_seq * _loop0_63_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_no_default arg_ty param_no_default_var; while ( (param_no_default_var = param_no_default_rule(p)) // param_no_default ) { res = param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_63"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_63_type, seq); return seq; } // _loop1_64: param_with_default static asdl_seq * _loop1_64_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_with_default NameDefaultPair* param_with_default_var; while ( (param_with_default_var = param_with_default_rule(p)) // param_with_default ) { res = param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_64"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_64_type, seq); return seq; } // _loop0_65: param_maybe_default static asdl_seq * _loop0_65_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_maybe_default NameDefaultPair* param_maybe_default_var; while ( (param_maybe_default_var = param_maybe_default_rule(p)) // param_maybe_default ) { res = param_maybe_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_65"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_65_type, seq); return seq; } // _loop1_66: param_maybe_default static asdl_seq * _loop1_66_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_maybe_default NameDefaultPair* param_maybe_default_var; while ( (param_maybe_default_var = param_maybe_default_rule(p)) // param_maybe_default ) { res = param_maybe_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_66"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_66_type, seq); return seq; } // _loop1_67: ('@' named_expression NEWLINE) static asdl_seq * _loop1_67_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ('@' named_expression NEWLINE) void *_tmp_137_var; while ( (_tmp_137_var = _tmp_137_rule(p)) // '@' named_expression NEWLINE ) { res = _tmp_137_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_67"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_67_type, seq); return seq; } // _tmp_68: '(' arguments? ')' static void * _tmp_68_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '(' arguments? ')' Token * literal; Token * literal_1; void *z; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' && (z = arguments_rule(p), 1) // arguments? && (literal_1 = _PyPegen_expect_token(p, 8)) // token=')' ) { res = z; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_70: ',' star_expression static asdl_seq * _loop0_70_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' star_expression expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = star_expression_rule(p)) // star_expression ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_70"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_70_type, seq); return seq; } // _gather_69: star_expression _loop0_70 static asdl_seq * _gather_69_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // star_expression _loop0_70 expr_ty elem; asdl_seq * seq; if ( (elem = star_expression_rule(p)) // star_expression && (seq = _loop0_70_rule(p)) // _loop0_70 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop1_71: (',' star_expression) static asdl_seq * _loop1_71_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // (',' star_expression) void *_tmp_138_var; while ( (_tmp_138_var = _tmp_138_rule(p)) // ',' star_expression ) { res = _tmp_138_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_71"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_71_type, seq); return seq; } // _loop0_73: ',' star_named_expression static asdl_seq * _loop0_73_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' star_named_expression expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = star_named_expression_rule(p)) // star_named_expression ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_73"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_73_type, seq); return seq; } // _gather_72: star_named_expression _loop0_73 static asdl_seq * _gather_72_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // star_named_expression _loop0_73 expr_ty elem; asdl_seq * seq; if ( (elem = star_named_expression_rule(p)) // star_named_expression && (seq = _loop0_73_rule(p)) // _loop0_73 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop1_74: (',' expression) static asdl_seq * _loop1_74_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // (',' expression) void *_tmp_139_var; while ( (_tmp_139_var = _tmp_139_rule(p)) // ',' expression ) { res = _tmp_139_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_74"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_74_type, seq); return seq; } // _loop0_75: lambda_param_no_default static asdl_seq * _loop0_75_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_no_default arg_ty lambda_param_no_default_var; while ( (lambda_param_no_default_var = lambda_param_no_default_rule(p)) // lambda_param_no_default ) { res = lambda_param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_75"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_75_type, seq); return seq; } // _loop0_76: lambda_param_with_default static asdl_seq * _loop0_76_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_with_default NameDefaultPair* lambda_param_with_default_var; while ( (lambda_param_with_default_var = lambda_param_with_default_rule(p)) // lambda_param_with_default ) { res = lambda_param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_76"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_76_type, seq); return seq; } // _loop0_77: lambda_param_with_default static asdl_seq * _loop0_77_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_with_default NameDefaultPair* lambda_param_with_default_var; while ( (lambda_param_with_default_var = lambda_param_with_default_rule(p)) // lambda_param_with_default ) { res = lambda_param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_77"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_77_type, seq); return seq; } // _loop1_78: lambda_param_no_default static asdl_seq * _loop1_78_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_no_default arg_ty lambda_param_no_default_var; while ( (lambda_param_no_default_var = lambda_param_no_default_rule(p)) // lambda_param_no_default ) { res = lambda_param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_78"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_78_type, seq); return seq; } // _loop0_79: lambda_param_with_default static asdl_seq * _loop0_79_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_with_default NameDefaultPair* lambda_param_with_default_var; while ( (lambda_param_with_default_var = lambda_param_with_default_rule(p)) // lambda_param_with_default ) { res = lambda_param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_79"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_79_type, seq); return seq; } // _loop1_80: lambda_param_with_default static asdl_seq * _loop1_80_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_with_default NameDefaultPair* lambda_param_with_default_var; while ( (lambda_param_with_default_var = lambda_param_with_default_rule(p)) // lambda_param_with_default ) { res = lambda_param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_80"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_80_type, seq); return seq; } // _loop1_81: lambda_param_no_default static asdl_seq * _loop1_81_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_no_default arg_ty lambda_param_no_default_var; while ( (lambda_param_no_default_var = lambda_param_no_default_rule(p)) // lambda_param_no_default ) { res = lambda_param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_81"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_81_type, seq); return seq; } // _loop1_82: lambda_param_no_default static asdl_seq * _loop1_82_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_no_default arg_ty lambda_param_no_default_var; while ( (lambda_param_no_default_var = lambda_param_no_default_rule(p)) // lambda_param_no_default ) { res = lambda_param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_82"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_82_type, seq); return seq; } // _loop0_83: lambda_param_no_default static asdl_seq * _loop0_83_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_no_default arg_ty lambda_param_no_default_var; while ( (lambda_param_no_default_var = lambda_param_no_default_rule(p)) // lambda_param_no_default ) { res = lambda_param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_83"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_83_type, seq); return seq; } // _loop1_84: lambda_param_with_default static asdl_seq * _loop1_84_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_with_default NameDefaultPair* lambda_param_with_default_var; while ( (lambda_param_with_default_var = lambda_param_with_default_rule(p)) // lambda_param_with_default ) { res = lambda_param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_84"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_84_type, seq); return seq; } // _loop0_85: lambda_param_no_default static asdl_seq * _loop0_85_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_no_default arg_ty lambda_param_no_default_var; while ( (lambda_param_no_default_var = lambda_param_no_default_rule(p)) // lambda_param_no_default ) { res = lambda_param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_85"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_85_type, seq); return seq; } // _loop1_86: lambda_param_with_default static asdl_seq * _loop1_86_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_with_default NameDefaultPair* lambda_param_with_default_var; while ( (lambda_param_with_default_var = lambda_param_with_default_rule(p)) // lambda_param_with_default ) { res = lambda_param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_86"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_86_type, seq); return seq; } // _loop0_87: lambda_param_maybe_default static asdl_seq * _loop0_87_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_maybe_default NameDefaultPair* lambda_param_maybe_default_var; while ( (lambda_param_maybe_default_var = lambda_param_maybe_default_rule(p)) // lambda_param_maybe_default ) { res = lambda_param_maybe_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_87"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_87_type, seq); return seq; } // _loop1_88: lambda_param_maybe_default static asdl_seq * _loop1_88_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // lambda_param_maybe_default NameDefaultPair* lambda_param_maybe_default_var; while ( (lambda_param_maybe_default_var = lambda_param_maybe_default_rule(p)) // lambda_param_maybe_default ) { res = lambda_param_maybe_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_88"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_88_type, seq); return seq; } // _loop1_89: ('or' conjunction) static asdl_seq * _loop1_89_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ('or' conjunction) void *_tmp_140_var; while ( (_tmp_140_var = _tmp_140_rule(p)) // 'or' conjunction ) { res = _tmp_140_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_89"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_89_type, seq); return seq; } // _loop1_90: ('and' inversion) static asdl_seq * _loop1_90_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ('and' inversion) void *_tmp_141_var; while ( (_tmp_141_var = _tmp_141_rule(p)) // 'and' inversion ) { res = _tmp_141_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_90"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_90_type, seq); return seq; } // _loop1_91: compare_op_bitwise_or_pair static asdl_seq * _loop1_91_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // compare_op_bitwise_or_pair CmpopExprPair* compare_op_bitwise_or_pair_var; while ( (compare_op_bitwise_or_pair_var = compare_op_bitwise_or_pair_rule(p)) // compare_op_bitwise_or_pair ) { res = compare_op_bitwise_or_pair_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_91"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_91_type, seq); return seq; } // _tmp_92: '!=' static void * _tmp_92_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '!=' Token * tok; if ( (tok = _PyPegen_expect_token(p, 28)) // token='!=' ) { res = _PyPegen_check_barry_as_flufl ( p ) ? NULL : tok; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_94: ',' slice static asdl_seq * _loop0_94_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' slice expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = slice_rule(p)) // slice ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_94"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_94_type, seq); return seq; } // _gather_93: slice _loop0_94 static asdl_seq * _gather_93_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // slice _loop0_94 expr_ty elem; asdl_seq * seq; if ( (elem = slice_rule(p)) // slice && (seq = _loop0_94_rule(p)) // _loop0_94 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_95: ':' expression? static void * _tmp_95_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ':' expression? void *d; Token * literal; if ( (literal = _PyPegen_expect_token(p, 11)) // token=':' && (d = expression_rule(p), 1) // expression? ) { res = d; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_96: tuple | group | genexp static void * _tmp_96_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // tuple expr_ty tuple_var; if ( (tuple_var = tuple_rule(p)) // tuple ) { res = tuple_var; goto done; } p->mark = mark; } { // group expr_ty group_var; if ( (group_var = group_rule(p)) // group ) { res = group_var; goto done; } p->mark = mark; } { // genexp expr_ty genexp_var; if ( (genexp_var = genexp_rule(p)) // genexp ) { res = genexp_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_97: list | listcomp static void * _tmp_97_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // list expr_ty list_var; if ( (list_var = list_rule(p)) // list ) { res = list_var; goto done; } p->mark = mark; } { // listcomp expr_ty listcomp_var; if ( (listcomp_var = listcomp_rule(p)) // listcomp ) { res = listcomp_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_98: dict | set | dictcomp | setcomp static void * _tmp_98_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // dict expr_ty dict_var; if ( (dict_var = dict_rule(p)) // dict ) { res = dict_var; goto done; } p->mark = mark; } { // set expr_ty set_var; if ( (set_var = set_rule(p)) // set ) { res = set_var; goto done; } p->mark = mark; } { // dictcomp expr_ty dictcomp_var; if ( (dictcomp_var = dictcomp_rule(p)) // dictcomp ) { res = dictcomp_var; goto done; } p->mark = mark; } { // setcomp expr_ty setcomp_var; if ( (setcomp_var = setcomp_rule(p)) // setcomp ) { res = setcomp_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop1_99: STRING static asdl_seq * _loop1_99_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // STRING expr_ty string_var; while ( (string_var = _PyPegen_string_token(p)) // STRING ) { res = string_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_99"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_99_type, seq); return seq; } // _tmp_100: star_named_expression ',' star_named_expressions? static void * _tmp_100_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // star_named_expression ',' star_named_expressions? Token * literal; expr_ty y; void *z; if ( (y = star_named_expression_rule(p)) // star_named_expression && (literal = _PyPegen_expect_token(p, 12)) // token=',' && (z = star_named_expressions_rule(p), 1) // star_named_expressions? ) { res = _PyPegen_seq_insert_in_front ( p , y , z ); if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_101: yield_expr | named_expression static void * _tmp_101_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // yield_expr expr_ty yield_expr_var; if ( (yield_expr_var = yield_expr_rule(p)) // yield_expr ) { res = yield_expr_var; goto done; } p->mark = mark; } { // named_expression expr_ty named_expression_var; if ( (named_expression_var = named_expression_rule(p)) // named_expression ) { res = named_expression_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_103: ',' kvpair static asdl_seq * _loop0_103_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' kvpair KeyValuePair* elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = kvpair_rule(p)) // kvpair ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_103"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_103_type, seq); return seq; } // _gather_102: kvpair _loop0_103 static asdl_seq * _gather_102_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // kvpair _loop0_103 KeyValuePair* elem; asdl_seq * seq; if ( (elem = kvpair_rule(p)) // kvpair && (seq = _loop0_103_rule(p)) // _loop0_103 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop1_104: for_if_clause static asdl_seq * _loop1_104_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // for_if_clause comprehension_ty for_if_clause_var; while ( (for_if_clause_var = for_if_clause_rule(p)) // for_if_clause ) { res = for_if_clause_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_104"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_104_type, seq); return seq; } // _loop0_105: ('if' disjunction) static asdl_seq * _loop0_105_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ('if' disjunction) void *_tmp_142_var; while ( (_tmp_142_var = _tmp_142_rule(p)) // 'if' disjunction ) { res = _tmp_142_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_105"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_105_type, seq); return seq; } // _loop0_106: ('if' disjunction) static asdl_seq * _loop0_106_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ('if' disjunction) void *_tmp_143_var; while ( (_tmp_143_var = _tmp_143_rule(p)) // 'if' disjunction ) { res = _tmp_143_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_106"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_106_type, seq); return seq; } // _tmp_107: ',' args static void * _tmp_107_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ',' args expr_ty c; Token * literal; if ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (c = args_rule(p)) // args ) { res = c; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_108: ',' args static void * _tmp_108_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ',' args expr_ty c; Token * literal; if ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (c = args_rule(p)) // args ) { res = c; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_110: ',' kwarg_or_starred static asdl_seq * _loop0_110_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' kwarg_or_starred KeywordOrStarred* elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = kwarg_or_starred_rule(p)) // kwarg_or_starred ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_110"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_110_type, seq); return seq; } // _gather_109: kwarg_or_starred _loop0_110 static asdl_seq * _gather_109_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // kwarg_or_starred _loop0_110 KeywordOrStarred* elem; asdl_seq * seq; if ( (elem = kwarg_or_starred_rule(p)) // kwarg_or_starred && (seq = _loop0_110_rule(p)) // _loop0_110 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_112: ',' kwarg_or_double_starred static asdl_seq * _loop0_112_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' kwarg_or_double_starred KeywordOrStarred* elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = kwarg_or_double_starred_rule(p)) // kwarg_or_double_starred ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_112"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_112_type, seq); return seq; } // _gather_111: kwarg_or_double_starred _loop0_112 static asdl_seq * _gather_111_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // kwarg_or_double_starred _loop0_112 KeywordOrStarred* elem; asdl_seq * seq; if ( (elem = kwarg_or_double_starred_rule(p)) // kwarg_or_double_starred && (seq = _loop0_112_rule(p)) // _loop0_112 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_114: ',' kwarg_or_starred static asdl_seq * _loop0_114_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' kwarg_or_starred KeywordOrStarred* elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = kwarg_or_starred_rule(p)) // kwarg_or_starred ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_114"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_114_type, seq); return seq; } // _gather_113: kwarg_or_starred _loop0_114 static asdl_seq * _gather_113_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // kwarg_or_starred _loop0_114 KeywordOrStarred* elem; asdl_seq * seq; if ( (elem = kwarg_or_starred_rule(p)) // kwarg_or_starred && (seq = _loop0_114_rule(p)) // _loop0_114 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_116: ',' kwarg_or_double_starred static asdl_seq * _loop0_116_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' kwarg_or_double_starred KeywordOrStarred* elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = kwarg_or_double_starred_rule(p)) // kwarg_or_double_starred ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_116"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_116_type, seq); return seq; } // _gather_115: kwarg_or_double_starred _loop0_116 static asdl_seq * _gather_115_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // kwarg_or_double_starred _loop0_116 KeywordOrStarred* elem; asdl_seq * seq; if ( (elem = kwarg_or_double_starred_rule(p)) // kwarg_or_double_starred && (seq = _loop0_116_rule(p)) // _loop0_116 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_117: (',' star_target) static asdl_seq * _loop0_117_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // (',' star_target) void *_tmp_144_var; while ( (_tmp_144_var = _tmp_144_rule(p)) // ',' star_target ) { res = _tmp_144_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_117"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_117_type, seq); return seq; } // _loop0_119: ',' star_target static asdl_seq * _loop0_119_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' star_target expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = star_target_rule(p)) // star_target ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_119"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_119_type, seq); return seq; } // _gather_118: star_target _loop0_119 static asdl_seq * _gather_118_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // star_target _loop0_119 expr_ty elem; asdl_seq * seq; if ( (elem = star_target_rule(p)) // star_target && (seq = _loop0_119_rule(p)) // _loop0_119 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_120: !'*' star_target static void * _tmp_120_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // !'*' star_target expr_ty star_target_var; if ( _PyPegen_lookahead_with_int(0, _PyPegen_expect_token, p, 16) // token='*' && (star_target_var = star_target_rule(p)) // star_target ) { res = star_target_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_122: ',' del_target static asdl_seq * _loop0_122_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' del_target expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = del_target_rule(p)) // del_target ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_122"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_122_type, seq); return seq; } // _gather_121: del_target _loop0_122 static asdl_seq * _gather_121_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // del_target _loop0_122 expr_ty elem; asdl_seq * seq; if ( (elem = del_target_rule(p)) // del_target && (seq = _loop0_122_rule(p)) // _loop0_122 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_124: ',' target static asdl_seq * _loop0_124_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // ',' target expr_ty elem; Token * literal; while ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (elem = target_rule(p)) // target ) { res = elem; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; PyMem_Free(children); return NULL; } if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_124"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_124_type, seq); return seq; } // _gather_123: target _loop0_124 static asdl_seq * _gather_123_rule(Parser *p) { if (p->error_indicator) { return NULL; } asdl_seq * res = NULL; int mark = p->mark; { // target _loop0_124 expr_ty elem; asdl_seq * seq; if ( (elem = target_rule(p)) // target && (seq = _loop0_124_rule(p)) // _loop0_124 ) { res = _PyPegen_seq_insert_in_front(p, elem, seq); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_125: args | expression for_if_clauses static void * _tmp_125_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // args expr_ty args_var; if ( (args_var = args_rule(p)) // args ) { res = args_var; goto done; } p->mark = mark; } { // expression for_if_clauses expr_ty expression_var; asdl_seq* for_if_clauses_var; if ( (expression_var = expression_rule(p)) // expression && (for_if_clauses_var = for_if_clauses_rule(p)) // for_if_clauses ) { res = _PyPegen_dummy_name(p, expression_var, for_if_clauses_var); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_126: '=' annotated_rhs static void * _tmp_126_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '=' annotated_rhs expr_ty annotated_rhs_var; Token * literal; if ( (literal = _PyPegen_expect_token(p, 22)) // token='=' && (annotated_rhs_var = annotated_rhs_rule(p)) // annotated_rhs ) { res = _PyPegen_dummy_name(p, literal, annotated_rhs_var); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_127: '=' | augassign static void * _tmp_127_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '=' Token * literal; if ( (literal = _PyPegen_expect_token(p, 22)) // token='=' ) { res = literal; goto done; } p->mark = mark; } { // augassign AugOperator* augassign_var; if ( (augassign_var = augassign_rule(p)) // augassign ) { res = augassign_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_128: yield_expr | star_expressions static void * _tmp_128_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // yield_expr expr_ty yield_expr_var; if ( (yield_expr_var = yield_expr_rule(p)) // yield_expr ) { res = yield_expr_var; goto done; } p->mark = mark; } { // star_expressions expr_ty star_expressions_var; if ( (star_expressions_var = star_expressions_rule(p)) // star_expressions ) { res = star_expressions_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_129: '[' | '(' | '{' static void * _tmp_129_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '[' Token * literal; if ( (literal = _PyPegen_expect_token(p, 9)) // token='[' ) { res = literal; goto done; } p->mark = mark; } { // '(' Token * literal; if ( (literal = _PyPegen_expect_token(p, 7)) // token='(' ) { res = literal; goto done; } p->mark = mark; } { // '{' Token * literal; if ( (literal = _PyPegen_expect_token(p, 25)) // token='{' ) { res = literal; goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop0_130: param_no_default static asdl_seq * _loop0_130_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_no_default arg_ty param_no_default_var; while ( (param_no_default_var = param_no_default_rule(p)) // param_no_default ) { res = param_no_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop0_130"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop0_130_type, seq); return seq; } // _tmp_131: slash_with_default | param_with_default+ static void * _tmp_131_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // slash_with_default SlashWithDefault* slash_with_default_var; if ( (slash_with_default_var = slash_with_default_rule(p)) // slash_with_default ) { res = slash_with_default_var; goto done; } p->mark = mark; } { // param_with_default+ asdl_seq * _loop1_145_var; if ( (_loop1_145_var = _loop1_145_rule(p)) // param_with_default+ ) { res = _loop1_145_var; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_132: ')' | ',' (')' | '**') static void * _tmp_132_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ')' Token * literal; if ( (literal = _PyPegen_expect_token(p, 8)) // token=')' ) { res = literal; goto done; } p->mark = mark; } { // ',' (')' | '**') void *_tmp_146_var; Token * literal; if ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (_tmp_146_var = _tmp_146_rule(p)) // ')' | '**' ) { res = _PyPegen_dummy_name(p, literal, _tmp_146_var); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_133: ':' | ',' (':' | '**') static void * _tmp_133_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ':' Token * literal; if ( (literal = _PyPegen_expect_token(p, 11)) // token=':' ) { res = literal; goto done; } p->mark = mark; } { // ',' (':' | '**') void *_tmp_147_var; Token * literal; if ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (_tmp_147_var = _tmp_147_rule(p)) // ':' | '**' ) { res = _PyPegen_dummy_name(p, literal, _tmp_147_var); goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_134: star_targets '=' static void * _tmp_134_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // star_targets '=' Token * literal; expr_ty z; if ( (z = star_targets_rule(p)) // star_targets && (literal = _PyPegen_expect_token(p, 22)) // token='=' ) { res = z; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_135: '.' | '...' static void * _tmp_135_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '.' Token * literal; if ( (literal = _PyPegen_expect_token(p, 23)) // token='.' ) { res = literal; goto done; } p->mark = mark; } { // '...' Token * literal; if ( (literal = _PyPegen_expect_token(p, 52)) // token='...' ) { res = literal; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_136: '.' | '...' static void * _tmp_136_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '.' Token * literal; if ( (literal = _PyPegen_expect_token(p, 23)) // token='.' ) { res = literal; goto done; } p->mark = mark; } { // '...' Token * literal; if ( (literal = _PyPegen_expect_token(p, 52)) // token='...' ) { res = literal; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_137: '@' named_expression NEWLINE static void * _tmp_137_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // '@' named_expression NEWLINE expr_ty f; Token * literal; Token * newline_var; if ( (literal = _PyPegen_expect_token(p, 49)) // token='@' && (f = named_expression_rule(p)) // named_expression && (newline_var = _PyPegen_expect_token(p, NEWLINE)) // token='NEWLINE' ) { res = f; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_138: ',' star_expression static void * _tmp_138_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ',' star_expression expr_ty c; Token * literal; if ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (c = star_expression_rule(p)) // star_expression ) { res = c; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_139: ',' expression static void * _tmp_139_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ',' expression expr_ty c; Token * literal; if ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (c = expression_rule(p)) // expression ) { res = c; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_140: 'or' conjunction static void * _tmp_140_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'or' conjunction expr_ty c; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 532)) // token='or' && (c = conjunction_rule(p)) // conjunction ) { res = c; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_141: 'and' inversion static void * _tmp_141_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'and' inversion expr_ty c; Token * keyword; if ( (keyword = _PyPegen_expect_token(p, 533)) // token='and' && (c = inversion_rule(p)) // inversion ) { res = c; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_142: 'if' disjunction static void * _tmp_142_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'if' disjunction Token * keyword; expr_ty z; if ( (keyword = _PyPegen_expect_token(p, 510)) // token='if' && (z = disjunction_rule(p)) // disjunction ) { res = z; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_143: 'if' disjunction static void * _tmp_143_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // 'if' disjunction Token * keyword; expr_ty z; if ( (keyword = _PyPegen_expect_token(p, 510)) // token='if' && (z = disjunction_rule(p)) // disjunction ) { res = z; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_144: ',' star_target static void * _tmp_144_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ',' star_target expr_ty c; Token * literal; if ( (literal = _PyPegen_expect_token(p, 12)) // token=',' && (c = star_target_rule(p)) // star_target ) { res = c; if (res == NULL && PyErr_Occurred()) { p->error_indicator = 1; return NULL; } goto done; } p->mark = mark; } res = NULL; done: return res; } // _loop1_145: param_with_default static asdl_seq * _loop1_145_rule(Parser *p) { if (p->error_indicator) { return NULL; } void *res = NULL; int mark = p->mark; int start_mark = p->mark; void **children = PyMem_Malloc(sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "Parser out of memory"); return NULL; } ssize_t children_capacity = 1; ssize_t n = 0; { // param_with_default NameDefaultPair* param_with_default_var; while ( (param_with_default_var = param_with_default_rule(p)) // param_with_default ) { res = param_with_default_var; if (n == children_capacity) { children_capacity *= 2; children = PyMem_Realloc(children, children_capacity*sizeof(void *)); if (!children) { PyErr_Format(PyExc_MemoryError, "realloc None"); return NULL; } } children[n++] = res; mark = p->mark; } p->mark = mark; } if (n == 0) { PyMem_Free(children); return NULL; } asdl_seq *seq = _Py_asdl_seq_new(n, p->arena); if (!seq) { PyErr_Format(PyExc_MemoryError, "asdl_seq_new _loop1_145"); PyMem_Free(children); return NULL; } for (int i = 0; i < n; i++) asdl_seq_SET(seq, i, children[i]); PyMem_Free(children); _PyPegen_insert_memo(p, start_mark, _loop1_145_type, seq); return seq; } // _tmp_146: ')' | '**' static void * _tmp_146_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ')' Token * literal; if ( (literal = _PyPegen_expect_token(p, 8)) // token=')' ) { res = literal; goto done; } p->mark = mark; } { // '**' Token * literal; if ( (literal = _PyPegen_expect_token(p, 35)) // token='**' ) { res = literal; goto done; } p->mark = mark; } res = NULL; done: return res; } // _tmp_147: ':' | '**' static void * _tmp_147_rule(Parser *p) { if (p->error_indicator) { return NULL; } void * res = NULL; int mark = p->mark; { // ':' Token * literal; if ( (literal = _PyPegen_expect_token(p, 11)) // token=':' ) { res = literal; goto done; } p->mark = mark; } { // '**' Token * literal; if ( (literal = _PyPegen_expect_token(p, 35)) // token='**' ) { res = literal; goto done; } p->mark = mark; } res = NULL; done: return res; } void * _PyPegen_parse(Parser *p) { // Initialize keywords p->keywords = reserved_keywords; p->n_keyword_lists = n_keyword_lists; // Run parser void *result = NULL; if (p->start_rule == Py_file_input) { result = file_rule(p); } else if (p->start_rule == Py_single_input) { result = interactive_rule(p); } else if (p->start_rule == Py_eval_input) { result = eval_rule(p); } else if (p->start_rule == Py_func_type_input) { result = func_type_rule(p); } else if (p->start_rule == Py_fstring_input) { result = fstring_rule(p); } return result; } // The end