// Code generated from SQLiteParser.g4 by ANTLR 4.13.0. DO NOT EDIT. package sqlite // SQLiteParser import ( "fmt" "strconv" "sync" "github.com/antlr4-go/antlr/v4" ) // Suppress unused import errors var _ = fmt.Printf var _ = strconv.Itoa var _ = sync.Once{} type SQLiteParser struct { *antlr.BaseParser } var SQLiteParserParserStaticData struct { once sync.Once serializedATN []int32 LiteralNames []string SymbolicNames []string RuleNames []string PredictionContextCache *antlr.PredictionContextCache atn *antlr.ATN decisionToDFA []*antlr.DFA } func sqliteparserParserInit() { staticData := &SQLiteParserParserStaticData staticData.LiteralNames = []string{ "", "';'", "'.'", "'('", "')'", "','", "'='", "'*'", "'+'", "'-'", "'~'", "'||'", "'/'", "'%'", "'<<'", "'>>'", "'&'", "'|'", "'<'", "'<='", "'>'", "'>='", "'=='", "'!='", "'<>'", "'ABORT'", "'ACTION'", "'ADD'", "'AFTER'", "'ALL'", "'ALTER'", "'ANALYZE'", "'AND'", "'AS'", "'ASC'", "'ATTACH'", "'AUTOINCREMENT'", "'BEFORE'", "'BEGIN'", "'BETWEEN'", "'BY'", "'CASCADE'", "'CASE'", "'CAST'", "'CHECK'", "'COLLATE'", "'COLUMN'", "'COMMIT'", "'CONFLICT'", "'CONSTRAINT'", "'CREATE'", "'CROSS'", "'CURRENT_DATE'", "'CURRENT_TIME'", "'CURRENT_TIMESTAMP'", "'DATABASE'", "'DEFAULT'", "'DEFERRABLE'", "'DEFERRED'", "'DELETE'", "'DESC'", "'DETACH'", "'DISTINCT'", "'DROP'", "'EACH'", "'ELSE'", "'END'", "'ESCAPE'", "'EXCEPT'", "'EXCLUSIVE'", "'EXISTS'", "'EXPLAIN'", "'FAIL'", "'FOR'", "'FOREIGN'", "'FROM'", "'FULL'", "'GLOB'", "'GROUP'", "'HAVING'", "'IF'", "'IGNORE'", "'IMMEDIATE'", "'IN'", "'INDEX'", "'INDEXED'", "'INITIALLY'", "'INNER'", "'INSERT'", "'INSTEAD'", "'INTERSECT'", "'INTO'", "'IS'", "'ISNULL'", "'JOIN'", "'KEY'", "'LEFT'", "'LIKE'", "'LIMIT'", "'MATCH'", "'NATURAL'", "'NO'", "'NOT'", "'NOTNULL'", "'NULL'", "'OF'", "'OFFSET'", "'ON'", "'OR'", "'ORDER'", "'OUTER'", "'PLAN'", "'PRAGMA'", "'PRIMARY'", "'QUERY'", "'RAISE'", "'RECURSIVE'", "'REFERENCES'", "'REGEXP'", "'REINDEX'", "'RELEASE'", "'RENAME'", "'REPLACE'", "'RESTRICT'", "'RETURNING'", "'RIGHT'", "'ROLLBACK'", "'ROW'", "'ROWS'", "'SAVEPOINT'", "'SELECT'", "'SET'", "'TABLE'", "'TEMP'", "'TEMPORARY'", "'THEN'", "'TO'", "'TRANSACTION'", "'TRIGGER'", "'UNION'", "'UNIQUE'", "'UPDATE'", "'USING'", "'VACUUM'", "'VALUES'", "'VIEW'", "'VIRTUAL'", "'WHEN'", "'WHERE'", "'WITH'", "'WITHOUT'", "'FIRST_VALUE'", "'OVER'", "'PARTITION'", "'RANGE'", "'PRECEDING'", "'UNBOUNDED'", "'CURRENT'", "'FOLLOWING'", "'CUME_DIST'", "'DENSE_RANK'", "'LAG'", "'LAST_VALUE'", "'LEAD'", "'NTH_VALUE'", "'NTILE'", "'PERCENT_RANK'", "'RANK'", "'ROW_NUMBER'", "'GENERATED'", "'ALWAYS'", "'STORED'", "'TRUE'", "'FALSE'", "'WINDOW'", "'NULLS'", "'FIRST'", "'LAST'", "'FILTER'", "'GROUPS'", "'EXCLUDE'", "'TIES'", "'OTHERS'", "'DO'", "'NOTHING'", } staticData.SymbolicNames = []string{ "", "SCOL", "DOT", "OPEN_PAR", "CLOSE_PAR", "COMMA", "ASSIGN", "STAR", "PLUS", "MINUS", "TILDE", "PIPE2", "DIV", "MOD", "LT2", "GT2", "AMP", "PIPE", "LT", "LT_EQ", "GT", "GT_EQ", "EQ", "NOT_EQ1", "NOT_EQ2", "ABORT_", "ACTION_", "ADD_", "AFTER_", "ALL_", "ALTER_", "ANALYZE_", "AND_", "AS_", "ASC_", "ATTACH_", "AUTOINCREMENT_", "BEFORE_", "BEGIN_", "BETWEEN_", "BY_", "CASCADE_", "CASE_", "CAST_", "CHECK_", "COLLATE_", "COLUMN_", "COMMIT_", "CONFLICT_", "CONSTRAINT_", "CREATE_", "CROSS_", "CURRENT_DATE_", "CURRENT_TIME_", "CURRENT_TIMESTAMP_", "DATABASE_", "DEFAULT_", "DEFERRABLE_", "DEFERRED_", "DELETE_", "DESC_", "DETACH_", "DISTINCT_", "DROP_", "EACH_", "ELSE_", "END_", "ESCAPE_", "EXCEPT_", "EXCLUSIVE_", "EXISTS_", "EXPLAIN_", "FAIL_", "FOR_", "FOREIGN_", "FROM_", "FULL_", "GLOB_", "GROUP_", "HAVING_", "IF_", "IGNORE_", "IMMEDIATE_", "IN_", "INDEX_", "INDEXED_", "INITIALLY_", "INNER_", "INSERT_", "INSTEAD_", "INTERSECT_", "INTO_", "IS_", "ISNULL_", "JOIN_", "KEY_", "LEFT_", "LIKE_", "LIMIT_", "MATCH_", "NATURAL_", "NO_", "NOT_", "NOTNULL_", "NULL_", "OF_", "OFFSET_", "ON_", "OR_", "ORDER_", "OUTER_", "PLAN_", "PRAGMA_", "PRIMARY_", "QUERY_", "RAISE_", "RECURSIVE_", "REFERENCES_", "REGEXP_", "REINDEX_", "RELEASE_", "RENAME_", "REPLACE_", "RESTRICT_", "RETURNING_", "RIGHT_", "ROLLBACK_", "ROW_", "ROWS_", "SAVEPOINT_", "SELECT_", "SET_", "TABLE_", "TEMP_", "TEMPORARY_", "THEN_", "TO_", "TRANSACTION_", "TRIGGER_", "UNION_", "UNIQUE_", "UPDATE_", "USING_", "VACUUM_", "VALUES_", "VIEW_", "VIRTUAL_", "WHEN_", "WHERE_", "WITH_", "WITHOUT_", "FIRST_VALUE_", "OVER_", "PARTITION_", "RANGE_", "PRECEDING_", "UNBOUNDED_", "CURRENT_", "FOLLOWING_", "CUME_DIST_", "DENSE_RANK_", "LAG_", "LAST_VALUE_", "LEAD_", "NTH_VALUE_", "NTILE_", "PERCENT_RANK_", "RANK_", "ROW_NUMBER_", "GENERATED_", "ALWAYS_", "STORED_", "TRUE_", "FALSE_", "WINDOW_", "NULLS_", "FIRST_", "LAST_", "FILTER_", "GROUPS_", "EXCLUDE_", "TIES_", "OTHERS_", "DO_", "NOTHING_", "IDENTIFIER", "NUMERIC_LITERAL", "BIND_PARAMETER", "STRING_LITERAL", "BLOB_LITERAL", "SINGLE_LINE_COMMENT", "MULTILINE_COMMENT", "SPACES", "UNEXPECTED_CHAR", } staticData.RuleNames = []string{ "parse", "sql_stmt_list", "sql_stmt", "alter_table_stmt", "analyze_stmt", "attach_stmt", "begin_stmt", "commit_stmt", "rollback_stmt", "savepoint_stmt", "release_stmt", "create_index_stmt", "indexed_column", "create_table_stmt", "column_def", "type_name", "column_constraint", "signed_number", "table_constraint", "foreign_key_clause", "conflict_clause", "create_trigger_stmt", "create_view_stmt", "create_virtual_table_stmt", "with_clause", "cte_table_name", "recursive_cte", "common_table_expression", "delete_stmt", "delete_stmt_limited", "detach_stmt", "drop_stmt", "expr", "raise_function", "literal_value", "value_row", "values_clause", "insert_stmt", "returning_clause", "upsert_clause", "pragma_stmt", "pragma_value", "reindex_stmt", "select_stmt", "join_clause", "select_core", "factored_select_stmt", "simple_select_stmt", "compound_select_stmt", "table_or_subquery", "result_column", "join_operator", "join_constraint", "compound_operator", "update_stmt", "column_name_list", "update_stmt_limited", "qualified_table_name", "vacuum_stmt", "filter_clause", "window_defn", "over_clause", "frame_spec", "frame_clause", "simple_function_invocation", "aggregate_function_invocation", "window_function_invocation", "common_table_stmt", "order_by_stmt", "limit_stmt", "ordering_term", "asc_desc", "frame_left", "frame_right", "frame_single", "window_function", "offset", "default_value", "partition_by", "order_by_expr", "order_by_expr_asc_desc", "expr_asc_desc", "initial_select", "recursive_select", "unary_operator", "error_message", "module_argument", "column_alias", "keyword", "name", "function_name", "schema_name", "table_name", "table_or_index_name", "column_name", "collation_name", "foreign_table", "index_name", "trigger_name", "view_name", "module_name", "pragma_name", "savepoint_name", "table_alias", "transaction_name", "window_name", "alias", "filename", "base_window_name", "simple_func", "aggregate_func", "table_function_name", "any_name", } staticData.PredictionContextCache = antlr.NewPredictionContextCache() staticData.serializedATN = []int32{ 4, 1, 193, 2056, 2, 0, 7, 0, 2, 1, 7, 1, 2, 2, 7, 2, 2, 3, 7, 3, 2, 4, 7, 4, 2, 5, 7, 5, 2, 6, 7, 6, 2, 7, 7, 7, 2, 8, 7, 8, 2, 9, 7, 9, 2, 10, 7, 10, 2, 11, 7, 11, 2, 12, 7, 12, 2, 13, 7, 13, 2, 14, 7, 14, 2, 15, 7, 15, 2, 16, 7, 16, 2, 17, 7, 17, 2, 18, 7, 18, 2, 19, 7, 19, 2, 20, 7, 20, 2, 21, 7, 21, 2, 22, 7, 22, 2, 23, 7, 23, 2, 24, 7, 24, 2, 25, 7, 25, 2, 26, 7, 26, 2, 27, 7, 27, 2, 28, 7, 28, 2, 29, 7, 29, 2, 30, 7, 30, 2, 31, 7, 31, 2, 32, 7, 32, 2, 33, 7, 33, 2, 34, 7, 34, 2, 35, 7, 35, 2, 36, 7, 36, 2, 37, 7, 37, 2, 38, 7, 38, 2, 39, 7, 39, 2, 40, 7, 40, 2, 41, 7, 41, 2, 42, 7, 42, 2, 43, 7, 43, 2, 44, 7, 44, 2, 45, 7, 45, 2, 46, 7, 46, 2, 47, 7, 47, 2, 48, 7, 48, 2, 49, 7, 49, 2, 50, 7, 50, 2, 51, 7, 51, 2, 52, 7, 52, 2, 53, 7, 53, 2, 54, 7, 54, 2, 55, 7, 55, 2, 56, 7, 56, 2, 57, 7, 57, 2, 58, 7, 58, 2, 59, 7, 59, 2, 60, 7, 60, 2, 61, 7, 61, 2, 62, 7, 62, 2, 63, 7, 63, 2, 64, 7, 64, 2, 65, 7, 65, 2, 66, 7, 66, 2, 67, 7, 67, 2, 68, 7, 68, 2, 69, 7, 69, 2, 70, 7, 70, 2, 71, 7, 71, 2, 72, 7, 72, 2, 73, 7, 73, 2, 74, 7, 74, 2, 75, 7, 75, 2, 76, 7, 76, 2, 77, 7, 77, 2, 78, 7, 78, 2, 79, 7, 79, 2, 80, 7, 80, 2, 81, 7, 81, 2, 82, 7, 82, 2, 83, 7, 83, 2, 84, 7, 84, 2, 85, 7, 85, 2, 86, 7, 86, 2, 87, 7, 87, 2, 88, 7, 88, 2, 89, 7, 89, 2, 90, 7, 90, 2, 91, 7, 91, 2, 92, 7, 92, 2, 93, 7, 93, 2, 94, 7, 94, 2, 95, 7, 95, 2, 96, 7, 96, 2, 97, 7, 97, 2, 98, 7, 98, 2, 99, 7, 99, 2, 100, 7, 100, 2, 101, 7, 101, 2, 102, 7, 102, 2, 103, 7, 103, 2, 104, 7, 104, 2, 105, 7, 105, 2, 106, 7, 106, 2, 107, 7, 107, 2, 108, 7, 108, 2, 109, 7, 109, 2, 110, 7, 110, 2, 111, 7, 111, 2, 112, 7, 112, 1, 0, 5, 0, 228, 8, 0, 10, 0, 12, 0, 231, 9, 0, 1, 0, 1, 0, 1, 1, 5, 1, 236, 8, 1, 10, 1, 12, 1, 239, 9, 1, 1, 1, 1, 1, 4, 1, 243, 8, 1, 11, 1, 12, 1, 244, 1, 1, 5, 1, 248, 8, 1, 10, 1, 12, 1, 251, 9, 1, 1, 1, 5, 1, 254, 8, 1, 10, 1, 12, 1, 257, 9, 1, 1, 2, 1, 2, 1, 2, 3, 2, 262, 8, 2, 3, 2, 264, 8, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 1, 2, 3, 2, 290, 8, 2, 1, 3, 1, 3, 1, 3, 1, 3, 1, 3, 3, 3, 297, 8, 3, 1, 3, 1, 3, 1, 3, 1, 3, 1, 3, 3, 3, 304, 8, 3, 1, 3, 1, 3, 1, 3, 1, 3, 3, 3, 310, 8, 3, 1, 3, 1, 3, 3, 3, 314, 8, 3, 1, 3, 1, 3, 1, 3, 3, 3, 319, 8, 3, 1, 3, 3, 3, 322, 8, 3, 1, 4, 1, 4, 1, 4, 1, 4, 1, 4, 3, 4, 329, 8, 4, 1, 4, 3, 4, 332, 8, 4, 1, 5, 1, 5, 3, 5, 336, 8, 5, 1, 5, 1, 5, 1, 5, 1, 5, 1, 6, 1, 6, 3, 6, 344, 8, 6, 1, 6, 1, 6, 3, 6, 348, 8, 6, 3, 6, 350, 8, 6, 1, 7, 1, 7, 3, 7, 354, 8, 7, 1, 8, 1, 8, 3, 8, 358, 8, 8, 1, 8, 1, 8, 3, 8, 362, 8, 8, 1, 8, 3, 8, 365, 8, 8, 1, 9, 1, 9, 1, 9, 1, 10, 1, 10, 3, 10, 372, 8, 10, 1, 10, 1, 10, 1, 11, 1, 11, 3, 11, 378, 8, 11, 1, 11, 1, 11, 1, 11, 1, 11, 3, 11, 384, 8, 11, 1, 11, 1, 11, 1, 11, 3, 11, 389, 8, 11, 1, 11, 1, 11, 1, 11, 1, 11, 1, 11, 1, 11, 1, 11, 5, 11, 398, 8, 11, 10, 11, 12, 11, 401, 9, 11, 1, 11, 1, 11, 1, 11, 3, 11, 406, 8, 11, 1, 12, 1, 12, 3, 12, 410, 8, 12, 1, 12, 1, 12, 3, 12, 414, 8, 12, 1, 12, 3, 12, 417, 8, 12, 1, 13, 1, 13, 3, 13, 421, 8, 13, 1, 13, 1, 13, 1, 13, 1, 13, 3, 13, 427, 8, 13, 1, 13, 1, 13, 1, 13, 3, 13, 432, 8, 13, 1, 13, 1, 13, 1, 13, 1, 13, 1, 13, 5, 13, 439, 8, 13, 10, 13, 12, 13, 442, 9, 13, 1, 13, 1, 13, 5, 13, 446, 8, 13, 10, 13, 12, 13, 449, 9, 13, 1, 13, 1, 13, 1, 13, 3, 13, 454, 8, 13, 1, 13, 1, 13, 3, 13, 458, 8, 13, 1, 14, 1, 14, 3, 14, 462, 8, 14, 1, 14, 5, 14, 465, 8, 14, 10, 14, 12, 14, 468, 9, 14, 1, 15, 4, 15, 471, 8, 15, 11, 15, 12, 15, 472, 1, 15, 1, 15, 1, 15, 1, 15, 1, 15, 1, 15, 1, 15, 1, 15, 1, 15, 1, 15, 3, 15, 485, 8, 15, 1, 16, 1, 16, 3, 16, 489, 8, 16, 1, 16, 1, 16, 1, 16, 3, 16, 494, 8, 16, 1, 16, 3, 16, 497, 8, 16, 1, 16, 3, 16, 500, 8, 16, 1, 16, 3, 16, 503, 8, 16, 1, 16, 1, 16, 3, 16, 507, 8, 16, 1, 16, 3, 16, 510, 8, 16, 1, 16, 1, 16, 1, 16, 1, 16, 1, 16, 1, 16, 1, 16, 1, 16, 1, 16, 1, 16, 1, 16, 1, 16, 3, 16, 524, 8, 16, 1, 16, 1, 16, 1, 16, 1, 16, 1, 16, 3, 16, 531, 8, 16, 1, 16, 1, 16, 1, 16, 1, 16, 1, 16, 3, 16, 538, 8, 16, 3, 16, 540, 8, 16, 1, 17, 3, 17, 543, 8, 17, 1, 17, 1, 17, 1, 18, 1, 18, 3, 18, 549, 8, 18, 1, 18, 1, 18, 1, 18, 3, 18, 554, 8, 18, 1, 18, 1, 18, 1, 18, 1, 18, 5, 18, 560, 8, 18, 10, 18, 12, 18, 563, 9, 18, 1, 18, 1, 18, 3, 18, 567, 8, 18, 1, 18, 1, 18, 1, 18, 1, 18, 1, 18, 1, 18, 1, 18, 1, 18, 1, 18, 1, 18, 1, 18, 5, 18, 580, 8, 18, 10, 18, 12, 18, 583, 9, 18, 1, 18, 1, 18, 1, 18, 3, 18, 588, 8, 18, 1, 19, 1, 19, 1, 19, 1, 19, 1, 19, 1, 19, 5, 19, 596, 8, 19, 10, 19, 12, 19, 599, 9, 19, 1, 19, 1, 19, 3, 19, 603, 8, 19, 1, 19, 1, 19, 1, 19, 1, 19, 1, 19, 1, 19, 1, 19, 1, 19, 3, 19, 613, 8, 19, 1, 19, 1, 19, 5, 19, 617, 8, 19, 10, 19, 12, 19, 620, 9, 19, 1, 19, 3, 19, 623, 8, 19, 1, 19, 1, 19, 1, 19, 3, 19, 628, 8, 19, 3, 19, 630, 8, 19, 1, 20, 1, 20, 1, 20, 1, 20, 1, 21, 1, 21, 3, 21, 638, 8, 21, 1, 21, 1, 21, 1, 21, 1, 21, 3, 21, 644, 8, 21, 1, 21, 1, 21, 1, 21, 3, 21, 649, 8, 21, 1, 21, 1, 21, 1, 21, 1, 21, 1, 21, 3, 21, 656, 8, 21, 1, 21, 1, 21, 1, 21, 1, 21, 1, 21, 1, 21, 1, 21, 5, 21, 665, 8, 21, 10, 21, 12, 21, 668, 9, 21, 3, 21, 670, 8, 21, 3, 21, 672, 8, 21, 1, 21, 1, 21, 1, 21, 1, 21, 1, 21, 3, 21, 679, 8, 21, 1, 21, 1, 21, 3, 21, 683, 8, 21, 1, 21, 1, 21, 1, 21, 1, 21, 1, 21, 3, 21, 690, 8, 21, 1, 21, 1, 21, 4, 21, 694, 8, 21, 11, 21, 12, 21, 695, 1, 21, 1, 21, 1, 22, 1, 22, 3, 22, 702, 8, 22, 1, 22, 1, 22, 1, 22, 1, 22, 3, 22, 708, 8, 22, 1, 22, 1, 22, 1, 22, 3, 22, 713, 8, 22, 1, 22, 1, 22, 1, 22, 1, 22, 1, 22, 5, 22, 720, 8, 22, 10, 22, 12, 22, 723, 9, 22, 1, 22, 1, 22, 3, 22, 727, 8, 22, 1, 22, 1, 22, 1, 22, 1, 23, 1, 23, 1, 23, 1, 23, 1, 23, 1, 23, 3, 23, 738, 8, 23, 1, 23, 1, 23, 1, 23, 3, 23, 743, 8, 23, 1, 23, 1, 23, 1, 23, 1, 23, 1, 23, 1, 23, 1, 23, 5, 23, 752, 8, 23, 10, 23, 12, 23, 755, 9, 23, 1, 23, 1, 23, 3, 23, 759, 8, 23, 1, 24, 1, 24, 3, 24, 763, 8, 24, 1, 24, 1, 24, 1, 24, 1, 24, 1, 24, 1, 24, 1, 24, 1, 24, 1, 24, 1, 24, 1, 24, 1, 24, 5, 24, 777, 8, 24, 10, 24, 12, 24, 780, 9, 24, 1, 25, 1, 25, 1, 25, 1, 25, 1, 25, 5, 25, 787, 8, 25, 10, 25, 12, 25, 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1870, 1871, 1, 0, 0, 0, 1871, 1872, 1, 0, 0, 0, 1872, 1873, 5, 4, 0, 0, 1873, 1945, 1, 0, 0, 0, 1874, 1875, 7, 22, 0, 0, 1875, 1876, 5, 3, 0, 0, 1876, 1877, 5, 4, 0, 0, 1877, 1878, 5, 152, 0, 0, 1878, 1880, 5, 3, 0, 0, 1879, 1881, 3, 156, 78, 0, 1880, 1879, 1, 0, 0, 0, 1880, 1881, 1, 0, 0, 0, 1881, 1883, 1, 0, 0, 0, 1882, 1884, 3, 158, 79, 0, 1883, 1882, 1, 0, 0, 0, 1883, 1884, 1, 0, 0, 0, 1884, 1885, 1, 0, 0, 0, 1885, 1945, 5, 4, 0, 0, 1886, 1887, 7, 23, 0, 0, 1887, 1888, 5, 3, 0, 0, 1888, 1889, 5, 4, 0, 0, 1889, 1890, 5, 152, 0, 0, 1890, 1892, 5, 3, 0, 0, 1891, 1893, 3, 156, 78, 0, 1892, 1891, 1, 0, 0, 0, 1892, 1893, 1, 0, 0, 0, 1893, 1894, 1, 0, 0, 0, 1894, 1895, 3, 160, 80, 0, 1895, 1896, 5, 4, 0, 0, 1896, 1945, 1, 0, 0, 0, 1897, 1898, 7, 24, 0, 0, 1898, 1899, 5, 3, 0, 0, 1899, 1901, 3, 64, 32, 0, 1900, 1902, 3, 152, 76, 0, 1901, 1900, 1, 0, 0, 0, 1901, 1902, 1, 0, 0, 0, 1902, 1904, 1, 0, 0, 0, 1903, 1905, 3, 154, 77, 0, 1904, 1903, 1, 0, 0, 0, 1904, 1905, 1, 0, 0, 0, 1905, 1906, 1, 0, 0, 0, 1906, 1907, 5, 4, 0, 0, 1907, 1908, 5, 152, 0, 0, 1908, 1910, 5, 3, 0, 0, 1909, 1911, 3, 156, 78, 0, 1910, 1909, 1, 0, 0, 0, 1910, 1911, 1, 0, 0, 0, 1911, 1912, 1, 0, 0, 0, 1912, 1913, 3, 160, 80, 0, 1913, 1914, 5, 4, 0, 0, 1914, 1945, 1, 0, 0, 0, 1915, 1916, 5, 164, 0, 0, 1916, 1917, 5, 3, 0, 0, 1917, 1918, 3, 64, 32, 0, 1918, 1919, 5, 5, 0, 0, 1919, 1920, 3, 34, 17, 0, 1920, 1921, 5, 4, 0, 0, 1921, 1922, 5, 152, 0, 0, 1922, 1924, 5, 3, 0, 0, 1923, 1925, 3, 156, 78, 0, 1924, 1923, 1, 0, 0, 0, 1924, 1925, 1, 0, 0, 0, 1925, 1926, 1, 0, 0, 0, 1926, 1928, 3, 160, 80, 0, 1927, 1929, 3, 126, 63, 0, 1928, 1927, 1, 0, 0, 0, 1928, 1929, 1, 0, 0, 0, 1929, 1930, 1, 0, 0, 0, 1930, 1931, 5, 4, 0, 0, 1931, 1945, 1, 0, 0, 0, 1932, 1933, 5, 165, 0, 0, 1933, 1934, 5, 3, 0, 0, 1934, 1935, 3, 64, 32, 0, 1935, 1936, 5, 4, 0, 0, 1936, 1937, 5, 152, 0, 0, 1937, 1939, 5, 3, 0, 0, 1938, 1940, 3, 156, 78, 0, 1939, 1938, 1, 0, 0, 0, 1939, 1940, 1, 0, 0, 0, 1940, 1941, 1, 0, 0, 0, 1941, 1942, 3, 160, 80, 0, 1942, 1943, 5, 4, 0, 0, 1943, 1945, 1, 0, 0, 0, 1944, 1859, 1, 0, 0, 0, 1944, 1874, 1, 0, 0, 0, 1944, 1886, 1, 0, 0, 0, 1944, 1897, 1, 0, 0, 0, 1944, 1915, 1, 0, 0, 0, 1944, 1932, 1, 0, 0, 0, 1945, 151, 1, 0, 0, 0, 1946, 1947, 5, 5, 0, 0, 1947, 1948, 3, 34, 17, 0, 1948, 153, 1, 0, 0, 0, 1949, 1950, 5, 5, 0, 0, 1950, 1951, 3, 34, 17, 0, 1951, 155, 1, 0, 0, 0, 1952, 1953, 5, 153, 0, 0, 1953, 1955, 5, 40, 0, 0, 1954, 1956, 3, 64, 32, 0, 1955, 1954, 1, 0, 0, 0, 1956, 1957, 1, 0, 0, 0, 1957, 1955, 1, 0, 0, 0, 1957, 1958, 1, 0, 0, 0, 1958, 157, 1, 0, 0, 0, 1959, 1960, 5, 109, 0, 0, 1960, 1962, 5, 40, 0, 0, 1961, 1963, 3, 64, 32, 0, 1962, 1961, 1, 0, 0, 0, 1963, 1964, 1, 0, 0, 0, 1964, 1962, 1, 0, 0, 0, 1964, 1965, 1, 0, 0, 0, 1965, 159, 1, 0, 0, 0, 1966, 1967, 5, 109, 0, 0, 1967, 1968, 5, 40, 0, 0, 1968, 1969, 3, 162, 81, 0, 1969, 161, 1, 0, 0, 0, 1970, 1972, 3, 64, 32, 0, 1971, 1973, 3, 142, 71, 0, 1972, 1971, 1, 0, 0, 0, 1972, 1973, 1, 0, 0, 0, 1973, 1981, 1, 0, 0, 0, 1974, 1975, 5, 5, 0, 0, 1975, 1977, 3, 64, 32, 0, 1976, 1978, 3, 142, 71, 0, 1977, 1976, 1, 0, 0, 0, 1977, 1978, 1, 0, 0, 0, 1978, 1980, 1, 0, 0, 0, 1979, 1974, 1, 0, 0, 0, 1980, 1983, 1, 0, 0, 0, 1981, 1979, 1, 0, 0, 0, 1981, 1982, 1, 0, 0, 0, 1982, 163, 1, 0, 0, 0, 1983, 1981, 1, 0, 0, 0, 1984, 1985, 3, 86, 43, 0, 1985, 165, 1, 0, 0, 0, 1986, 1987, 3, 86, 43, 0, 1987, 167, 1, 0, 0, 0, 1988, 1989, 7, 25, 0, 0, 1989, 169, 1, 0, 0, 0, 1990, 1991, 5, 188, 0, 0, 1991, 171, 1, 0, 0, 0, 1992, 1995, 3, 64, 32, 0, 1993, 1995, 3, 28, 14, 0, 1994, 1992, 1, 0, 0, 0, 1994, 1993, 1, 0, 0, 0, 1995, 173, 1, 0, 0, 0, 1996, 1997, 7, 26, 0, 0, 1997, 175, 1, 0, 0, 0, 1998, 1999, 7, 27, 0, 0, 1999, 177, 1, 0, 0, 0, 2000, 2001, 3, 224, 112, 0, 2001, 179, 1, 0, 0, 0, 2002, 2003, 3, 224, 112, 0, 2003, 181, 1, 0, 0, 0, 2004, 2005, 3, 224, 112, 0, 2005, 183, 1, 0, 0, 0, 2006, 2007, 3, 224, 112, 0, 2007, 185, 1, 0, 0, 0, 2008, 2009, 3, 224, 112, 0, 2009, 187, 1, 0, 0, 0, 2010, 2011, 3, 224, 112, 0, 2011, 189, 1, 0, 0, 0, 2012, 2013, 3, 224, 112, 0, 2013, 191, 1, 0, 0, 0, 2014, 2015, 3, 224, 112, 0, 2015, 193, 1, 0, 0, 0, 2016, 2017, 3, 224, 112, 0, 2017, 195, 1, 0, 0, 0, 2018, 2019, 3, 224, 112, 0, 2019, 197, 1, 0, 0, 0, 2020, 2021, 3, 224, 112, 0, 2021, 199, 1, 0, 0, 0, 2022, 2023, 3, 224, 112, 0, 2023, 201, 1, 0, 0, 0, 2024, 2025, 3, 224, 112, 0, 2025, 203, 1, 0, 0, 0, 2026, 2027, 3, 224, 112, 0, 2027, 205, 1, 0, 0, 0, 2028, 2029, 3, 224, 112, 0, 2029, 207, 1, 0, 0, 0, 2030, 2031, 3, 224, 112, 0, 2031, 209, 1, 0, 0, 0, 2032, 2033, 3, 224, 112, 0, 2033, 211, 1, 0, 0, 0, 2034, 2035, 3, 224, 112, 0, 2035, 213, 1, 0, 0, 0, 2036, 2037, 3, 224, 112, 0, 2037, 215, 1, 0, 0, 0, 2038, 2039, 3, 224, 112, 0, 2039, 217, 1, 0, 0, 0, 2040, 2041, 3, 224, 112, 0, 2041, 219, 1, 0, 0, 0, 2042, 2043, 3, 224, 112, 0, 2043, 221, 1, 0, 0, 0, 2044, 2045, 3, 224, 112, 0, 2045, 223, 1, 0, 0, 0, 2046, 2054, 5, 185, 0, 0, 2047, 2054, 3, 176, 88, 0, 2048, 2054, 5, 188, 0, 0, 2049, 2050, 5, 3, 0, 0, 2050, 2051, 3, 224, 112, 0, 2051, 2052, 5, 4, 0, 0, 2052, 2054, 1, 0, 0, 0, 2053, 2046, 1, 0, 0, 0, 2053, 2047, 1, 0, 0, 0, 2053, 2048, 1, 0, 0, 0, 2053, 2049, 1, 0, 0, 0, 2054, 225, 1, 0, 0, 0, 296, 229, 237, 244, 249, 255, 261, 263, 289, 296, 303, 309, 313, 318, 321, 328, 331, 335, 343, 347, 349, 353, 357, 361, 364, 371, 377, 383, 388, 399, 405, 409, 413, 416, 420, 426, 431, 440, 447, 453, 457, 461, 466, 472, 484, 488, 493, 496, 499, 502, 506, 509, 523, 530, 537, 539, 542, 548, 553, 561, 566, 581, 587, 597, 602, 612, 616, 618, 622, 627, 629, 637, 643, 648, 655, 666, 669, 671, 678, 682, 689, 695, 701, 707, 712, 721, 726, 737, 742, 753, 758, 762, 778, 788, 793, 801, 813, 818, 826, 833, 836, 839, 846, 849, 852, 855, 859, 867, 872, 882, 887, 896, 903, 907, 911, 914, 922, 935, 938, 946, 955, 959, 964, 994, 1006, 1011, 1023, 1029, 1036, 1040, 1050, 1053, 1059, 1065, 1074, 1077, 1081, 1083, 1085, 1094, 1106, 1117, 1121, 1128, 1134, 1139, 1147, 1152, 1156, 1159, 1163, 1166, 1174, 1185, 1191, 1193, 1201, 1208, 1215, 1220, 1222, 1228, 1237, 1242, 1249, 1253, 1255, 1258, 1266, 1270, 1273, 1279, 1283, 1288, 1295, 1304, 1308, 1310, 1314, 1323, 1328, 1330, 1343, 1346, 1349, 1354, 1358, 1361, 1364, 1369, 1373, 1378, 1381, 1384, 1389, 1393, 1396, 1403, 1408, 1417, 1422, 1425, 1433, 1437, 1445, 1448, 1450, 1459, 1462, 1464, 1468, 1472, 1476, 1479, 1490, 1495, 1499, 1503, 1506, 1511, 1517, 1524, 1531, 1540, 1544, 1546, 1550, 1553, 1561, 1567, 1572, 1578, 1585, 1592, 1597, 1600, 1603, 1606, 1611, 1616, 1623, 1627, 1631, 1641, 1650, 1653, 1662, 1666, 1674, 1683, 1686, 1695, 1698, 1701, 1704, 1714, 1716, 1725, 1734, 1738, 1745, 1752, 1756, 1760, 1769, 1773, 1777, 1782, 1786, 1793, 1803, 1810, 1815, 1818, 1822, 1836, 1848, 1857, 1866, 1870, 1880, 1883, 1892, 1901, 1904, 1910, 1924, 1928, 1939, 1944, 1957, 1964, 1972, 1977, 1981, 1994, 2053, } deserializer := antlr.NewATNDeserializer(nil) staticData.atn = deserializer.Deserialize(staticData.serializedATN) atn := staticData.atn staticData.decisionToDFA = make([]*antlr.DFA, len(atn.DecisionToState)) decisionToDFA := staticData.decisionToDFA for index, state := range atn.DecisionToState { decisionToDFA[index] = antlr.NewDFA(state, index) } } // SQLiteParserInit initializes any static state used to implement SQLiteParser. By default the // static state used to implement the parser is lazily initialized during the first call to // NewSQLiteParser(). You can call this function if you wish to initialize the static state ahead // of time. func SQLiteParserInit() { staticData := &SQLiteParserParserStaticData staticData.once.Do(sqliteparserParserInit) } // NewSQLiteParser produces a new parser instance for the optional input antlr.TokenStream. func NewSQLiteParser(input antlr.TokenStream) *SQLiteParser { SQLiteParserInit() this := new(SQLiteParser) this.BaseParser = antlr.NewBaseParser(input) staticData := &SQLiteParserParserStaticData this.Interpreter = antlr.NewParserATNSimulator(this, staticData.atn, staticData.decisionToDFA, staticData.PredictionContextCache) this.RuleNames = staticData.RuleNames this.LiteralNames = staticData.LiteralNames this.SymbolicNames = staticData.SymbolicNames this.GrammarFileName = "SQLiteParser.g4" return this } // SQLiteParser tokens. const ( SQLiteParserEOF = antlr.TokenEOF SQLiteParserSCOL = 1 SQLiteParserDOT = 2 SQLiteParserOPEN_PAR = 3 SQLiteParserCLOSE_PAR = 4 SQLiteParserCOMMA = 5 SQLiteParserASSIGN = 6 SQLiteParserSTAR = 7 SQLiteParserPLUS = 8 SQLiteParserMINUS = 9 SQLiteParserTILDE = 10 SQLiteParserPIPE2 = 11 SQLiteParserDIV = 12 SQLiteParserMOD = 13 SQLiteParserLT2 = 14 SQLiteParserGT2 = 15 SQLiteParserAMP = 16 SQLiteParserPIPE = 17 SQLiteParserLT = 18 SQLiteParserLT_EQ = 19 SQLiteParserGT = 20 SQLiteParserGT_EQ = 21 SQLiteParserEQ = 22 SQLiteParserNOT_EQ1 = 23 SQLiteParserNOT_EQ2 = 24 SQLiteParserABORT_ = 25 SQLiteParserACTION_ = 26 SQLiteParserADD_ = 27 SQLiteParserAFTER_ = 28 SQLiteParserALL_ = 29 SQLiteParserALTER_ = 30 SQLiteParserANALYZE_ = 31 SQLiteParserAND_ = 32 SQLiteParserAS_ = 33 SQLiteParserASC_ = 34 SQLiteParserATTACH_ = 35 SQLiteParserAUTOINCREMENT_ = 36 SQLiteParserBEFORE_ = 37 SQLiteParserBEGIN_ = 38 SQLiteParserBETWEEN_ = 39 SQLiteParserBY_ = 40 SQLiteParserCASCADE_ = 41 SQLiteParserCASE_ = 42 SQLiteParserCAST_ = 43 SQLiteParserCHECK_ = 44 SQLiteParserCOLLATE_ = 45 SQLiteParserCOLUMN_ = 46 SQLiteParserCOMMIT_ = 47 SQLiteParserCONFLICT_ = 48 SQLiteParserCONSTRAINT_ = 49 SQLiteParserCREATE_ = 50 SQLiteParserCROSS_ = 51 SQLiteParserCURRENT_DATE_ = 52 SQLiteParserCURRENT_TIME_ = 53 SQLiteParserCURRENT_TIMESTAMP_ = 54 SQLiteParserDATABASE_ = 55 SQLiteParserDEFAULT_ = 56 SQLiteParserDEFERRABLE_ = 57 SQLiteParserDEFERRED_ = 58 SQLiteParserDELETE_ = 59 SQLiteParserDESC_ = 60 SQLiteParserDETACH_ = 61 SQLiteParserDISTINCT_ = 62 SQLiteParserDROP_ = 63 SQLiteParserEACH_ = 64 SQLiteParserELSE_ = 65 SQLiteParserEND_ = 66 SQLiteParserESCAPE_ = 67 SQLiteParserEXCEPT_ = 68 SQLiteParserEXCLUSIVE_ = 69 SQLiteParserEXISTS_ = 70 SQLiteParserEXPLAIN_ = 71 SQLiteParserFAIL_ = 72 SQLiteParserFOR_ = 73 SQLiteParserFOREIGN_ = 74 SQLiteParserFROM_ = 75 SQLiteParserFULL_ = 76 SQLiteParserGLOB_ = 77 SQLiteParserGROUP_ = 78 SQLiteParserHAVING_ = 79 SQLiteParserIF_ = 80 SQLiteParserIGNORE_ = 81 SQLiteParserIMMEDIATE_ = 82 SQLiteParserIN_ = 83 SQLiteParserINDEX_ = 84 SQLiteParserINDEXED_ = 85 SQLiteParserINITIALLY_ = 86 SQLiteParserINNER_ = 87 SQLiteParserINSERT_ = 88 SQLiteParserINSTEAD_ = 89 SQLiteParserINTERSECT_ = 90 SQLiteParserINTO_ = 91 SQLiteParserIS_ = 92 SQLiteParserISNULL_ = 93 SQLiteParserJOIN_ = 94 SQLiteParserKEY_ = 95 SQLiteParserLEFT_ = 96 SQLiteParserLIKE_ = 97 SQLiteParserLIMIT_ = 98 SQLiteParserMATCH_ = 99 SQLiteParserNATURAL_ = 100 SQLiteParserNO_ = 101 SQLiteParserNOT_ = 102 SQLiteParserNOTNULL_ = 103 SQLiteParserNULL_ = 104 SQLiteParserOF_ = 105 SQLiteParserOFFSET_ = 106 SQLiteParserON_ = 107 SQLiteParserOR_ = 108 SQLiteParserORDER_ = 109 SQLiteParserOUTER_ = 110 SQLiteParserPLAN_ = 111 SQLiteParserPRAGMA_ = 112 SQLiteParserPRIMARY_ = 113 SQLiteParserQUERY_ = 114 SQLiteParserRAISE_ = 115 SQLiteParserRECURSIVE_ = 116 SQLiteParserREFERENCES_ = 117 SQLiteParserREGEXP_ = 118 SQLiteParserREINDEX_ = 119 SQLiteParserRELEASE_ = 120 SQLiteParserRENAME_ = 121 SQLiteParserREPLACE_ = 122 SQLiteParserRESTRICT_ = 123 SQLiteParserRETURNING_ = 124 SQLiteParserRIGHT_ = 125 SQLiteParserROLLBACK_ = 126 SQLiteParserROW_ = 127 SQLiteParserROWS_ = 128 SQLiteParserSAVEPOINT_ = 129 SQLiteParserSELECT_ = 130 SQLiteParserSET_ = 131 SQLiteParserTABLE_ = 132 SQLiteParserTEMP_ = 133 SQLiteParserTEMPORARY_ = 134 SQLiteParserTHEN_ = 135 SQLiteParserTO_ = 136 SQLiteParserTRANSACTION_ = 137 SQLiteParserTRIGGER_ = 138 SQLiteParserUNION_ = 139 SQLiteParserUNIQUE_ = 140 SQLiteParserUPDATE_ = 141 SQLiteParserUSING_ = 142 SQLiteParserVACUUM_ = 143 SQLiteParserVALUES_ = 144 SQLiteParserVIEW_ = 145 SQLiteParserVIRTUAL_ = 146 SQLiteParserWHEN_ = 147 SQLiteParserWHERE_ = 148 SQLiteParserWITH_ = 149 SQLiteParserWITHOUT_ = 150 SQLiteParserFIRST_VALUE_ = 151 SQLiteParserOVER_ = 152 SQLiteParserPARTITION_ = 153 SQLiteParserRANGE_ = 154 SQLiteParserPRECEDING_ = 155 SQLiteParserUNBOUNDED_ = 156 SQLiteParserCURRENT_ = 157 SQLiteParserFOLLOWING_ = 158 SQLiteParserCUME_DIST_ = 159 SQLiteParserDENSE_RANK_ = 160 SQLiteParserLAG_ = 161 SQLiteParserLAST_VALUE_ = 162 SQLiteParserLEAD_ = 163 SQLiteParserNTH_VALUE_ = 164 SQLiteParserNTILE_ = 165 SQLiteParserPERCENT_RANK_ = 166 SQLiteParserRANK_ = 167 SQLiteParserROW_NUMBER_ = 168 SQLiteParserGENERATED_ = 169 SQLiteParserALWAYS_ = 170 SQLiteParserSTORED_ = 171 SQLiteParserTRUE_ = 172 SQLiteParserFALSE_ = 173 SQLiteParserWINDOW_ = 174 SQLiteParserNULLS_ = 175 SQLiteParserFIRST_ = 176 SQLiteParserLAST_ = 177 SQLiteParserFILTER_ = 178 SQLiteParserGROUPS_ = 179 SQLiteParserEXCLUDE_ = 180 SQLiteParserTIES_ = 181 SQLiteParserOTHERS_ = 182 SQLiteParserDO_ = 183 SQLiteParserNOTHING_ = 184 SQLiteParserIDENTIFIER = 185 SQLiteParserNUMERIC_LITERAL = 186 SQLiteParserBIND_PARAMETER = 187 SQLiteParserSTRING_LITERAL = 188 SQLiteParserBLOB_LITERAL = 189 SQLiteParserSINGLE_LINE_COMMENT = 190 SQLiteParserMULTILINE_COMMENT = 191 SQLiteParserSPACES = 192 SQLiteParserUNEXPECTED_CHAR = 193 ) // SQLiteParser rules. const ( SQLiteParserRULE_parse = 0 SQLiteParserRULE_sql_stmt_list = 1 SQLiteParserRULE_sql_stmt = 2 SQLiteParserRULE_alter_table_stmt = 3 SQLiteParserRULE_analyze_stmt = 4 SQLiteParserRULE_attach_stmt = 5 SQLiteParserRULE_begin_stmt = 6 SQLiteParserRULE_commit_stmt = 7 SQLiteParserRULE_rollback_stmt = 8 SQLiteParserRULE_savepoint_stmt = 9 SQLiteParserRULE_release_stmt = 10 SQLiteParserRULE_create_index_stmt = 11 SQLiteParserRULE_indexed_column = 12 SQLiteParserRULE_create_table_stmt = 13 SQLiteParserRULE_column_def = 14 SQLiteParserRULE_type_name = 15 SQLiteParserRULE_column_constraint = 16 SQLiteParserRULE_signed_number = 17 SQLiteParserRULE_table_constraint = 18 SQLiteParserRULE_foreign_key_clause = 19 SQLiteParserRULE_conflict_clause = 20 SQLiteParserRULE_create_trigger_stmt = 21 SQLiteParserRULE_create_view_stmt = 22 SQLiteParserRULE_create_virtual_table_stmt = 23 SQLiteParserRULE_with_clause = 24 SQLiteParserRULE_cte_table_name = 25 SQLiteParserRULE_recursive_cte = 26 SQLiteParserRULE_common_table_expression = 27 SQLiteParserRULE_delete_stmt = 28 SQLiteParserRULE_delete_stmt_limited = 29 SQLiteParserRULE_detach_stmt = 30 SQLiteParserRULE_drop_stmt = 31 SQLiteParserRULE_expr = 32 SQLiteParserRULE_raise_function = 33 SQLiteParserRULE_literal_value = 34 SQLiteParserRULE_value_row = 35 SQLiteParserRULE_values_clause = 36 SQLiteParserRULE_insert_stmt = 37 SQLiteParserRULE_returning_clause = 38 SQLiteParserRULE_upsert_clause = 39 SQLiteParserRULE_pragma_stmt = 40 SQLiteParserRULE_pragma_value = 41 SQLiteParserRULE_reindex_stmt = 42 SQLiteParserRULE_select_stmt = 43 SQLiteParserRULE_join_clause = 44 SQLiteParserRULE_select_core = 45 SQLiteParserRULE_factored_select_stmt = 46 SQLiteParserRULE_simple_select_stmt = 47 SQLiteParserRULE_compound_select_stmt = 48 SQLiteParserRULE_table_or_subquery = 49 SQLiteParserRULE_result_column = 50 SQLiteParserRULE_join_operator = 51 SQLiteParserRULE_join_constraint = 52 SQLiteParserRULE_compound_operator = 53 SQLiteParserRULE_update_stmt = 54 SQLiteParserRULE_column_name_list = 55 SQLiteParserRULE_update_stmt_limited = 56 SQLiteParserRULE_qualified_table_name = 57 SQLiteParserRULE_vacuum_stmt = 58 SQLiteParserRULE_filter_clause = 59 SQLiteParserRULE_window_defn = 60 SQLiteParserRULE_over_clause = 61 SQLiteParserRULE_frame_spec = 62 SQLiteParserRULE_frame_clause = 63 SQLiteParserRULE_simple_function_invocation = 64 SQLiteParserRULE_aggregate_function_invocation = 65 SQLiteParserRULE_window_function_invocation = 66 SQLiteParserRULE_common_table_stmt = 67 SQLiteParserRULE_order_by_stmt = 68 SQLiteParserRULE_limit_stmt = 69 SQLiteParserRULE_ordering_term = 70 SQLiteParserRULE_asc_desc = 71 SQLiteParserRULE_frame_left = 72 SQLiteParserRULE_frame_right = 73 SQLiteParserRULE_frame_single = 74 SQLiteParserRULE_window_function = 75 SQLiteParserRULE_offset = 76 SQLiteParserRULE_default_value = 77 SQLiteParserRULE_partition_by = 78 SQLiteParserRULE_order_by_expr = 79 SQLiteParserRULE_order_by_expr_asc_desc = 80 SQLiteParserRULE_expr_asc_desc = 81 SQLiteParserRULE_initial_select = 82 SQLiteParserRULE_recursive_select = 83 SQLiteParserRULE_unary_operator = 84 SQLiteParserRULE_error_message = 85 SQLiteParserRULE_module_argument = 86 SQLiteParserRULE_column_alias = 87 SQLiteParserRULE_keyword = 88 SQLiteParserRULE_name = 89 SQLiteParserRULE_function_name = 90 SQLiteParserRULE_schema_name = 91 SQLiteParserRULE_table_name = 92 SQLiteParserRULE_table_or_index_name = 93 SQLiteParserRULE_column_name = 94 SQLiteParserRULE_collation_name = 95 SQLiteParserRULE_foreign_table = 96 SQLiteParserRULE_index_name = 97 SQLiteParserRULE_trigger_name = 98 SQLiteParserRULE_view_name = 99 SQLiteParserRULE_module_name = 100 SQLiteParserRULE_pragma_name = 101 SQLiteParserRULE_savepoint_name = 102 SQLiteParserRULE_table_alias = 103 SQLiteParserRULE_transaction_name = 104 SQLiteParserRULE_window_name = 105 SQLiteParserRULE_alias = 106 SQLiteParserRULE_filename = 107 SQLiteParserRULE_base_window_name = 108 SQLiteParserRULE_simple_func = 109 SQLiteParserRULE_aggregate_func = 110 SQLiteParserRULE_table_function_name = 111 SQLiteParserRULE_any_name = 112 ) // IParseContext is an interface to support dynamic dispatch. type IParseContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures EOF() antlr.TerminalNode AllSql_stmt_list() []ISql_stmt_listContext Sql_stmt_list(i int) ISql_stmt_listContext // IsParseContext differentiates from other interfaces. IsParseContext() } type ParseContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyParseContext() *ParseContext { var p = new(ParseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_parse return p } func InitEmptyParseContext(p *ParseContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_parse } func (*ParseContext) IsParseContext() {} func NewParseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ParseContext { var p = new(ParseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_parse return p } func (s *ParseContext) GetParser() antlr.Parser { return s.parser } func (s *ParseContext) EOF() antlr.TerminalNode { return s.GetToken(SQLiteParserEOF, 0) } func (s *ParseContext) AllSql_stmt_list() []ISql_stmt_listContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ISql_stmt_listContext); ok { len++ } } tst := make([]ISql_stmt_listContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ISql_stmt_listContext); ok { tst[i] = t.(ISql_stmt_listContext) i++ } } return tst } func (s *ParseContext) Sql_stmt_list(i int) ISql_stmt_listContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISql_stmt_listContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ISql_stmt_listContext) } func (s *ParseContext) GetRuleContext() antlr.RuleContext { return s } func (s *ParseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *ParseContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterParse(s) } } func (s *ParseContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitParse(s) } } func (s *ParseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitParse(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Parse() (localctx IParseContext) { localctx = NewParseContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 0, SQLiteParserRULE_parse) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(229) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for ((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&-6339801325483589630) != 0) || ((int64((_la-66)) & ^0x3f) == 0 && ((int64(1)<<(_la-66))&-7971300971697405919) != 0) || ((int64((_la-130)) & ^0x3f) == 0 && ((int64(1)<<(_la-130))&550913) != 0) { { p.SetState(226) p.Sql_stmt_list() } p.SetState(231) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(232) p.Match(SQLiteParserEOF) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ISql_stmt_listContext is an interface to support dynamic dispatch. type ISql_stmt_listContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures AllSql_stmt() []ISql_stmtContext Sql_stmt(i int) ISql_stmtContext AllSCOL() []antlr.TerminalNode SCOL(i int) antlr.TerminalNode // IsSql_stmt_listContext differentiates from other interfaces. IsSql_stmt_listContext() } type Sql_stmt_listContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptySql_stmt_listContext() *Sql_stmt_listContext { var p = new(Sql_stmt_listContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_sql_stmt_list return p } func InitEmptySql_stmt_listContext(p *Sql_stmt_listContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_sql_stmt_list } func (*Sql_stmt_listContext) IsSql_stmt_listContext() {} func NewSql_stmt_listContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Sql_stmt_listContext { var p = new(Sql_stmt_listContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_sql_stmt_list return p } func (s *Sql_stmt_listContext) GetParser() antlr.Parser { return s.parser } func (s *Sql_stmt_listContext) AllSql_stmt() []ISql_stmtContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ISql_stmtContext); ok { len++ } } tst := make([]ISql_stmtContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ISql_stmtContext); ok { tst[i] = t.(ISql_stmtContext) i++ } } return tst } func (s *Sql_stmt_listContext) Sql_stmt(i int) ISql_stmtContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISql_stmtContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ISql_stmtContext) } func (s *Sql_stmt_listContext) AllSCOL() []antlr.TerminalNode { return s.GetTokens(SQLiteParserSCOL) } func (s *Sql_stmt_listContext) SCOL(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserSCOL, i) } func (s *Sql_stmt_listContext) GetRuleContext() antlr.RuleContext { return s } func (s *Sql_stmt_listContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Sql_stmt_listContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterSql_stmt_list(s) } } func (s *Sql_stmt_listContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitSql_stmt_list(s) } } func (s *Sql_stmt_listContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitSql_stmt_list(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Sql_stmt_list() (localctx ISql_stmt_listContext) { localctx = NewSql_stmt_listContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 2, SQLiteParserRULE_sql_stmt_list) var _la int var _alt int p.EnterOuterAlt(localctx, 1) p.SetState(237) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserSCOL { { p.SetState(234) p.Match(SQLiteParserSCOL) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(239) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(240) p.Sql_stmt() } p.SetState(249) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 3, p.GetParserRuleContext()) if p.HasError() { goto errorExit } for _alt != 2 && _alt != antlr.ATNInvalidAltNumber { if _alt == 1 { p.SetState(242) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for ok := true; ok; ok = _la == SQLiteParserSCOL { { p.SetState(241) p.Match(SQLiteParserSCOL) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(244) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(246) p.Sql_stmt() } } p.SetState(251) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 3, p.GetParserRuleContext()) if p.HasError() { goto errorExit } } p.SetState(255) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 4, p.GetParserRuleContext()) if p.HasError() { goto errorExit } for _alt != 2 && _alt != antlr.ATNInvalidAltNumber { if _alt == 1 { { p.SetState(252) p.Match(SQLiteParserSCOL) if p.HasError() { // Recognition error - abort rule goto errorExit } } } p.SetState(257) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 4, p.GetParserRuleContext()) if p.HasError() { goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ISql_stmtContext is an interface to support dynamic dispatch. type ISql_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Alter_table_stmt() IAlter_table_stmtContext Analyze_stmt() IAnalyze_stmtContext Attach_stmt() IAttach_stmtContext Begin_stmt() IBegin_stmtContext Commit_stmt() ICommit_stmtContext Create_index_stmt() ICreate_index_stmtContext Create_table_stmt() ICreate_table_stmtContext Create_trigger_stmt() ICreate_trigger_stmtContext Create_view_stmt() ICreate_view_stmtContext Create_virtual_table_stmt() ICreate_virtual_table_stmtContext Delete_stmt() IDelete_stmtContext Delete_stmt_limited() IDelete_stmt_limitedContext Detach_stmt() IDetach_stmtContext Drop_stmt() IDrop_stmtContext Insert_stmt() IInsert_stmtContext Pragma_stmt() IPragma_stmtContext Reindex_stmt() IReindex_stmtContext Release_stmt() IRelease_stmtContext Rollback_stmt() IRollback_stmtContext Savepoint_stmt() ISavepoint_stmtContext Select_stmt() ISelect_stmtContext Update_stmt() IUpdate_stmtContext Update_stmt_limited() IUpdate_stmt_limitedContext Vacuum_stmt() IVacuum_stmtContext EXPLAIN_() antlr.TerminalNode QUERY_() antlr.TerminalNode PLAN_() antlr.TerminalNode // IsSql_stmtContext differentiates from other interfaces. IsSql_stmtContext() } type Sql_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptySql_stmtContext() *Sql_stmtContext { var p = new(Sql_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_sql_stmt return p } func InitEmptySql_stmtContext(p *Sql_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_sql_stmt } func (*Sql_stmtContext) IsSql_stmtContext() {} func NewSql_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Sql_stmtContext { var p = new(Sql_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_sql_stmt return p } func (s *Sql_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Sql_stmtContext) Alter_table_stmt() IAlter_table_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAlter_table_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAlter_table_stmtContext) } func (s *Sql_stmtContext) Analyze_stmt() IAnalyze_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAnalyze_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAnalyze_stmtContext) } func (s *Sql_stmtContext) Attach_stmt() IAttach_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAttach_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAttach_stmtContext) } func (s *Sql_stmtContext) Begin_stmt() IBegin_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IBegin_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IBegin_stmtContext) } func (s *Sql_stmtContext) Commit_stmt() ICommit_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICommit_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICommit_stmtContext) } func (s *Sql_stmtContext) Create_index_stmt() ICreate_index_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICreate_index_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICreate_index_stmtContext) } func (s *Sql_stmtContext) Create_table_stmt() ICreate_table_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICreate_table_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICreate_table_stmtContext) } func (s *Sql_stmtContext) Create_trigger_stmt() ICreate_trigger_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICreate_trigger_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICreate_trigger_stmtContext) } func (s *Sql_stmtContext) Create_view_stmt() ICreate_view_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICreate_view_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICreate_view_stmtContext) } func (s *Sql_stmtContext) Create_virtual_table_stmt() ICreate_virtual_table_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICreate_virtual_table_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICreate_virtual_table_stmtContext) } func (s *Sql_stmtContext) Delete_stmt() IDelete_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IDelete_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IDelete_stmtContext) } func (s *Sql_stmtContext) Delete_stmt_limited() IDelete_stmt_limitedContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IDelete_stmt_limitedContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IDelete_stmt_limitedContext) } func (s *Sql_stmtContext) Detach_stmt() IDetach_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IDetach_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IDetach_stmtContext) } func (s *Sql_stmtContext) Drop_stmt() IDrop_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IDrop_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IDrop_stmtContext) } func (s *Sql_stmtContext) Insert_stmt() IInsert_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IInsert_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IInsert_stmtContext) } func (s *Sql_stmtContext) Pragma_stmt() IPragma_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IPragma_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IPragma_stmtContext) } func (s *Sql_stmtContext) Reindex_stmt() IReindex_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IReindex_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IReindex_stmtContext) } func (s *Sql_stmtContext) Release_stmt() IRelease_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IRelease_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IRelease_stmtContext) } func (s *Sql_stmtContext) Rollback_stmt() IRollback_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IRollback_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IRollback_stmtContext) } func (s *Sql_stmtContext) Savepoint_stmt() ISavepoint_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISavepoint_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISavepoint_stmtContext) } func (s *Sql_stmtContext) Select_stmt() ISelect_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *Sql_stmtContext) Update_stmt() IUpdate_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IUpdate_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IUpdate_stmtContext) } func (s *Sql_stmtContext) Update_stmt_limited() IUpdate_stmt_limitedContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IUpdate_stmt_limitedContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IUpdate_stmt_limitedContext) } func (s *Sql_stmtContext) Vacuum_stmt() IVacuum_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IVacuum_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IVacuum_stmtContext) } func (s *Sql_stmtContext) EXPLAIN_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXPLAIN_, 0) } func (s *Sql_stmtContext) QUERY_() antlr.TerminalNode { return s.GetToken(SQLiteParserQUERY_, 0) } func (s *Sql_stmtContext) PLAN_() antlr.TerminalNode { return s.GetToken(SQLiteParserPLAN_, 0) } func (s *Sql_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Sql_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Sql_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterSql_stmt(s) } } func (s *Sql_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitSql_stmt(s) } } func (s *Sql_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitSql_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Sql_stmt() (localctx ISql_stmtContext) { localctx = NewSql_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 4, SQLiteParserRULE_sql_stmt) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(263) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserEXPLAIN_ { { p.SetState(258) p.Match(SQLiteParserEXPLAIN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(261) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserQUERY_ { { p.SetState(259) p.Match(SQLiteParserQUERY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(260) p.Match(SQLiteParserPLAN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } } p.SetState(289) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 7, p.GetParserRuleContext()) { case 1: { p.SetState(265) p.Alter_table_stmt() } case 2: { p.SetState(266) p.Analyze_stmt() } case 3: { p.SetState(267) p.Attach_stmt() } case 4: { p.SetState(268) p.Begin_stmt() } case 5: { p.SetState(269) p.Commit_stmt() } case 6: { p.SetState(270) p.Create_index_stmt() } case 7: { p.SetState(271) p.Create_table_stmt() } case 8: { p.SetState(272) p.Create_trigger_stmt() } case 9: { p.SetState(273) p.Create_view_stmt() } case 10: { p.SetState(274) p.Create_virtual_table_stmt() } case 11: { p.SetState(275) p.Delete_stmt() } case 12: { p.SetState(276) p.Delete_stmt_limited() } case 13: { p.SetState(277) p.Detach_stmt() } case 14: { p.SetState(278) p.Drop_stmt() } case 15: { p.SetState(279) p.Insert_stmt() } case 16: { p.SetState(280) p.Pragma_stmt() } case 17: { p.SetState(281) p.Reindex_stmt() } case 18: { p.SetState(282) p.Release_stmt() } case 19: { p.SetState(283) p.Rollback_stmt() } case 20: { p.SetState(284) p.Savepoint_stmt() } case 21: { p.SetState(285) p.Select_stmt() } case 22: { p.SetState(286) p.Update_stmt() } case 23: { p.SetState(287) p.Update_stmt_limited() } case 24: { p.SetState(288) p.Vacuum_stmt() } case antlr.ATNInvalidAltNumber: goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IAlter_table_stmtContext is an interface to support dynamic dispatch. type IAlter_table_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // GetNew_table_name returns the new_table_name rule contexts. GetNew_table_name() ITable_nameContext // GetOld_column_name returns the old_column_name rule contexts. GetOld_column_name() IColumn_nameContext // GetNew_column_name returns the new_column_name rule contexts. GetNew_column_name() IColumn_nameContext // SetNew_table_name sets the new_table_name rule contexts. SetNew_table_name(ITable_nameContext) // SetOld_column_name sets the old_column_name rule contexts. SetOld_column_name(IColumn_nameContext) // SetNew_column_name sets the new_column_name rule contexts. SetNew_column_name(IColumn_nameContext) // Getter signatures ALTER_() antlr.TerminalNode TABLE_() antlr.TerminalNode AllTable_name() []ITable_nameContext Table_name(i int) ITable_nameContext RENAME_() antlr.TerminalNode ADD_() antlr.TerminalNode Column_def() IColumn_defContext DROP_() antlr.TerminalNode AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext Schema_name() ISchema_nameContext DOT() antlr.TerminalNode TO_() antlr.TerminalNode COLUMN_() antlr.TerminalNode // IsAlter_table_stmtContext differentiates from other interfaces. IsAlter_table_stmtContext() } type Alter_table_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser new_table_name ITable_nameContext old_column_name IColumn_nameContext new_column_name IColumn_nameContext } func NewEmptyAlter_table_stmtContext() *Alter_table_stmtContext { var p = new(Alter_table_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_alter_table_stmt return p } func InitEmptyAlter_table_stmtContext(p *Alter_table_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_alter_table_stmt } func (*Alter_table_stmtContext) IsAlter_table_stmtContext() {} func NewAlter_table_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Alter_table_stmtContext { var p = new(Alter_table_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_alter_table_stmt return p } func (s *Alter_table_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Alter_table_stmtContext) GetNew_table_name() ITable_nameContext { return s.new_table_name } func (s *Alter_table_stmtContext) GetOld_column_name() IColumn_nameContext { return s.old_column_name } func (s *Alter_table_stmtContext) GetNew_column_name() IColumn_nameContext { return s.new_column_name } func (s *Alter_table_stmtContext) SetNew_table_name(v ITable_nameContext) { s.new_table_name = v } func (s *Alter_table_stmtContext) SetOld_column_name(v IColumn_nameContext) { s.old_column_name = v } func (s *Alter_table_stmtContext) SetNew_column_name(v IColumn_nameContext) { s.new_column_name = v } func (s *Alter_table_stmtContext) ALTER_() antlr.TerminalNode { return s.GetToken(SQLiteParserALTER_, 0) } func (s *Alter_table_stmtContext) TABLE_() antlr.TerminalNode { return s.GetToken(SQLiteParserTABLE_, 0) } func (s *Alter_table_stmtContext) AllTable_name() []ITable_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ITable_nameContext); ok { len++ } } tst := make([]ITable_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ITable_nameContext); ok { tst[i] = t.(ITable_nameContext) i++ } } return tst } func (s *Alter_table_stmtContext) Table_name(i int) ITable_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Alter_table_stmtContext) RENAME_() antlr.TerminalNode { return s.GetToken(SQLiteParserRENAME_, 0) } func (s *Alter_table_stmtContext) ADD_() antlr.TerminalNode { return s.GetToken(SQLiteParserADD_, 0) } func (s *Alter_table_stmtContext) Column_def() IColumn_defContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_defContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IColumn_defContext) } func (s *Alter_table_stmtContext) DROP_() antlr.TerminalNode { return s.GetToken(SQLiteParserDROP_, 0) } func (s *Alter_table_stmtContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Alter_table_stmtContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Alter_table_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Alter_table_stmtContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Alter_table_stmtContext) TO_() antlr.TerminalNode { return s.GetToken(SQLiteParserTO_, 0) } func (s *Alter_table_stmtContext) COLUMN_() antlr.TerminalNode { return s.GetToken(SQLiteParserCOLUMN_, 0) } func (s *Alter_table_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Alter_table_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Alter_table_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterAlter_table_stmt(s) } } func (s *Alter_table_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitAlter_table_stmt(s) } } func (s *Alter_table_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitAlter_table_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Alter_table_stmt() (localctx IAlter_table_stmtContext) { localctx = NewAlter_table_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 6, SQLiteParserRULE_alter_table_stmt) p.EnterOuterAlt(localctx, 1) { p.SetState(291) p.Match(SQLiteParserALTER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(292) p.Match(SQLiteParserTABLE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(296) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 8, p.GetParserRuleContext()) == 1 { { p.SetState(293) p.Schema_name() } { p.SetState(294) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(298) p.Table_name() } p.SetState(321) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserRENAME_: { p.SetState(299) p.Match(SQLiteParserRENAME_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(309) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 10, p.GetParserRuleContext()) { case 1: { p.SetState(300) p.Match(SQLiteParserTO_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(301) var _x = p.Table_name() localctx.(*Alter_table_stmtContext).new_table_name = _x } case 2: p.SetState(303) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 9, p.GetParserRuleContext()) == 1 { { p.SetState(302) p.Match(SQLiteParserCOLUMN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(305) var _x = p.Column_name() localctx.(*Alter_table_stmtContext).old_column_name = _x } { p.SetState(306) p.Match(SQLiteParserTO_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(307) var _x = p.Column_name() localctx.(*Alter_table_stmtContext).new_column_name = _x } case antlr.ATNInvalidAltNumber: goto errorExit } case SQLiteParserADD_: { p.SetState(311) p.Match(SQLiteParserADD_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(313) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 11, p.GetParserRuleContext()) == 1 { { p.SetState(312) p.Match(SQLiteParserCOLUMN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(315) p.Column_def() } case SQLiteParserDROP_: { p.SetState(316) p.Match(SQLiteParserDROP_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(318) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 12, p.GetParserRuleContext()) == 1 { { p.SetState(317) p.Match(SQLiteParserCOLUMN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(320) p.Column_name() } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IAnalyze_stmtContext is an interface to support dynamic dispatch. type IAnalyze_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures ANALYZE_() antlr.TerminalNode Schema_name() ISchema_nameContext Table_or_index_name() ITable_or_index_nameContext DOT() antlr.TerminalNode // IsAnalyze_stmtContext differentiates from other interfaces. IsAnalyze_stmtContext() } type Analyze_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyAnalyze_stmtContext() *Analyze_stmtContext { var p = new(Analyze_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_analyze_stmt return p } func InitEmptyAnalyze_stmtContext(p *Analyze_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_analyze_stmt } func (*Analyze_stmtContext) IsAnalyze_stmtContext() {} func NewAnalyze_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Analyze_stmtContext { var p = new(Analyze_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_analyze_stmt return p } func (s *Analyze_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Analyze_stmtContext) ANALYZE_() antlr.TerminalNode { return s.GetToken(SQLiteParserANALYZE_, 0) } func (s *Analyze_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Analyze_stmtContext) Table_or_index_name() ITable_or_index_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_or_index_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_or_index_nameContext) } func (s *Analyze_stmtContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Analyze_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Analyze_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Analyze_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterAnalyze_stmt(s) } } func (s *Analyze_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitAnalyze_stmt(s) } } func (s *Analyze_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitAnalyze_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Analyze_stmt() (localctx IAnalyze_stmtContext) { localctx = NewAnalyze_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 8, SQLiteParserRULE_analyze_stmt) p.EnterOuterAlt(localctx, 1) { p.SetState(323) p.Match(SQLiteParserANALYZE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(331) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 15, p.GetParserRuleContext()) == 1 { { p.SetState(324) p.Schema_name() } } else if p.HasError() { // JIM goto errorExit } else if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 15, p.GetParserRuleContext()) == 2 { p.SetState(328) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 14, p.GetParserRuleContext()) == 1 { { p.SetState(325) p.Schema_name() } { p.SetState(326) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(330) p.Table_or_index_name() } } else if p.HasError() { // JIM goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IAttach_stmtContext is an interface to support dynamic dispatch. type IAttach_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures ATTACH_() antlr.TerminalNode Expr() IExprContext AS_() antlr.TerminalNode Schema_name() ISchema_nameContext DATABASE_() antlr.TerminalNode // IsAttach_stmtContext differentiates from other interfaces. IsAttach_stmtContext() } type Attach_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyAttach_stmtContext() *Attach_stmtContext { var p = new(Attach_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_attach_stmt return p } func InitEmptyAttach_stmtContext(p *Attach_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_attach_stmt } func (*Attach_stmtContext) IsAttach_stmtContext() {} func NewAttach_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Attach_stmtContext { var p = new(Attach_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_attach_stmt return p } func (s *Attach_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Attach_stmtContext) ATTACH_() antlr.TerminalNode { return s.GetToken(SQLiteParserATTACH_, 0) } func (s *Attach_stmtContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Attach_stmtContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *Attach_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Attach_stmtContext) DATABASE_() antlr.TerminalNode { return s.GetToken(SQLiteParserDATABASE_, 0) } func (s *Attach_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Attach_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Attach_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterAttach_stmt(s) } } func (s *Attach_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitAttach_stmt(s) } } func (s *Attach_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitAttach_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Attach_stmt() (localctx IAttach_stmtContext) { localctx = NewAttach_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 10, SQLiteParserRULE_attach_stmt) p.EnterOuterAlt(localctx, 1) { p.SetState(333) p.Match(SQLiteParserATTACH_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(335) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 16, p.GetParserRuleContext()) == 1 { { p.SetState(334) p.Match(SQLiteParserDATABASE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(337) p.expr(0) } { p.SetState(338) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(339) p.Schema_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IBegin_stmtContext is an interface to support dynamic dispatch. type IBegin_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures BEGIN_() antlr.TerminalNode TRANSACTION_() antlr.TerminalNode DEFERRED_() antlr.TerminalNode IMMEDIATE_() antlr.TerminalNode EXCLUSIVE_() antlr.TerminalNode Transaction_name() ITransaction_nameContext // IsBegin_stmtContext differentiates from other interfaces. IsBegin_stmtContext() } type Begin_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyBegin_stmtContext() *Begin_stmtContext { var p = new(Begin_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_begin_stmt return p } func InitEmptyBegin_stmtContext(p *Begin_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_begin_stmt } func (*Begin_stmtContext) IsBegin_stmtContext() {} func NewBegin_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Begin_stmtContext { var p = new(Begin_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_begin_stmt return p } func (s *Begin_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Begin_stmtContext) BEGIN_() antlr.TerminalNode { return s.GetToken(SQLiteParserBEGIN_, 0) } func (s *Begin_stmtContext) TRANSACTION_() antlr.TerminalNode { return s.GetToken(SQLiteParserTRANSACTION_, 0) } func (s *Begin_stmtContext) DEFERRED_() antlr.TerminalNode { return s.GetToken(SQLiteParserDEFERRED_, 0) } func (s *Begin_stmtContext) IMMEDIATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserIMMEDIATE_, 0) } func (s *Begin_stmtContext) EXCLUSIVE_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXCLUSIVE_, 0) } func (s *Begin_stmtContext) Transaction_name() ITransaction_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITransaction_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITransaction_nameContext) } func (s *Begin_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Begin_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Begin_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterBegin_stmt(s) } } func (s *Begin_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitBegin_stmt(s) } } func (s *Begin_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitBegin_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Begin_stmt() (localctx IBegin_stmtContext) { localctx = NewBegin_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 12, SQLiteParserRULE_begin_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(341) p.Match(SQLiteParserBEGIN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(343) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if (int64((_la-58)) & ^0x3f) == 0 && ((int64(1)<<(_la-58))&16779265) != 0 { { p.SetState(342) _la = p.GetTokenStream().LA(1) if !((int64((_la-58)) & ^0x3f) == 0 && ((int64(1)<<(_la-58))&16779265) != 0) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } } p.SetState(349) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserTRANSACTION_ { { p.SetState(345) p.Match(SQLiteParserTRANSACTION_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(347) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 18, p.GetParserRuleContext()) == 1 { { p.SetState(346) p.Transaction_name() } } else if p.HasError() { // JIM goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICommit_stmtContext is an interface to support dynamic dispatch. type ICommit_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures COMMIT_() antlr.TerminalNode END_() antlr.TerminalNode TRANSACTION_() antlr.TerminalNode // IsCommit_stmtContext differentiates from other interfaces. IsCommit_stmtContext() } type Commit_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyCommit_stmtContext() *Commit_stmtContext { var p = new(Commit_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_commit_stmt return p } func InitEmptyCommit_stmtContext(p *Commit_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_commit_stmt } func (*Commit_stmtContext) IsCommit_stmtContext() {} func NewCommit_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Commit_stmtContext { var p = new(Commit_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_commit_stmt return p } func (s *Commit_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Commit_stmtContext) COMMIT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMIT_, 0) } func (s *Commit_stmtContext) END_() antlr.TerminalNode { return s.GetToken(SQLiteParserEND_, 0) } func (s *Commit_stmtContext) TRANSACTION_() antlr.TerminalNode { return s.GetToken(SQLiteParserTRANSACTION_, 0) } func (s *Commit_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Commit_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Commit_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCommit_stmt(s) } } func (s *Commit_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCommit_stmt(s) } } func (s *Commit_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCommit_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Commit_stmt() (localctx ICommit_stmtContext) { localctx = NewCommit_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 14, SQLiteParserRULE_commit_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(351) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserCOMMIT_ || _la == SQLiteParserEND_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } p.SetState(353) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserTRANSACTION_ { { p.SetState(352) p.Match(SQLiteParserTRANSACTION_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IRollback_stmtContext is an interface to support dynamic dispatch. type IRollback_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures ROLLBACK_() antlr.TerminalNode TRANSACTION_() antlr.TerminalNode TO_() antlr.TerminalNode Savepoint_name() ISavepoint_nameContext SAVEPOINT_() antlr.TerminalNode // IsRollback_stmtContext differentiates from other interfaces. IsRollback_stmtContext() } type Rollback_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyRollback_stmtContext() *Rollback_stmtContext { var p = new(Rollback_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_rollback_stmt return p } func InitEmptyRollback_stmtContext(p *Rollback_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_rollback_stmt } func (*Rollback_stmtContext) IsRollback_stmtContext() {} func NewRollback_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Rollback_stmtContext { var p = new(Rollback_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_rollback_stmt return p } func (s *Rollback_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Rollback_stmtContext) ROLLBACK_() antlr.TerminalNode { return s.GetToken(SQLiteParserROLLBACK_, 0) } func (s *Rollback_stmtContext) TRANSACTION_() antlr.TerminalNode { return s.GetToken(SQLiteParserTRANSACTION_, 0) } func (s *Rollback_stmtContext) TO_() antlr.TerminalNode { return s.GetToken(SQLiteParserTO_, 0) } func (s *Rollback_stmtContext) Savepoint_name() ISavepoint_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISavepoint_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISavepoint_nameContext) } func (s *Rollback_stmtContext) SAVEPOINT_() antlr.TerminalNode { return s.GetToken(SQLiteParserSAVEPOINT_, 0) } func (s *Rollback_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Rollback_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Rollback_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterRollback_stmt(s) } } func (s *Rollback_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitRollback_stmt(s) } } func (s *Rollback_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitRollback_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Rollback_stmt() (localctx IRollback_stmtContext) { localctx = NewRollback_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 16, SQLiteParserRULE_rollback_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(355) p.Match(SQLiteParserROLLBACK_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(357) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserTRANSACTION_ { { p.SetState(356) p.Match(SQLiteParserTRANSACTION_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } p.SetState(364) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserTO_ { { p.SetState(359) p.Match(SQLiteParserTO_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(361) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 22, p.GetParserRuleContext()) == 1 { { p.SetState(360) p.Match(SQLiteParserSAVEPOINT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(363) p.Savepoint_name() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ISavepoint_stmtContext is an interface to support dynamic dispatch. type ISavepoint_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures SAVEPOINT_() antlr.TerminalNode Savepoint_name() ISavepoint_nameContext // IsSavepoint_stmtContext differentiates from other interfaces. IsSavepoint_stmtContext() } type Savepoint_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptySavepoint_stmtContext() *Savepoint_stmtContext { var p = new(Savepoint_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_savepoint_stmt return p } func InitEmptySavepoint_stmtContext(p *Savepoint_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_savepoint_stmt } func (*Savepoint_stmtContext) IsSavepoint_stmtContext() {} func NewSavepoint_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Savepoint_stmtContext { var p = new(Savepoint_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_savepoint_stmt return p } func (s *Savepoint_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Savepoint_stmtContext) SAVEPOINT_() antlr.TerminalNode { return s.GetToken(SQLiteParserSAVEPOINT_, 0) } func (s *Savepoint_stmtContext) Savepoint_name() ISavepoint_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISavepoint_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISavepoint_nameContext) } func (s *Savepoint_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Savepoint_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Savepoint_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterSavepoint_stmt(s) } } func (s *Savepoint_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitSavepoint_stmt(s) } } func (s *Savepoint_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitSavepoint_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Savepoint_stmt() (localctx ISavepoint_stmtContext) { localctx = NewSavepoint_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 18, SQLiteParserRULE_savepoint_stmt) p.EnterOuterAlt(localctx, 1) { p.SetState(366) p.Match(SQLiteParserSAVEPOINT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(367) p.Savepoint_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IRelease_stmtContext is an interface to support dynamic dispatch. type IRelease_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures RELEASE_() antlr.TerminalNode Savepoint_name() ISavepoint_nameContext SAVEPOINT_() antlr.TerminalNode // IsRelease_stmtContext differentiates from other interfaces. IsRelease_stmtContext() } type Release_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyRelease_stmtContext() *Release_stmtContext { var p = new(Release_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_release_stmt return p } func InitEmptyRelease_stmtContext(p *Release_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_release_stmt } func (*Release_stmtContext) IsRelease_stmtContext() {} func NewRelease_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Release_stmtContext { var p = new(Release_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_release_stmt return p } func (s *Release_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Release_stmtContext) RELEASE_() antlr.TerminalNode { return s.GetToken(SQLiteParserRELEASE_, 0) } func (s *Release_stmtContext) Savepoint_name() ISavepoint_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISavepoint_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISavepoint_nameContext) } func (s *Release_stmtContext) SAVEPOINT_() antlr.TerminalNode { return s.GetToken(SQLiteParserSAVEPOINT_, 0) } func (s *Release_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Release_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Release_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterRelease_stmt(s) } } func (s *Release_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitRelease_stmt(s) } } func (s *Release_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitRelease_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Release_stmt() (localctx IRelease_stmtContext) { localctx = NewRelease_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 20, SQLiteParserRULE_release_stmt) p.EnterOuterAlt(localctx, 1) { p.SetState(369) p.Match(SQLiteParserRELEASE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(371) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 24, p.GetParserRuleContext()) == 1 { { p.SetState(370) p.Match(SQLiteParserSAVEPOINT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(373) p.Savepoint_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICreate_index_stmtContext is an interface to support dynamic dispatch. type ICreate_index_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures CREATE_() antlr.TerminalNode INDEX_() antlr.TerminalNode Index_name() IIndex_nameContext ON_() antlr.TerminalNode Table_name() ITable_nameContext OPEN_PAR() antlr.TerminalNode AllIndexed_column() []IIndexed_columnContext Indexed_column(i int) IIndexed_columnContext CLOSE_PAR() antlr.TerminalNode UNIQUE_() antlr.TerminalNode IF_() antlr.TerminalNode NOT_() antlr.TerminalNode EXISTS_() antlr.TerminalNode Schema_name() ISchema_nameContext DOT() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode WHERE_() antlr.TerminalNode Expr() IExprContext // IsCreate_index_stmtContext differentiates from other interfaces. IsCreate_index_stmtContext() } type Create_index_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyCreate_index_stmtContext() *Create_index_stmtContext { var p = new(Create_index_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_create_index_stmt return p } func InitEmptyCreate_index_stmtContext(p *Create_index_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_create_index_stmt } func (*Create_index_stmtContext) IsCreate_index_stmtContext() {} func NewCreate_index_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Create_index_stmtContext { var p = new(Create_index_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_create_index_stmt return p } func (s *Create_index_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Create_index_stmtContext) CREATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCREATE_, 0) } func (s *Create_index_stmtContext) INDEX_() antlr.TerminalNode { return s.GetToken(SQLiteParserINDEX_, 0) } func (s *Create_index_stmtContext) Index_name() IIndex_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IIndex_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IIndex_nameContext) } func (s *Create_index_stmtContext) ON_() antlr.TerminalNode { return s.GetToken(SQLiteParserON_, 0) } func (s *Create_index_stmtContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Create_index_stmtContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Create_index_stmtContext) AllIndexed_column() []IIndexed_columnContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IIndexed_columnContext); ok { len++ } } tst := make([]IIndexed_columnContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IIndexed_columnContext); ok { tst[i] = t.(IIndexed_columnContext) i++ } } return tst } func (s *Create_index_stmtContext) Indexed_column(i int) IIndexed_columnContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IIndexed_columnContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IIndexed_columnContext) } func (s *Create_index_stmtContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Create_index_stmtContext) UNIQUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserUNIQUE_, 0) } func (s *Create_index_stmtContext) IF_() antlr.TerminalNode { return s.GetToken(SQLiteParserIF_, 0) } func (s *Create_index_stmtContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *Create_index_stmtContext) EXISTS_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXISTS_, 0) } func (s *Create_index_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Create_index_stmtContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Create_index_stmtContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Create_index_stmtContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Create_index_stmtContext) WHERE_() antlr.TerminalNode { return s.GetToken(SQLiteParserWHERE_, 0) } func (s *Create_index_stmtContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Create_index_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Create_index_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Create_index_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCreate_index_stmt(s) } } func (s *Create_index_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCreate_index_stmt(s) } } func (s *Create_index_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCreate_index_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Create_index_stmt() (localctx ICreate_index_stmtContext) { localctx = NewCreate_index_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 22, SQLiteParserRULE_create_index_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(375) p.Match(SQLiteParserCREATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(377) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserUNIQUE_ { { p.SetState(376) p.Match(SQLiteParserUNIQUE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(379) p.Match(SQLiteParserINDEX_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(383) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 26, p.GetParserRuleContext()) == 1 { { p.SetState(380) p.Match(SQLiteParserIF_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(381) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(382) p.Match(SQLiteParserEXISTS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } p.SetState(388) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 27, p.GetParserRuleContext()) == 1 { { p.SetState(385) p.Schema_name() } { p.SetState(386) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(390) p.Index_name() } { p.SetState(391) p.Match(SQLiteParserON_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(392) p.Table_name() } { p.SetState(393) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(394) p.Indexed_column() } p.SetState(399) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(395) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(396) p.Indexed_column() } p.SetState(401) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(402) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(405) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWHERE_ { { p.SetState(403) p.Match(SQLiteParserWHERE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(404) p.expr(0) } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IIndexed_columnContext is an interface to support dynamic dispatch. type IIndexed_columnContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Column_name() IColumn_nameContext Expr() IExprContext COLLATE_() antlr.TerminalNode Collation_name() ICollation_nameContext Asc_desc() IAsc_descContext // IsIndexed_columnContext differentiates from other interfaces. IsIndexed_columnContext() } type Indexed_columnContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyIndexed_columnContext() *Indexed_columnContext { var p = new(Indexed_columnContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_indexed_column return p } func InitEmptyIndexed_columnContext(p *Indexed_columnContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_indexed_column } func (*Indexed_columnContext) IsIndexed_columnContext() {} func NewIndexed_columnContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Indexed_columnContext { var p = new(Indexed_columnContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_indexed_column return p } func (s *Indexed_columnContext) GetParser() antlr.Parser { return s.parser } func (s *Indexed_columnContext) Column_name() IColumn_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Indexed_columnContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Indexed_columnContext) COLLATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCOLLATE_, 0) } func (s *Indexed_columnContext) Collation_name() ICollation_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICollation_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICollation_nameContext) } func (s *Indexed_columnContext) Asc_desc() IAsc_descContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAsc_descContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAsc_descContext) } func (s *Indexed_columnContext) GetRuleContext() antlr.RuleContext { return s } func (s *Indexed_columnContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Indexed_columnContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterIndexed_column(s) } } func (s *Indexed_columnContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitIndexed_column(s) } } func (s *Indexed_columnContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitIndexed_column(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Indexed_column() (localctx IIndexed_columnContext) { localctx = NewIndexed_columnContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 24, SQLiteParserRULE_indexed_column) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(409) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 30, p.GetParserRuleContext()) { case 1: { p.SetState(407) p.Column_name() } case 2: { p.SetState(408) p.expr(0) } case antlr.ATNInvalidAltNumber: goto errorExit } p.SetState(413) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserCOLLATE_ { { p.SetState(411) p.Match(SQLiteParserCOLLATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(412) p.Collation_name() } } p.SetState(416) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserASC_ || _la == SQLiteParserDESC_ { { p.SetState(415) p.Asc_desc() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICreate_table_stmtContext is an interface to support dynamic dispatch. type ICreate_table_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // GetRow_ROW_ID returns the row_ROW_ID token. GetRow_ROW_ID() antlr.Token // SetRow_ROW_ID sets the row_ROW_ID token. SetRow_ROW_ID(antlr.Token) // Getter signatures CREATE_() antlr.TerminalNode TABLE_() antlr.TerminalNode Table_name() ITable_nameContext OPEN_PAR() antlr.TerminalNode AllColumn_def() []IColumn_defContext Column_def(i int) IColumn_defContext CLOSE_PAR() antlr.TerminalNode AS_() antlr.TerminalNode Select_stmt() ISelect_stmtContext IF_() antlr.TerminalNode NOT_() antlr.TerminalNode EXISTS_() antlr.TerminalNode Schema_name() ISchema_nameContext DOT() antlr.TerminalNode TEMP_() antlr.TerminalNode TEMPORARY_() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode AllTable_constraint() []ITable_constraintContext Table_constraint(i int) ITable_constraintContext WITHOUT_() antlr.TerminalNode IDENTIFIER() antlr.TerminalNode // IsCreate_table_stmtContext differentiates from other interfaces. IsCreate_table_stmtContext() } type Create_table_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser row_ROW_ID antlr.Token } func NewEmptyCreate_table_stmtContext() *Create_table_stmtContext { var p = new(Create_table_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_create_table_stmt return p } func InitEmptyCreate_table_stmtContext(p *Create_table_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_create_table_stmt } func (*Create_table_stmtContext) IsCreate_table_stmtContext() {} func NewCreate_table_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Create_table_stmtContext { var p = new(Create_table_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_create_table_stmt return p } func (s *Create_table_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Create_table_stmtContext) GetRow_ROW_ID() antlr.Token { return s.row_ROW_ID } func (s *Create_table_stmtContext) SetRow_ROW_ID(v antlr.Token) { s.row_ROW_ID = v } func (s *Create_table_stmtContext) CREATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCREATE_, 0) } func (s *Create_table_stmtContext) TABLE_() antlr.TerminalNode { return s.GetToken(SQLiteParserTABLE_, 0) } func (s *Create_table_stmtContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Create_table_stmtContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Create_table_stmtContext) AllColumn_def() []IColumn_defContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_defContext); ok { len++ } } tst := make([]IColumn_defContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_defContext); ok { tst[i] = t.(IColumn_defContext) i++ } } return tst } func (s *Create_table_stmtContext) Column_def(i int) IColumn_defContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_defContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_defContext) } func (s *Create_table_stmtContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Create_table_stmtContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *Create_table_stmtContext) Select_stmt() ISelect_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *Create_table_stmtContext) IF_() antlr.TerminalNode { return s.GetToken(SQLiteParserIF_, 0) } func (s *Create_table_stmtContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *Create_table_stmtContext) EXISTS_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXISTS_, 0) } func (s *Create_table_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Create_table_stmtContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Create_table_stmtContext) TEMP_() antlr.TerminalNode { return s.GetToken(SQLiteParserTEMP_, 0) } func (s *Create_table_stmtContext) TEMPORARY_() antlr.TerminalNode { return s.GetToken(SQLiteParserTEMPORARY_, 0) } func (s *Create_table_stmtContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Create_table_stmtContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Create_table_stmtContext) AllTable_constraint() []ITable_constraintContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ITable_constraintContext); ok { len++ } } tst := make([]ITable_constraintContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ITable_constraintContext); ok { tst[i] = t.(ITable_constraintContext) i++ } } return tst } func (s *Create_table_stmtContext) Table_constraint(i int) ITable_constraintContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_constraintContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ITable_constraintContext) } func (s *Create_table_stmtContext) WITHOUT_() antlr.TerminalNode { return s.GetToken(SQLiteParserWITHOUT_, 0) } func (s *Create_table_stmtContext) IDENTIFIER() antlr.TerminalNode { return s.GetToken(SQLiteParserIDENTIFIER, 0) } func (s *Create_table_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Create_table_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Create_table_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCreate_table_stmt(s) } } func (s *Create_table_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCreate_table_stmt(s) } } func (s *Create_table_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCreate_table_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Create_table_stmt() (localctx ICreate_table_stmtContext) { localctx = NewCreate_table_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 26, SQLiteParserRULE_create_table_stmt) var _la int var _alt int p.EnterOuterAlt(localctx, 1) { p.SetState(418) p.Match(SQLiteParserCREATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(420) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserTEMP_ || _la == SQLiteParserTEMPORARY_ { { p.SetState(419) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserTEMP_ || _la == SQLiteParserTEMPORARY_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } } { p.SetState(422) p.Match(SQLiteParserTABLE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(426) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 34, p.GetParserRuleContext()) == 1 { { p.SetState(423) p.Match(SQLiteParserIF_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(424) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(425) p.Match(SQLiteParserEXISTS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } p.SetState(431) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 35, p.GetParserRuleContext()) == 1 { { p.SetState(428) p.Schema_name() } { p.SetState(429) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(433) p.Table_name() } p.SetState(457) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserOPEN_PAR: { p.SetState(434) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(435) p.Column_def() } p.SetState(440) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 36, p.GetParserRuleContext()) if p.HasError() { goto errorExit } for _alt != 1 && _alt != antlr.ATNInvalidAltNumber { if _alt == 1+1 { { p.SetState(436) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(437) p.Column_def() } } p.SetState(442) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 36, p.GetParserRuleContext()) if p.HasError() { goto errorExit } } p.SetState(447) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(443) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(444) p.Table_constraint() } p.SetState(449) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(450) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(453) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWITHOUT_ { { p.SetState(451) p.Match(SQLiteParserWITHOUT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(452) var _m = p.Match(SQLiteParserIDENTIFIER) localctx.(*Create_table_stmtContext).row_ROW_ID = _m if p.HasError() { // Recognition error - abort rule goto errorExit } } } case SQLiteParserAS_: { p.SetState(455) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(456) p.Select_stmt() } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IColumn_defContext is an interface to support dynamic dispatch. type IColumn_defContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Column_name() IColumn_nameContext Type_name() IType_nameContext AllColumn_constraint() []IColumn_constraintContext Column_constraint(i int) IColumn_constraintContext // IsColumn_defContext differentiates from other interfaces. IsColumn_defContext() } type Column_defContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyColumn_defContext() *Column_defContext { var p = new(Column_defContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_column_def return p } func InitEmptyColumn_defContext(p *Column_defContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_column_def } func (*Column_defContext) IsColumn_defContext() {} func NewColumn_defContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Column_defContext { var p = new(Column_defContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_column_def return p } func (s *Column_defContext) GetParser() antlr.Parser { return s.parser } func (s *Column_defContext) Column_name() IColumn_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Column_defContext) Type_name() IType_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IType_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IType_nameContext) } func (s *Column_defContext) AllColumn_constraint() []IColumn_constraintContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_constraintContext); ok { len++ } } tst := make([]IColumn_constraintContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_constraintContext); ok { tst[i] = t.(IColumn_constraintContext) i++ } } return tst } func (s *Column_defContext) Column_constraint(i int) IColumn_constraintContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_constraintContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_constraintContext) } func (s *Column_defContext) GetRuleContext() antlr.RuleContext { return s } func (s *Column_defContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Column_defContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterColumn_def(s) } } func (s *Column_defContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitColumn_def(s) } } func (s *Column_defContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitColumn_def(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Column_def() (localctx IColumn_defContext) { localctx = NewColumn_defContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 28, SQLiteParserRULE_column_def) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(459) p.Column_name() } p.SetState(461) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 40, p.GetParserRuleContext()) == 1 { { p.SetState(460) p.Type_name() } } else if p.HasError() { // JIM goto errorExit } p.SetState(466) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for ((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&72673329139417088) != 0) || ((int64((_la-102)) & ^0x3f) == 0 && ((int64(1)<<(_la-102))&274877941765) != 0) || _la == SQLiteParserGENERATED_ { { p.SetState(463) p.Column_constraint() } p.SetState(468) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IType_nameContext is an interface to support dynamic dispatch. type IType_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures AllName() []INameContext Name(i int) INameContext OPEN_PAR() antlr.TerminalNode AllSigned_number() []ISigned_numberContext Signed_number(i int) ISigned_numberContext CLOSE_PAR() antlr.TerminalNode COMMA() antlr.TerminalNode // IsType_nameContext differentiates from other interfaces. IsType_nameContext() } type Type_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyType_nameContext() *Type_nameContext { var p = new(Type_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_type_name return p } func InitEmptyType_nameContext(p *Type_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_type_name } func (*Type_nameContext) IsType_nameContext() {} func NewType_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Type_nameContext { var p = new(Type_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_type_name return p } func (s *Type_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Type_nameContext) AllName() []INameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(INameContext); ok { len++ } } tst := make([]INameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(INameContext); ok { tst[i] = t.(INameContext) i++ } } return tst } func (s *Type_nameContext) Name(i int) INameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(INameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(INameContext) } func (s *Type_nameContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Type_nameContext) AllSigned_number() []ISigned_numberContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ISigned_numberContext); ok { len++ } } tst := make([]ISigned_numberContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ISigned_numberContext); ok { tst[i] = t.(ISigned_numberContext) i++ } } return tst } func (s *Type_nameContext) Signed_number(i int) ISigned_numberContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISigned_numberContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ISigned_numberContext) } func (s *Type_nameContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Type_nameContext) COMMA() antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, 0) } func (s *Type_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Type_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Type_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterType_name(s) } } func (s *Type_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitType_name(s) } } func (s *Type_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitType_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Type_name() (localctx IType_nameContext) { localctx = NewType_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 30, SQLiteParserRULE_type_name) var _alt int p.EnterOuterAlt(localctx, 1) p.SetState(470) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = 1 + 1 for ok := true; ok; ok = _alt != 1 && _alt != antlr.ATNInvalidAltNumber { switch _alt { case 1 + 1: { p.SetState(469) p.Name() } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } p.SetState(472) p.GetErrorHandler().Sync(p) _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 42, p.GetParserRuleContext()) if p.HasError() { goto errorExit } } p.SetState(484) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 43, p.GetParserRuleContext()) == 1 { { p.SetState(474) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(475) p.Signed_number() } { p.SetState(476) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } else if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 43, p.GetParserRuleContext()) == 2 { { p.SetState(478) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(479) p.Signed_number() } { p.SetState(480) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(481) p.Signed_number() } { p.SetState(482) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IColumn_constraintContext is an interface to support dynamic dispatch. type IColumn_constraintContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures CHECK_() antlr.TerminalNode OPEN_PAR() antlr.TerminalNode Expr() IExprContext CLOSE_PAR() antlr.TerminalNode DEFAULT_() antlr.TerminalNode COLLATE_() antlr.TerminalNode Collation_name() ICollation_nameContext Foreign_key_clause() IForeign_key_clauseContext AS_() antlr.TerminalNode CONSTRAINT_() antlr.TerminalNode Name() INameContext PRIMARY_() antlr.TerminalNode KEY_() antlr.TerminalNode NULL_() antlr.TerminalNode UNIQUE_() antlr.TerminalNode Signed_number() ISigned_numberContext Literal_value() ILiteral_valueContext Conflict_clause() IConflict_clauseContext GENERATED_() antlr.TerminalNode ALWAYS_() antlr.TerminalNode STORED_() antlr.TerminalNode VIRTUAL_() antlr.TerminalNode Asc_desc() IAsc_descContext AUTOINCREMENT_() antlr.TerminalNode NOT_() antlr.TerminalNode // IsColumn_constraintContext differentiates from other interfaces. IsColumn_constraintContext() } type Column_constraintContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyColumn_constraintContext() *Column_constraintContext { var p = new(Column_constraintContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_column_constraint return p } func InitEmptyColumn_constraintContext(p *Column_constraintContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_column_constraint } func (*Column_constraintContext) IsColumn_constraintContext() {} func NewColumn_constraintContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Column_constraintContext { var p = new(Column_constraintContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_column_constraint return p } func (s *Column_constraintContext) GetParser() antlr.Parser { return s.parser } func (s *Column_constraintContext) CHECK_() antlr.TerminalNode { return s.GetToken(SQLiteParserCHECK_, 0) } func (s *Column_constraintContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Column_constraintContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Column_constraintContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Column_constraintContext) DEFAULT_() antlr.TerminalNode { return s.GetToken(SQLiteParserDEFAULT_, 0) } func (s *Column_constraintContext) COLLATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCOLLATE_, 0) } func (s *Column_constraintContext) Collation_name() ICollation_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICollation_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICollation_nameContext) } func (s *Column_constraintContext) Foreign_key_clause() IForeign_key_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IForeign_key_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IForeign_key_clauseContext) } func (s *Column_constraintContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *Column_constraintContext) CONSTRAINT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCONSTRAINT_, 0) } func (s *Column_constraintContext) Name() INameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(INameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(INameContext) } func (s *Column_constraintContext) PRIMARY_() antlr.TerminalNode { return s.GetToken(SQLiteParserPRIMARY_, 0) } func (s *Column_constraintContext) KEY_() antlr.TerminalNode { return s.GetToken(SQLiteParserKEY_, 0) } func (s *Column_constraintContext) NULL_() antlr.TerminalNode { return s.GetToken(SQLiteParserNULL_, 0) } func (s *Column_constraintContext) UNIQUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserUNIQUE_, 0) } func (s *Column_constraintContext) Signed_number() ISigned_numberContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISigned_numberContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISigned_numberContext) } func (s *Column_constraintContext) Literal_value() ILiteral_valueContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ILiteral_valueContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ILiteral_valueContext) } func (s *Column_constraintContext) Conflict_clause() IConflict_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IConflict_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IConflict_clauseContext) } func (s *Column_constraintContext) GENERATED_() antlr.TerminalNode { return s.GetToken(SQLiteParserGENERATED_, 0) } func (s *Column_constraintContext) ALWAYS_() antlr.TerminalNode { return s.GetToken(SQLiteParserALWAYS_, 0) } func (s *Column_constraintContext) STORED_() antlr.TerminalNode { return s.GetToken(SQLiteParserSTORED_, 0) } func (s *Column_constraintContext) VIRTUAL_() antlr.TerminalNode { return s.GetToken(SQLiteParserVIRTUAL_, 0) } func (s *Column_constraintContext) Asc_desc() IAsc_descContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAsc_descContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAsc_descContext) } func (s *Column_constraintContext) AUTOINCREMENT_() antlr.TerminalNode { return s.GetToken(SQLiteParserAUTOINCREMENT_, 0) } func (s *Column_constraintContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *Column_constraintContext) GetRuleContext() antlr.RuleContext { return s } func (s *Column_constraintContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Column_constraintContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterColumn_constraint(s) } } func (s *Column_constraintContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitColumn_constraint(s) } } func (s *Column_constraintContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitColumn_constraint(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Column_constraint() (localctx IColumn_constraintContext) { localctx = NewColumn_constraintContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 32, SQLiteParserRULE_column_constraint) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(488) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserCONSTRAINT_ { { p.SetState(486) p.Match(SQLiteParserCONSTRAINT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(487) p.Name() } } p.SetState(539) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserPRIMARY_: { p.SetState(490) p.Match(SQLiteParserPRIMARY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(491) p.Match(SQLiteParserKEY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(493) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserASC_ || _la == SQLiteParserDESC_ { { p.SetState(492) p.Asc_desc() } } p.SetState(496) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserON_ { { p.SetState(495) p.Conflict_clause() } } p.SetState(499) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserAUTOINCREMENT_ { { p.SetState(498) p.Match(SQLiteParserAUTOINCREMENT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } case SQLiteParserNOT_, SQLiteParserNULL_, SQLiteParserUNIQUE_: p.SetState(506) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserNOT_, SQLiteParserNULL_: p.SetState(502) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserNOT_ { { p.SetState(501) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(504) p.Match(SQLiteParserNULL_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserUNIQUE_: { p.SetState(505) p.Match(SQLiteParserUNIQUE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } p.SetState(509) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserON_ { { p.SetState(508) p.Conflict_clause() } } case SQLiteParserCHECK_: { p.SetState(511) p.Match(SQLiteParserCHECK_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(512) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(513) p.expr(0) } { p.SetState(514) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserDEFAULT_: { p.SetState(516) p.Match(SQLiteParserDEFAULT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(523) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 51, p.GetParserRuleContext()) { case 1: { p.SetState(517) p.Signed_number() } case 2: { p.SetState(518) p.Literal_value() } case 3: { p.SetState(519) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(520) p.expr(0) } { p.SetState(521) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case antlr.ATNInvalidAltNumber: goto errorExit } case SQLiteParserCOLLATE_: { p.SetState(525) p.Match(SQLiteParserCOLLATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(526) p.Collation_name() } case SQLiteParserREFERENCES_: { p.SetState(527) p.Foreign_key_clause() } case SQLiteParserAS_, SQLiteParserGENERATED_: p.SetState(530) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserGENERATED_ { { p.SetState(528) p.Match(SQLiteParserGENERATED_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(529) p.Match(SQLiteParserALWAYS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(532) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(533) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(534) p.expr(0) } { p.SetState(535) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(537) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserVIRTUAL_ || _la == SQLiteParserSTORED_ { { p.SetState(536) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserVIRTUAL_ || _la == SQLiteParserSTORED_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ISigned_numberContext is an interface to support dynamic dispatch. type ISigned_numberContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures NUMERIC_LITERAL() antlr.TerminalNode PLUS() antlr.TerminalNode MINUS() antlr.TerminalNode // IsSigned_numberContext differentiates from other interfaces. IsSigned_numberContext() } type Signed_numberContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptySigned_numberContext() *Signed_numberContext { var p = new(Signed_numberContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_signed_number return p } func InitEmptySigned_numberContext(p *Signed_numberContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_signed_number } func (*Signed_numberContext) IsSigned_numberContext() {} func NewSigned_numberContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Signed_numberContext { var p = new(Signed_numberContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_signed_number return p } func (s *Signed_numberContext) GetParser() antlr.Parser { return s.parser } func (s *Signed_numberContext) NUMERIC_LITERAL() antlr.TerminalNode { return s.GetToken(SQLiteParserNUMERIC_LITERAL, 0) } func (s *Signed_numberContext) PLUS() antlr.TerminalNode { return s.GetToken(SQLiteParserPLUS, 0) } func (s *Signed_numberContext) MINUS() antlr.TerminalNode { return s.GetToken(SQLiteParserMINUS, 0) } func (s *Signed_numberContext) GetRuleContext() antlr.RuleContext { return s } func (s *Signed_numberContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Signed_numberContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterSigned_number(s) } } func (s *Signed_numberContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitSigned_number(s) } } func (s *Signed_numberContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitSigned_number(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Signed_number() (localctx ISigned_numberContext) { localctx = NewSigned_numberContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 34, SQLiteParserRULE_signed_number) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(542) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserPLUS || _la == SQLiteParserMINUS { { p.SetState(541) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserPLUS || _la == SQLiteParserMINUS) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } } { p.SetState(544) p.Match(SQLiteParserNUMERIC_LITERAL) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ITable_constraintContext is an interface to support dynamic dispatch. type ITable_constraintContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures OPEN_PAR() antlr.TerminalNode AllIndexed_column() []IIndexed_columnContext Indexed_column(i int) IIndexed_columnContext CLOSE_PAR() antlr.TerminalNode CHECK_() antlr.TerminalNode Expr() IExprContext FOREIGN_() antlr.TerminalNode KEY_() antlr.TerminalNode AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext Foreign_key_clause() IForeign_key_clauseContext CONSTRAINT_() antlr.TerminalNode Name() INameContext PRIMARY_() antlr.TerminalNode UNIQUE_() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode Conflict_clause() IConflict_clauseContext // IsTable_constraintContext differentiates from other interfaces. IsTable_constraintContext() } type Table_constraintContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyTable_constraintContext() *Table_constraintContext { var p = new(Table_constraintContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_constraint return p } func InitEmptyTable_constraintContext(p *Table_constraintContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_constraint } func (*Table_constraintContext) IsTable_constraintContext() {} func NewTable_constraintContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Table_constraintContext { var p = new(Table_constraintContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_table_constraint return p } func (s *Table_constraintContext) GetParser() antlr.Parser { return s.parser } func (s *Table_constraintContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Table_constraintContext) AllIndexed_column() []IIndexed_columnContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IIndexed_columnContext); ok { len++ } } tst := make([]IIndexed_columnContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IIndexed_columnContext); ok { tst[i] = t.(IIndexed_columnContext) i++ } } return tst } func (s *Table_constraintContext) Indexed_column(i int) IIndexed_columnContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IIndexed_columnContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IIndexed_columnContext) } func (s *Table_constraintContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Table_constraintContext) CHECK_() antlr.TerminalNode { return s.GetToken(SQLiteParserCHECK_, 0) } func (s *Table_constraintContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Table_constraintContext) FOREIGN_() antlr.TerminalNode { return s.GetToken(SQLiteParserFOREIGN_, 0) } func (s *Table_constraintContext) KEY_() antlr.TerminalNode { return s.GetToken(SQLiteParserKEY_, 0) } func (s *Table_constraintContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Table_constraintContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Table_constraintContext) Foreign_key_clause() IForeign_key_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IForeign_key_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IForeign_key_clauseContext) } func (s *Table_constraintContext) CONSTRAINT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCONSTRAINT_, 0) } func (s *Table_constraintContext) Name() INameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(INameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(INameContext) } func (s *Table_constraintContext) PRIMARY_() antlr.TerminalNode { return s.GetToken(SQLiteParserPRIMARY_, 0) } func (s *Table_constraintContext) UNIQUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserUNIQUE_, 0) } func (s *Table_constraintContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Table_constraintContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Table_constraintContext) Conflict_clause() IConflict_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IConflict_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IConflict_clauseContext) } func (s *Table_constraintContext) GetRuleContext() antlr.RuleContext { return s } func (s *Table_constraintContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Table_constraintContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterTable_constraint(s) } } func (s *Table_constraintContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitTable_constraint(s) } } func (s *Table_constraintContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitTable_constraint(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Table_constraint() (localctx ITable_constraintContext) { localctx = NewTable_constraintContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 36, SQLiteParserRULE_table_constraint) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(548) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserCONSTRAINT_ { { p.SetState(546) p.Match(SQLiteParserCONSTRAINT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(547) p.Name() } } p.SetState(587) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserPRIMARY_, SQLiteParserUNIQUE_: p.SetState(553) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserPRIMARY_: { p.SetState(550) p.Match(SQLiteParserPRIMARY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(551) p.Match(SQLiteParserKEY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserUNIQUE_: { p.SetState(552) p.Match(SQLiteParserUNIQUE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } { p.SetState(555) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(556) p.Indexed_column() } p.SetState(561) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(557) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(558) p.Indexed_column() } p.SetState(563) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(564) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(566) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserON_ { { p.SetState(565) p.Conflict_clause() } } case SQLiteParserCHECK_: { p.SetState(568) p.Match(SQLiteParserCHECK_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(569) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(570) p.expr(0) } { p.SetState(571) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserFOREIGN_: { p.SetState(573) p.Match(SQLiteParserFOREIGN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(574) p.Match(SQLiteParserKEY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(575) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(576) p.Column_name() } p.SetState(581) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(577) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(578) p.Column_name() } p.SetState(583) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(584) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(585) p.Foreign_key_clause() } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IForeign_key_clauseContext is an interface to support dynamic dispatch. type IForeign_key_clauseContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures REFERENCES_() antlr.TerminalNode Foreign_table() IForeign_tableContext OPEN_PAR() antlr.TerminalNode AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext CLOSE_PAR() antlr.TerminalNode AllON_() []antlr.TerminalNode ON_(i int) antlr.TerminalNode AllMATCH_() []antlr.TerminalNode MATCH_(i int) antlr.TerminalNode AllName() []INameContext Name(i int) INameContext DEFERRABLE_() antlr.TerminalNode AllDELETE_() []antlr.TerminalNode DELETE_(i int) antlr.TerminalNode AllUPDATE_() []antlr.TerminalNode UPDATE_(i int) antlr.TerminalNode AllSET_() []antlr.TerminalNode SET_(i int) antlr.TerminalNode AllCASCADE_() []antlr.TerminalNode CASCADE_(i int) antlr.TerminalNode AllRESTRICT_() []antlr.TerminalNode RESTRICT_(i int) antlr.TerminalNode AllNO_() []antlr.TerminalNode NO_(i int) antlr.TerminalNode AllACTION_() []antlr.TerminalNode ACTION_(i int) antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode AllNULL_() []antlr.TerminalNode NULL_(i int) antlr.TerminalNode AllDEFAULT_() []antlr.TerminalNode DEFAULT_(i int) antlr.TerminalNode NOT_() antlr.TerminalNode INITIALLY_() antlr.TerminalNode DEFERRED_() antlr.TerminalNode IMMEDIATE_() antlr.TerminalNode // IsForeign_key_clauseContext differentiates from other interfaces. IsForeign_key_clauseContext() } type Foreign_key_clauseContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyForeign_key_clauseContext() *Foreign_key_clauseContext { var p = new(Foreign_key_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_foreign_key_clause return p } func InitEmptyForeign_key_clauseContext(p *Foreign_key_clauseContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_foreign_key_clause } func (*Foreign_key_clauseContext) IsForeign_key_clauseContext() {} func NewForeign_key_clauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Foreign_key_clauseContext { var p = new(Foreign_key_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_foreign_key_clause return p } func (s *Foreign_key_clauseContext) GetParser() antlr.Parser { return s.parser } func (s *Foreign_key_clauseContext) REFERENCES_() antlr.TerminalNode { return s.GetToken(SQLiteParserREFERENCES_, 0) } func (s *Foreign_key_clauseContext) Foreign_table() IForeign_tableContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IForeign_tableContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IForeign_tableContext) } func (s *Foreign_key_clauseContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Foreign_key_clauseContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Foreign_key_clauseContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Foreign_key_clauseContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Foreign_key_clauseContext) AllON_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserON_) } func (s *Foreign_key_clauseContext) ON_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserON_, i) } func (s *Foreign_key_clauseContext) AllMATCH_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserMATCH_) } func (s *Foreign_key_clauseContext) MATCH_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserMATCH_, i) } func (s *Foreign_key_clauseContext) AllName() []INameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(INameContext); ok { len++ } } tst := make([]INameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(INameContext); ok { tst[i] = t.(INameContext) i++ } } return tst } func (s *Foreign_key_clauseContext) Name(i int) INameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(INameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(INameContext) } func (s *Foreign_key_clauseContext) DEFERRABLE_() antlr.TerminalNode { return s.GetToken(SQLiteParserDEFERRABLE_, 0) } func (s *Foreign_key_clauseContext) AllDELETE_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserDELETE_) } func (s *Foreign_key_clauseContext) DELETE_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserDELETE_, i) } func (s *Foreign_key_clauseContext) AllUPDATE_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserUPDATE_) } func (s *Foreign_key_clauseContext) UPDATE_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserUPDATE_, i) } func (s *Foreign_key_clauseContext) AllSET_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserSET_) } func (s *Foreign_key_clauseContext) SET_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserSET_, i) } func (s *Foreign_key_clauseContext) AllCASCADE_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCASCADE_) } func (s *Foreign_key_clauseContext) CASCADE_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCASCADE_, i) } func (s *Foreign_key_clauseContext) AllRESTRICT_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserRESTRICT_) } func (s *Foreign_key_clauseContext) RESTRICT_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserRESTRICT_, i) } func (s *Foreign_key_clauseContext) AllNO_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserNO_) } func (s *Foreign_key_clauseContext) NO_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserNO_, i) } func (s *Foreign_key_clauseContext) AllACTION_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserACTION_) } func (s *Foreign_key_clauseContext) ACTION_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserACTION_, i) } func (s *Foreign_key_clauseContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Foreign_key_clauseContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Foreign_key_clauseContext) AllNULL_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserNULL_) } func (s *Foreign_key_clauseContext) NULL_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserNULL_, i) } func (s *Foreign_key_clauseContext) AllDEFAULT_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserDEFAULT_) } func (s *Foreign_key_clauseContext) DEFAULT_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserDEFAULT_, i) } func (s *Foreign_key_clauseContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *Foreign_key_clauseContext) INITIALLY_() antlr.TerminalNode { return s.GetToken(SQLiteParserINITIALLY_, 0) } func (s *Foreign_key_clauseContext) DEFERRED_() antlr.TerminalNode { return s.GetToken(SQLiteParserDEFERRED_, 0) } func (s *Foreign_key_clauseContext) IMMEDIATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserIMMEDIATE_, 0) } func (s *Foreign_key_clauseContext) GetRuleContext() antlr.RuleContext { return s } func (s *Foreign_key_clauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Foreign_key_clauseContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterForeign_key_clause(s) } } func (s *Foreign_key_clauseContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitForeign_key_clause(s) } } func (s *Foreign_key_clauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitForeign_key_clause(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Foreign_key_clause() (localctx IForeign_key_clauseContext) { localctx = NewForeign_key_clauseContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 38, SQLiteParserRULE_foreign_key_clause) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(589) p.Match(SQLiteParserREFERENCES_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(590) p.Foreign_table() } p.SetState(602) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserOPEN_PAR { { p.SetState(591) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(592) p.Column_name() } p.SetState(597) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(593) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(594) p.Column_name() } p.SetState(599) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(600) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } } p.SetState(618) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserMATCH_ || _la == SQLiteParserON_ { p.SetState(616) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserON_: { p.SetState(604) p.Match(SQLiteParserON_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(605) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserDELETE_ || _la == SQLiteParserUPDATE_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } p.SetState(612) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserSET_: { p.SetState(606) p.Match(SQLiteParserSET_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(607) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserDEFAULT_ || _la == SQLiteParserNULL_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } case SQLiteParserCASCADE_: { p.SetState(608) p.Match(SQLiteParserCASCADE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserRESTRICT_: { p.SetState(609) p.Match(SQLiteParserRESTRICT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserNO_: { p.SetState(610) p.Match(SQLiteParserNO_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(611) p.Match(SQLiteParserACTION_) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } case SQLiteParserMATCH_: { p.SetState(614) p.Match(SQLiteParserMATCH_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(615) p.Name() } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } p.SetState(620) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } p.SetState(629) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 69, p.GetParserRuleContext()) == 1 { p.SetState(622) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserNOT_ { { p.SetState(621) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(624) p.Match(SQLiteParserDEFERRABLE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(627) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserINITIALLY_ { { p.SetState(625) p.Match(SQLiteParserINITIALLY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(626) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserDEFERRED_ || _la == SQLiteParserIMMEDIATE_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } } } else if p.HasError() { // JIM goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IConflict_clauseContext is an interface to support dynamic dispatch. type IConflict_clauseContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures ON_() antlr.TerminalNode CONFLICT_() antlr.TerminalNode ROLLBACK_() antlr.TerminalNode ABORT_() antlr.TerminalNode FAIL_() antlr.TerminalNode IGNORE_() antlr.TerminalNode REPLACE_() antlr.TerminalNode // IsConflict_clauseContext differentiates from other interfaces. IsConflict_clauseContext() } type Conflict_clauseContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyConflict_clauseContext() *Conflict_clauseContext { var p = new(Conflict_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_conflict_clause return p } func InitEmptyConflict_clauseContext(p *Conflict_clauseContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_conflict_clause } func (*Conflict_clauseContext) IsConflict_clauseContext() {} func NewConflict_clauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Conflict_clauseContext { var p = new(Conflict_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_conflict_clause return p } func (s *Conflict_clauseContext) GetParser() antlr.Parser { return s.parser } func (s *Conflict_clauseContext) ON_() antlr.TerminalNode { return s.GetToken(SQLiteParserON_, 0) } func (s *Conflict_clauseContext) CONFLICT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCONFLICT_, 0) } func (s *Conflict_clauseContext) ROLLBACK_() antlr.TerminalNode { return s.GetToken(SQLiteParserROLLBACK_, 0) } func (s *Conflict_clauseContext) ABORT_() antlr.TerminalNode { return s.GetToken(SQLiteParserABORT_, 0) } func (s *Conflict_clauseContext) FAIL_() antlr.TerminalNode { return s.GetToken(SQLiteParserFAIL_, 0) } func (s *Conflict_clauseContext) IGNORE_() antlr.TerminalNode { return s.GetToken(SQLiteParserIGNORE_, 0) } func (s *Conflict_clauseContext) REPLACE_() antlr.TerminalNode { return s.GetToken(SQLiteParserREPLACE_, 0) } func (s *Conflict_clauseContext) GetRuleContext() antlr.RuleContext { return s } func (s *Conflict_clauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Conflict_clauseContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterConflict_clause(s) } } func (s *Conflict_clauseContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitConflict_clause(s) } } func (s *Conflict_clauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitConflict_clause(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Conflict_clause() (localctx IConflict_clauseContext) { localctx = NewConflict_clauseContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 40, SQLiteParserRULE_conflict_clause) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(631) p.Match(SQLiteParserON_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(632) p.Match(SQLiteParserCONFLICT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(633) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserABORT_ || ((int64((_la-72)) & ^0x3f) == 0 && ((int64(1)<<(_la-72))&19140298416325121) != 0)) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICreate_trigger_stmtContext is an interface to support dynamic dispatch. type ICreate_trigger_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures CREATE_() antlr.TerminalNode TRIGGER_() antlr.TerminalNode Trigger_name() ITrigger_nameContext ON_() antlr.TerminalNode Table_name() ITable_nameContext BEGIN_() antlr.TerminalNode END_() antlr.TerminalNode DELETE_() antlr.TerminalNode INSERT_() antlr.TerminalNode UPDATE_() antlr.TerminalNode IF_() antlr.TerminalNode NOT_() antlr.TerminalNode EXISTS_() antlr.TerminalNode Schema_name() ISchema_nameContext DOT() antlr.TerminalNode BEFORE_() antlr.TerminalNode AFTER_() antlr.TerminalNode INSTEAD_() antlr.TerminalNode AllOF_() []antlr.TerminalNode OF_(i int) antlr.TerminalNode FOR_() antlr.TerminalNode EACH_() antlr.TerminalNode ROW_() antlr.TerminalNode WHEN_() antlr.TerminalNode Expr() IExprContext AllSCOL() []antlr.TerminalNode SCOL(i int) antlr.TerminalNode TEMP_() antlr.TerminalNode TEMPORARY_() antlr.TerminalNode AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext AllUpdate_stmt() []IUpdate_stmtContext Update_stmt(i int) IUpdate_stmtContext AllInsert_stmt() []IInsert_stmtContext Insert_stmt(i int) IInsert_stmtContext AllDelete_stmt() []IDelete_stmtContext Delete_stmt(i int) IDelete_stmtContext AllSelect_stmt() []ISelect_stmtContext Select_stmt(i int) ISelect_stmtContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsCreate_trigger_stmtContext differentiates from other interfaces. IsCreate_trigger_stmtContext() } type Create_trigger_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyCreate_trigger_stmtContext() *Create_trigger_stmtContext { var p = new(Create_trigger_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_create_trigger_stmt return p } func InitEmptyCreate_trigger_stmtContext(p *Create_trigger_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_create_trigger_stmt } func (*Create_trigger_stmtContext) IsCreate_trigger_stmtContext() {} func NewCreate_trigger_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Create_trigger_stmtContext { var p = new(Create_trigger_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_create_trigger_stmt return p } func (s *Create_trigger_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Create_trigger_stmtContext) CREATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCREATE_, 0) } func (s *Create_trigger_stmtContext) TRIGGER_() antlr.TerminalNode { return s.GetToken(SQLiteParserTRIGGER_, 0) } func (s *Create_trigger_stmtContext) Trigger_name() ITrigger_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITrigger_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITrigger_nameContext) } func (s *Create_trigger_stmtContext) ON_() antlr.TerminalNode { return s.GetToken(SQLiteParserON_, 0) } func (s *Create_trigger_stmtContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Create_trigger_stmtContext) BEGIN_() antlr.TerminalNode { return s.GetToken(SQLiteParserBEGIN_, 0) } func (s *Create_trigger_stmtContext) END_() antlr.TerminalNode { return s.GetToken(SQLiteParserEND_, 0) } func (s *Create_trigger_stmtContext) DELETE_() antlr.TerminalNode { return s.GetToken(SQLiteParserDELETE_, 0) } func (s *Create_trigger_stmtContext) INSERT_() antlr.TerminalNode { return s.GetToken(SQLiteParserINSERT_, 0) } func (s *Create_trigger_stmtContext) UPDATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserUPDATE_, 0) } func (s *Create_trigger_stmtContext) IF_() antlr.TerminalNode { return s.GetToken(SQLiteParserIF_, 0) } func (s *Create_trigger_stmtContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *Create_trigger_stmtContext) EXISTS_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXISTS_, 0) } func (s *Create_trigger_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Create_trigger_stmtContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Create_trigger_stmtContext) BEFORE_() antlr.TerminalNode { return s.GetToken(SQLiteParserBEFORE_, 0) } func (s *Create_trigger_stmtContext) AFTER_() antlr.TerminalNode { return s.GetToken(SQLiteParserAFTER_, 0) } func (s *Create_trigger_stmtContext) INSTEAD_() antlr.TerminalNode { return s.GetToken(SQLiteParserINSTEAD_, 0) } func (s *Create_trigger_stmtContext) AllOF_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserOF_) } func (s *Create_trigger_stmtContext) OF_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserOF_, i) } func (s *Create_trigger_stmtContext) FOR_() antlr.TerminalNode { return s.GetToken(SQLiteParserFOR_, 0) } func (s *Create_trigger_stmtContext) EACH_() antlr.TerminalNode { return s.GetToken(SQLiteParserEACH_, 0) } func (s *Create_trigger_stmtContext) ROW_() antlr.TerminalNode { return s.GetToken(SQLiteParserROW_, 0) } func (s *Create_trigger_stmtContext) WHEN_() antlr.TerminalNode { return s.GetToken(SQLiteParserWHEN_, 0) } func (s *Create_trigger_stmtContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Create_trigger_stmtContext) AllSCOL() []antlr.TerminalNode { return s.GetTokens(SQLiteParserSCOL) } func (s *Create_trigger_stmtContext) SCOL(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserSCOL, i) } func (s *Create_trigger_stmtContext) TEMP_() antlr.TerminalNode { return s.GetToken(SQLiteParserTEMP_, 0) } func (s *Create_trigger_stmtContext) TEMPORARY_() antlr.TerminalNode { return s.GetToken(SQLiteParserTEMPORARY_, 0) } func (s *Create_trigger_stmtContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Create_trigger_stmtContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Create_trigger_stmtContext) AllUpdate_stmt() []IUpdate_stmtContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IUpdate_stmtContext); ok { len++ } } tst := make([]IUpdate_stmtContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IUpdate_stmtContext); ok { tst[i] = t.(IUpdate_stmtContext) i++ } } return tst } func (s *Create_trigger_stmtContext) Update_stmt(i int) IUpdate_stmtContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IUpdate_stmtContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IUpdate_stmtContext) } func (s *Create_trigger_stmtContext) AllInsert_stmt() []IInsert_stmtContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IInsert_stmtContext); ok { len++ } } tst := make([]IInsert_stmtContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IInsert_stmtContext); ok { tst[i] = t.(IInsert_stmtContext) i++ } } return tst } func (s *Create_trigger_stmtContext) Insert_stmt(i int) IInsert_stmtContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IInsert_stmtContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IInsert_stmtContext) } func (s *Create_trigger_stmtContext) AllDelete_stmt() []IDelete_stmtContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IDelete_stmtContext); ok { len++ } } tst := make([]IDelete_stmtContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IDelete_stmtContext); ok { tst[i] = t.(IDelete_stmtContext) i++ } } return tst } func (s *Create_trigger_stmtContext) Delete_stmt(i int) IDelete_stmtContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IDelete_stmtContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IDelete_stmtContext) } func (s *Create_trigger_stmtContext) AllSelect_stmt() []ISelect_stmtContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ISelect_stmtContext); ok { len++ } } tst := make([]ISelect_stmtContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ISelect_stmtContext); ok { tst[i] = t.(ISelect_stmtContext) i++ } } return tst } func (s *Create_trigger_stmtContext) Select_stmt(i int) ISelect_stmtContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *Create_trigger_stmtContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Create_trigger_stmtContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Create_trigger_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Create_trigger_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Create_trigger_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCreate_trigger_stmt(s) } } func (s *Create_trigger_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCreate_trigger_stmt(s) } } func (s *Create_trigger_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCreate_trigger_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Create_trigger_stmt() (localctx ICreate_trigger_stmtContext) { localctx = NewCreate_trigger_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 42, SQLiteParserRULE_create_trigger_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(635) p.Match(SQLiteParserCREATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(637) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserTEMP_ || _la == SQLiteParserTEMPORARY_ { { p.SetState(636) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserTEMP_ || _la == SQLiteParserTEMPORARY_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } } { p.SetState(639) p.Match(SQLiteParserTRIGGER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(643) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 71, p.GetParserRuleContext()) == 1 { { p.SetState(640) p.Match(SQLiteParserIF_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(641) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(642) p.Match(SQLiteParserEXISTS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } p.SetState(648) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 72, p.GetParserRuleContext()) == 1 { { p.SetState(645) p.Schema_name() } { p.SetState(646) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(650) p.Trigger_name() } p.SetState(655) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserBEFORE_: { p.SetState(651) p.Match(SQLiteParserBEFORE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserAFTER_: { p.SetState(652) p.Match(SQLiteParserAFTER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserINSTEAD_: { p.SetState(653) p.Match(SQLiteParserINSTEAD_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(654) p.Match(SQLiteParserOF_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserDELETE_, SQLiteParserINSERT_, SQLiteParserUPDATE_: default: } p.SetState(671) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserDELETE_: { p.SetState(657) p.Match(SQLiteParserDELETE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserINSERT_: { p.SetState(658) p.Match(SQLiteParserINSERT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserUPDATE_: { p.SetState(659) p.Match(SQLiteParserUPDATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(669) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserOF_ { { p.SetState(660) p.Match(SQLiteParserOF_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(661) p.Column_name() } p.SetState(666) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(662) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(663) p.Column_name() } p.SetState(668) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } { p.SetState(673) p.Match(SQLiteParserON_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(674) p.Table_name() } p.SetState(678) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserFOR_ { { p.SetState(675) p.Match(SQLiteParserFOR_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(676) p.Match(SQLiteParserEACH_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(677) p.Match(SQLiteParserROW_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } p.SetState(682) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWHEN_ { { p.SetState(680) p.Match(SQLiteParserWHEN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(681) p.expr(0) } } { p.SetState(684) p.Match(SQLiteParserBEGIN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(693) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for ok := true; ok; ok = _la == SQLiteParserDELETE_ || ((int64((_la-88)) & ^0x3f) == 0 && ((int64(1)<<(_la-88))&2386912217732743169) != 0) { p.SetState(689) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 79, p.GetParserRuleContext()) { case 1: { p.SetState(685) p.Update_stmt() } case 2: { p.SetState(686) p.Insert_stmt() } case 3: { p.SetState(687) p.Delete_stmt() } case 4: { p.SetState(688) p.Select_stmt() } case antlr.ATNInvalidAltNumber: goto errorExit } { p.SetState(691) p.Match(SQLiteParserSCOL) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(695) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(697) p.Match(SQLiteParserEND_) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICreate_view_stmtContext is an interface to support dynamic dispatch. type ICreate_view_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures CREATE_() antlr.TerminalNode VIEW_() antlr.TerminalNode View_name() IView_nameContext AS_() antlr.TerminalNode Select_stmt() ISelect_stmtContext IF_() antlr.TerminalNode NOT_() antlr.TerminalNode EXISTS_() antlr.TerminalNode Schema_name() ISchema_nameContext DOT() antlr.TerminalNode OPEN_PAR() antlr.TerminalNode AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext CLOSE_PAR() antlr.TerminalNode TEMP_() antlr.TerminalNode TEMPORARY_() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsCreate_view_stmtContext differentiates from other interfaces. IsCreate_view_stmtContext() } type Create_view_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyCreate_view_stmtContext() *Create_view_stmtContext { var p = new(Create_view_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_create_view_stmt return p } func InitEmptyCreate_view_stmtContext(p *Create_view_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_create_view_stmt } func (*Create_view_stmtContext) IsCreate_view_stmtContext() {} func NewCreate_view_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Create_view_stmtContext { var p = new(Create_view_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_create_view_stmt return p } func (s *Create_view_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Create_view_stmtContext) CREATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCREATE_, 0) } func (s *Create_view_stmtContext) VIEW_() antlr.TerminalNode { return s.GetToken(SQLiteParserVIEW_, 0) } func (s *Create_view_stmtContext) View_name() IView_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IView_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IView_nameContext) } func (s *Create_view_stmtContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *Create_view_stmtContext) Select_stmt() ISelect_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *Create_view_stmtContext) IF_() antlr.TerminalNode { return s.GetToken(SQLiteParserIF_, 0) } func (s *Create_view_stmtContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *Create_view_stmtContext) EXISTS_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXISTS_, 0) } func (s *Create_view_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Create_view_stmtContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Create_view_stmtContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Create_view_stmtContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Create_view_stmtContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Create_view_stmtContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Create_view_stmtContext) TEMP_() antlr.TerminalNode { return s.GetToken(SQLiteParserTEMP_, 0) } func (s *Create_view_stmtContext) TEMPORARY_() antlr.TerminalNode { return s.GetToken(SQLiteParserTEMPORARY_, 0) } func (s *Create_view_stmtContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Create_view_stmtContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Create_view_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Create_view_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Create_view_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCreate_view_stmt(s) } } func (s *Create_view_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCreate_view_stmt(s) } } func (s *Create_view_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCreate_view_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Create_view_stmt() (localctx ICreate_view_stmtContext) { localctx = NewCreate_view_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 44, SQLiteParserRULE_create_view_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(699) p.Match(SQLiteParserCREATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(701) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserTEMP_ || _la == SQLiteParserTEMPORARY_ { { p.SetState(700) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserTEMP_ || _la == SQLiteParserTEMPORARY_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } } { p.SetState(703) p.Match(SQLiteParserVIEW_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(707) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 82, p.GetParserRuleContext()) == 1 { { p.SetState(704) p.Match(SQLiteParserIF_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(705) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(706) p.Match(SQLiteParserEXISTS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } p.SetState(712) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 83, p.GetParserRuleContext()) == 1 { { p.SetState(709) p.Schema_name() } { p.SetState(710) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(714) p.View_name() } p.SetState(726) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserOPEN_PAR { { p.SetState(715) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(716) p.Column_name() } p.SetState(721) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(717) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(718) p.Column_name() } p.SetState(723) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(724) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(728) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(729) p.Select_stmt() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICreate_virtual_table_stmtContext is an interface to support dynamic dispatch. type ICreate_virtual_table_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures CREATE_() antlr.TerminalNode VIRTUAL_() antlr.TerminalNode TABLE_() antlr.TerminalNode Table_name() ITable_nameContext USING_() antlr.TerminalNode Module_name() IModule_nameContext IF_() antlr.TerminalNode NOT_() antlr.TerminalNode EXISTS_() antlr.TerminalNode Schema_name() ISchema_nameContext DOT() antlr.TerminalNode OPEN_PAR() antlr.TerminalNode AllModule_argument() []IModule_argumentContext Module_argument(i int) IModule_argumentContext CLOSE_PAR() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsCreate_virtual_table_stmtContext differentiates from other interfaces. IsCreate_virtual_table_stmtContext() } type Create_virtual_table_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyCreate_virtual_table_stmtContext() *Create_virtual_table_stmtContext { var p = new(Create_virtual_table_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_create_virtual_table_stmt return p } func InitEmptyCreate_virtual_table_stmtContext(p *Create_virtual_table_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_create_virtual_table_stmt } func (*Create_virtual_table_stmtContext) IsCreate_virtual_table_stmtContext() {} func NewCreate_virtual_table_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Create_virtual_table_stmtContext { var p = new(Create_virtual_table_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_create_virtual_table_stmt return p } func (s *Create_virtual_table_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Create_virtual_table_stmtContext) CREATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCREATE_, 0) } func (s *Create_virtual_table_stmtContext) VIRTUAL_() antlr.TerminalNode { return s.GetToken(SQLiteParserVIRTUAL_, 0) } func (s *Create_virtual_table_stmtContext) TABLE_() antlr.TerminalNode { return s.GetToken(SQLiteParserTABLE_, 0) } func (s *Create_virtual_table_stmtContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Create_virtual_table_stmtContext) USING_() antlr.TerminalNode { return s.GetToken(SQLiteParserUSING_, 0) } func (s *Create_virtual_table_stmtContext) Module_name() IModule_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IModule_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IModule_nameContext) } func (s *Create_virtual_table_stmtContext) IF_() antlr.TerminalNode { return s.GetToken(SQLiteParserIF_, 0) } func (s *Create_virtual_table_stmtContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *Create_virtual_table_stmtContext) EXISTS_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXISTS_, 0) } func (s *Create_virtual_table_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Create_virtual_table_stmtContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Create_virtual_table_stmtContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Create_virtual_table_stmtContext) AllModule_argument() []IModule_argumentContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IModule_argumentContext); ok { len++ } } tst := make([]IModule_argumentContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IModule_argumentContext); ok { tst[i] = t.(IModule_argumentContext) i++ } } return tst } func (s *Create_virtual_table_stmtContext) Module_argument(i int) IModule_argumentContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IModule_argumentContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IModule_argumentContext) } func (s *Create_virtual_table_stmtContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Create_virtual_table_stmtContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Create_virtual_table_stmtContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Create_virtual_table_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Create_virtual_table_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Create_virtual_table_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCreate_virtual_table_stmt(s) } } func (s *Create_virtual_table_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCreate_virtual_table_stmt(s) } } func (s *Create_virtual_table_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCreate_virtual_table_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Create_virtual_table_stmt() (localctx ICreate_virtual_table_stmtContext) { localctx = NewCreate_virtual_table_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 46, SQLiteParserRULE_create_virtual_table_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(731) p.Match(SQLiteParserCREATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(732) p.Match(SQLiteParserVIRTUAL_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(733) p.Match(SQLiteParserTABLE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(737) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 86, p.GetParserRuleContext()) == 1 { { p.SetState(734) p.Match(SQLiteParserIF_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(735) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(736) p.Match(SQLiteParserEXISTS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } p.SetState(742) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 87, p.GetParserRuleContext()) == 1 { { p.SetState(739) p.Schema_name() } { p.SetState(740) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(744) p.Table_name() } { p.SetState(745) p.Match(SQLiteParserUSING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(746) p.Module_name() } p.SetState(758) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserOPEN_PAR { { p.SetState(747) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(748) p.Module_argument() } p.SetState(753) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(749) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(750) p.Module_argument() } p.SetState(755) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(756) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IWith_clauseContext is an interface to support dynamic dispatch. type IWith_clauseContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures WITH_() antlr.TerminalNode AllCte_table_name() []ICte_table_nameContext Cte_table_name(i int) ICte_table_nameContext AllAS_() []antlr.TerminalNode AS_(i int) antlr.TerminalNode AllOPEN_PAR() []antlr.TerminalNode OPEN_PAR(i int) antlr.TerminalNode AllSelect_stmt() []ISelect_stmtContext Select_stmt(i int) ISelect_stmtContext AllCLOSE_PAR() []antlr.TerminalNode CLOSE_PAR(i int) antlr.TerminalNode RECURSIVE_() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsWith_clauseContext differentiates from other interfaces. IsWith_clauseContext() } type With_clauseContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyWith_clauseContext() *With_clauseContext { var p = new(With_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_with_clause return p } func InitEmptyWith_clauseContext(p *With_clauseContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_with_clause } func (*With_clauseContext) IsWith_clauseContext() {} func NewWith_clauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *With_clauseContext { var p = new(With_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_with_clause return p } func (s *With_clauseContext) GetParser() antlr.Parser { return s.parser } func (s *With_clauseContext) WITH_() antlr.TerminalNode { return s.GetToken(SQLiteParserWITH_, 0) } func (s *With_clauseContext) AllCte_table_name() []ICte_table_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ICte_table_nameContext); ok { len++ } } tst := make([]ICte_table_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ICte_table_nameContext); ok { tst[i] = t.(ICte_table_nameContext) i++ } } return tst } func (s *With_clauseContext) Cte_table_name(i int) ICte_table_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICte_table_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ICte_table_nameContext) } func (s *With_clauseContext) AllAS_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserAS_) } func (s *With_clauseContext) AS_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, i) } func (s *With_clauseContext) AllOPEN_PAR() []antlr.TerminalNode { return s.GetTokens(SQLiteParserOPEN_PAR) } func (s *With_clauseContext) OPEN_PAR(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, i) } func (s *With_clauseContext) AllSelect_stmt() []ISelect_stmtContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ISelect_stmtContext); ok { len++ } } tst := make([]ISelect_stmtContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ISelect_stmtContext); ok { tst[i] = t.(ISelect_stmtContext) i++ } } return tst } func (s *With_clauseContext) Select_stmt(i int) ISelect_stmtContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *With_clauseContext) AllCLOSE_PAR() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCLOSE_PAR) } func (s *With_clauseContext) CLOSE_PAR(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, i) } func (s *With_clauseContext) RECURSIVE_() antlr.TerminalNode { return s.GetToken(SQLiteParserRECURSIVE_, 0) } func (s *With_clauseContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *With_clauseContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *With_clauseContext) GetRuleContext() antlr.RuleContext { return s } func (s *With_clauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *With_clauseContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterWith_clause(s) } } func (s *With_clauseContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitWith_clause(s) } } func (s *With_clauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitWith_clause(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) With_clause() (localctx IWith_clauseContext) { localctx = NewWith_clauseContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 48, SQLiteParserRULE_with_clause) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(760) p.Match(SQLiteParserWITH_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(762) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 90, p.GetParserRuleContext()) == 1 { { p.SetState(761) p.Match(SQLiteParserRECURSIVE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(764) p.Cte_table_name() } { p.SetState(765) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(766) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(767) p.Select_stmt() } { p.SetState(768) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(778) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(769) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(770) p.Cte_table_name() } { p.SetState(771) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(772) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(773) p.Select_stmt() } { p.SetState(774) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(780) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICte_table_nameContext is an interface to support dynamic dispatch. type ICte_table_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Table_name() ITable_nameContext OPEN_PAR() antlr.TerminalNode AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext CLOSE_PAR() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsCte_table_nameContext differentiates from other interfaces. IsCte_table_nameContext() } type Cte_table_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyCte_table_nameContext() *Cte_table_nameContext { var p = new(Cte_table_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_cte_table_name return p } func InitEmptyCte_table_nameContext(p *Cte_table_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_cte_table_name } func (*Cte_table_nameContext) IsCte_table_nameContext() {} func NewCte_table_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Cte_table_nameContext { var p = new(Cte_table_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_cte_table_name return p } func (s *Cte_table_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Cte_table_nameContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Cte_table_nameContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Cte_table_nameContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Cte_table_nameContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Cte_table_nameContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Cte_table_nameContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Cte_table_nameContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Cte_table_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Cte_table_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Cte_table_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCte_table_name(s) } } func (s *Cte_table_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCte_table_name(s) } } func (s *Cte_table_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCte_table_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Cte_table_name() (localctx ICte_table_nameContext) { localctx = NewCte_table_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 50, SQLiteParserRULE_cte_table_name) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(781) p.Table_name() } p.SetState(793) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserOPEN_PAR { { p.SetState(782) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(783) p.Column_name() } p.SetState(788) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(784) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(785) p.Column_name() } p.SetState(790) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(791) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IRecursive_cteContext is an interface to support dynamic dispatch. type IRecursive_cteContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Cte_table_name() ICte_table_nameContext AS_() antlr.TerminalNode OPEN_PAR() antlr.TerminalNode Initial_select() IInitial_selectContext UNION_() antlr.TerminalNode Recursive_select() IRecursive_selectContext CLOSE_PAR() antlr.TerminalNode ALL_() antlr.TerminalNode // IsRecursive_cteContext differentiates from other interfaces. IsRecursive_cteContext() } type Recursive_cteContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyRecursive_cteContext() *Recursive_cteContext { var p = new(Recursive_cteContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_recursive_cte return p } func InitEmptyRecursive_cteContext(p *Recursive_cteContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_recursive_cte } func (*Recursive_cteContext) IsRecursive_cteContext() {} func NewRecursive_cteContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Recursive_cteContext { var p = new(Recursive_cteContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_recursive_cte return p } func (s *Recursive_cteContext) GetParser() antlr.Parser { return s.parser } func (s *Recursive_cteContext) Cte_table_name() ICte_table_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICte_table_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICte_table_nameContext) } func (s *Recursive_cteContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *Recursive_cteContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Recursive_cteContext) Initial_select() IInitial_selectContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IInitial_selectContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IInitial_selectContext) } func (s *Recursive_cteContext) UNION_() antlr.TerminalNode { return s.GetToken(SQLiteParserUNION_, 0) } func (s *Recursive_cteContext) Recursive_select() IRecursive_selectContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IRecursive_selectContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IRecursive_selectContext) } func (s *Recursive_cteContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Recursive_cteContext) ALL_() antlr.TerminalNode { return s.GetToken(SQLiteParserALL_, 0) } func (s *Recursive_cteContext) GetRuleContext() antlr.RuleContext { return s } func (s *Recursive_cteContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Recursive_cteContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterRecursive_cte(s) } } func (s *Recursive_cteContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitRecursive_cte(s) } } func (s *Recursive_cteContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitRecursive_cte(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Recursive_cte() (localctx IRecursive_cteContext) { localctx = NewRecursive_cteContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 52, SQLiteParserRULE_recursive_cte) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(795) p.Cte_table_name() } { p.SetState(796) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(797) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(798) p.Initial_select() } { p.SetState(799) p.Match(SQLiteParserUNION_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(801) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserALL_ { { p.SetState(800) p.Match(SQLiteParserALL_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(803) p.Recursive_select() } { p.SetState(804) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICommon_table_expressionContext is an interface to support dynamic dispatch. type ICommon_table_expressionContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Table_name() ITable_nameContext AS_() antlr.TerminalNode AllOPEN_PAR() []antlr.TerminalNode OPEN_PAR(i int) antlr.TerminalNode Select_stmt() ISelect_stmtContext AllCLOSE_PAR() []antlr.TerminalNode CLOSE_PAR(i int) antlr.TerminalNode AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsCommon_table_expressionContext differentiates from other interfaces. IsCommon_table_expressionContext() } type Common_table_expressionContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyCommon_table_expressionContext() *Common_table_expressionContext { var p = new(Common_table_expressionContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_common_table_expression return p } func InitEmptyCommon_table_expressionContext(p *Common_table_expressionContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_common_table_expression } func (*Common_table_expressionContext) IsCommon_table_expressionContext() {} func NewCommon_table_expressionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Common_table_expressionContext { var p = new(Common_table_expressionContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_common_table_expression return p } func (s *Common_table_expressionContext) GetParser() antlr.Parser { return s.parser } func (s *Common_table_expressionContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Common_table_expressionContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *Common_table_expressionContext) AllOPEN_PAR() []antlr.TerminalNode { return s.GetTokens(SQLiteParserOPEN_PAR) } func (s *Common_table_expressionContext) OPEN_PAR(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, i) } func (s *Common_table_expressionContext) Select_stmt() ISelect_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *Common_table_expressionContext) AllCLOSE_PAR() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCLOSE_PAR) } func (s *Common_table_expressionContext) CLOSE_PAR(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, i) } func (s *Common_table_expressionContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Common_table_expressionContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Common_table_expressionContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Common_table_expressionContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Common_table_expressionContext) GetRuleContext() antlr.RuleContext { return s } func (s *Common_table_expressionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Common_table_expressionContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCommon_table_expression(s) } } func (s *Common_table_expressionContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCommon_table_expression(s) } } func (s *Common_table_expressionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCommon_table_expression(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Common_table_expression() (localctx ICommon_table_expressionContext) { localctx = NewCommon_table_expressionContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 54, SQLiteParserRULE_common_table_expression) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(806) p.Table_name() } p.SetState(818) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserOPEN_PAR { { p.SetState(807) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(808) p.Column_name() } p.SetState(813) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(809) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(810) p.Column_name() } p.SetState(815) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(816) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(820) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(821) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(822) p.Select_stmt() } { p.SetState(823) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IDelete_stmtContext is an interface to support dynamic dispatch. type IDelete_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures DELETE_() antlr.TerminalNode FROM_() antlr.TerminalNode Qualified_table_name() IQualified_table_nameContext With_clause() IWith_clauseContext WHERE_() antlr.TerminalNode Expr() IExprContext Returning_clause() IReturning_clauseContext // IsDelete_stmtContext differentiates from other interfaces. IsDelete_stmtContext() } type Delete_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyDelete_stmtContext() *Delete_stmtContext { var p = new(Delete_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_delete_stmt return p } func InitEmptyDelete_stmtContext(p *Delete_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_delete_stmt } func (*Delete_stmtContext) IsDelete_stmtContext() {} func NewDelete_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Delete_stmtContext { var p = new(Delete_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_delete_stmt return p } func (s *Delete_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Delete_stmtContext) DELETE_() antlr.TerminalNode { return s.GetToken(SQLiteParserDELETE_, 0) } func (s *Delete_stmtContext) FROM_() antlr.TerminalNode { return s.GetToken(SQLiteParserFROM_, 0) } func (s *Delete_stmtContext) Qualified_table_name() IQualified_table_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IQualified_table_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IQualified_table_nameContext) } func (s *Delete_stmtContext) With_clause() IWith_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IWith_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IWith_clauseContext) } func (s *Delete_stmtContext) WHERE_() antlr.TerminalNode { return s.GetToken(SQLiteParserWHERE_, 0) } func (s *Delete_stmtContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Delete_stmtContext) Returning_clause() IReturning_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IReturning_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IReturning_clauseContext) } func (s *Delete_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Delete_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Delete_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterDelete_stmt(s) } } func (s *Delete_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitDelete_stmt(s) } } func (s *Delete_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitDelete_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Delete_stmt() (localctx IDelete_stmtContext) { localctx = NewDelete_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 56, SQLiteParserRULE_delete_stmt) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(826) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWITH_ { { p.SetState(825) p.With_clause() } } { p.SetState(828) p.Match(SQLiteParserDELETE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(829) p.Match(SQLiteParserFROM_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(830) p.Qualified_table_name() } p.SetState(833) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWHERE_ { { p.SetState(831) p.Match(SQLiteParserWHERE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(832) p.expr(0) } } p.SetState(836) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserRETURNING_ { { p.SetState(835) p.Returning_clause() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IDelete_stmt_limitedContext is an interface to support dynamic dispatch. type IDelete_stmt_limitedContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures DELETE_() antlr.TerminalNode FROM_() antlr.TerminalNode Qualified_table_name() IQualified_table_nameContext With_clause() IWith_clauseContext WHERE_() antlr.TerminalNode Expr() IExprContext Returning_clause() IReturning_clauseContext Limit_stmt() ILimit_stmtContext Order_by_stmt() IOrder_by_stmtContext // IsDelete_stmt_limitedContext differentiates from other interfaces. IsDelete_stmt_limitedContext() } type Delete_stmt_limitedContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyDelete_stmt_limitedContext() *Delete_stmt_limitedContext { var p = new(Delete_stmt_limitedContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_delete_stmt_limited return p } func InitEmptyDelete_stmt_limitedContext(p *Delete_stmt_limitedContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_delete_stmt_limited } func (*Delete_stmt_limitedContext) IsDelete_stmt_limitedContext() {} func NewDelete_stmt_limitedContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Delete_stmt_limitedContext { var p = new(Delete_stmt_limitedContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_delete_stmt_limited return p } func (s *Delete_stmt_limitedContext) GetParser() antlr.Parser { return s.parser } func (s *Delete_stmt_limitedContext) DELETE_() antlr.TerminalNode { return s.GetToken(SQLiteParserDELETE_, 0) } func (s *Delete_stmt_limitedContext) FROM_() antlr.TerminalNode { return s.GetToken(SQLiteParserFROM_, 0) } func (s *Delete_stmt_limitedContext) Qualified_table_name() IQualified_table_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IQualified_table_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IQualified_table_nameContext) } func (s *Delete_stmt_limitedContext) With_clause() IWith_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IWith_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IWith_clauseContext) } func (s *Delete_stmt_limitedContext) WHERE_() antlr.TerminalNode { return s.GetToken(SQLiteParserWHERE_, 0) } func (s *Delete_stmt_limitedContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Delete_stmt_limitedContext) Returning_clause() IReturning_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IReturning_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IReturning_clauseContext) } func (s *Delete_stmt_limitedContext) Limit_stmt() ILimit_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ILimit_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ILimit_stmtContext) } func (s *Delete_stmt_limitedContext) Order_by_stmt() IOrder_by_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOrder_by_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IOrder_by_stmtContext) } func (s *Delete_stmt_limitedContext) GetRuleContext() antlr.RuleContext { return s } func (s *Delete_stmt_limitedContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Delete_stmt_limitedContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterDelete_stmt_limited(s) } } func (s *Delete_stmt_limitedContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitDelete_stmt_limited(s) } } func (s *Delete_stmt_limitedContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitDelete_stmt_limited(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Delete_stmt_limited() (localctx IDelete_stmt_limitedContext) { localctx = NewDelete_stmt_limitedContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 58, SQLiteParserRULE_delete_stmt_limited) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(839) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWITH_ { { p.SetState(838) p.With_clause() } } { p.SetState(841) p.Match(SQLiteParserDELETE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(842) p.Match(SQLiteParserFROM_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(843) p.Qualified_table_name() } p.SetState(846) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWHERE_ { { p.SetState(844) p.Match(SQLiteParserWHERE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(845) p.expr(0) } } p.SetState(849) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserRETURNING_ { { p.SetState(848) p.Returning_clause() } } p.SetState(855) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserLIMIT_ || _la == SQLiteParserORDER_ { p.SetState(852) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserORDER_ { { p.SetState(851) p.Order_by_stmt() } } { p.SetState(854) p.Limit_stmt() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IDetach_stmtContext is an interface to support dynamic dispatch. type IDetach_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures DETACH_() antlr.TerminalNode Schema_name() ISchema_nameContext DATABASE_() antlr.TerminalNode // IsDetach_stmtContext differentiates from other interfaces. IsDetach_stmtContext() } type Detach_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyDetach_stmtContext() *Detach_stmtContext { var p = new(Detach_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_detach_stmt return p } func InitEmptyDetach_stmtContext(p *Detach_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_detach_stmt } func (*Detach_stmtContext) IsDetach_stmtContext() {} func NewDetach_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Detach_stmtContext { var p = new(Detach_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_detach_stmt return p } func (s *Detach_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Detach_stmtContext) DETACH_() antlr.TerminalNode { return s.GetToken(SQLiteParserDETACH_, 0) } func (s *Detach_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Detach_stmtContext) DATABASE_() antlr.TerminalNode { return s.GetToken(SQLiteParserDATABASE_, 0) } func (s *Detach_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Detach_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Detach_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterDetach_stmt(s) } } func (s *Detach_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitDetach_stmt(s) } } func (s *Detach_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitDetach_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Detach_stmt() (localctx IDetach_stmtContext) { localctx = NewDetach_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 60, SQLiteParserRULE_detach_stmt) p.EnterOuterAlt(localctx, 1) { p.SetState(857) p.Match(SQLiteParserDETACH_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(859) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 105, p.GetParserRuleContext()) == 1 { { p.SetState(858) p.Match(SQLiteParserDATABASE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(861) p.Schema_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IDrop_stmtContext is an interface to support dynamic dispatch. type IDrop_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // GetObject returns the object token. GetObject() antlr.Token // SetObject sets the object token. SetObject(antlr.Token) // Getter signatures DROP_() antlr.TerminalNode Any_name() IAny_nameContext INDEX_() antlr.TerminalNode TABLE_() antlr.TerminalNode TRIGGER_() antlr.TerminalNode VIEW_() antlr.TerminalNode IF_() antlr.TerminalNode EXISTS_() antlr.TerminalNode Schema_name() ISchema_nameContext DOT() antlr.TerminalNode // IsDrop_stmtContext differentiates from other interfaces. IsDrop_stmtContext() } type Drop_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser object antlr.Token } func NewEmptyDrop_stmtContext() *Drop_stmtContext { var p = new(Drop_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_drop_stmt return p } func InitEmptyDrop_stmtContext(p *Drop_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_drop_stmt } func (*Drop_stmtContext) IsDrop_stmtContext() {} func NewDrop_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Drop_stmtContext { var p = new(Drop_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_drop_stmt return p } func (s *Drop_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Drop_stmtContext) GetObject() antlr.Token { return s.object } func (s *Drop_stmtContext) SetObject(v antlr.Token) { s.object = v } func (s *Drop_stmtContext) DROP_() antlr.TerminalNode { return s.GetToken(SQLiteParserDROP_, 0) } func (s *Drop_stmtContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Drop_stmtContext) INDEX_() antlr.TerminalNode { return s.GetToken(SQLiteParserINDEX_, 0) } func (s *Drop_stmtContext) TABLE_() antlr.TerminalNode { return s.GetToken(SQLiteParserTABLE_, 0) } func (s *Drop_stmtContext) TRIGGER_() antlr.TerminalNode { return s.GetToken(SQLiteParserTRIGGER_, 0) } func (s *Drop_stmtContext) VIEW_() antlr.TerminalNode { return s.GetToken(SQLiteParserVIEW_, 0) } func (s *Drop_stmtContext) IF_() antlr.TerminalNode { return s.GetToken(SQLiteParserIF_, 0) } func (s *Drop_stmtContext) EXISTS_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXISTS_, 0) } func (s *Drop_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Drop_stmtContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Drop_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Drop_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Drop_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterDrop_stmt(s) } } func (s *Drop_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitDrop_stmt(s) } } func (s *Drop_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitDrop_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Drop_stmt() (localctx IDrop_stmtContext) { localctx = NewDrop_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 62, SQLiteParserRULE_drop_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(863) p.Match(SQLiteParserDROP_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(864) var _lt = p.GetTokenStream().LT(1) localctx.(*Drop_stmtContext).object = _lt _la = p.GetTokenStream().LA(1) if !((int64((_la-84)) & ^0x3f) == 0 && ((int64(1)<<(_la-84))&2324138882699886593) != 0) { var _ri = p.GetErrorHandler().RecoverInline(p) localctx.(*Drop_stmtContext).object = _ri } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } p.SetState(867) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 106, p.GetParserRuleContext()) == 1 { { p.SetState(865) p.Match(SQLiteParserIF_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(866) p.Match(SQLiteParserEXISTS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } p.SetState(872) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 107, p.GetParserRuleContext()) == 1 { { p.SetState(869) p.Schema_name() } { p.SetState(870) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(874) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IExprContext is an interface to support dynamic dispatch. type IExprContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Literal_value() ILiteral_valueContext BIND_PARAMETER() antlr.TerminalNode Column_name() IColumn_nameContext Table_name() ITable_nameContext AllDOT() []antlr.TerminalNode DOT(i int) antlr.TerminalNode Schema_name() ISchema_nameContext Unary_operator() IUnary_operatorContext AllExpr() []IExprContext Expr(i int) IExprContext Function_name() IFunction_nameContext OPEN_PAR() antlr.TerminalNode CLOSE_PAR() antlr.TerminalNode STAR() antlr.TerminalNode Filter_clause() IFilter_clauseContext Over_clause() IOver_clauseContext DISTINCT_() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode CAST_() antlr.TerminalNode AS_() antlr.TerminalNode Type_name() IType_nameContext Select_stmt() ISelect_stmtContext EXISTS_() antlr.TerminalNode NOT_() antlr.TerminalNode CASE_() antlr.TerminalNode END_() antlr.TerminalNode AllWHEN_() []antlr.TerminalNode WHEN_(i int) antlr.TerminalNode AllTHEN_() []antlr.TerminalNode THEN_(i int) antlr.TerminalNode ELSE_() antlr.TerminalNode Raise_function() IRaise_functionContext PIPE2() antlr.TerminalNode DIV() antlr.TerminalNode MOD() antlr.TerminalNode PLUS() antlr.TerminalNode MINUS() antlr.TerminalNode LT2() antlr.TerminalNode GT2() antlr.TerminalNode AMP() antlr.TerminalNode PIPE() antlr.TerminalNode LT() antlr.TerminalNode LT_EQ() antlr.TerminalNode GT() antlr.TerminalNode GT_EQ() antlr.TerminalNode ASSIGN() antlr.TerminalNode EQ() antlr.TerminalNode NOT_EQ1() antlr.TerminalNode NOT_EQ2() antlr.TerminalNode IS_() antlr.TerminalNode IN_() antlr.TerminalNode LIKE_() antlr.TerminalNode GLOB_() antlr.TerminalNode MATCH_() antlr.TerminalNode REGEXP_() antlr.TerminalNode AND_() antlr.TerminalNode OR_() antlr.TerminalNode BETWEEN_() antlr.TerminalNode COLLATE_() antlr.TerminalNode Collation_name() ICollation_nameContext ESCAPE_() antlr.TerminalNode ISNULL_() antlr.TerminalNode NOTNULL_() antlr.TerminalNode NULL_() antlr.TerminalNode Table_function_name() ITable_function_nameContext // IsExprContext differentiates from other interfaces. IsExprContext() } type ExprContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyExprContext() *ExprContext { var p = new(ExprContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_expr return p } func InitEmptyExprContext(p *ExprContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_expr } func (*ExprContext) IsExprContext() {} func NewExprContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ExprContext { var p = new(ExprContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_expr return p } func (s *ExprContext) GetParser() antlr.Parser { return s.parser } func (s *ExprContext) Literal_value() ILiteral_valueContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ILiteral_valueContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ILiteral_valueContext) } func (s *ExprContext) BIND_PARAMETER() antlr.TerminalNode { return s.GetToken(SQLiteParserBIND_PARAMETER, 0) } func (s *ExprContext) Column_name() IColumn_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *ExprContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *ExprContext) AllDOT() []antlr.TerminalNode { return s.GetTokens(SQLiteParserDOT) } func (s *ExprContext) DOT(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, i) } func (s *ExprContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *ExprContext) Unary_operator() IUnary_operatorContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IUnary_operatorContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IUnary_operatorContext) } func (s *ExprContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *ExprContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *ExprContext) Function_name() IFunction_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFunction_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFunction_nameContext) } func (s *ExprContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *ExprContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *ExprContext) STAR() antlr.TerminalNode { return s.GetToken(SQLiteParserSTAR, 0) } func (s *ExprContext) Filter_clause() IFilter_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFilter_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFilter_clauseContext) } func (s *ExprContext) Over_clause() IOver_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOver_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IOver_clauseContext) } func (s *ExprContext) DISTINCT_() antlr.TerminalNode { return s.GetToken(SQLiteParserDISTINCT_, 0) } func (s *ExprContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *ExprContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *ExprContext) CAST_() antlr.TerminalNode { return s.GetToken(SQLiteParserCAST_, 0) } func (s *ExprContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *ExprContext) Type_name() IType_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IType_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IType_nameContext) } func (s *ExprContext) Select_stmt() ISelect_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *ExprContext) EXISTS_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXISTS_, 0) } func (s *ExprContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *ExprContext) CASE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCASE_, 0) } func (s *ExprContext) END_() antlr.TerminalNode { return s.GetToken(SQLiteParserEND_, 0) } func (s *ExprContext) AllWHEN_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserWHEN_) } func (s *ExprContext) WHEN_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserWHEN_, i) } func (s *ExprContext) AllTHEN_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserTHEN_) } func (s *ExprContext) THEN_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserTHEN_, i) } func (s *ExprContext) ELSE_() antlr.TerminalNode { return s.GetToken(SQLiteParserELSE_, 0) } func (s *ExprContext) Raise_function() IRaise_functionContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IRaise_functionContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IRaise_functionContext) } func (s *ExprContext) PIPE2() antlr.TerminalNode { return s.GetToken(SQLiteParserPIPE2, 0) } func (s *ExprContext) DIV() antlr.TerminalNode { return s.GetToken(SQLiteParserDIV, 0) } func (s *ExprContext) MOD() antlr.TerminalNode { return s.GetToken(SQLiteParserMOD, 0) } func (s *ExprContext) PLUS() antlr.TerminalNode { return s.GetToken(SQLiteParserPLUS, 0) } func (s *ExprContext) MINUS() antlr.TerminalNode { return s.GetToken(SQLiteParserMINUS, 0) } func (s *ExprContext) LT2() antlr.TerminalNode { return s.GetToken(SQLiteParserLT2, 0) } func (s *ExprContext) GT2() antlr.TerminalNode { return s.GetToken(SQLiteParserGT2, 0) } func (s *ExprContext) AMP() antlr.TerminalNode { return s.GetToken(SQLiteParserAMP, 0) } func (s *ExprContext) PIPE() antlr.TerminalNode { return s.GetToken(SQLiteParserPIPE, 0) } func (s *ExprContext) LT() antlr.TerminalNode { return s.GetToken(SQLiteParserLT, 0) } func (s *ExprContext) LT_EQ() antlr.TerminalNode { return s.GetToken(SQLiteParserLT_EQ, 0) } func (s *ExprContext) GT() antlr.TerminalNode { return s.GetToken(SQLiteParserGT, 0) } func (s *ExprContext) GT_EQ() antlr.TerminalNode { return s.GetToken(SQLiteParserGT_EQ, 0) } func (s *ExprContext) ASSIGN() antlr.TerminalNode { return s.GetToken(SQLiteParserASSIGN, 0) } func (s *ExprContext) EQ() antlr.TerminalNode { return s.GetToken(SQLiteParserEQ, 0) } func (s *ExprContext) NOT_EQ1() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_EQ1, 0) } func (s *ExprContext) NOT_EQ2() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_EQ2, 0) } func (s *ExprContext) IS_() antlr.TerminalNode { return s.GetToken(SQLiteParserIS_, 0) } func (s *ExprContext) IN_() antlr.TerminalNode { return s.GetToken(SQLiteParserIN_, 0) } func (s *ExprContext) LIKE_() antlr.TerminalNode { return s.GetToken(SQLiteParserLIKE_, 0) } func (s *ExprContext) GLOB_() antlr.TerminalNode { return s.GetToken(SQLiteParserGLOB_, 0) } func (s *ExprContext) MATCH_() antlr.TerminalNode { return s.GetToken(SQLiteParserMATCH_, 0) } func (s *ExprContext) REGEXP_() antlr.TerminalNode { return s.GetToken(SQLiteParserREGEXP_, 0) } func (s *ExprContext) AND_() antlr.TerminalNode { return s.GetToken(SQLiteParserAND_, 0) } func (s *ExprContext) OR_() antlr.TerminalNode { return s.GetToken(SQLiteParserOR_, 0) } func (s *ExprContext) BETWEEN_() antlr.TerminalNode { return s.GetToken(SQLiteParserBETWEEN_, 0) } func (s *ExprContext) COLLATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCOLLATE_, 0) } func (s *ExprContext) Collation_name() ICollation_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICollation_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICollation_nameContext) } func (s *ExprContext) ESCAPE_() antlr.TerminalNode { return s.GetToken(SQLiteParserESCAPE_, 0) } func (s *ExprContext) ISNULL_() antlr.TerminalNode { return s.GetToken(SQLiteParserISNULL_, 0) } func (s *ExprContext) NOTNULL_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOTNULL_, 0) } func (s *ExprContext) NULL_() antlr.TerminalNode { return s.GetToken(SQLiteParserNULL_, 0) } func (s *ExprContext) Table_function_name() ITable_function_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_function_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_function_nameContext) } func (s *ExprContext) GetRuleContext() antlr.RuleContext { return s } func (s *ExprContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *ExprContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterExpr(s) } } func (s *ExprContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitExpr(s) } } func (s *ExprContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitExpr(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Expr() (localctx IExprContext) { return p.expr(0) } func (p *SQLiteParser) expr(_p int) (localctx IExprContext) { var _parentctx antlr.ParserRuleContext = p.GetParserRuleContext() _parentState := p.GetState() localctx = NewExprContext(p, p.GetParserRuleContext(), _parentState) var _prevctx IExprContext = localctx var _ antlr.ParserRuleContext = _prevctx // TODO: To prevent unused variable warning. _startState := 64 p.EnterRecursionRule(localctx, 64, SQLiteParserRULE_expr, _p) var _la int var _alt int p.EnterOuterAlt(localctx, 1) p.SetState(964) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 121, p.GetParserRuleContext()) { case 1: { p.SetState(877) p.Literal_value() } case 2: { p.SetState(878) p.Match(SQLiteParserBIND_PARAMETER) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 3: p.SetState(887) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 109, p.GetParserRuleContext()) == 1 { p.SetState(882) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 108, p.GetParserRuleContext()) == 1 { { p.SetState(879) p.Schema_name() } { p.SetState(880) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(884) p.Table_name() } { p.SetState(885) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(889) p.Column_name() } case 4: { p.SetState(890) p.Unary_operator() } { p.SetState(891) p.expr(21) } case 5: { p.SetState(893) p.Function_name() } { p.SetState(894) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(907) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserOPEN_PAR, SQLiteParserPLUS, SQLiteParserMINUS, SQLiteParserTILDE, SQLiteParserABORT_, SQLiteParserACTION_, SQLiteParserADD_, SQLiteParserAFTER_, SQLiteParserALL_, SQLiteParserALTER_, SQLiteParserANALYZE_, SQLiteParserAND_, SQLiteParserAS_, SQLiteParserASC_, SQLiteParserATTACH_, SQLiteParserAUTOINCREMENT_, SQLiteParserBEFORE_, SQLiteParserBEGIN_, SQLiteParserBETWEEN_, SQLiteParserBY_, SQLiteParserCASCADE_, SQLiteParserCASE_, SQLiteParserCAST_, SQLiteParserCHECK_, SQLiteParserCOLLATE_, SQLiteParserCOLUMN_, SQLiteParserCOMMIT_, SQLiteParserCONFLICT_, SQLiteParserCONSTRAINT_, SQLiteParserCREATE_, SQLiteParserCROSS_, SQLiteParserCURRENT_DATE_, SQLiteParserCURRENT_TIME_, SQLiteParserCURRENT_TIMESTAMP_, SQLiteParserDATABASE_, SQLiteParserDEFAULT_, SQLiteParserDEFERRABLE_, SQLiteParserDEFERRED_, SQLiteParserDELETE_, SQLiteParserDESC_, SQLiteParserDETACH_, SQLiteParserDISTINCT_, SQLiteParserDROP_, SQLiteParserEACH_, SQLiteParserELSE_, SQLiteParserEND_, SQLiteParserESCAPE_, SQLiteParserEXCEPT_, SQLiteParserEXCLUSIVE_, SQLiteParserEXISTS_, SQLiteParserEXPLAIN_, SQLiteParserFAIL_, SQLiteParserFOR_, SQLiteParserFOREIGN_, SQLiteParserFROM_, SQLiteParserFULL_, SQLiteParserGLOB_, SQLiteParserGROUP_, SQLiteParserHAVING_, SQLiteParserIF_, SQLiteParserIGNORE_, SQLiteParserIMMEDIATE_, SQLiteParserIN_, SQLiteParserINDEX_, SQLiteParserINDEXED_, SQLiteParserINITIALLY_, SQLiteParserINNER_, SQLiteParserINSERT_, SQLiteParserINSTEAD_, SQLiteParserINTERSECT_, SQLiteParserINTO_, SQLiteParserIS_, SQLiteParserISNULL_, SQLiteParserJOIN_, SQLiteParserKEY_, SQLiteParserLEFT_, SQLiteParserLIKE_, SQLiteParserLIMIT_, SQLiteParserMATCH_, SQLiteParserNATURAL_, SQLiteParserNO_, SQLiteParserNOT_, SQLiteParserNOTNULL_, SQLiteParserNULL_, SQLiteParserOF_, SQLiteParserOFFSET_, SQLiteParserON_, SQLiteParserOR_, SQLiteParserORDER_, SQLiteParserOUTER_, SQLiteParserPLAN_, SQLiteParserPRAGMA_, SQLiteParserPRIMARY_, SQLiteParserQUERY_, SQLiteParserRAISE_, SQLiteParserRECURSIVE_, SQLiteParserREFERENCES_, SQLiteParserREGEXP_, SQLiteParserREINDEX_, SQLiteParserRELEASE_, SQLiteParserRENAME_, SQLiteParserREPLACE_, SQLiteParserRESTRICT_, SQLiteParserRIGHT_, SQLiteParserROLLBACK_, SQLiteParserROW_, SQLiteParserROWS_, SQLiteParserSAVEPOINT_, SQLiteParserSELECT_, SQLiteParserSET_, SQLiteParserTABLE_, SQLiteParserTEMP_, SQLiteParserTEMPORARY_, SQLiteParserTHEN_, SQLiteParserTO_, SQLiteParserTRANSACTION_, SQLiteParserTRIGGER_, SQLiteParserUNION_, SQLiteParserUNIQUE_, SQLiteParserUPDATE_, SQLiteParserUSING_, SQLiteParserVACUUM_, SQLiteParserVALUES_, SQLiteParserVIEW_, SQLiteParserVIRTUAL_, SQLiteParserWHEN_, SQLiteParserWHERE_, SQLiteParserWITH_, SQLiteParserWITHOUT_, SQLiteParserFIRST_VALUE_, SQLiteParserOVER_, SQLiteParserPARTITION_, SQLiteParserRANGE_, SQLiteParserPRECEDING_, SQLiteParserUNBOUNDED_, SQLiteParserCURRENT_, SQLiteParserFOLLOWING_, SQLiteParserCUME_DIST_, SQLiteParserDENSE_RANK_, SQLiteParserLAG_, SQLiteParserLAST_VALUE_, SQLiteParserLEAD_, SQLiteParserNTH_VALUE_, SQLiteParserNTILE_, SQLiteParserPERCENT_RANK_, SQLiteParserRANK_, SQLiteParserROW_NUMBER_, SQLiteParserGENERATED_, SQLiteParserALWAYS_, SQLiteParserSTORED_, SQLiteParserTRUE_, SQLiteParserFALSE_, SQLiteParserWINDOW_, SQLiteParserNULLS_, SQLiteParserFIRST_, SQLiteParserLAST_, SQLiteParserFILTER_, SQLiteParserGROUPS_, SQLiteParserEXCLUDE_, SQLiteParserIDENTIFIER, SQLiteParserNUMERIC_LITERAL, SQLiteParserBIND_PARAMETER, SQLiteParserSTRING_LITERAL, SQLiteParserBLOB_LITERAL: p.SetState(896) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 110, p.GetParserRuleContext()) == 1 { { p.SetState(895) p.Match(SQLiteParserDISTINCT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(898) p.expr(0) } p.SetState(903) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(899) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(900) p.expr(0) } p.SetState(905) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } case SQLiteParserSTAR: { p.SetState(906) p.Match(SQLiteParserSTAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserCLOSE_PAR: default: } { p.SetState(909) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(911) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 113, p.GetParserRuleContext()) == 1 { { p.SetState(910) p.Filter_clause() } } else if p.HasError() { // JIM goto errorExit } p.SetState(914) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 114, p.GetParserRuleContext()) == 1 { { p.SetState(913) p.Over_clause() } } else if p.HasError() { // JIM goto errorExit } case 6: { p.SetState(916) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(917) p.expr(0) } p.SetState(922) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(918) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(919) p.expr(0) } p.SetState(924) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(925) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 7: { p.SetState(927) p.Match(SQLiteParserCAST_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(928) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(929) p.expr(0) } { p.SetState(930) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(931) p.Type_name() } { p.SetState(932) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 8: p.SetState(938) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserEXISTS_ || _la == SQLiteParserNOT_ { p.SetState(935) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserNOT_ { { p.SetState(934) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(937) p.Match(SQLiteParserEXISTS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(940) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(941) p.Select_stmt() } { p.SetState(942) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 9: { p.SetState(944) p.Match(SQLiteParserCASE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(946) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 118, p.GetParserRuleContext()) == 1 { { p.SetState(945) p.expr(0) } } else if p.HasError() { // JIM goto errorExit } p.SetState(953) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for ok := true; ok; ok = _la == SQLiteParserWHEN_ { { p.SetState(948) p.Match(SQLiteParserWHEN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(949) p.expr(0) } { p.SetState(950) p.Match(SQLiteParserTHEN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(951) p.expr(0) } p.SetState(955) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } p.SetState(959) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserELSE_ { { p.SetState(957) p.Match(SQLiteParserELSE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(958) p.expr(0) } } { p.SetState(961) p.Match(SQLiteParserEND_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 10: { p.SetState(963) p.Raise_function() } case antlr.ATNInvalidAltNumber: goto errorExit } p.GetParserRuleContext().SetStop(p.GetTokenStream().LT(-1)) p.SetState(1085) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 137, p.GetParserRuleContext()) if p.HasError() { goto errorExit } for _alt != 2 && _alt != antlr.ATNInvalidAltNumber { if _alt == 1 { if p.GetParseListeners() != nil { p.TriggerExitRuleEvent() } _prevctx = localctx p.SetState(1083) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 136, p.GetParserRuleContext()) { case 1: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(966) if !(p.Precpred(p.GetParserRuleContext(), 20)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 20)", "")) goto errorExit } { p.SetState(967) p.Match(SQLiteParserPIPE2) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(968) p.expr(21) } case 2: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(969) if !(p.Precpred(p.GetParserRuleContext(), 19)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 19)", "")) goto errorExit } { p.SetState(970) _la = p.GetTokenStream().LA(1) if !((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&12416) != 0) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(971) p.expr(20) } case 3: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(972) if !(p.Precpred(p.GetParserRuleContext(), 18)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 18)", "")) goto errorExit } { p.SetState(973) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserPLUS || _la == SQLiteParserMINUS) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(974) p.expr(19) } case 4: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(975) if !(p.Precpred(p.GetParserRuleContext(), 17)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 17)", "")) goto errorExit } { p.SetState(976) _la = p.GetTokenStream().LA(1) if !((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&245760) != 0) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(977) p.expr(18) } case 5: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(978) if !(p.Precpred(p.GetParserRuleContext(), 16)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 16)", "")) goto errorExit } { p.SetState(979) _la = p.GetTokenStream().LA(1) if !((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&3932160) != 0) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(980) p.expr(17) } case 6: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(981) if !(p.Precpred(p.GetParserRuleContext(), 15)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 15)", "")) goto errorExit } p.SetState(994) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 122, p.GetParserRuleContext()) { case 1: { p.SetState(982) p.Match(SQLiteParserASSIGN) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 2: { p.SetState(983) p.Match(SQLiteParserEQ) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 3: { p.SetState(984) p.Match(SQLiteParserNOT_EQ1) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 4: { p.SetState(985) p.Match(SQLiteParserNOT_EQ2) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 5: { p.SetState(986) p.Match(SQLiteParserIS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 6: { p.SetState(987) p.Match(SQLiteParserIS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(988) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 7: { p.SetState(989) p.Match(SQLiteParserIN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 8: { p.SetState(990) p.Match(SQLiteParserLIKE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 9: { p.SetState(991) p.Match(SQLiteParserGLOB_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 10: { p.SetState(992) p.Match(SQLiteParserMATCH_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 11: { p.SetState(993) p.Match(SQLiteParserREGEXP_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case antlr.ATNInvalidAltNumber: goto errorExit } { p.SetState(996) p.expr(16) } case 7: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(997) if !(p.Precpred(p.GetParserRuleContext(), 14)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 14)", "")) goto errorExit } { p.SetState(998) p.Match(SQLiteParserAND_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(999) p.expr(15) } case 8: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(1000) if !(p.Precpred(p.GetParserRuleContext(), 13)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 13)", "")) goto errorExit } { p.SetState(1001) p.Match(SQLiteParserOR_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1002) p.expr(14) } case 9: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(1003) if !(p.Precpred(p.GetParserRuleContext(), 6)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 6)", "")) goto errorExit } { p.SetState(1004) p.Match(SQLiteParserIS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1006) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 123, p.GetParserRuleContext()) == 1 { { p.SetState(1005) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1008) p.expr(7) } case 10: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(1009) if !(p.Precpred(p.GetParserRuleContext(), 5)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 5)", "")) goto errorExit } p.SetState(1011) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserNOT_ { { p.SetState(1010) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(1013) p.Match(SQLiteParserBETWEEN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1014) p.expr(0) } { p.SetState(1015) p.Match(SQLiteParserAND_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1016) p.expr(6) } case 11: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(1018) if !(p.Precpred(p.GetParserRuleContext(), 9)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 9)", "")) goto errorExit } { p.SetState(1019) p.Match(SQLiteParserCOLLATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1020) p.Collation_name() } case 12: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(1021) if !(p.Precpred(p.GetParserRuleContext(), 8)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 8)", "")) goto errorExit } p.SetState(1023) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserNOT_ { { p.SetState(1022) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(1025) _la = p.GetTokenStream().LA(1) if !((int64((_la-77)) & ^0x3f) == 0 && ((int64(1)<<(_la-77))&2199028498433) != 0) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(1026) p.expr(0) } p.SetState(1029) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 126, p.GetParserRuleContext()) == 1 { { p.SetState(1027) p.Match(SQLiteParserESCAPE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1028) p.expr(0) } } else if p.HasError() { // JIM goto errorExit } case 13: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(1031) if !(p.Precpred(p.GetParserRuleContext(), 7)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 7)", "")) goto errorExit } p.SetState(1036) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserISNULL_: { p.SetState(1032) p.Match(SQLiteParserISNULL_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserNOTNULL_: { p.SetState(1033) p.Match(SQLiteParserNOTNULL_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserNOT_: { p.SetState(1034) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1035) p.Match(SQLiteParserNULL_) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } case 14: localctx = NewExprContext(p, _parentctx, _parentState) p.PushNewRecursionContext(localctx, _startState, SQLiteParserRULE_expr) p.SetState(1038) if !(p.Precpred(p.GetParserRuleContext(), 4)) { p.SetError(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 4)", "")) goto errorExit } p.SetState(1040) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserNOT_ { { p.SetState(1039) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(1042) p.Match(SQLiteParserIN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1081) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 135, p.GetParserRuleContext()) { case 1: { p.SetState(1043) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1053) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 130, p.GetParserRuleContext()) == 1 { { p.SetState(1044) p.Select_stmt() } } else if p.HasError() { // JIM goto errorExit } else if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 130, p.GetParserRuleContext()) == 2 { { p.SetState(1045) p.expr(0) } p.SetState(1050) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1046) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1047) p.expr(0) } p.SetState(1052) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1055) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 2: p.SetState(1059) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 131, p.GetParserRuleContext()) == 1 { { p.SetState(1056) p.Schema_name() } { p.SetState(1057) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1061) p.Table_name() } case 3: p.SetState(1065) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 132, p.GetParserRuleContext()) == 1 { { p.SetState(1062) p.Schema_name() } { p.SetState(1063) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1067) p.Table_function_name() } { p.SetState(1068) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1077) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if ((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&-33552632) != 0) || ((int64((_la-64)) & ^0x3f) == 0 && ((int64(1)<<(_la-64))&-1152921504606846977) != 0) || ((int64((_la-128)) & ^0x3f) == 0 && ((int64(1)<<(_la-128))&4476578029606273023) != 0) { { p.SetState(1069) p.expr(0) } p.SetState(1074) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1070) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1071) p.expr(0) } p.SetState(1076) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } } { p.SetState(1079) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case antlr.ATNInvalidAltNumber: goto errorExit } case antlr.ATNInvalidAltNumber: goto errorExit } } p.SetState(1087) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 137, p.GetParserRuleContext()) if p.HasError() { goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.UnrollRecursionContexts(_parentctx) return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IRaise_functionContext is an interface to support dynamic dispatch. type IRaise_functionContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures RAISE_() antlr.TerminalNode OPEN_PAR() antlr.TerminalNode CLOSE_PAR() antlr.TerminalNode IGNORE_() antlr.TerminalNode COMMA() antlr.TerminalNode Error_message() IError_messageContext ROLLBACK_() antlr.TerminalNode ABORT_() antlr.TerminalNode FAIL_() antlr.TerminalNode // IsRaise_functionContext differentiates from other interfaces. IsRaise_functionContext() } type Raise_functionContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyRaise_functionContext() *Raise_functionContext { var p = new(Raise_functionContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_raise_function return p } func InitEmptyRaise_functionContext(p *Raise_functionContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_raise_function } func (*Raise_functionContext) IsRaise_functionContext() {} func NewRaise_functionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Raise_functionContext { var p = new(Raise_functionContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_raise_function return p } func (s *Raise_functionContext) GetParser() antlr.Parser { return s.parser } func (s *Raise_functionContext) RAISE_() antlr.TerminalNode { return s.GetToken(SQLiteParserRAISE_, 0) } func (s *Raise_functionContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Raise_functionContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Raise_functionContext) IGNORE_() antlr.TerminalNode { return s.GetToken(SQLiteParserIGNORE_, 0) } func (s *Raise_functionContext) COMMA() antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, 0) } func (s *Raise_functionContext) Error_message() IError_messageContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IError_messageContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IError_messageContext) } func (s *Raise_functionContext) ROLLBACK_() antlr.TerminalNode { return s.GetToken(SQLiteParserROLLBACK_, 0) } func (s *Raise_functionContext) ABORT_() antlr.TerminalNode { return s.GetToken(SQLiteParserABORT_, 0) } func (s *Raise_functionContext) FAIL_() antlr.TerminalNode { return s.GetToken(SQLiteParserFAIL_, 0) } func (s *Raise_functionContext) GetRuleContext() antlr.RuleContext { return s } func (s *Raise_functionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Raise_functionContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterRaise_function(s) } } func (s *Raise_functionContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitRaise_function(s) } } func (s *Raise_functionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitRaise_function(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Raise_function() (localctx IRaise_functionContext) { localctx = NewRaise_functionContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 66, SQLiteParserRULE_raise_function) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1088) p.Match(SQLiteParserRAISE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1089) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1094) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserIGNORE_: { p.SetState(1090) p.Match(SQLiteParserIGNORE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserABORT_, SQLiteParserFAIL_, SQLiteParserROLLBACK_: { p.SetState(1091) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserABORT_ || _la == SQLiteParserFAIL_ || _la == SQLiteParserROLLBACK_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(1092) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1093) p.Error_message() } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } { p.SetState(1096) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ILiteral_valueContext is an interface to support dynamic dispatch. type ILiteral_valueContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures NUMERIC_LITERAL() antlr.TerminalNode STRING_LITERAL() antlr.TerminalNode BLOB_LITERAL() antlr.TerminalNode NULL_() antlr.TerminalNode TRUE_() antlr.TerminalNode FALSE_() antlr.TerminalNode CURRENT_TIME_() antlr.TerminalNode CURRENT_DATE_() antlr.TerminalNode CURRENT_TIMESTAMP_() antlr.TerminalNode // IsLiteral_valueContext differentiates from other interfaces. IsLiteral_valueContext() } type Literal_valueContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyLiteral_valueContext() *Literal_valueContext { var p = new(Literal_valueContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_literal_value return p } func InitEmptyLiteral_valueContext(p *Literal_valueContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_literal_value } func (*Literal_valueContext) IsLiteral_valueContext() {} func NewLiteral_valueContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Literal_valueContext { var p = new(Literal_valueContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_literal_value return p } func (s *Literal_valueContext) GetParser() antlr.Parser { return s.parser } func (s *Literal_valueContext) NUMERIC_LITERAL() antlr.TerminalNode { return s.GetToken(SQLiteParserNUMERIC_LITERAL, 0) } func (s *Literal_valueContext) STRING_LITERAL() antlr.TerminalNode { return s.GetToken(SQLiteParserSTRING_LITERAL, 0) } func (s *Literal_valueContext) BLOB_LITERAL() antlr.TerminalNode { return s.GetToken(SQLiteParserBLOB_LITERAL, 0) } func (s *Literal_valueContext) NULL_() antlr.TerminalNode { return s.GetToken(SQLiteParserNULL_, 0) } func (s *Literal_valueContext) TRUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserTRUE_, 0) } func (s *Literal_valueContext) FALSE_() antlr.TerminalNode { return s.GetToken(SQLiteParserFALSE_, 0) } func (s *Literal_valueContext) CURRENT_TIME_() antlr.TerminalNode { return s.GetToken(SQLiteParserCURRENT_TIME_, 0) } func (s *Literal_valueContext) CURRENT_DATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCURRENT_DATE_, 0) } func (s *Literal_valueContext) CURRENT_TIMESTAMP_() antlr.TerminalNode { return s.GetToken(SQLiteParserCURRENT_TIMESTAMP_, 0) } func (s *Literal_valueContext) GetRuleContext() antlr.RuleContext { return s } func (s *Literal_valueContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Literal_valueContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterLiteral_value(s) } } func (s *Literal_valueContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitLiteral_value(s) } } func (s *Literal_valueContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitLiteral_value(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Literal_value() (localctx ILiteral_valueContext) { localctx = NewLiteral_valueContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 68, SQLiteParserRULE_literal_value) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1098) _la = p.GetTokenStream().LA(1) if !(((int64((_la-52)) & ^0x3f) == 0 && ((int64(1)<<(_la-52))&4503599627370503) != 0) || ((int64((_la-172)) & ^0x3f) == 0 && ((int64(1)<<(_la-172))&212995) != 0)) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IValue_rowContext is an interface to support dynamic dispatch. type IValue_rowContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures OPEN_PAR() antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext CLOSE_PAR() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsValue_rowContext differentiates from other interfaces. IsValue_rowContext() } type Value_rowContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyValue_rowContext() *Value_rowContext { var p = new(Value_rowContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_value_row return p } func InitEmptyValue_rowContext(p *Value_rowContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_value_row } func (*Value_rowContext) IsValue_rowContext() {} func NewValue_rowContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Value_rowContext { var p = new(Value_rowContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_value_row return p } func (s *Value_rowContext) GetParser() antlr.Parser { return s.parser } func (s *Value_rowContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Value_rowContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Value_rowContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Value_rowContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Value_rowContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Value_rowContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Value_rowContext) GetRuleContext() antlr.RuleContext { return s } func (s *Value_rowContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Value_rowContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterValue_row(s) } } func (s *Value_rowContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitValue_row(s) } } func (s *Value_rowContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitValue_row(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Value_row() (localctx IValue_rowContext) { localctx = NewValue_rowContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 70, SQLiteParserRULE_value_row) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1100) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1101) p.expr(0) } p.SetState(1106) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1102) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1103) p.expr(0) } p.SetState(1108) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(1109) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IValues_clauseContext is an interface to support dynamic dispatch. type IValues_clauseContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures VALUES_() antlr.TerminalNode AllValue_row() []IValue_rowContext Value_row(i int) IValue_rowContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsValues_clauseContext differentiates from other interfaces. IsValues_clauseContext() } type Values_clauseContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyValues_clauseContext() *Values_clauseContext { var p = new(Values_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_values_clause return p } func InitEmptyValues_clauseContext(p *Values_clauseContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_values_clause } func (*Values_clauseContext) IsValues_clauseContext() {} func NewValues_clauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Values_clauseContext { var p = new(Values_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_values_clause return p } func (s *Values_clauseContext) GetParser() antlr.Parser { return s.parser } func (s *Values_clauseContext) VALUES_() antlr.TerminalNode { return s.GetToken(SQLiteParserVALUES_, 0) } func (s *Values_clauseContext) AllValue_row() []IValue_rowContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IValue_rowContext); ok { len++ } } tst := make([]IValue_rowContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IValue_rowContext); ok { tst[i] = t.(IValue_rowContext) i++ } } return tst } func (s *Values_clauseContext) Value_row(i int) IValue_rowContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IValue_rowContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IValue_rowContext) } func (s *Values_clauseContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Values_clauseContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Values_clauseContext) GetRuleContext() antlr.RuleContext { return s } func (s *Values_clauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Values_clauseContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterValues_clause(s) } } func (s *Values_clauseContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitValues_clause(s) } } func (s *Values_clauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitValues_clause(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Values_clause() (localctx IValues_clauseContext) { localctx = NewValues_clauseContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 72, SQLiteParserRULE_values_clause) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1111) p.Match(SQLiteParserVALUES_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1112) p.Value_row() } p.SetState(1117) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1113) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1114) p.Value_row() } p.SetState(1119) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IInsert_stmtContext is an interface to support dynamic dispatch. type IInsert_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures INTO_() antlr.TerminalNode Table_name() ITable_nameContext INSERT_() antlr.TerminalNode REPLACE_() antlr.TerminalNode OR_() antlr.TerminalNode DEFAULT_() antlr.TerminalNode VALUES_() antlr.TerminalNode With_clause() IWith_clauseContext ROLLBACK_() antlr.TerminalNode ABORT_() antlr.TerminalNode FAIL_() antlr.TerminalNode IGNORE_() antlr.TerminalNode Schema_name() ISchema_nameContext DOT() antlr.TerminalNode AS_() antlr.TerminalNode Table_alias() ITable_aliasContext OPEN_PAR() antlr.TerminalNode AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext CLOSE_PAR() antlr.TerminalNode Returning_clause() IReturning_clauseContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode Values_clause() IValues_clauseContext Select_stmt() ISelect_stmtContext Upsert_clause() IUpsert_clauseContext // IsInsert_stmtContext differentiates from other interfaces. IsInsert_stmtContext() } type Insert_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyInsert_stmtContext() *Insert_stmtContext { var p = new(Insert_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_insert_stmt return p } func InitEmptyInsert_stmtContext(p *Insert_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_insert_stmt } func (*Insert_stmtContext) IsInsert_stmtContext() {} func NewInsert_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Insert_stmtContext { var p = new(Insert_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_insert_stmt return p } func (s *Insert_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Insert_stmtContext) INTO_() antlr.TerminalNode { return s.GetToken(SQLiteParserINTO_, 0) } func (s *Insert_stmtContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Insert_stmtContext) INSERT_() antlr.TerminalNode { return s.GetToken(SQLiteParserINSERT_, 0) } func (s *Insert_stmtContext) REPLACE_() antlr.TerminalNode { return s.GetToken(SQLiteParserREPLACE_, 0) } func (s *Insert_stmtContext) OR_() antlr.TerminalNode { return s.GetToken(SQLiteParserOR_, 0) } func (s *Insert_stmtContext) DEFAULT_() antlr.TerminalNode { return s.GetToken(SQLiteParserDEFAULT_, 0) } func (s *Insert_stmtContext) VALUES_() antlr.TerminalNode { return s.GetToken(SQLiteParserVALUES_, 0) } func (s *Insert_stmtContext) With_clause() IWith_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IWith_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IWith_clauseContext) } func (s *Insert_stmtContext) ROLLBACK_() antlr.TerminalNode { return s.GetToken(SQLiteParserROLLBACK_, 0) } func (s *Insert_stmtContext) ABORT_() antlr.TerminalNode { return s.GetToken(SQLiteParserABORT_, 0) } func (s *Insert_stmtContext) FAIL_() antlr.TerminalNode { return s.GetToken(SQLiteParserFAIL_, 0) } func (s *Insert_stmtContext) IGNORE_() antlr.TerminalNode { return s.GetToken(SQLiteParserIGNORE_, 0) } func (s *Insert_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Insert_stmtContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Insert_stmtContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *Insert_stmtContext) Table_alias() ITable_aliasContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_aliasContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_aliasContext) } func (s *Insert_stmtContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Insert_stmtContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Insert_stmtContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Insert_stmtContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Insert_stmtContext) Returning_clause() IReturning_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IReturning_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IReturning_clauseContext) } func (s *Insert_stmtContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Insert_stmtContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Insert_stmtContext) Values_clause() IValues_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IValues_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IValues_clauseContext) } func (s *Insert_stmtContext) Select_stmt() ISelect_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *Insert_stmtContext) Upsert_clause() IUpsert_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IUpsert_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IUpsert_clauseContext) } func (s *Insert_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Insert_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Insert_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterInsert_stmt(s) } } func (s *Insert_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitInsert_stmt(s) } } func (s *Insert_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitInsert_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Insert_stmt() (localctx IInsert_stmtContext) { localctx = NewInsert_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 74, SQLiteParserRULE_insert_stmt) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(1121) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWITH_ { { p.SetState(1120) p.With_clause() } } p.SetState(1128) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 142, p.GetParserRuleContext()) { case 1: { p.SetState(1123) p.Match(SQLiteParserINSERT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 2: { p.SetState(1124) p.Match(SQLiteParserREPLACE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 3: { p.SetState(1125) p.Match(SQLiteParserINSERT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1126) p.Match(SQLiteParserOR_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1127) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserABORT_ || ((int64((_la-72)) & ^0x3f) == 0 && ((int64(1)<<(_la-72))&19140298416325121) != 0)) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } case antlr.ATNInvalidAltNumber: goto errorExit } { p.SetState(1130) p.Match(SQLiteParserINTO_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1134) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 143, p.GetParserRuleContext()) == 1 { { p.SetState(1131) p.Schema_name() } { p.SetState(1132) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1136) p.Table_name() } p.SetState(1139) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserAS_ { { p.SetState(1137) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1138) p.Table_alias() } } p.SetState(1152) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserOPEN_PAR { { p.SetState(1141) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1142) p.Column_name() } p.SetState(1147) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1143) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1144) p.Column_name() } p.SetState(1149) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(1150) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } } p.SetState(1163) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserSELECT_, SQLiteParserVALUES_, SQLiteParserWITH_: p.SetState(1156) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 147, p.GetParserRuleContext()) { case 1: { p.SetState(1154) p.Values_clause() } case 2: { p.SetState(1155) p.Select_stmt() } case antlr.ATNInvalidAltNumber: goto errorExit } p.SetState(1159) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserON_ { { p.SetState(1158) p.Upsert_clause() } } case SQLiteParserDEFAULT_: { p.SetState(1161) p.Match(SQLiteParserDEFAULT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1162) p.Match(SQLiteParserVALUES_) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } p.SetState(1166) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserRETURNING_ { { p.SetState(1165) p.Returning_clause() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IReturning_clauseContext is an interface to support dynamic dispatch. type IReturning_clauseContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures RETURNING_() antlr.TerminalNode AllResult_column() []IResult_columnContext Result_column(i int) IResult_columnContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsReturning_clauseContext differentiates from other interfaces. IsReturning_clauseContext() } type Returning_clauseContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyReturning_clauseContext() *Returning_clauseContext { var p = new(Returning_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_returning_clause return p } func InitEmptyReturning_clauseContext(p *Returning_clauseContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_returning_clause } func (*Returning_clauseContext) IsReturning_clauseContext() {} func NewReturning_clauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Returning_clauseContext { var p = new(Returning_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_returning_clause return p } func (s *Returning_clauseContext) GetParser() antlr.Parser { return s.parser } func (s *Returning_clauseContext) RETURNING_() antlr.TerminalNode { return s.GetToken(SQLiteParserRETURNING_, 0) } func (s *Returning_clauseContext) AllResult_column() []IResult_columnContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IResult_columnContext); ok { len++ } } tst := make([]IResult_columnContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IResult_columnContext); ok { tst[i] = t.(IResult_columnContext) i++ } } return tst } func (s *Returning_clauseContext) Result_column(i int) IResult_columnContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IResult_columnContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IResult_columnContext) } func (s *Returning_clauseContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Returning_clauseContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Returning_clauseContext) GetRuleContext() antlr.RuleContext { return s } func (s *Returning_clauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Returning_clauseContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterReturning_clause(s) } } func (s *Returning_clauseContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitReturning_clause(s) } } func (s *Returning_clauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitReturning_clause(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Returning_clause() (localctx IReturning_clauseContext) { localctx = NewReturning_clauseContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 76, SQLiteParserRULE_returning_clause) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1168) p.Match(SQLiteParserRETURNING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1169) p.Result_column() } p.SetState(1174) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1170) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1171) p.Result_column() } p.SetState(1176) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IUpsert_clauseContext is an interface to support dynamic dispatch. type IUpsert_clauseContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures ON_() antlr.TerminalNode CONFLICT_() antlr.TerminalNode DO_() antlr.TerminalNode NOTHING_() antlr.TerminalNode UPDATE_() antlr.TerminalNode SET_() antlr.TerminalNode OPEN_PAR() antlr.TerminalNode AllIndexed_column() []IIndexed_columnContext Indexed_column(i int) IIndexed_columnContext CLOSE_PAR() antlr.TerminalNode AllASSIGN() []antlr.TerminalNode ASSIGN(i int) antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode AllWHERE_() []antlr.TerminalNode WHERE_(i int) antlr.TerminalNode AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext AllColumn_name_list() []IColumn_name_listContext Column_name_list(i int) IColumn_name_listContext // IsUpsert_clauseContext differentiates from other interfaces. IsUpsert_clauseContext() } type Upsert_clauseContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyUpsert_clauseContext() *Upsert_clauseContext { var p = new(Upsert_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_upsert_clause return p } func InitEmptyUpsert_clauseContext(p *Upsert_clauseContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_upsert_clause } func (*Upsert_clauseContext) IsUpsert_clauseContext() {} func NewUpsert_clauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Upsert_clauseContext { var p = new(Upsert_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_upsert_clause return p } func (s *Upsert_clauseContext) GetParser() antlr.Parser { return s.parser } func (s *Upsert_clauseContext) ON_() antlr.TerminalNode { return s.GetToken(SQLiteParserON_, 0) } func (s *Upsert_clauseContext) CONFLICT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCONFLICT_, 0) } func (s *Upsert_clauseContext) DO_() antlr.TerminalNode { return s.GetToken(SQLiteParserDO_, 0) } func (s *Upsert_clauseContext) NOTHING_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOTHING_, 0) } func (s *Upsert_clauseContext) UPDATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserUPDATE_, 0) } func (s *Upsert_clauseContext) SET_() antlr.TerminalNode { return s.GetToken(SQLiteParserSET_, 0) } func (s *Upsert_clauseContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Upsert_clauseContext) AllIndexed_column() []IIndexed_columnContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IIndexed_columnContext); ok { len++ } } tst := make([]IIndexed_columnContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IIndexed_columnContext); ok { tst[i] = t.(IIndexed_columnContext) i++ } } return tst } func (s *Upsert_clauseContext) Indexed_column(i int) IIndexed_columnContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IIndexed_columnContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IIndexed_columnContext) } func (s *Upsert_clauseContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Upsert_clauseContext) AllASSIGN() []antlr.TerminalNode { return s.GetTokens(SQLiteParserASSIGN) } func (s *Upsert_clauseContext) ASSIGN(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserASSIGN, i) } func (s *Upsert_clauseContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Upsert_clauseContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Upsert_clauseContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Upsert_clauseContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Upsert_clauseContext) AllWHERE_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserWHERE_) } func (s *Upsert_clauseContext) WHERE_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserWHERE_, i) } func (s *Upsert_clauseContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Upsert_clauseContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Upsert_clauseContext) AllColumn_name_list() []IColumn_name_listContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_name_listContext); ok { len++ } } tst := make([]IColumn_name_listContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_name_listContext); ok { tst[i] = t.(IColumn_name_listContext) i++ } } return tst } func (s *Upsert_clauseContext) Column_name_list(i int) IColumn_name_listContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_name_listContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_name_listContext) } func (s *Upsert_clauseContext) GetRuleContext() antlr.RuleContext { return s } func (s *Upsert_clauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Upsert_clauseContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterUpsert_clause(s) } } func (s *Upsert_clauseContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitUpsert_clause(s) } } func (s *Upsert_clauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitUpsert_clause(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Upsert_clause() (localctx IUpsert_clauseContext) { localctx = NewUpsert_clauseContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 78, SQLiteParserRULE_upsert_clause) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1177) p.Match(SQLiteParserON_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1178) p.Match(SQLiteParserCONFLICT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1193) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserOPEN_PAR { { p.SetState(1179) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1180) p.Indexed_column() } p.SetState(1185) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1181) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1182) p.Indexed_column() } p.SetState(1187) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(1188) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1191) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWHERE_ { { p.SetState(1189) p.Match(SQLiteParserWHERE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1190) p.expr(0) } } } { p.SetState(1195) p.Match(SQLiteParserDO_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1222) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserNOTHING_: { p.SetState(1196) p.Match(SQLiteParserNOTHING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserUPDATE_: { p.SetState(1197) p.Match(SQLiteParserUPDATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1198) p.Match(SQLiteParserSET_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1201) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 155, p.GetParserRuleContext()) { case 1: { p.SetState(1199) p.Column_name() } case 2: { p.SetState(1200) p.Column_name_list() } case antlr.ATNInvalidAltNumber: goto errorExit } { p.SetState(1203) p.Match(SQLiteParserASSIGN) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1204) p.expr(0) } p.SetState(1215) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1205) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1208) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 156, p.GetParserRuleContext()) { case 1: { p.SetState(1206) p.Column_name() } case 2: { p.SetState(1207) p.Column_name_list() } case antlr.ATNInvalidAltNumber: goto errorExit } { p.SetState(1210) p.Match(SQLiteParserASSIGN) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1211) p.expr(0) } p.SetState(1217) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } p.SetState(1220) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWHERE_ { { p.SetState(1218) p.Match(SQLiteParserWHERE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1219) p.expr(0) } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IPragma_stmtContext is an interface to support dynamic dispatch. type IPragma_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures PRAGMA_() antlr.TerminalNode Pragma_name() IPragma_nameContext Schema_name() ISchema_nameContext DOT() antlr.TerminalNode ASSIGN() antlr.TerminalNode Pragma_value() IPragma_valueContext OPEN_PAR() antlr.TerminalNode CLOSE_PAR() antlr.TerminalNode // IsPragma_stmtContext differentiates from other interfaces. IsPragma_stmtContext() } type Pragma_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyPragma_stmtContext() *Pragma_stmtContext { var p = new(Pragma_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_pragma_stmt return p } func InitEmptyPragma_stmtContext(p *Pragma_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_pragma_stmt } func (*Pragma_stmtContext) IsPragma_stmtContext() {} func NewPragma_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Pragma_stmtContext { var p = new(Pragma_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_pragma_stmt return p } func (s *Pragma_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Pragma_stmtContext) PRAGMA_() antlr.TerminalNode { return s.GetToken(SQLiteParserPRAGMA_, 0) } func (s *Pragma_stmtContext) Pragma_name() IPragma_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IPragma_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IPragma_nameContext) } func (s *Pragma_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Pragma_stmtContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Pragma_stmtContext) ASSIGN() antlr.TerminalNode { return s.GetToken(SQLiteParserASSIGN, 0) } func (s *Pragma_stmtContext) Pragma_value() IPragma_valueContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IPragma_valueContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IPragma_valueContext) } func (s *Pragma_stmtContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Pragma_stmtContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Pragma_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Pragma_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Pragma_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterPragma_stmt(s) } } func (s *Pragma_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitPragma_stmt(s) } } func (s *Pragma_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitPragma_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Pragma_stmt() (localctx IPragma_stmtContext) { localctx = NewPragma_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 80, SQLiteParserRULE_pragma_stmt) p.EnterOuterAlt(localctx, 1) { p.SetState(1224) p.Match(SQLiteParserPRAGMA_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1228) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 160, p.GetParserRuleContext()) == 1 { { p.SetState(1225) p.Schema_name() } { p.SetState(1226) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1230) p.Pragma_name() } p.SetState(1237) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserASSIGN: { p.SetState(1231) p.Match(SQLiteParserASSIGN) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1232) p.Pragma_value() } case SQLiteParserOPEN_PAR: { p.SetState(1233) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1234) p.Pragma_value() } { p.SetState(1235) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserEOF, SQLiteParserSCOL, SQLiteParserALTER_, SQLiteParserANALYZE_, SQLiteParserATTACH_, SQLiteParserBEGIN_, SQLiteParserCOMMIT_, SQLiteParserCREATE_, SQLiteParserDELETE_, SQLiteParserDETACH_, SQLiteParserDROP_, SQLiteParserEND_, SQLiteParserEXPLAIN_, SQLiteParserINSERT_, SQLiteParserPRAGMA_, SQLiteParserREINDEX_, SQLiteParserRELEASE_, SQLiteParserREPLACE_, SQLiteParserROLLBACK_, SQLiteParserSAVEPOINT_, SQLiteParserSELECT_, SQLiteParserUPDATE_, SQLiteParserVACUUM_, SQLiteParserVALUES_, SQLiteParserWITH_: default: } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IPragma_valueContext is an interface to support dynamic dispatch. type IPragma_valueContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Signed_number() ISigned_numberContext Name() INameContext STRING_LITERAL() antlr.TerminalNode // IsPragma_valueContext differentiates from other interfaces. IsPragma_valueContext() } type Pragma_valueContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyPragma_valueContext() *Pragma_valueContext { var p = new(Pragma_valueContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_pragma_value return p } func InitEmptyPragma_valueContext(p *Pragma_valueContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_pragma_value } func (*Pragma_valueContext) IsPragma_valueContext() {} func NewPragma_valueContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Pragma_valueContext { var p = new(Pragma_valueContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_pragma_value return p } func (s *Pragma_valueContext) GetParser() antlr.Parser { return s.parser } func (s *Pragma_valueContext) Signed_number() ISigned_numberContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISigned_numberContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISigned_numberContext) } func (s *Pragma_valueContext) Name() INameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(INameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(INameContext) } func (s *Pragma_valueContext) STRING_LITERAL() antlr.TerminalNode { return s.GetToken(SQLiteParserSTRING_LITERAL, 0) } func (s *Pragma_valueContext) GetRuleContext() antlr.RuleContext { return s } func (s *Pragma_valueContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Pragma_valueContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterPragma_value(s) } } func (s *Pragma_valueContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitPragma_value(s) } } func (s *Pragma_valueContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitPragma_value(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Pragma_value() (localctx IPragma_valueContext) { localctx = NewPragma_valueContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 82, SQLiteParserRULE_pragma_value) p.SetState(1242) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 162, p.GetParserRuleContext()) { case 1: p.EnterOuterAlt(localctx, 1) { p.SetState(1239) p.Signed_number() } case 2: p.EnterOuterAlt(localctx, 2) { p.SetState(1240) p.Name() } case 3: p.EnterOuterAlt(localctx, 3) { p.SetState(1241) p.Match(SQLiteParserSTRING_LITERAL) if p.HasError() { // Recognition error - abort rule goto errorExit } } case antlr.ATNInvalidAltNumber: goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IReindex_stmtContext is an interface to support dynamic dispatch. type IReindex_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures REINDEX_() antlr.TerminalNode Collation_name() ICollation_nameContext Table_name() ITable_nameContext Index_name() IIndex_nameContext Schema_name() ISchema_nameContext DOT() antlr.TerminalNode // IsReindex_stmtContext differentiates from other interfaces. IsReindex_stmtContext() } type Reindex_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyReindex_stmtContext() *Reindex_stmtContext { var p = new(Reindex_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_reindex_stmt return p } func InitEmptyReindex_stmtContext(p *Reindex_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_reindex_stmt } func (*Reindex_stmtContext) IsReindex_stmtContext() {} func NewReindex_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Reindex_stmtContext { var p = new(Reindex_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_reindex_stmt return p } func (s *Reindex_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Reindex_stmtContext) REINDEX_() antlr.TerminalNode { return s.GetToken(SQLiteParserREINDEX_, 0) } func (s *Reindex_stmtContext) Collation_name() ICollation_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICollation_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICollation_nameContext) } func (s *Reindex_stmtContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Reindex_stmtContext) Index_name() IIndex_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IIndex_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IIndex_nameContext) } func (s *Reindex_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Reindex_stmtContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Reindex_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Reindex_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Reindex_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterReindex_stmt(s) } } func (s *Reindex_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitReindex_stmt(s) } } func (s *Reindex_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitReindex_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Reindex_stmt() (localctx IReindex_stmtContext) { localctx = NewReindex_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 84, SQLiteParserRULE_reindex_stmt) p.EnterOuterAlt(localctx, 1) { p.SetState(1244) p.Match(SQLiteParserREINDEX_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1255) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 165, p.GetParserRuleContext()) == 1 { { p.SetState(1245) p.Collation_name() } } else if p.HasError() { // JIM goto errorExit } else if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 165, p.GetParserRuleContext()) == 2 { p.SetState(1249) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 163, p.GetParserRuleContext()) == 1 { { p.SetState(1246) p.Schema_name() } { p.SetState(1247) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } p.SetState(1253) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 164, p.GetParserRuleContext()) { case 1: { p.SetState(1251) p.Table_name() } case 2: { p.SetState(1252) p.Index_name() } case antlr.ATNInvalidAltNumber: goto errorExit } } else if p.HasError() { // JIM goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ISelect_stmtContext is an interface to support dynamic dispatch. type ISelect_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures AllSelect_core() []ISelect_coreContext Select_core(i int) ISelect_coreContext Common_table_stmt() ICommon_table_stmtContext AllCompound_operator() []ICompound_operatorContext Compound_operator(i int) ICompound_operatorContext Order_by_stmt() IOrder_by_stmtContext Limit_stmt() ILimit_stmtContext // IsSelect_stmtContext differentiates from other interfaces. IsSelect_stmtContext() } type Select_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptySelect_stmtContext() *Select_stmtContext { var p = new(Select_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_select_stmt return p } func InitEmptySelect_stmtContext(p *Select_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_select_stmt } func (*Select_stmtContext) IsSelect_stmtContext() {} func NewSelect_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Select_stmtContext { var p = new(Select_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_select_stmt return p } func (s *Select_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Select_stmtContext) AllSelect_core() []ISelect_coreContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ISelect_coreContext); ok { len++ } } tst := make([]ISelect_coreContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ISelect_coreContext); ok { tst[i] = t.(ISelect_coreContext) i++ } } return tst } func (s *Select_stmtContext) Select_core(i int) ISelect_coreContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_coreContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ISelect_coreContext) } func (s *Select_stmtContext) Common_table_stmt() ICommon_table_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICommon_table_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICommon_table_stmtContext) } func (s *Select_stmtContext) AllCompound_operator() []ICompound_operatorContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ICompound_operatorContext); ok { len++ } } tst := make([]ICompound_operatorContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ICompound_operatorContext); ok { tst[i] = t.(ICompound_operatorContext) i++ } } return tst } func (s *Select_stmtContext) Compound_operator(i int) ICompound_operatorContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICompound_operatorContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ICompound_operatorContext) } func (s *Select_stmtContext) Order_by_stmt() IOrder_by_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOrder_by_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IOrder_by_stmtContext) } func (s *Select_stmtContext) Limit_stmt() ILimit_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ILimit_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ILimit_stmtContext) } func (s *Select_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Select_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Select_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterSelect_stmt(s) } } func (s *Select_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitSelect_stmt(s) } } func (s *Select_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitSelect_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Select_stmt() (localctx ISelect_stmtContext) { localctx = NewSelect_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 86, SQLiteParserRULE_select_stmt) var _la int var _alt int p.EnterOuterAlt(localctx, 1) p.SetState(1258) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWITH_ { { p.SetState(1257) p.Common_table_stmt() } } { p.SetState(1260) p.Select_core() } p.SetState(1266) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 167, p.GetParserRuleContext()) if p.HasError() { goto errorExit } for _alt != 2 && _alt != antlr.ATNInvalidAltNumber { if _alt == 1 { { p.SetState(1261) p.Compound_operator() } { p.SetState(1262) p.Select_core() } } p.SetState(1268) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 167, p.GetParserRuleContext()) if p.HasError() { goto errorExit } } p.SetState(1270) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserORDER_ { { p.SetState(1269) p.Order_by_stmt() } } p.SetState(1273) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserLIMIT_ { { p.SetState(1272) p.Limit_stmt() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IJoin_clauseContext is an interface to support dynamic dispatch. type IJoin_clauseContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures AllTable_or_subquery() []ITable_or_subqueryContext Table_or_subquery(i int) ITable_or_subqueryContext AllJoin_operator() []IJoin_operatorContext Join_operator(i int) IJoin_operatorContext AllJoin_constraint() []IJoin_constraintContext Join_constraint(i int) IJoin_constraintContext // IsJoin_clauseContext differentiates from other interfaces. IsJoin_clauseContext() } type Join_clauseContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyJoin_clauseContext() *Join_clauseContext { var p = new(Join_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_join_clause return p } func InitEmptyJoin_clauseContext(p *Join_clauseContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_join_clause } func (*Join_clauseContext) IsJoin_clauseContext() {} func NewJoin_clauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Join_clauseContext { var p = new(Join_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_join_clause return p } func (s *Join_clauseContext) GetParser() antlr.Parser { return s.parser } func (s *Join_clauseContext) AllTable_or_subquery() []ITable_or_subqueryContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ITable_or_subqueryContext); ok { len++ } } tst := make([]ITable_or_subqueryContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ITable_or_subqueryContext); ok { tst[i] = t.(ITable_or_subqueryContext) i++ } } return tst } func (s *Join_clauseContext) Table_or_subquery(i int) ITable_or_subqueryContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_or_subqueryContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ITable_or_subqueryContext) } func (s *Join_clauseContext) AllJoin_operator() []IJoin_operatorContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IJoin_operatorContext); ok { len++ } } tst := make([]IJoin_operatorContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IJoin_operatorContext); ok { tst[i] = t.(IJoin_operatorContext) i++ } } return tst } func (s *Join_clauseContext) Join_operator(i int) IJoin_operatorContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IJoin_operatorContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IJoin_operatorContext) } func (s *Join_clauseContext) AllJoin_constraint() []IJoin_constraintContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IJoin_constraintContext); ok { len++ } } tst := make([]IJoin_constraintContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IJoin_constraintContext); ok { tst[i] = t.(IJoin_constraintContext) i++ } } return tst } func (s *Join_clauseContext) Join_constraint(i int) IJoin_constraintContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IJoin_constraintContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IJoin_constraintContext) } func (s *Join_clauseContext) GetRuleContext() antlr.RuleContext { return s } func (s *Join_clauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Join_clauseContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterJoin_clause(s) } } func (s *Join_clauseContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitJoin_clause(s) } } func (s *Join_clauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitJoin_clause(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Join_clause() (localctx IJoin_clauseContext) { localctx = NewJoin_clauseContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 88, SQLiteParserRULE_join_clause) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1275) p.Table_or_subquery() } p.SetState(1283) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA || _la == SQLiteParserCROSS_ || ((int64((_la-87)) & ^0x3f) == 0 && ((int64(1)<<(_la-87))&8833) != 0) { { p.SetState(1276) p.Join_operator() } { p.SetState(1277) p.Table_or_subquery() } p.SetState(1279) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 170, p.GetParserRuleContext()) == 1 { { p.SetState(1278) p.Join_constraint() } } else if p.HasError() { // JIM goto errorExit } p.SetState(1285) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ISelect_coreContext is an interface to support dynamic dispatch. type ISelect_coreContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // GetWhereExpr returns the whereExpr rule contexts. GetWhereExpr() IExprContext // Get_expr returns the _expr rule contexts. Get_expr() IExprContext // GetHavingExpr returns the havingExpr rule contexts. GetHavingExpr() IExprContext // SetWhereExpr sets the whereExpr rule contexts. SetWhereExpr(IExprContext) // Set_expr sets the _expr rule contexts. Set_expr(IExprContext) // SetHavingExpr sets the havingExpr rule contexts. SetHavingExpr(IExprContext) // GetGroupByExpr returns the groupByExpr rule context list. GetGroupByExpr() []IExprContext // SetGroupByExpr sets the groupByExpr rule context list. SetGroupByExpr([]IExprContext) // Getter signatures SELECT_() antlr.TerminalNode AllResult_column() []IResult_columnContext Result_column(i int) IResult_columnContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode FROM_() antlr.TerminalNode WHERE_() antlr.TerminalNode GROUP_() antlr.TerminalNode BY_() antlr.TerminalNode WINDOW_() antlr.TerminalNode AllWindow_name() []IWindow_nameContext Window_name(i int) IWindow_nameContext AllAS_() []antlr.TerminalNode AS_(i int) antlr.TerminalNode AllWindow_defn() []IWindow_defnContext Window_defn(i int) IWindow_defnContext DISTINCT_() antlr.TerminalNode ALL_() antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext AllTable_or_subquery() []ITable_or_subqueryContext Table_or_subquery(i int) ITable_or_subqueryContext Join_clause() IJoin_clauseContext HAVING_() antlr.TerminalNode Values_clause() IValues_clauseContext // IsSelect_coreContext differentiates from other interfaces. IsSelect_coreContext() } type Select_coreContext struct { antlr.BaseParserRuleContext parser antlr.Parser whereExpr IExprContext _expr IExprContext groupByExpr []IExprContext havingExpr IExprContext } func NewEmptySelect_coreContext() *Select_coreContext { var p = new(Select_coreContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_select_core return p } func InitEmptySelect_coreContext(p *Select_coreContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_select_core } func (*Select_coreContext) IsSelect_coreContext() {} func NewSelect_coreContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Select_coreContext { var p = new(Select_coreContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_select_core return p } func (s *Select_coreContext) GetParser() antlr.Parser { return s.parser } func (s *Select_coreContext) GetWhereExpr() IExprContext { return s.whereExpr } func (s *Select_coreContext) Get_expr() IExprContext { return s._expr } func (s *Select_coreContext) GetHavingExpr() IExprContext { return s.havingExpr } func (s *Select_coreContext) SetWhereExpr(v IExprContext) { s.whereExpr = v } func (s *Select_coreContext) Set_expr(v IExprContext) { s._expr = v } func (s *Select_coreContext) SetHavingExpr(v IExprContext) { s.havingExpr = v } func (s *Select_coreContext) GetGroupByExpr() []IExprContext { return s.groupByExpr } func (s *Select_coreContext) SetGroupByExpr(v []IExprContext) { s.groupByExpr = v } func (s *Select_coreContext) SELECT_() antlr.TerminalNode { return s.GetToken(SQLiteParserSELECT_, 0) } func (s *Select_coreContext) AllResult_column() []IResult_columnContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IResult_columnContext); ok { len++ } } tst := make([]IResult_columnContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IResult_columnContext); ok { tst[i] = t.(IResult_columnContext) i++ } } return tst } func (s *Select_coreContext) Result_column(i int) IResult_columnContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IResult_columnContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IResult_columnContext) } func (s *Select_coreContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Select_coreContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Select_coreContext) FROM_() antlr.TerminalNode { return s.GetToken(SQLiteParserFROM_, 0) } func (s *Select_coreContext) WHERE_() antlr.TerminalNode { return s.GetToken(SQLiteParserWHERE_, 0) } func (s *Select_coreContext) GROUP_() antlr.TerminalNode { return s.GetToken(SQLiteParserGROUP_, 0) } func (s *Select_coreContext) BY_() antlr.TerminalNode { return s.GetToken(SQLiteParserBY_, 0) } func (s *Select_coreContext) WINDOW_() antlr.TerminalNode { return s.GetToken(SQLiteParserWINDOW_, 0) } func (s *Select_coreContext) AllWindow_name() []IWindow_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IWindow_nameContext); ok { len++ } } tst := make([]IWindow_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IWindow_nameContext); ok { tst[i] = t.(IWindow_nameContext) i++ } } return tst } func (s *Select_coreContext) Window_name(i int) IWindow_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IWindow_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IWindow_nameContext) } func (s *Select_coreContext) AllAS_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserAS_) } func (s *Select_coreContext) AS_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, i) } func (s *Select_coreContext) AllWindow_defn() []IWindow_defnContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IWindow_defnContext); ok { len++ } } tst := make([]IWindow_defnContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IWindow_defnContext); ok { tst[i] = t.(IWindow_defnContext) i++ } } return tst } func (s *Select_coreContext) Window_defn(i int) IWindow_defnContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IWindow_defnContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IWindow_defnContext) } func (s *Select_coreContext) DISTINCT_() antlr.TerminalNode { return s.GetToken(SQLiteParserDISTINCT_, 0) } func (s *Select_coreContext) ALL_() antlr.TerminalNode { return s.GetToken(SQLiteParserALL_, 0) } func (s *Select_coreContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Select_coreContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Select_coreContext) AllTable_or_subquery() []ITable_or_subqueryContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ITable_or_subqueryContext); ok { len++ } } tst := make([]ITable_or_subqueryContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ITable_or_subqueryContext); ok { tst[i] = t.(ITable_or_subqueryContext) i++ } } return tst } func (s *Select_coreContext) Table_or_subquery(i int) ITable_or_subqueryContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_or_subqueryContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ITable_or_subqueryContext) } func (s *Select_coreContext) Join_clause() IJoin_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IJoin_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IJoin_clauseContext) } func (s *Select_coreContext) HAVING_() antlr.TerminalNode { return s.GetToken(SQLiteParserHAVING_, 0) } func (s *Select_coreContext) Values_clause() IValues_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IValues_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IValues_clauseContext) } func (s *Select_coreContext) GetRuleContext() antlr.RuleContext { return s } func (s *Select_coreContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Select_coreContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterSelect_core(s) } } func (s *Select_coreContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitSelect_core(s) } } func (s *Select_coreContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitSelect_core(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Select_core() (localctx ISelect_coreContext) { localctx = NewSelect_coreContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 90, SQLiteParserRULE_select_core) var _la int p.SetState(1349) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserSELECT_: p.EnterOuterAlt(localctx, 1) { p.SetState(1286) p.Match(SQLiteParserSELECT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1288) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 172, p.GetParserRuleContext()) == 1 { { p.SetState(1287) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserALL_ || _la == SQLiteParserDISTINCT_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1290) p.Result_column() } p.SetState(1295) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1291) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1292) p.Result_column() } p.SetState(1297) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } p.SetState(1310) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserFROM_ { { p.SetState(1298) p.Match(SQLiteParserFROM_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1308) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 175, p.GetParserRuleContext()) { case 1: { p.SetState(1299) p.Table_or_subquery() } p.SetState(1304) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1300) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1301) p.Table_or_subquery() } p.SetState(1306) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } case 2: { p.SetState(1307) p.Join_clause() } case antlr.ATNInvalidAltNumber: goto errorExit } } p.SetState(1314) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWHERE_ { { p.SetState(1312) p.Match(SQLiteParserWHERE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1313) var _x = p.expr(0) localctx.(*Select_coreContext).whereExpr = _x } } p.SetState(1330) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserGROUP_ { { p.SetState(1316) p.Match(SQLiteParserGROUP_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1317) p.Match(SQLiteParserBY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1318) var _x = p.expr(0) localctx.(*Select_coreContext)._expr = _x } localctx.(*Select_coreContext).groupByExpr = append(localctx.(*Select_coreContext).groupByExpr, localctx.(*Select_coreContext)._expr) p.SetState(1323) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1319) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1320) var _x = p.expr(0) localctx.(*Select_coreContext)._expr = _x } localctx.(*Select_coreContext).groupByExpr = append(localctx.(*Select_coreContext).groupByExpr, localctx.(*Select_coreContext)._expr) p.SetState(1325) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } p.SetState(1328) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserHAVING_ { { p.SetState(1326) p.Match(SQLiteParserHAVING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1327) var _x = p.expr(0) localctx.(*Select_coreContext).havingExpr = _x } } } p.SetState(1346) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWINDOW_ { { p.SetState(1332) p.Match(SQLiteParserWINDOW_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1333) p.Window_name() } { p.SetState(1334) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1335) p.Window_defn() } p.SetState(1343) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1336) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1337) p.Window_name() } { p.SetState(1338) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1339) p.Window_defn() } p.SetState(1345) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } } case SQLiteParserVALUES_: p.EnterOuterAlt(localctx, 2) { p.SetState(1348) p.Values_clause() } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IFactored_select_stmtContext is an interface to support dynamic dispatch. type IFactored_select_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Select_stmt() ISelect_stmtContext // IsFactored_select_stmtContext differentiates from other interfaces. IsFactored_select_stmtContext() } type Factored_select_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyFactored_select_stmtContext() *Factored_select_stmtContext { var p = new(Factored_select_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_factored_select_stmt return p } func InitEmptyFactored_select_stmtContext(p *Factored_select_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_factored_select_stmt } func (*Factored_select_stmtContext) IsFactored_select_stmtContext() {} func NewFactored_select_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Factored_select_stmtContext { var p = new(Factored_select_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_factored_select_stmt return p } func (s *Factored_select_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Factored_select_stmtContext) Select_stmt() ISelect_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *Factored_select_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Factored_select_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Factored_select_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterFactored_select_stmt(s) } } func (s *Factored_select_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitFactored_select_stmt(s) } } func (s *Factored_select_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitFactored_select_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Factored_select_stmt() (localctx IFactored_select_stmtContext) { localctx = NewFactored_select_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 92, SQLiteParserRULE_factored_select_stmt) p.EnterOuterAlt(localctx, 1) { p.SetState(1351) p.Select_stmt() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ISimple_select_stmtContext is an interface to support dynamic dispatch. type ISimple_select_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Select_core() ISelect_coreContext Common_table_stmt() ICommon_table_stmtContext Order_by_stmt() IOrder_by_stmtContext Limit_stmt() ILimit_stmtContext // IsSimple_select_stmtContext differentiates from other interfaces. IsSimple_select_stmtContext() } type Simple_select_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptySimple_select_stmtContext() *Simple_select_stmtContext { var p = new(Simple_select_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_simple_select_stmt return p } func InitEmptySimple_select_stmtContext(p *Simple_select_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_simple_select_stmt } func (*Simple_select_stmtContext) IsSimple_select_stmtContext() {} func NewSimple_select_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Simple_select_stmtContext { var p = new(Simple_select_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_simple_select_stmt return p } func (s *Simple_select_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Simple_select_stmtContext) Select_core() ISelect_coreContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_coreContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISelect_coreContext) } func (s *Simple_select_stmtContext) Common_table_stmt() ICommon_table_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICommon_table_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICommon_table_stmtContext) } func (s *Simple_select_stmtContext) Order_by_stmt() IOrder_by_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOrder_by_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IOrder_by_stmtContext) } func (s *Simple_select_stmtContext) Limit_stmt() ILimit_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ILimit_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ILimit_stmtContext) } func (s *Simple_select_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Simple_select_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Simple_select_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterSimple_select_stmt(s) } } func (s *Simple_select_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitSimple_select_stmt(s) } } func (s *Simple_select_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitSimple_select_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Simple_select_stmt() (localctx ISimple_select_stmtContext) { localctx = NewSimple_select_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 94, SQLiteParserRULE_simple_select_stmt) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(1354) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWITH_ { { p.SetState(1353) p.Common_table_stmt() } } { p.SetState(1356) p.Select_core() } p.SetState(1358) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserORDER_ { { p.SetState(1357) p.Order_by_stmt() } } p.SetState(1361) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserLIMIT_ { { p.SetState(1360) p.Limit_stmt() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICompound_select_stmtContext is an interface to support dynamic dispatch. type ICompound_select_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures AllSelect_core() []ISelect_coreContext Select_core(i int) ISelect_coreContext Common_table_stmt() ICommon_table_stmtContext Order_by_stmt() IOrder_by_stmtContext Limit_stmt() ILimit_stmtContext AllUNION_() []antlr.TerminalNode UNION_(i int) antlr.TerminalNode AllINTERSECT_() []antlr.TerminalNode INTERSECT_(i int) antlr.TerminalNode AllEXCEPT_() []antlr.TerminalNode EXCEPT_(i int) antlr.TerminalNode AllALL_() []antlr.TerminalNode ALL_(i int) antlr.TerminalNode // IsCompound_select_stmtContext differentiates from other interfaces. IsCompound_select_stmtContext() } type Compound_select_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyCompound_select_stmtContext() *Compound_select_stmtContext { var p = new(Compound_select_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_compound_select_stmt return p } func InitEmptyCompound_select_stmtContext(p *Compound_select_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_compound_select_stmt } func (*Compound_select_stmtContext) IsCompound_select_stmtContext() {} func NewCompound_select_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Compound_select_stmtContext { var p = new(Compound_select_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_compound_select_stmt return p } func (s *Compound_select_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Compound_select_stmtContext) AllSelect_core() []ISelect_coreContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ISelect_coreContext); ok { len++ } } tst := make([]ISelect_coreContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ISelect_coreContext); ok { tst[i] = t.(ISelect_coreContext) i++ } } return tst } func (s *Compound_select_stmtContext) Select_core(i int) ISelect_coreContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_coreContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ISelect_coreContext) } func (s *Compound_select_stmtContext) Common_table_stmt() ICommon_table_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICommon_table_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICommon_table_stmtContext) } func (s *Compound_select_stmtContext) Order_by_stmt() IOrder_by_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOrder_by_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IOrder_by_stmtContext) } func (s *Compound_select_stmtContext) Limit_stmt() ILimit_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ILimit_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ILimit_stmtContext) } func (s *Compound_select_stmtContext) AllUNION_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserUNION_) } func (s *Compound_select_stmtContext) UNION_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserUNION_, i) } func (s *Compound_select_stmtContext) AllINTERSECT_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserINTERSECT_) } func (s *Compound_select_stmtContext) INTERSECT_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserINTERSECT_, i) } func (s *Compound_select_stmtContext) AllEXCEPT_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserEXCEPT_) } func (s *Compound_select_stmtContext) EXCEPT_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserEXCEPT_, i) } func (s *Compound_select_stmtContext) AllALL_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserALL_) } func (s *Compound_select_stmtContext) ALL_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserALL_, i) } func (s *Compound_select_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Compound_select_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Compound_select_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCompound_select_stmt(s) } } func (s *Compound_select_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCompound_select_stmt(s) } } func (s *Compound_select_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCompound_select_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Compound_select_stmt() (localctx ICompound_select_stmtContext) { localctx = NewCompound_select_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 96, SQLiteParserRULE_compound_select_stmt) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(1364) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWITH_ { { p.SetState(1363) p.Common_table_stmt() } } { p.SetState(1366) p.Select_core() } p.SetState(1376) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for ok := true; ok; ok = _la == SQLiteParserEXCEPT_ || _la == SQLiteParserINTERSECT_ || _la == SQLiteParserUNION_ { p.SetState(1373) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserUNION_: { p.SetState(1367) p.Match(SQLiteParserUNION_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1369) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserALL_ { { p.SetState(1368) p.Match(SQLiteParserALL_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } case SQLiteParserINTERSECT_: { p.SetState(1371) p.Match(SQLiteParserINTERSECT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserEXCEPT_: { p.SetState(1372) p.Match(SQLiteParserEXCEPT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } { p.SetState(1375) p.Select_core() } p.SetState(1378) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } p.SetState(1381) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserORDER_ { { p.SetState(1380) p.Order_by_stmt() } } p.SetState(1384) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserLIMIT_ { { p.SetState(1383) p.Limit_stmt() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ITable_or_subqueryContext is an interface to support dynamic dispatch. type ITable_or_subqueryContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Table_name() ITable_nameContext Schema_name() ISchema_nameContext DOT() antlr.TerminalNode Table_alias() ITable_aliasContext INDEXED_() antlr.TerminalNode BY_() antlr.TerminalNode Index_name() IIndex_nameContext NOT_() antlr.TerminalNode AS_() antlr.TerminalNode Table_function_name() ITable_function_nameContext OPEN_PAR() antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext CLOSE_PAR() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode AllTable_or_subquery() []ITable_or_subqueryContext Table_or_subquery(i int) ITable_or_subqueryContext Join_clause() IJoin_clauseContext Select_stmt() ISelect_stmtContext // IsTable_or_subqueryContext differentiates from other interfaces. IsTable_or_subqueryContext() } type Table_or_subqueryContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyTable_or_subqueryContext() *Table_or_subqueryContext { var p = new(Table_or_subqueryContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_or_subquery return p } func InitEmptyTable_or_subqueryContext(p *Table_or_subqueryContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_or_subquery } func (*Table_or_subqueryContext) IsTable_or_subqueryContext() {} func NewTable_or_subqueryContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Table_or_subqueryContext { var p = new(Table_or_subqueryContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_table_or_subquery return p } func (s *Table_or_subqueryContext) GetParser() antlr.Parser { return s.parser } func (s *Table_or_subqueryContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Table_or_subqueryContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Table_or_subqueryContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Table_or_subqueryContext) Table_alias() ITable_aliasContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_aliasContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_aliasContext) } func (s *Table_or_subqueryContext) INDEXED_() antlr.TerminalNode { return s.GetToken(SQLiteParserINDEXED_, 0) } func (s *Table_or_subqueryContext) BY_() antlr.TerminalNode { return s.GetToken(SQLiteParserBY_, 0) } func (s *Table_or_subqueryContext) Index_name() IIndex_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IIndex_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IIndex_nameContext) } func (s *Table_or_subqueryContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *Table_or_subqueryContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *Table_or_subqueryContext) Table_function_name() ITable_function_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_function_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_function_nameContext) } func (s *Table_or_subqueryContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Table_or_subqueryContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Table_or_subqueryContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Table_or_subqueryContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Table_or_subqueryContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Table_or_subqueryContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Table_or_subqueryContext) AllTable_or_subquery() []ITable_or_subqueryContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ITable_or_subqueryContext); ok { len++ } } tst := make([]ITable_or_subqueryContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ITable_or_subqueryContext); ok { tst[i] = t.(ITable_or_subqueryContext) i++ } } return tst } func (s *Table_or_subqueryContext) Table_or_subquery(i int) ITable_or_subqueryContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_or_subqueryContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ITable_or_subqueryContext) } func (s *Table_or_subqueryContext) Join_clause() IJoin_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IJoin_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IJoin_clauseContext) } func (s *Table_or_subqueryContext) Select_stmt() ISelect_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *Table_or_subqueryContext) GetRuleContext() antlr.RuleContext { return s } func (s *Table_or_subqueryContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Table_or_subqueryContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterTable_or_subquery(s) } } func (s *Table_or_subqueryContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitTable_or_subquery(s) } } func (s *Table_or_subqueryContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitTable_or_subquery(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Table_or_subquery() (localctx ITable_or_subqueryContext) { localctx = NewTable_or_subqueryContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 98, SQLiteParserRULE_table_or_subquery) var _la int p.SetState(1450) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 205, p.GetParserRuleContext()) { case 1: p.EnterOuterAlt(localctx, 1) p.SetState(1389) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 193, p.GetParserRuleContext()) == 1 { { p.SetState(1386) p.Schema_name() } { p.SetState(1387) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1391) p.Table_name() } p.SetState(1396) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 195, p.GetParserRuleContext()) == 1 { p.SetState(1393) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 194, p.GetParserRuleContext()) == 1 { { p.SetState(1392) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1395) p.Table_alias() } } else if p.HasError() { // JIM goto errorExit } p.SetState(1403) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserINDEXED_: { p.SetState(1398) p.Match(SQLiteParserINDEXED_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1399) p.Match(SQLiteParserBY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1400) p.Index_name() } case SQLiteParserNOT_: { p.SetState(1401) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1402) p.Match(SQLiteParserINDEXED_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserEOF, SQLiteParserSCOL, SQLiteParserCLOSE_PAR, SQLiteParserCOMMA, SQLiteParserALTER_, SQLiteParserANALYZE_, SQLiteParserATTACH_, SQLiteParserBEGIN_, SQLiteParserCOMMIT_, SQLiteParserCREATE_, SQLiteParserCROSS_, SQLiteParserDELETE_, SQLiteParserDETACH_, SQLiteParserDROP_, SQLiteParserEND_, SQLiteParserEXCEPT_, SQLiteParserEXPLAIN_, SQLiteParserGROUP_, SQLiteParserINNER_, SQLiteParserINSERT_, SQLiteParserINTERSECT_, SQLiteParserJOIN_, SQLiteParserLEFT_, SQLiteParserLIMIT_, SQLiteParserNATURAL_, SQLiteParserON_, SQLiteParserORDER_, SQLiteParserPRAGMA_, SQLiteParserREINDEX_, SQLiteParserRELEASE_, SQLiteParserREPLACE_, SQLiteParserRETURNING_, SQLiteParserROLLBACK_, SQLiteParserSAVEPOINT_, SQLiteParserSELECT_, SQLiteParserUNION_, SQLiteParserUPDATE_, SQLiteParserUSING_, SQLiteParserVACUUM_, SQLiteParserVALUES_, SQLiteParserWHERE_, SQLiteParserWITH_, SQLiteParserWINDOW_: default: } case 2: p.EnterOuterAlt(localctx, 2) p.SetState(1408) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 197, p.GetParserRuleContext()) == 1 { { p.SetState(1405) p.Schema_name() } { p.SetState(1406) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1410) p.Table_function_name() } { p.SetState(1411) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1412) p.expr(0) } p.SetState(1417) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1413) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1414) p.expr(0) } p.SetState(1419) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(1420) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1425) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 200, p.GetParserRuleContext()) == 1 { p.SetState(1422) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 199, p.GetParserRuleContext()) == 1 { { p.SetState(1421) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1424) p.Table_alias() } } else if p.HasError() { // JIM goto errorExit } case 3: p.EnterOuterAlt(localctx, 3) { p.SetState(1427) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1437) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 202, p.GetParserRuleContext()) { case 1: { p.SetState(1428) p.Table_or_subquery() } p.SetState(1433) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1429) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1430) p.Table_or_subquery() } p.SetState(1435) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } case 2: { p.SetState(1436) p.Join_clause() } case antlr.ATNInvalidAltNumber: goto errorExit } { p.SetState(1439) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 4: p.EnterOuterAlt(localctx, 4) { p.SetState(1441) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1442) p.Select_stmt() } { p.SetState(1443) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1448) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 204, p.GetParserRuleContext()) == 1 { p.SetState(1445) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 203, p.GetParserRuleContext()) == 1 { { p.SetState(1444) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1447) p.Table_alias() } } else if p.HasError() { // JIM goto errorExit } case antlr.ATNInvalidAltNumber: goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IResult_columnContext is an interface to support dynamic dispatch. type IResult_columnContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures STAR() antlr.TerminalNode Table_name() ITable_nameContext DOT() antlr.TerminalNode Expr() IExprContext Column_alias() IColumn_aliasContext AS_() antlr.TerminalNode // IsResult_columnContext differentiates from other interfaces. IsResult_columnContext() } type Result_columnContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyResult_columnContext() *Result_columnContext { var p = new(Result_columnContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_result_column return p } func InitEmptyResult_columnContext(p *Result_columnContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_result_column } func (*Result_columnContext) IsResult_columnContext() {} func NewResult_columnContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Result_columnContext { var p = new(Result_columnContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_result_column return p } func (s *Result_columnContext) GetParser() antlr.Parser { return s.parser } func (s *Result_columnContext) STAR() antlr.TerminalNode { return s.GetToken(SQLiteParserSTAR, 0) } func (s *Result_columnContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Result_columnContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Result_columnContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Result_columnContext) Column_alias() IColumn_aliasContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_aliasContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IColumn_aliasContext) } func (s *Result_columnContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *Result_columnContext) GetRuleContext() antlr.RuleContext { return s } func (s *Result_columnContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Result_columnContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterResult_column(s) } } func (s *Result_columnContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitResult_column(s) } } func (s *Result_columnContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitResult_column(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Result_column() (localctx IResult_columnContext) { localctx = NewResult_columnContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 100, SQLiteParserRULE_result_column) var _la int p.SetState(1464) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 208, p.GetParserRuleContext()) { case 1: p.EnterOuterAlt(localctx, 1) { p.SetState(1452) p.Match(SQLiteParserSTAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 2: p.EnterOuterAlt(localctx, 2) { p.SetState(1453) p.Table_name() } { p.SetState(1454) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1455) p.Match(SQLiteParserSTAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 3: p.EnterOuterAlt(localctx, 3) { p.SetState(1457) p.expr(0) } p.SetState(1462) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserAS_ || _la == SQLiteParserIDENTIFIER || _la == SQLiteParserSTRING_LITERAL { p.SetState(1459) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserAS_ { { p.SetState(1458) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } { p.SetState(1461) p.Column_alias() } } case antlr.ATNInvalidAltNumber: goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IJoin_operatorContext is an interface to support dynamic dispatch. type IJoin_operatorContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures COMMA() antlr.TerminalNode JOIN_() antlr.TerminalNode NATURAL_() antlr.TerminalNode LEFT_() antlr.TerminalNode INNER_() antlr.TerminalNode CROSS_() antlr.TerminalNode OUTER_() antlr.TerminalNode // IsJoin_operatorContext differentiates from other interfaces. IsJoin_operatorContext() } type Join_operatorContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyJoin_operatorContext() *Join_operatorContext { var p = new(Join_operatorContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_join_operator return p } func InitEmptyJoin_operatorContext(p *Join_operatorContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_join_operator } func (*Join_operatorContext) IsJoin_operatorContext() {} func NewJoin_operatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Join_operatorContext { var p = new(Join_operatorContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_join_operator return p } func (s *Join_operatorContext) GetParser() antlr.Parser { return s.parser } func (s *Join_operatorContext) COMMA() antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, 0) } func (s *Join_operatorContext) JOIN_() antlr.TerminalNode { return s.GetToken(SQLiteParserJOIN_, 0) } func (s *Join_operatorContext) NATURAL_() antlr.TerminalNode { return s.GetToken(SQLiteParserNATURAL_, 0) } func (s *Join_operatorContext) LEFT_() antlr.TerminalNode { return s.GetToken(SQLiteParserLEFT_, 0) } func (s *Join_operatorContext) INNER_() antlr.TerminalNode { return s.GetToken(SQLiteParserINNER_, 0) } func (s *Join_operatorContext) CROSS_() antlr.TerminalNode { return s.GetToken(SQLiteParserCROSS_, 0) } func (s *Join_operatorContext) OUTER_() antlr.TerminalNode { return s.GetToken(SQLiteParserOUTER_, 0) } func (s *Join_operatorContext) GetRuleContext() antlr.RuleContext { return s } func (s *Join_operatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Join_operatorContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterJoin_operator(s) } } func (s *Join_operatorContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitJoin_operator(s) } } func (s *Join_operatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitJoin_operator(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Join_operator() (localctx IJoin_operatorContext) { localctx = NewJoin_operatorContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 102, SQLiteParserRULE_join_operator) var _la int p.SetState(1479) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserCOMMA: p.EnterOuterAlt(localctx, 1) { p.SetState(1466) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserCROSS_, SQLiteParserINNER_, SQLiteParserJOIN_, SQLiteParserLEFT_, SQLiteParserNATURAL_: p.EnterOuterAlt(localctx, 2) p.SetState(1468) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserNATURAL_ { { p.SetState(1467) p.Match(SQLiteParserNATURAL_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } p.SetState(1476) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserLEFT_: { p.SetState(1470) p.Match(SQLiteParserLEFT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1472) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserOUTER_ { { p.SetState(1471) p.Match(SQLiteParserOUTER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } case SQLiteParserINNER_: { p.SetState(1474) p.Match(SQLiteParserINNER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserCROSS_: { p.SetState(1475) p.Match(SQLiteParserCROSS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserJOIN_: default: } { p.SetState(1478) p.Match(SQLiteParserJOIN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IJoin_constraintContext is an interface to support dynamic dispatch. type IJoin_constraintContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures ON_() antlr.TerminalNode Expr() IExprContext USING_() antlr.TerminalNode OPEN_PAR() antlr.TerminalNode AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext CLOSE_PAR() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsJoin_constraintContext differentiates from other interfaces. IsJoin_constraintContext() } type Join_constraintContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyJoin_constraintContext() *Join_constraintContext { var p = new(Join_constraintContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_join_constraint return p } func InitEmptyJoin_constraintContext(p *Join_constraintContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_join_constraint } func (*Join_constraintContext) IsJoin_constraintContext() {} func NewJoin_constraintContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Join_constraintContext { var p = new(Join_constraintContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_join_constraint return p } func (s *Join_constraintContext) GetParser() antlr.Parser { return s.parser } func (s *Join_constraintContext) ON_() antlr.TerminalNode { return s.GetToken(SQLiteParserON_, 0) } func (s *Join_constraintContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Join_constraintContext) USING_() antlr.TerminalNode { return s.GetToken(SQLiteParserUSING_, 0) } func (s *Join_constraintContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Join_constraintContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Join_constraintContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Join_constraintContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Join_constraintContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Join_constraintContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Join_constraintContext) GetRuleContext() antlr.RuleContext { return s } func (s *Join_constraintContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Join_constraintContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterJoin_constraint(s) } } func (s *Join_constraintContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitJoin_constraint(s) } } func (s *Join_constraintContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitJoin_constraint(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Join_constraint() (localctx IJoin_constraintContext) { localctx = NewJoin_constraintContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 104, SQLiteParserRULE_join_constraint) var _la int p.SetState(1495) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserON_: p.EnterOuterAlt(localctx, 1) { p.SetState(1481) p.Match(SQLiteParserON_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1482) p.expr(0) } case SQLiteParserUSING_: p.EnterOuterAlt(localctx, 2) { p.SetState(1483) p.Match(SQLiteParserUSING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1484) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1485) p.Column_name() } p.SetState(1490) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1486) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1487) p.Column_name() } p.SetState(1492) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(1493) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICompound_operatorContext is an interface to support dynamic dispatch. type ICompound_operatorContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures UNION_() antlr.TerminalNode ALL_() antlr.TerminalNode INTERSECT_() antlr.TerminalNode EXCEPT_() antlr.TerminalNode // IsCompound_operatorContext differentiates from other interfaces. IsCompound_operatorContext() } type Compound_operatorContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyCompound_operatorContext() *Compound_operatorContext { var p = new(Compound_operatorContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_compound_operator return p } func InitEmptyCompound_operatorContext(p *Compound_operatorContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_compound_operator } func (*Compound_operatorContext) IsCompound_operatorContext() {} func NewCompound_operatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Compound_operatorContext { var p = new(Compound_operatorContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_compound_operator return p } func (s *Compound_operatorContext) GetParser() antlr.Parser { return s.parser } func (s *Compound_operatorContext) UNION_() antlr.TerminalNode { return s.GetToken(SQLiteParserUNION_, 0) } func (s *Compound_operatorContext) ALL_() antlr.TerminalNode { return s.GetToken(SQLiteParserALL_, 0) } func (s *Compound_operatorContext) INTERSECT_() antlr.TerminalNode { return s.GetToken(SQLiteParserINTERSECT_, 0) } func (s *Compound_operatorContext) EXCEPT_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXCEPT_, 0) } func (s *Compound_operatorContext) GetRuleContext() antlr.RuleContext { return s } func (s *Compound_operatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Compound_operatorContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCompound_operator(s) } } func (s *Compound_operatorContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCompound_operator(s) } } func (s *Compound_operatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCompound_operator(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Compound_operator() (localctx ICompound_operatorContext) { localctx = NewCompound_operatorContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 106, SQLiteParserRULE_compound_operator) var _la int p.SetState(1503) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserUNION_: p.EnterOuterAlt(localctx, 1) { p.SetState(1497) p.Match(SQLiteParserUNION_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1499) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserALL_ { { p.SetState(1498) p.Match(SQLiteParserALL_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } case SQLiteParserINTERSECT_: p.EnterOuterAlt(localctx, 2) { p.SetState(1501) p.Match(SQLiteParserINTERSECT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserEXCEPT_: p.EnterOuterAlt(localctx, 3) { p.SetState(1502) p.Match(SQLiteParserEXCEPT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IUpdate_stmtContext is an interface to support dynamic dispatch. type IUpdate_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures UPDATE_() antlr.TerminalNode Qualified_table_name() IQualified_table_nameContext SET_() antlr.TerminalNode AllASSIGN() []antlr.TerminalNode ASSIGN(i int) antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext AllColumn_name_list() []IColumn_name_listContext Column_name_list(i int) IColumn_name_listContext With_clause() IWith_clauseContext OR_() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode FROM_() antlr.TerminalNode WHERE_() antlr.TerminalNode Returning_clause() IReturning_clauseContext ROLLBACK_() antlr.TerminalNode ABORT_() antlr.TerminalNode REPLACE_() antlr.TerminalNode FAIL_() antlr.TerminalNode IGNORE_() antlr.TerminalNode AllTable_or_subquery() []ITable_or_subqueryContext Table_or_subquery(i int) ITable_or_subqueryContext Join_clause() IJoin_clauseContext // IsUpdate_stmtContext differentiates from other interfaces. IsUpdate_stmtContext() } type Update_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyUpdate_stmtContext() *Update_stmtContext { var p = new(Update_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_update_stmt return p } func InitEmptyUpdate_stmtContext(p *Update_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_update_stmt } func (*Update_stmtContext) IsUpdate_stmtContext() {} func NewUpdate_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Update_stmtContext { var p = new(Update_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_update_stmt return p } func (s *Update_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Update_stmtContext) UPDATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserUPDATE_, 0) } func (s *Update_stmtContext) Qualified_table_name() IQualified_table_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IQualified_table_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IQualified_table_nameContext) } func (s *Update_stmtContext) SET_() antlr.TerminalNode { return s.GetToken(SQLiteParserSET_, 0) } func (s *Update_stmtContext) AllASSIGN() []antlr.TerminalNode { return s.GetTokens(SQLiteParserASSIGN) } func (s *Update_stmtContext) ASSIGN(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserASSIGN, i) } func (s *Update_stmtContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Update_stmtContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Update_stmtContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Update_stmtContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Update_stmtContext) AllColumn_name_list() []IColumn_name_listContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_name_listContext); ok { len++ } } tst := make([]IColumn_name_listContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_name_listContext); ok { tst[i] = t.(IColumn_name_listContext) i++ } } return tst } func (s *Update_stmtContext) Column_name_list(i int) IColumn_name_listContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_name_listContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_name_listContext) } func (s *Update_stmtContext) With_clause() IWith_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IWith_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IWith_clauseContext) } func (s *Update_stmtContext) OR_() antlr.TerminalNode { return s.GetToken(SQLiteParserOR_, 0) } func (s *Update_stmtContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Update_stmtContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Update_stmtContext) FROM_() antlr.TerminalNode { return s.GetToken(SQLiteParserFROM_, 0) } func (s *Update_stmtContext) WHERE_() antlr.TerminalNode { return s.GetToken(SQLiteParserWHERE_, 0) } func (s *Update_stmtContext) Returning_clause() IReturning_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IReturning_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IReturning_clauseContext) } func (s *Update_stmtContext) ROLLBACK_() antlr.TerminalNode { return s.GetToken(SQLiteParserROLLBACK_, 0) } func (s *Update_stmtContext) ABORT_() antlr.TerminalNode { return s.GetToken(SQLiteParserABORT_, 0) } func (s *Update_stmtContext) REPLACE_() antlr.TerminalNode { return s.GetToken(SQLiteParserREPLACE_, 0) } func (s *Update_stmtContext) FAIL_() antlr.TerminalNode { return s.GetToken(SQLiteParserFAIL_, 0) } func (s *Update_stmtContext) IGNORE_() antlr.TerminalNode { return s.GetToken(SQLiteParserIGNORE_, 0) } func (s *Update_stmtContext) AllTable_or_subquery() []ITable_or_subqueryContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ITable_or_subqueryContext); ok { len++ } } tst := make([]ITable_or_subqueryContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ITable_or_subqueryContext); ok { tst[i] = t.(ITable_or_subqueryContext) i++ } } return tst } func (s *Update_stmtContext) Table_or_subquery(i int) ITable_or_subqueryContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_or_subqueryContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ITable_or_subqueryContext) } func (s *Update_stmtContext) Join_clause() IJoin_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IJoin_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IJoin_clauseContext) } func (s *Update_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Update_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Update_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterUpdate_stmt(s) } } func (s *Update_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitUpdate_stmt(s) } } func (s *Update_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitUpdate_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Update_stmt() (localctx IUpdate_stmtContext) { localctx = NewUpdate_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 108, SQLiteParserRULE_update_stmt) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(1506) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWITH_ { { p.SetState(1505) p.With_clause() } } { p.SetState(1508) p.Match(SQLiteParserUPDATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1511) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 218, p.GetParserRuleContext()) == 1 { { p.SetState(1509) p.Match(SQLiteParserOR_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1510) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserABORT_ || ((int64((_la-72)) & ^0x3f) == 0 && ((int64(1)<<(_la-72))&19140298416325121) != 0)) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1513) p.Qualified_table_name() } { p.SetState(1514) p.Match(SQLiteParserSET_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1517) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 219, p.GetParserRuleContext()) { case 1: { p.SetState(1515) p.Column_name() } case 2: { p.SetState(1516) p.Column_name_list() } case antlr.ATNInvalidAltNumber: goto errorExit } { p.SetState(1519) p.Match(SQLiteParserASSIGN) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1520) p.expr(0) } p.SetState(1531) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1521) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1524) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 220, p.GetParserRuleContext()) { case 1: { p.SetState(1522) p.Column_name() } case 2: { p.SetState(1523) p.Column_name_list() } case antlr.ATNInvalidAltNumber: goto errorExit } { p.SetState(1526) p.Match(SQLiteParserASSIGN) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1527) p.expr(0) } p.SetState(1533) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } p.SetState(1546) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserFROM_ { { p.SetState(1534) p.Match(SQLiteParserFROM_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1544) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 223, p.GetParserRuleContext()) { case 1: { p.SetState(1535) p.Table_or_subquery() } p.SetState(1540) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1536) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1537) p.Table_or_subquery() } p.SetState(1542) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } case 2: { p.SetState(1543) p.Join_clause() } case antlr.ATNInvalidAltNumber: goto errorExit } } p.SetState(1550) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWHERE_ { { p.SetState(1548) p.Match(SQLiteParserWHERE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1549) p.expr(0) } } p.SetState(1553) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserRETURNING_ { { p.SetState(1552) p.Returning_clause() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IColumn_name_listContext is an interface to support dynamic dispatch. type IColumn_name_listContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures OPEN_PAR() antlr.TerminalNode AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext CLOSE_PAR() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsColumn_name_listContext differentiates from other interfaces. IsColumn_name_listContext() } type Column_name_listContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyColumn_name_listContext() *Column_name_listContext { var p = new(Column_name_listContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_column_name_list return p } func InitEmptyColumn_name_listContext(p *Column_name_listContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_column_name_list } func (*Column_name_listContext) IsColumn_name_listContext() {} func NewColumn_name_listContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Column_name_listContext { var p = new(Column_name_listContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_column_name_list return p } func (s *Column_name_listContext) GetParser() antlr.Parser { return s.parser } func (s *Column_name_listContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Column_name_listContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Column_name_listContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Column_name_listContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Column_name_listContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Column_name_listContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Column_name_listContext) GetRuleContext() antlr.RuleContext { return s } func (s *Column_name_listContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Column_name_listContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterColumn_name_list(s) } } func (s *Column_name_listContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitColumn_name_list(s) } } func (s *Column_name_listContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitColumn_name_list(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Column_name_list() (localctx IColumn_name_listContext) { localctx = NewColumn_name_listContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 110, SQLiteParserRULE_column_name_list) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1555) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1556) p.Column_name() } p.SetState(1561) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1557) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1558) p.Column_name() } p.SetState(1563) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } { p.SetState(1564) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IUpdate_stmt_limitedContext is an interface to support dynamic dispatch. type IUpdate_stmt_limitedContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures UPDATE_() antlr.TerminalNode Qualified_table_name() IQualified_table_nameContext SET_() antlr.TerminalNode AllASSIGN() []antlr.TerminalNode ASSIGN(i int) antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext AllColumn_name() []IColumn_nameContext Column_name(i int) IColumn_nameContext AllColumn_name_list() []IColumn_name_listContext Column_name_list(i int) IColumn_name_listContext With_clause() IWith_clauseContext OR_() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode WHERE_() antlr.TerminalNode Returning_clause() IReturning_clauseContext Limit_stmt() ILimit_stmtContext ROLLBACK_() antlr.TerminalNode ABORT_() antlr.TerminalNode REPLACE_() antlr.TerminalNode FAIL_() antlr.TerminalNode IGNORE_() antlr.TerminalNode Order_by_stmt() IOrder_by_stmtContext // IsUpdate_stmt_limitedContext differentiates from other interfaces. IsUpdate_stmt_limitedContext() } type Update_stmt_limitedContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyUpdate_stmt_limitedContext() *Update_stmt_limitedContext { var p = new(Update_stmt_limitedContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_update_stmt_limited return p } func InitEmptyUpdate_stmt_limitedContext(p *Update_stmt_limitedContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_update_stmt_limited } func (*Update_stmt_limitedContext) IsUpdate_stmt_limitedContext() {} func NewUpdate_stmt_limitedContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Update_stmt_limitedContext { var p = new(Update_stmt_limitedContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_update_stmt_limited return p } func (s *Update_stmt_limitedContext) GetParser() antlr.Parser { return s.parser } func (s *Update_stmt_limitedContext) UPDATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserUPDATE_, 0) } func (s *Update_stmt_limitedContext) Qualified_table_name() IQualified_table_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IQualified_table_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IQualified_table_nameContext) } func (s *Update_stmt_limitedContext) SET_() antlr.TerminalNode { return s.GetToken(SQLiteParserSET_, 0) } func (s *Update_stmt_limitedContext) AllASSIGN() []antlr.TerminalNode { return s.GetTokens(SQLiteParserASSIGN) } func (s *Update_stmt_limitedContext) ASSIGN(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserASSIGN, i) } func (s *Update_stmt_limitedContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Update_stmt_limitedContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Update_stmt_limitedContext) AllColumn_name() []IColumn_nameContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_nameContext); ok { len++ } } tst := make([]IColumn_nameContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_nameContext); ok { tst[i] = t.(IColumn_nameContext) i++ } } return tst } func (s *Update_stmt_limitedContext) Column_name(i int) IColumn_nameContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_nameContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_nameContext) } func (s *Update_stmt_limitedContext) AllColumn_name_list() []IColumn_name_listContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IColumn_name_listContext); ok { len++ } } tst := make([]IColumn_name_listContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IColumn_name_listContext); ok { tst[i] = t.(IColumn_name_listContext) i++ } } return tst } func (s *Update_stmt_limitedContext) Column_name_list(i int) IColumn_name_listContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_name_listContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IColumn_name_listContext) } func (s *Update_stmt_limitedContext) With_clause() IWith_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IWith_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IWith_clauseContext) } func (s *Update_stmt_limitedContext) OR_() antlr.TerminalNode { return s.GetToken(SQLiteParserOR_, 0) } func (s *Update_stmt_limitedContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Update_stmt_limitedContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Update_stmt_limitedContext) WHERE_() antlr.TerminalNode { return s.GetToken(SQLiteParserWHERE_, 0) } func (s *Update_stmt_limitedContext) Returning_clause() IReturning_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IReturning_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IReturning_clauseContext) } func (s *Update_stmt_limitedContext) Limit_stmt() ILimit_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ILimit_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ILimit_stmtContext) } func (s *Update_stmt_limitedContext) ROLLBACK_() antlr.TerminalNode { return s.GetToken(SQLiteParserROLLBACK_, 0) } func (s *Update_stmt_limitedContext) ABORT_() antlr.TerminalNode { return s.GetToken(SQLiteParserABORT_, 0) } func (s *Update_stmt_limitedContext) REPLACE_() antlr.TerminalNode { return s.GetToken(SQLiteParserREPLACE_, 0) } func (s *Update_stmt_limitedContext) FAIL_() antlr.TerminalNode { return s.GetToken(SQLiteParserFAIL_, 0) } func (s *Update_stmt_limitedContext) IGNORE_() antlr.TerminalNode { return s.GetToken(SQLiteParserIGNORE_, 0) } func (s *Update_stmt_limitedContext) Order_by_stmt() IOrder_by_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOrder_by_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IOrder_by_stmtContext) } func (s *Update_stmt_limitedContext) GetRuleContext() antlr.RuleContext { return s } func (s *Update_stmt_limitedContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Update_stmt_limitedContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterUpdate_stmt_limited(s) } } func (s *Update_stmt_limitedContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitUpdate_stmt_limited(s) } } func (s *Update_stmt_limitedContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitUpdate_stmt_limited(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Update_stmt_limited() (localctx IUpdate_stmt_limitedContext) { localctx = NewUpdate_stmt_limitedContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 112, SQLiteParserRULE_update_stmt_limited) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(1567) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWITH_ { { p.SetState(1566) p.With_clause() } } { p.SetState(1569) p.Match(SQLiteParserUPDATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1572) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 229, p.GetParserRuleContext()) == 1 { { p.SetState(1570) p.Match(SQLiteParserOR_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1571) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserABORT_ || ((int64((_la-72)) & ^0x3f) == 0 && ((int64(1)<<(_la-72))&19140298416325121) != 0)) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1574) p.Qualified_table_name() } { p.SetState(1575) p.Match(SQLiteParserSET_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1578) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 230, p.GetParserRuleContext()) { case 1: { p.SetState(1576) p.Column_name() } case 2: { p.SetState(1577) p.Column_name_list() } case antlr.ATNInvalidAltNumber: goto errorExit } { p.SetState(1580) p.Match(SQLiteParserASSIGN) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1581) p.expr(0) } p.SetState(1592) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1582) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1585) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 231, p.GetParserRuleContext()) { case 1: { p.SetState(1583) p.Column_name() } case 2: { p.SetState(1584) p.Column_name_list() } case antlr.ATNInvalidAltNumber: goto errorExit } { p.SetState(1587) p.Match(SQLiteParserASSIGN) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1588) p.expr(0) } p.SetState(1594) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } p.SetState(1597) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserWHERE_ { { p.SetState(1595) p.Match(SQLiteParserWHERE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1596) p.expr(0) } } p.SetState(1600) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserRETURNING_ { { p.SetState(1599) p.Returning_clause() } } p.SetState(1606) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserLIMIT_ || _la == SQLiteParserORDER_ { p.SetState(1603) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserORDER_ { { p.SetState(1602) p.Order_by_stmt() } } { p.SetState(1605) p.Limit_stmt() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IQualified_table_nameContext is an interface to support dynamic dispatch. type IQualified_table_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Table_name() ITable_nameContext Schema_name() ISchema_nameContext DOT() antlr.TerminalNode AS_() antlr.TerminalNode Alias() IAliasContext INDEXED_() antlr.TerminalNode BY_() antlr.TerminalNode Index_name() IIndex_nameContext NOT_() antlr.TerminalNode // IsQualified_table_nameContext differentiates from other interfaces. IsQualified_table_nameContext() } type Qualified_table_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyQualified_table_nameContext() *Qualified_table_nameContext { var p = new(Qualified_table_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_qualified_table_name return p } func InitEmptyQualified_table_nameContext(p *Qualified_table_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_qualified_table_name } func (*Qualified_table_nameContext) IsQualified_table_nameContext() {} func NewQualified_table_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Qualified_table_nameContext { var p = new(Qualified_table_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_qualified_table_name return p } func (s *Qualified_table_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Qualified_table_nameContext) Table_name() ITable_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ITable_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ITable_nameContext) } func (s *Qualified_table_nameContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Qualified_table_nameContext) DOT() antlr.TerminalNode { return s.GetToken(SQLiteParserDOT, 0) } func (s *Qualified_table_nameContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *Qualified_table_nameContext) Alias() IAliasContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAliasContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAliasContext) } func (s *Qualified_table_nameContext) INDEXED_() antlr.TerminalNode { return s.GetToken(SQLiteParserINDEXED_, 0) } func (s *Qualified_table_nameContext) BY_() antlr.TerminalNode { return s.GetToken(SQLiteParserBY_, 0) } func (s *Qualified_table_nameContext) Index_name() IIndex_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IIndex_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IIndex_nameContext) } func (s *Qualified_table_nameContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *Qualified_table_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Qualified_table_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Qualified_table_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterQualified_table_name(s) } } func (s *Qualified_table_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitQualified_table_name(s) } } func (s *Qualified_table_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitQualified_table_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Qualified_table_name() (localctx IQualified_table_nameContext) { localctx = NewQualified_table_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 114, SQLiteParserRULE_qualified_table_name) var _la int p.EnterOuterAlt(localctx, 1) p.SetState(1611) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 237, p.GetParserRuleContext()) == 1 { { p.SetState(1608) p.Schema_name() } { p.SetState(1609) p.Match(SQLiteParserDOT) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1613) p.Table_name() } p.SetState(1616) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserAS_ { { p.SetState(1614) p.Match(SQLiteParserAS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1615) p.Alias() } } p.SetState(1623) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserINDEXED_: { p.SetState(1618) p.Match(SQLiteParserINDEXED_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1619) p.Match(SQLiteParserBY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1620) p.Index_name() } case SQLiteParserNOT_: { p.SetState(1621) p.Match(SQLiteParserNOT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1622) p.Match(SQLiteParserINDEXED_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserEOF, SQLiteParserSCOL, SQLiteParserALTER_, SQLiteParserANALYZE_, SQLiteParserATTACH_, SQLiteParserBEGIN_, SQLiteParserCOMMIT_, SQLiteParserCREATE_, SQLiteParserDELETE_, SQLiteParserDETACH_, SQLiteParserDROP_, SQLiteParserEND_, SQLiteParserEXPLAIN_, SQLiteParserINSERT_, SQLiteParserLIMIT_, SQLiteParserORDER_, SQLiteParserPRAGMA_, SQLiteParserREINDEX_, SQLiteParserRELEASE_, SQLiteParserREPLACE_, SQLiteParserRETURNING_, SQLiteParserROLLBACK_, SQLiteParserSAVEPOINT_, SQLiteParserSELECT_, SQLiteParserSET_, SQLiteParserUPDATE_, SQLiteParserVACUUM_, SQLiteParserVALUES_, SQLiteParserWHERE_, SQLiteParserWITH_: default: } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IVacuum_stmtContext is an interface to support dynamic dispatch. type IVacuum_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures VACUUM_() antlr.TerminalNode Schema_name() ISchema_nameContext INTO_() antlr.TerminalNode Filename() IFilenameContext // IsVacuum_stmtContext differentiates from other interfaces. IsVacuum_stmtContext() } type Vacuum_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyVacuum_stmtContext() *Vacuum_stmtContext { var p = new(Vacuum_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_vacuum_stmt return p } func InitEmptyVacuum_stmtContext(p *Vacuum_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_vacuum_stmt } func (*Vacuum_stmtContext) IsVacuum_stmtContext() {} func NewVacuum_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Vacuum_stmtContext { var p = new(Vacuum_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_vacuum_stmt return p } func (s *Vacuum_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Vacuum_stmtContext) VACUUM_() antlr.TerminalNode { return s.GetToken(SQLiteParserVACUUM_, 0) } func (s *Vacuum_stmtContext) Schema_name() ISchema_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISchema_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISchema_nameContext) } func (s *Vacuum_stmtContext) INTO_() antlr.TerminalNode { return s.GetToken(SQLiteParserINTO_, 0) } func (s *Vacuum_stmtContext) Filename() IFilenameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFilenameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFilenameContext) } func (s *Vacuum_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Vacuum_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Vacuum_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterVacuum_stmt(s) } } func (s *Vacuum_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitVacuum_stmt(s) } } func (s *Vacuum_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitVacuum_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Vacuum_stmt() (localctx IVacuum_stmtContext) { localctx = NewVacuum_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 116, SQLiteParserRULE_vacuum_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1625) p.Match(SQLiteParserVACUUM_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1627) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 240, p.GetParserRuleContext()) == 1 { { p.SetState(1626) p.Schema_name() } } else if p.HasError() { // JIM goto errorExit } p.SetState(1631) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserINTO_ { { p.SetState(1629) p.Match(SQLiteParserINTO_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1630) p.Filename() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IFilter_clauseContext is an interface to support dynamic dispatch. type IFilter_clauseContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures FILTER_() antlr.TerminalNode OPEN_PAR() antlr.TerminalNode WHERE_() antlr.TerminalNode Expr() IExprContext CLOSE_PAR() antlr.TerminalNode // IsFilter_clauseContext differentiates from other interfaces. IsFilter_clauseContext() } type Filter_clauseContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyFilter_clauseContext() *Filter_clauseContext { var p = new(Filter_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_filter_clause return p } func InitEmptyFilter_clauseContext(p *Filter_clauseContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_filter_clause } func (*Filter_clauseContext) IsFilter_clauseContext() {} func NewFilter_clauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Filter_clauseContext { var p = new(Filter_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_filter_clause return p } func (s *Filter_clauseContext) GetParser() antlr.Parser { return s.parser } func (s *Filter_clauseContext) FILTER_() antlr.TerminalNode { return s.GetToken(SQLiteParserFILTER_, 0) } func (s *Filter_clauseContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Filter_clauseContext) WHERE_() antlr.TerminalNode { return s.GetToken(SQLiteParserWHERE_, 0) } func (s *Filter_clauseContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Filter_clauseContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Filter_clauseContext) GetRuleContext() antlr.RuleContext { return s } func (s *Filter_clauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Filter_clauseContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterFilter_clause(s) } } func (s *Filter_clauseContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitFilter_clause(s) } } func (s *Filter_clauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitFilter_clause(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Filter_clause() (localctx IFilter_clauseContext) { localctx = NewFilter_clauseContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 118, SQLiteParserRULE_filter_clause) p.EnterOuterAlt(localctx, 1) { p.SetState(1633) p.Match(SQLiteParserFILTER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1634) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1635) p.Match(SQLiteParserWHERE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1636) p.expr(0) } { p.SetState(1637) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IWindow_defnContext is an interface to support dynamic dispatch. type IWindow_defnContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures OPEN_PAR() antlr.TerminalNode CLOSE_PAR() antlr.TerminalNode ORDER_() antlr.TerminalNode AllBY_() []antlr.TerminalNode BY_(i int) antlr.TerminalNode AllOrdering_term() []IOrdering_termContext Ordering_term(i int) IOrdering_termContext Base_window_name() IBase_window_nameContext PARTITION_() antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext Frame_spec() IFrame_specContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsWindow_defnContext differentiates from other interfaces. IsWindow_defnContext() } type Window_defnContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyWindow_defnContext() *Window_defnContext { var p = new(Window_defnContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_window_defn return p } func InitEmptyWindow_defnContext(p *Window_defnContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_window_defn } func (*Window_defnContext) IsWindow_defnContext() {} func NewWindow_defnContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Window_defnContext { var p = new(Window_defnContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_window_defn return p } func (s *Window_defnContext) GetParser() antlr.Parser { return s.parser } func (s *Window_defnContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Window_defnContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Window_defnContext) ORDER_() antlr.TerminalNode { return s.GetToken(SQLiteParserORDER_, 0) } func (s *Window_defnContext) AllBY_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserBY_) } func (s *Window_defnContext) BY_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserBY_, i) } func (s *Window_defnContext) AllOrdering_term() []IOrdering_termContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IOrdering_termContext); ok { len++ } } tst := make([]IOrdering_termContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IOrdering_termContext); ok { tst[i] = t.(IOrdering_termContext) i++ } } return tst } func (s *Window_defnContext) Ordering_term(i int) IOrdering_termContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOrdering_termContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IOrdering_termContext) } func (s *Window_defnContext) Base_window_name() IBase_window_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IBase_window_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IBase_window_nameContext) } func (s *Window_defnContext) PARTITION_() antlr.TerminalNode { return s.GetToken(SQLiteParserPARTITION_, 0) } func (s *Window_defnContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Window_defnContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Window_defnContext) Frame_spec() IFrame_specContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFrame_specContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFrame_specContext) } func (s *Window_defnContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Window_defnContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Window_defnContext) GetRuleContext() antlr.RuleContext { return s } func (s *Window_defnContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Window_defnContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterWindow_defn(s) } } func (s *Window_defnContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitWindow_defn(s) } } func (s *Window_defnContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitWindow_defn(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Window_defn() (localctx IWindow_defnContext) { localctx = NewWindow_defnContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 120, SQLiteParserRULE_window_defn) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1639) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1641) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 242, p.GetParserRuleContext()) == 1 { { p.SetState(1640) p.Base_window_name() } } else if p.HasError() { // JIM goto errorExit } p.SetState(1653) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserPARTITION_ { { p.SetState(1643) p.Match(SQLiteParserPARTITION_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1644) p.Match(SQLiteParserBY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1645) p.expr(0) } p.SetState(1650) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1646) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1647) p.expr(0) } p.SetState(1652) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } } { p.SetState(1655) p.Match(SQLiteParserORDER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1656) p.Match(SQLiteParserBY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1657) p.Ordering_term() } p.SetState(1662) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1658) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1659) p.Ordering_term() } p.SetState(1664) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } p.SetState(1666) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if (int64((_la-128)) & ^0x3f) == 0 && ((int64(1)<<(_la-128))&2251799880794113) != 0 { { p.SetState(1665) p.Frame_spec() } } { p.SetState(1668) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IOver_clauseContext is an interface to support dynamic dispatch. type IOver_clauseContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures OVER_() antlr.TerminalNode Window_name() IWindow_nameContext OPEN_PAR() antlr.TerminalNode CLOSE_PAR() antlr.TerminalNode Base_window_name() IBase_window_nameContext PARTITION_() antlr.TerminalNode AllBY_() []antlr.TerminalNode BY_(i int) antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext ORDER_() antlr.TerminalNode AllOrdering_term() []IOrdering_termContext Ordering_term(i int) IOrdering_termContext Frame_spec() IFrame_specContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsOver_clauseContext differentiates from other interfaces. IsOver_clauseContext() } type Over_clauseContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyOver_clauseContext() *Over_clauseContext { var p = new(Over_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_over_clause return p } func InitEmptyOver_clauseContext(p *Over_clauseContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_over_clause } func (*Over_clauseContext) IsOver_clauseContext() {} func NewOver_clauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Over_clauseContext { var p = new(Over_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_over_clause return p } func (s *Over_clauseContext) GetParser() antlr.Parser { return s.parser } func (s *Over_clauseContext) OVER_() antlr.TerminalNode { return s.GetToken(SQLiteParserOVER_, 0) } func (s *Over_clauseContext) Window_name() IWindow_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IWindow_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IWindow_nameContext) } func (s *Over_clauseContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Over_clauseContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Over_clauseContext) Base_window_name() IBase_window_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IBase_window_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IBase_window_nameContext) } func (s *Over_clauseContext) PARTITION_() antlr.TerminalNode { return s.GetToken(SQLiteParserPARTITION_, 0) } func (s *Over_clauseContext) AllBY_() []antlr.TerminalNode { return s.GetTokens(SQLiteParserBY_) } func (s *Over_clauseContext) BY_(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserBY_, i) } func (s *Over_clauseContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Over_clauseContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Over_clauseContext) ORDER_() antlr.TerminalNode { return s.GetToken(SQLiteParserORDER_, 0) } func (s *Over_clauseContext) AllOrdering_term() []IOrdering_termContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IOrdering_termContext); ok { len++ } } tst := make([]IOrdering_termContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IOrdering_termContext); ok { tst[i] = t.(IOrdering_termContext) i++ } } return tst } func (s *Over_clauseContext) Ordering_term(i int) IOrdering_termContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOrdering_termContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IOrdering_termContext) } func (s *Over_clauseContext) Frame_spec() IFrame_specContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFrame_specContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFrame_specContext) } func (s *Over_clauseContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Over_clauseContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Over_clauseContext) GetRuleContext() antlr.RuleContext { return s } func (s *Over_clauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Over_clauseContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterOver_clause(s) } } func (s *Over_clauseContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitOver_clause(s) } } func (s *Over_clauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitOver_clause(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Over_clause() (localctx IOver_clauseContext) { localctx = NewOver_clauseContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 122, SQLiteParserRULE_over_clause) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1670) p.Match(SQLiteParserOVER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1704) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 253, p.GetParserRuleContext()) { case 1: { p.SetState(1671) p.Window_name() } case 2: { p.SetState(1672) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1674) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 247, p.GetParserRuleContext()) == 1 { { p.SetState(1673) p.Base_window_name() } } else if p.HasError() { // JIM goto errorExit } p.SetState(1686) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserPARTITION_ { { p.SetState(1676) p.Match(SQLiteParserPARTITION_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1677) p.Match(SQLiteParserBY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1678) p.expr(0) } p.SetState(1683) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1679) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1680) p.expr(0) } p.SetState(1685) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } } p.SetState(1698) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserORDER_ { { p.SetState(1688) p.Match(SQLiteParserORDER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1689) p.Match(SQLiteParserBY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1690) p.Ordering_term() } p.SetState(1695) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1691) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1692) p.Ordering_term() } p.SetState(1697) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } } p.SetState(1701) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if (int64((_la-128)) & ^0x3f) == 0 && ((int64(1)<<(_la-128))&2251799880794113) != 0 { { p.SetState(1700) p.Frame_spec() } } { p.SetState(1703) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case antlr.ATNInvalidAltNumber: goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IFrame_specContext is an interface to support dynamic dispatch. type IFrame_specContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Frame_clause() IFrame_clauseContext EXCLUDE_() antlr.TerminalNode NO_() antlr.TerminalNode OTHERS_() antlr.TerminalNode CURRENT_() antlr.TerminalNode ROW_() antlr.TerminalNode GROUP_() antlr.TerminalNode TIES_() antlr.TerminalNode // IsFrame_specContext differentiates from other interfaces. IsFrame_specContext() } type Frame_specContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyFrame_specContext() *Frame_specContext { var p = new(Frame_specContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_frame_spec return p } func InitEmptyFrame_specContext(p *Frame_specContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_frame_spec } func (*Frame_specContext) IsFrame_specContext() {} func NewFrame_specContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Frame_specContext { var p = new(Frame_specContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_frame_spec return p } func (s *Frame_specContext) GetParser() antlr.Parser { return s.parser } func (s *Frame_specContext) Frame_clause() IFrame_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFrame_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFrame_clauseContext) } func (s *Frame_specContext) EXCLUDE_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXCLUDE_, 0) } func (s *Frame_specContext) NO_() antlr.TerminalNode { return s.GetToken(SQLiteParserNO_, 0) } func (s *Frame_specContext) OTHERS_() antlr.TerminalNode { return s.GetToken(SQLiteParserOTHERS_, 0) } func (s *Frame_specContext) CURRENT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCURRENT_, 0) } func (s *Frame_specContext) ROW_() antlr.TerminalNode { return s.GetToken(SQLiteParserROW_, 0) } func (s *Frame_specContext) GROUP_() antlr.TerminalNode { return s.GetToken(SQLiteParserGROUP_, 0) } func (s *Frame_specContext) TIES_() antlr.TerminalNode { return s.GetToken(SQLiteParserTIES_, 0) } func (s *Frame_specContext) GetRuleContext() antlr.RuleContext { return s } func (s *Frame_specContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Frame_specContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterFrame_spec(s) } } func (s *Frame_specContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitFrame_spec(s) } } func (s *Frame_specContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitFrame_spec(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Frame_spec() (localctx IFrame_specContext) { localctx = NewFrame_specContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 124, SQLiteParserRULE_frame_spec) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1706) p.Frame_clause() } p.SetState(1716) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserEXCLUDE_ { { p.SetState(1707) p.Match(SQLiteParserEXCLUDE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1714) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserNO_: { p.SetState(1708) p.Match(SQLiteParserNO_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1709) p.Match(SQLiteParserOTHERS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserCURRENT_: { p.SetState(1710) p.Match(SQLiteParserCURRENT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1711) p.Match(SQLiteParserROW_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserGROUP_: { p.SetState(1712) p.Match(SQLiteParserGROUP_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserTIES_: { p.SetState(1713) p.Match(SQLiteParserTIES_) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IFrame_clauseContext is an interface to support dynamic dispatch. type IFrame_clauseContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures RANGE_() antlr.TerminalNode ROWS_() antlr.TerminalNode GROUPS_() antlr.TerminalNode Frame_single() IFrame_singleContext BETWEEN_() antlr.TerminalNode Frame_left() IFrame_leftContext AND_() antlr.TerminalNode Frame_right() IFrame_rightContext // IsFrame_clauseContext differentiates from other interfaces. IsFrame_clauseContext() } type Frame_clauseContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyFrame_clauseContext() *Frame_clauseContext { var p = new(Frame_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_frame_clause return p } func InitEmptyFrame_clauseContext(p *Frame_clauseContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_frame_clause } func (*Frame_clauseContext) IsFrame_clauseContext() {} func NewFrame_clauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Frame_clauseContext { var p = new(Frame_clauseContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_frame_clause return p } func (s *Frame_clauseContext) GetParser() antlr.Parser { return s.parser } func (s *Frame_clauseContext) RANGE_() antlr.TerminalNode { return s.GetToken(SQLiteParserRANGE_, 0) } func (s *Frame_clauseContext) ROWS_() antlr.TerminalNode { return s.GetToken(SQLiteParserROWS_, 0) } func (s *Frame_clauseContext) GROUPS_() antlr.TerminalNode { return s.GetToken(SQLiteParserGROUPS_, 0) } func (s *Frame_clauseContext) Frame_single() IFrame_singleContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFrame_singleContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFrame_singleContext) } func (s *Frame_clauseContext) BETWEEN_() antlr.TerminalNode { return s.GetToken(SQLiteParserBETWEEN_, 0) } func (s *Frame_clauseContext) Frame_left() IFrame_leftContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFrame_leftContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFrame_leftContext) } func (s *Frame_clauseContext) AND_() antlr.TerminalNode { return s.GetToken(SQLiteParserAND_, 0) } func (s *Frame_clauseContext) Frame_right() IFrame_rightContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFrame_rightContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFrame_rightContext) } func (s *Frame_clauseContext) GetRuleContext() antlr.RuleContext { return s } func (s *Frame_clauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Frame_clauseContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterFrame_clause(s) } } func (s *Frame_clauseContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitFrame_clause(s) } } func (s *Frame_clauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitFrame_clause(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Frame_clause() (localctx IFrame_clauseContext) { localctx = NewFrame_clauseContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 126, SQLiteParserRULE_frame_clause) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1718) _la = p.GetTokenStream().LA(1) if !((int64((_la-128)) & ^0x3f) == 0 && ((int64(1)<<(_la-128))&2251799880794113) != 0) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } p.SetState(1725) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 256, p.GetParserRuleContext()) { case 1: { p.SetState(1719) p.Frame_single() } case 2: { p.SetState(1720) p.Match(SQLiteParserBETWEEN_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1721) p.Frame_left() } { p.SetState(1722) p.Match(SQLiteParserAND_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1723) p.Frame_right() } case antlr.ATNInvalidAltNumber: goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ISimple_function_invocationContext is an interface to support dynamic dispatch. type ISimple_function_invocationContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Simple_func() ISimple_funcContext OPEN_PAR() antlr.TerminalNode CLOSE_PAR() antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext STAR() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsSimple_function_invocationContext differentiates from other interfaces. IsSimple_function_invocationContext() } type Simple_function_invocationContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptySimple_function_invocationContext() *Simple_function_invocationContext { var p = new(Simple_function_invocationContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_simple_function_invocation return p } func InitEmptySimple_function_invocationContext(p *Simple_function_invocationContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_simple_function_invocation } func (*Simple_function_invocationContext) IsSimple_function_invocationContext() {} func NewSimple_function_invocationContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Simple_function_invocationContext { var p = new(Simple_function_invocationContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_simple_function_invocation return p } func (s *Simple_function_invocationContext) GetParser() antlr.Parser { return s.parser } func (s *Simple_function_invocationContext) Simple_func() ISimple_funcContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISimple_funcContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISimple_funcContext) } func (s *Simple_function_invocationContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Simple_function_invocationContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Simple_function_invocationContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Simple_function_invocationContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Simple_function_invocationContext) STAR() antlr.TerminalNode { return s.GetToken(SQLiteParserSTAR, 0) } func (s *Simple_function_invocationContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Simple_function_invocationContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Simple_function_invocationContext) GetRuleContext() antlr.RuleContext { return s } func (s *Simple_function_invocationContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Simple_function_invocationContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterSimple_function_invocation(s) } } func (s *Simple_function_invocationContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitSimple_function_invocation(s) } } func (s *Simple_function_invocationContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitSimple_function_invocation(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Simple_function_invocation() (localctx ISimple_function_invocationContext) { localctx = NewSimple_function_invocationContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 128, SQLiteParserRULE_simple_function_invocation) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1727) p.Simple_func() } { p.SetState(1728) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1738) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserOPEN_PAR, SQLiteParserPLUS, SQLiteParserMINUS, SQLiteParserTILDE, SQLiteParserABORT_, SQLiteParserACTION_, SQLiteParserADD_, SQLiteParserAFTER_, SQLiteParserALL_, SQLiteParserALTER_, SQLiteParserANALYZE_, SQLiteParserAND_, SQLiteParserAS_, SQLiteParserASC_, SQLiteParserATTACH_, SQLiteParserAUTOINCREMENT_, SQLiteParserBEFORE_, SQLiteParserBEGIN_, SQLiteParserBETWEEN_, SQLiteParserBY_, SQLiteParserCASCADE_, SQLiteParserCASE_, SQLiteParserCAST_, SQLiteParserCHECK_, SQLiteParserCOLLATE_, SQLiteParserCOLUMN_, SQLiteParserCOMMIT_, SQLiteParserCONFLICT_, SQLiteParserCONSTRAINT_, SQLiteParserCREATE_, SQLiteParserCROSS_, SQLiteParserCURRENT_DATE_, SQLiteParserCURRENT_TIME_, SQLiteParserCURRENT_TIMESTAMP_, SQLiteParserDATABASE_, SQLiteParserDEFAULT_, SQLiteParserDEFERRABLE_, SQLiteParserDEFERRED_, SQLiteParserDELETE_, SQLiteParserDESC_, SQLiteParserDETACH_, SQLiteParserDISTINCT_, SQLiteParserDROP_, SQLiteParserEACH_, SQLiteParserELSE_, SQLiteParserEND_, SQLiteParserESCAPE_, SQLiteParserEXCEPT_, SQLiteParserEXCLUSIVE_, SQLiteParserEXISTS_, SQLiteParserEXPLAIN_, SQLiteParserFAIL_, SQLiteParserFOR_, SQLiteParserFOREIGN_, SQLiteParserFROM_, SQLiteParserFULL_, SQLiteParserGLOB_, SQLiteParserGROUP_, SQLiteParserHAVING_, SQLiteParserIF_, SQLiteParserIGNORE_, SQLiteParserIMMEDIATE_, SQLiteParserIN_, SQLiteParserINDEX_, SQLiteParserINDEXED_, SQLiteParserINITIALLY_, SQLiteParserINNER_, SQLiteParserINSERT_, SQLiteParserINSTEAD_, SQLiteParserINTERSECT_, SQLiteParserINTO_, SQLiteParserIS_, SQLiteParserISNULL_, SQLiteParserJOIN_, SQLiteParserKEY_, SQLiteParserLEFT_, SQLiteParserLIKE_, SQLiteParserLIMIT_, SQLiteParserMATCH_, SQLiteParserNATURAL_, SQLiteParserNO_, SQLiteParserNOT_, SQLiteParserNOTNULL_, SQLiteParserNULL_, SQLiteParserOF_, SQLiteParserOFFSET_, SQLiteParserON_, SQLiteParserOR_, SQLiteParserORDER_, SQLiteParserOUTER_, SQLiteParserPLAN_, SQLiteParserPRAGMA_, SQLiteParserPRIMARY_, SQLiteParserQUERY_, SQLiteParserRAISE_, SQLiteParserRECURSIVE_, SQLiteParserREFERENCES_, SQLiteParserREGEXP_, SQLiteParserREINDEX_, SQLiteParserRELEASE_, SQLiteParserRENAME_, SQLiteParserREPLACE_, SQLiteParserRESTRICT_, SQLiteParserRIGHT_, SQLiteParserROLLBACK_, SQLiteParserROW_, SQLiteParserROWS_, SQLiteParserSAVEPOINT_, SQLiteParserSELECT_, SQLiteParserSET_, SQLiteParserTABLE_, SQLiteParserTEMP_, SQLiteParserTEMPORARY_, SQLiteParserTHEN_, SQLiteParserTO_, SQLiteParserTRANSACTION_, SQLiteParserTRIGGER_, SQLiteParserUNION_, SQLiteParserUNIQUE_, SQLiteParserUPDATE_, SQLiteParserUSING_, SQLiteParserVACUUM_, SQLiteParserVALUES_, SQLiteParserVIEW_, SQLiteParserVIRTUAL_, SQLiteParserWHEN_, SQLiteParserWHERE_, SQLiteParserWITH_, SQLiteParserWITHOUT_, SQLiteParserFIRST_VALUE_, SQLiteParserOVER_, SQLiteParserPARTITION_, SQLiteParserRANGE_, SQLiteParserPRECEDING_, SQLiteParserUNBOUNDED_, SQLiteParserCURRENT_, SQLiteParserFOLLOWING_, SQLiteParserCUME_DIST_, SQLiteParserDENSE_RANK_, SQLiteParserLAG_, SQLiteParserLAST_VALUE_, SQLiteParserLEAD_, SQLiteParserNTH_VALUE_, SQLiteParserNTILE_, SQLiteParserPERCENT_RANK_, SQLiteParserRANK_, SQLiteParserROW_NUMBER_, SQLiteParserGENERATED_, SQLiteParserALWAYS_, SQLiteParserSTORED_, SQLiteParserTRUE_, SQLiteParserFALSE_, SQLiteParserWINDOW_, SQLiteParserNULLS_, SQLiteParserFIRST_, SQLiteParserLAST_, SQLiteParserFILTER_, SQLiteParserGROUPS_, SQLiteParserEXCLUDE_, SQLiteParserIDENTIFIER, SQLiteParserNUMERIC_LITERAL, SQLiteParserBIND_PARAMETER, SQLiteParserSTRING_LITERAL, SQLiteParserBLOB_LITERAL: { p.SetState(1729) p.expr(0) } p.SetState(1734) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1730) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1731) p.expr(0) } p.SetState(1736) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } case SQLiteParserSTAR: { p.SetState(1737) p.Match(SQLiteParserSTAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } { p.SetState(1740) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IAggregate_function_invocationContext is an interface to support dynamic dispatch. type IAggregate_function_invocationContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Aggregate_func() IAggregate_funcContext OPEN_PAR() antlr.TerminalNode CLOSE_PAR() antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext STAR() antlr.TerminalNode Filter_clause() IFilter_clauseContext DISTINCT_() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsAggregate_function_invocationContext differentiates from other interfaces. IsAggregate_function_invocationContext() } type Aggregate_function_invocationContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyAggregate_function_invocationContext() *Aggregate_function_invocationContext { var p = new(Aggregate_function_invocationContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_aggregate_function_invocation return p } func InitEmptyAggregate_function_invocationContext(p *Aggregate_function_invocationContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_aggregate_function_invocation } func (*Aggregate_function_invocationContext) IsAggregate_function_invocationContext() {} func NewAggregate_function_invocationContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Aggregate_function_invocationContext { var p = new(Aggregate_function_invocationContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_aggregate_function_invocation return p } func (s *Aggregate_function_invocationContext) GetParser() antlr.Parser { return s.parser } func (s *Aggregate_function_invocationContext) Aggregate_func() IAggregate_funcContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAggregate_funcContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAggregate_funcContext) } func (s *Aggregate_function_invocationContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Aggregate_function_invocationContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Aggregate_function_invocationContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Aggregate_function_invocationContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Aggregate_function_invocationContext) STAR() antlr.TerminalNode { return s.GetToken(SQLiteParserSTAR, 0) } func (s *Aggregate_function_invocationContext) Filter_clause() IFilter_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFilter_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFilter_clauseContext) } func (s *Aggregate_function_invocationContext) DISTINCT_() antlr.TerminalNode { return s.GetToken(SQLiteParserDISTINCT_, 0) } func (s *Aggregate_function_invocationContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Aggregate_function_invocationContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Aggregate_function_invocationContext) GetRuleContext() antlr.RuleContext { return s } func (s *Aggregate_function_invocationContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Aggregate_function_invocationContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterAggregate_function_invocation(s) } } func (s *Aggregate_function_invocationContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitAggregate_function_invocation(s) } } func (s *Aggregate_function_invocationContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitAggregate_function_invocation(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Aggregate_function_invocation() (localctx IAggregate_function_invocationContext) { localctx = NewAggregate_function_invocationContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 130, SQLiteParserRULE_aggregate_function_invocation) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1742) p.Aggregate_func() } { p.SetState(1743) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1756) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserOPEN_PAR, SQLiteParserPLUS, SQLiteParserMINUS, SQLiteParserTILDE, SQLiteParserABORT_, SQLiteParserACTION_, SQLiteParserADD_, SQLiteParserAFTER_, SQLiteParserALL_, SQLiteParserALTER_, SQLiteParserANALYZE_, SQLiteParserAND_, SQLiteParserAS_, SQLiteParserASC_, SQLiteParserATTACH_, SQLiteParserAUTOINCREMENT_, SQLiteParserBEFORE_, SQLiteParserBEGIN_, SQLiteParserBETWEEN_, SQLiteParserBY_, SQLiteParserCASCADE_, SQLiteParserCASE_, SQLiteParserCAST_, SQLiteParserCHECK_, SQLiteParserCOLLATE_, SQLiteParserCOLUMN_, SQLiteParserCOMMIT_, SQLiteParserCONFLICT_, SQLiteParserCONSTRAINT_, SQLiteParserCREATE_, SQLiteParserCROSS_, SQLiteParserCURRENT_DATE_, SQLiteParserCURRENT_TIME_, SQLiteParserCURRENT_TIMESTAMP_, SQLiteParserDATABASE_, SQLiteParserDEFAULT_, SQLiteParserDEFERRABLE_, SQLiteParserDEFERRED_, SQLiteParserDELETE_, SQLiteParserDESC_, SQLiteParserDETACH_, SQLiteParserDISTINCT_, SQLiteParserDROP_, SQLiteParserEACH_, SQLiteParserELSE_, SQLiteParserEND_, SQLiteParserESCAPE_, SQLiteParserEXCEPT_, SQLiteParserEXCLUSIVE_, SQLiteParserEXISTS_, SQLiteParserEXPLAIN_, SQLiteParserFAIL_, SQLiteParserFOR_, SQLiteParserFOREIGN_, SQLiteParserFROM_, SQLiteParserFULL_, SQLiteParserGLOB_, SQLiteParserGROUP_, SQLiteParserHAVING_, SQLiteParserIF_, SQLiteParserIGNORE_, SQLiteParserIMMEDIATE_, SQLiteParserIN_, SQLiteParserINDEX_, SQLiteParserINDEXED_, SQLiteParserINITIALLY_, SQLiteParserINNER_, SQLiteParserINSERT_, SQLiteParserINSTEAD_, SQLiteParserINTERSECT_, SQLiteParserINTO_, SQLiteParserIS_, SQLiteParserISNULL_, SQLiteParserJOIN_, SQLiteParserKEY_, SQLiteParserLEFT_, SQLiteParserLIKE_, SQLiteParserLIMIT_, SQLiteParserMATCH_, SQLiteParserNATURAL_, SQLiteParserNO_, SQLiteParserNOT_, SQLiteParserNOTNULL_, SQLiteParserNULL_, SQLiteParserOF_, SQLiteParserOFFSET_, SQLiteParserON_, SQLiteParserOR_, SQLiteParserORDER_, SQLiteParserOUTER_, SQLiteParserPLAN_, SQLiteParserPRAGMA_, SQLiteParserPRIMARY_, SQLiteParserQUERY_, SQLiteParserRAISE_, SQLiteParserRECURSIVE_, SQLiteParserREFERENCES_, SQLiteParserREGEXP_, SQLiteParserREINDEX_, SQLiteParserRELEASE_, SQLiteParserRENAME_, SQLiteParserREPLACE_, SQLiteParserRESTRICT_, SQLiteParserRIGHT_, SQLiteParserROLLBACK_, SQLiteParserROW_, SQLiteParserROWS_, SQLiteParserSAVEPOINT_, SQLiteParserSELECT_, SQLiteParserSET_, SQLiteParserTABLE_, SQLiteParserTEMP_, SQLiteParserTEMPORARY_, SQLiteParserTHEN_, SQLiteParserTO_, SQLiteParserTRANSACTION_, SQLiteParserTRIGGER_, SQLiteParserUNION_, SQLiteParserUNIQUE_, SQLiteParserUPDATE_, SQLiteParserUSING_, SQLiteParserVACUUM_, SQLiteParserVALUES_, SQLiteParserVIEW_, SQLiteParserVIRTUAL_, SQLiteParserWHEN_, SQLiteParserWHERE_, SQLiteParserWITH_, SQLiteParserWITHOUT_, SQLiteParserFIRST_VALUE_, SQLiteParserOVER_, SQLiteParserPARTITION_, SQLiteParserRANGE_, SQLiteParserPRECEDING_, SQLiteParserUNBOUNDED_, SQLiteParserCURRENT_, SQLiteParserFOLLOWING_, SQLiteParserCUME_DIST_, SQLiteParserDENSE_RANK_, SQLiteParserLAG_, SQLiteParserLAST_VALUE_, SQLiteParserLEAD_, SQLiteParserNTH_VALUE_, SQLiteParserNTILE_, SQLiteParserPERCENT_RANK_, SQLiteParserRANK_, SQLiteParserROW_NUMBER_, SQLiteParserGENERATED_, SQLiteParserALWAYS_, SQLiteParserSTORED_, SQLiteParserTRUE_, SQLiteParserFALSE_, SQLiteParserWINDOW_, SQLiteParserNULLS_, SQLiteParserFIRST_, SQLiteParserLAST_, SQLiteParserFILTER_, SQLiteParserGROUPS_, SQLiteParserEXCLUDE_, SQLiteParserIDENTIFIER, SQLiteParserNUMERIC_LITERAL, SQLiteParserBIND_PARAMETER, SQLiteParserSTRING_LITERAL, SQLiteParserBLOB_LITERAL: p.SetState(1745) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 259, p.GetParserRuleContext()) == 1 { { p.SetState(1744) p.Match(SQLiteParserDISTINCT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1747) p.expr(0) } p.SetState(1752) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1748) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1749) p.expr(0) } p.SetState(1754) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } case SQLiteParserSTAR: { p.SetState(1755) p.Match(SQLiteParserSTAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserCLOSE_PAR: default: } { p.SetState(1758) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1760) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserFILTER_ { { p.SetState(1759) p.Filter_clause() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IWindow_function_invocationContext is an interface to support dynamic dispatch. type IWindow_function_invocationContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Window_function() IWindow_functionContext OPEN_PAR() antlr.TerminalNode CLOSE_PAR() antlr.TerminalNode OVER_() antlr.TerminalNode Window_defn() IWindow_defnContext Window_name() IWindow_nameContext AllExpr() []IExprContext Expr(i int) IExprContext STAR() antlr.TerminalNode Filter_clause() IFilter_clauseContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsWindow_function_invocationContext differentiates from other interfaces. IsWindow_function_invocationContext() } type Window_function_invocationContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyWindow_function_invocationContext() *Window_function_invocationContext { var p = new(Window_function_invocationContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_window_function_invocation return p } func InitEmptyWindow_function_invocationContext(p *Window_function_invocationContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_window_function_invocation } func (*Window_function_invocationContext) IsWindow_function_invocationContext() {} func NewWindow_function_invocationContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Window_function_invocationContext { var p = new(Window_function_invocationContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_window_function_invocation return p } func (s *Window_function_invocationContext) GetParser() antlr.Parser { return s.parser } func (s *Window_function_invocationContext) Window_function() IWindow_functionContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IWindow_functionContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IWindow_functionContext) } func (s *Window_function_invocationContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Window_function_invocationContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Window_function_invocationContext) OVER_() antlr.TerminalNode { return s.GetToken(SQLiteParserOVER_, 0) } func (s *Window_function_invocationContext) Window_defn() IWindow_defnContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IWindow_defnContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IWindow_defnContext) } func (s *Window_function_invocationContext) Window_name() IWindow_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IWindow_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IWindow_nameContext) } func (s *Window_function_invocationContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Window_function_invocationContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Window_function_invocationContext) STAR() antlr.TerminalNode { return s.GetToken(SQLiteParserSTAR, 0) } func (s *Window_function_invocationContext) Filter_clause() IFilter_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFilter_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFilter_clauseContext) } func (s *Window_function_invocationContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Window_function_invocationContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Window_function_invocationContext) GetRuleContext() antlr.RuleContext { return s } func (s *Window_function_invocationContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Window_function_invocationContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterWindow_function_invocation(s) } } func (s *Window_function_invocationContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitWindow_function_invocation(s) } } func (s *Window_function_invocationContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitWindow_function_invocation(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Window_function_invocation() (localctx IWindow_function_invocationContext) { localctx = NewWindow_function_invocationContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 132, SQLiteParserRULE_window_function_invocation) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1762) p.Window_function() } { p.SetState(1763) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1773) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserOPEN_PAR, SQLiteParserPLUS, SQLiteParserMINUS, SQLiteParserTILDE, SQLiteParserABORT_, SQLiteParserACTION_, SQLiteParserADD_, SQLiteParserAFTER_, SQLiteParserALL_, SQLiteParserALTER_, SQLiteParserANALYZE_, SQLiteParserAND_, SQLiteParserAS_, SQLiteParserASC_, SQLiteParserATTACH_, SQLiteParserAUTOINCREMENT_, SQLiteParserBEFORE_, SQLiteParserBEGIN_, SQLiteParserBETWEEN_, SQLiteParserBY_, SQLiteParserCASCADE_, SQLiteParserCASE_, SQLiteParserCAST_, SQLiteParserCHECK_, SQLiteParserCOLLATE_, SQLiteParserCOLUMN_, SQLiteParserCOMMIT_, SQLiteParserCONFLICT_, SQLiteParserCONSTRAINT_, SQLiteParserCREATE_, SQLiteParserCROSS_, SQLiteParserCURRENT_DATE_, SQLiteParserCURRENT_TIME_, SQLiteParserCURRENT_TIMESTAMP_, SQLiteParserDATABASE_, SQLiteParserDEFAULT_, SQLiteParserDEFERRABLE_, SQLiteParserDEFERRED_, SQLiteParserDELETE_, SQLiteParserDESC_, SQLiteParserDETACH_, SQLiteParserDISTINCT_, SQLiteParserDROP_, SQLiteParserEACH_, SQLiteParserELSE_, SQLiteParserEND_, SQLiteParserESCAPE_, SQLiteParserEXCEPT_, SQLiteParserEXCLUSIVE_, SQLiteParserEXISTS_, SQLiteParserEXPLAIN_, SQLiteParserFAIL_, SQLiteParserFOR_, SQLiteParserFOREIGN_, SQLiteParserFROM_, SQLiteParserFULL_, SQLiteParserGLOB_, SQLiteParserGROUP_, SQLiteParserHAVING_, SQLiteParserIF_, SQLiteParserIGNORE_, SQLiteParserIMMEDIATE_, SQLiteParserIN_, SQLiteParserINDEX_, SQLiteParserINDEXED_, SQLiteParserINITIALLY_, SQLiteParserINNER_, SQLiteParserINSERT_, SQLiteParserINSTEAD_, SQLiteParserINTERSECT_, SQLiteParserINTO_, SQLiteParserIS_, SQLiteParserISNULL_, SQLiteParserJOIN_, SQLiteParserKEY_, SQLiteParserLEFT_, SQLiteParserLIKE_, SQLiteParserLIMIT_, SQLiteParserMATCH_, SQLiteParserNATURAL_, SQLiteParserNO_, SQLiteParserNOT_, SQLiteParserNOTNULL_, SQLiteParserNULL_, SQLiteParserOF_, SQLiteParserOFFSET_, SQLiteParserON_, SQLiteParserOR_, SQLiteParserORDER_, SQLiteParserOUTER_, SQLiteParserPLAN_, SQLiteParserPRAGMA_, SQLiteParserPRIMARY_, SQLiteParserQUERY_, SQLiteParserRAISE_, SQLiteParserRECURSIVE_, SQLiteParserREFERENCES_, SQLiteParserREGEXP_, SQLiteParserREINDEX_, SQLiteParserRELEASE_, SQLiteParserRENAME_, SQLiteParserREPLACE_, SQLiteParserRESTRICT_, SQLiteParserRIGHT_, SQLiteParserROLLBACK_, SQLiteParserROW_, SQLiteParserROWS_, SQLiteParserSAVEPOINT_, SQLiteParserSELECT_, SQLiteParserSET_, SQLiteParserTABLE_, SQLiteParserTEMP_, SQLiteParserTEMPORARY_, SQLiteParserTHEN_, SQLiteParserTO_, SQLiteParserTRANSACTION_, SQLiteParserTRIGGER_, SQLiteParserUNION_, SQLiteParserUNIQUE_, SQLiteParserUPDATE_, SQLiteParserUSING_, SQLiteParserVACUUM_, SQLiteParserVALUES_, SQLiteParserVIEW_, SQLiteParserVIRTUAL_, SQLiteParserWHEN_, SQLiteParserWHERE_, SQLiteParserWITH_, SQLiteParserWITHOUT_, SQLiteParserFIRST_VALUE_, SQLiteParserOVER_, SQLiteParserPARTITION_, SQLiteParserRANGE_, SQLiteParserPRECEDING_, SQLiteParserUNBOUNDED_, SQLiteParserCURRENT_, SQLiteParserFOLLOWING_, SQLiteParserCUME_DIST_, SQLiteParserDENSE_RANK_, SQLiteParserLAG_, SQLiteParserLAST_VALUE_, SQLiteParserLEAD_, SQLiteParserNTH_VALUE_, SQLiteParserNTILE_, SQLiteParserPERCENT_RANK_, SQLiteParserRANK_, SQLiteParserROW_NUMBER_, SQLiteParserGENERATED_, SQLiteParserALWAYS_, SQLiteParserSTORED_, SQLiteParserTRUE_, SQLiteParserFALSE_, SQLiteParserWINDOW_, SQLiteParserNULLS_, SQLiteParserFIRST_, SQLiteParserLAST_, SQLiteParserFILTER_, SQLiteParserGROUPS_, SQLiteParserEXCLUDE_, SQLiteParserIDENTIFIER, SQLiteParserNUMERIC_LITERAL, SQLiteParserBIND_PARAMETER, SQLiteParserSTRING_LITERAL, SQLiteParserBLOB_LITERAL: { p.SetState(1764) p.expr(0) } p.SetState(1769) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1765) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1766) p.expr(0) } p.SetState(1771) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } case SQLiteParserSTAR: { p.SetState(1772) p.Match(SQLiteParserSTAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserCLOSE_PAR: default: } { p.SetState(1775) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1777) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserFILTER_ { { p.SetState(1776) p.Filter_clause() } } { p.SetState(1779) p.Match(SQLiteParserOVER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1782) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 266, p.GetParserRuleContext()) { case 1: { p.SetState(1780) p.Window_defn() } case 2: { p.SetState(1781) p.Window_name() } case antlr.ATNInvalidAltNumber: goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICommon_table_stmtContext is an interface to support dynamic dispatch. type ICommon_table_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures WITH_() antlr.TerminalNode AllCommon_table_expression() []ICommon_table_expressionContext Common_table_expression(i int) ICommon_table_expressionContext RECURSIVE_() antlr.TerminalNode AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsCommon_table_stmtContext differentiates from other interfaces. IsCommon_table_stmtContext() } type Common_table_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyCommon_table_stmtContext() *Common_table_stmtContext { var p = new(Common_table_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_common_table_stmt return p } func InitEmptyCommon_table_stmtContext(p *Common_table_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_common_table_stmt } func (*Common_table_stmtContext) IsCommon_table_stmtContext() {} func NewCommon_table_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Common_table_stmtContext { var p = new(Common_table_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_common_table_stmt return p } func (s *Common_table_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Common_table_stmtContext) WITH_() antlr.TerminalNode { return s.GetToken(SQLiteParserWITH_, 0) } func (s *Common_table_stmtContext) AllCommon_table_expression() []ICommon_table_expressionContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(ICommon_table_expressionContext); ok { len++ } } tst := make([]ICommon_table_expressionContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(ICommon_table_expressionContext); ok { tst[i] = t.(ICommon_table_expressionContext) i++ } } return tst } func (s *Common_table_stmtContext) Common_table_expression(i int) ICommon_table_expressionContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICommon_table_expressionContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(ICommon_table_expressionContext) } func (s *Common_table_stmtContext) RECURSIVE_() antlr.TerminalNode { return s.GetToken(SQLiteParserRECURSIVE_, 0) } func (s *Common_table_stmtContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Common_table_stmtContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Common_table_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Common_table_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Common_table_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCommon_table_stmt(s) } } func (s *Common_table_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCommon_table_stmt(s) } } func (s *Common_table_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCommon_table_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Common_table_stmt() (localctx ICommon_table_stmtContext) { localctx = NewCommon_table_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 134, SQLiteParserRULE_common_table_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1784) p.Match(SQLiteParserWITH_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1786) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 267, p.GetParserRuleContext()) == 1 { { p.SetState(1785) p.Match(SQLiteParserRECURSIVE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } } else if p.HasError() { // JIM goto errorExit } { p.SetState(1788) p.Common_table_expression() } p.SetState(1793) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1789) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1790) p.Common_table_expression() } p.SetState(1795) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IOrder_by_stmtContext is an interface to support dynamic dispatch. type IOrder_by_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures ORDER_() antlr.TerminalNode BY_() antlr.TerminalNode AllOrdering_term() []IOrdering_termContext Ordering_term(i int) IOrdering_termContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsOrder_by_stmtContext differentiates from other interfaces. IsOrder_by_stmtContext() } type Order_by_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyOrder_by_stmtContext() *Order_by_stmtContext { var p = new(Order_by_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_order_by_stmt return p } func InitEmptyOrder_by_stmtContext(p *Order_by_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_order_by_stmt } func (*Order_by_stmtContext) IsOrder_by_stmtContext() {} func NewOrder_by_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Order_by_stmtContext { var p = new(Order_by_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_order_by_stmt return p } func (s *Order_by_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Order_by_stmtContext) ORDER_() antlr.TerminalNode { return s.GetToken(SQLiteParserORDER_, 0) } func (s *Order_by_stmtContext) BY_() antlr.TerminalNode { return s.GetToken(SQLiteParserBY_, 0) } func (s *Order_by_stmtContext) AllOrdering_term() []IOrdering_termContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IOrdering_termContext); ok { len++ } } tst := make([]IOrdering_termContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IOrdering_termContext); ok { tst[i] = t.(IOrdering_termContext) i++ } } return tst } func (s *Order_by_stmtContext) Ordering_term(i int) IOrdering_termContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOrdering_termContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IOrdering_termContext) } func (s *Order_by_stmtContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Order_by_stmtContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Order_by_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Order_by_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Order_by_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterOrder_by_stmt(s) } } func (s *Order_by_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitOrder_by_stmt(s) } } func (s *Order_by_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitOrder_by_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Order_by_stmt() (localctx IOrder_by_stmtContext) { localctx = NewOrder_by_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 136, SQLiteParserRULE_order_by_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1796) p.Match(SQLiteParserORDER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1797) p.Match(SQLiteParserBY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1798) p.Ordering_term() } p.SetState(1803) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1799) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1800) p.Ordering_term() } p.SetState(1805) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ILimit_stmtContext is an interface to support dynamic dispatch. type ILimit_stmtContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures LIMIT_() antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext OFFSET_() antlr.TerminalNode COMMA() antlr.TerminalNode // IsLimit_stmtContext differentiates from other interfaces. IsLimit_stmtContext() } type Limit_stmtContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyLimit_stmtContext() *Limit_stmtContext { var p = new(Limit_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_limit_stmt return p } func InitEmptyLimit_stmtContext(p *Limit_stmtContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_limit_stmt } func (*Limit_stmtContext) IsLimit_stmtContext() {} func NewLimit_stmtContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Limit_stmtContext { var p = new(Limit_stmtContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_limit_stmt return p } func (s *Limit_stmtContext) GetParser() antlr.Parser { return s.parser } func (s *Limit_stmtContext) LIMIT_() antlr.TerminalNode { return s.GetToken(SQLiteParserLIMIT_, 0) } func (s *Limit_stmtContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Limit_stmtContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Limit_stmtContext) OFFSET_() antlr.TerminalNode { return s.GetToken(SQLiteParserOFFSET_, 0) } func (s *Limit_stmtContext) COMMA() antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, 0) } func (s *Limit_stmtContext) GetRuleContext() antlr.RuleContext { return s } func (s *Limit_stmtContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Limit_stmtContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterLimit_stmt(s) } } func (s *Limit_stmtContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitLimit_stmt(s) } } func (s *Limit_stmtContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitLimit_stmt(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Limit_stmt() (localctx ILimit_stmtContext) { localctx = NewLimit_stmtContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 138, SQLiteParserRULE_limit_stmt) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1806) p.Match(SQLiteParserLIMIT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1807) p.expr(0) } p.SetState(1810) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserCOMMA || _la == SQLiteParserOFFSET_ { { p.SetState(1808) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserCOMMA || _la == SQLiteParserOFFSET_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(1809) p.expr(0) } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IOrdering_termContext is an interface to support dynamic dispatch. type IOrdering_termContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Expr() IExprContext COLLATE_() antlr.TerminalNode Collation_name() ICollation_nameContext Asc_desc() IAsc_descContext NULLS_() antlr.TerminalNode FIRST_() antlr.TerminalNode LAST_() antlr.TerminalNode // IsOrdering_termContext differentiates from other interfaces. IsOrdering_termContext() } type Ordering_termContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyOrdering_termContext() *Ordering_termContext { var p = new(Ordering_termContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_ordering_term return p } func InitEmptyOrdering_termContext(p *Ordering_termContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_ordering_term } func (*Ordering_termContext) IsOrdering_termContext() {} func NewOrdering_termContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Ordering_termContext { var p = new(Ordering_termContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_ordering_term return p } func (s *Ordering_termContext) GetParser() antlr.Parser { return s.parser } func (s *Ordering_termContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Ordering_termContext) COLLATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCOLLATE_, 0) } func (s *Ordering_termContext) Collation_name() ICollation_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ICollation_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ICollation_nameContext) } func (s *Ordering_termContext) Asc_desc() IAsc_descContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAsc_descContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAsc_descContext) } func (s *Ordering_termContext) NULLS_() antlr.TerminalNode { return s.GetToken(SQLiteParserNULLS_, 0) } func (s *Ordering_termContext) FIRST_() antlr.TerminalNode { return s.GetToken(SQLiteParserFIRST_, 0) } func (s *Ordering_termContext) LAST_() antlr.TerminalNode { return s.GetToken(SQLiteParserLAST_, 0) } func (s *Ordering_termContext) GetRuleContext() antlr.RuleContext { return s } func (s *Ordering_termContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Ordering_termContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterOrdering_term(s) } } func (s *Ordering_termContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitOrdering_term(s) } } func (s *Ordering_termContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitOrdering_term(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Ordering_term() (localctx IOrdering_termContext) { localctx = NewOrdering_termContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 140, SQLiteParserRULE_ordering_term) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1812) p.expr(0) } p.SetState(1815) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserCOLLATE_ { { p.SetState(1813) p.Match(SQLiteParserCOLLATE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1814) p.Collation_name() } } p.SetState(1818) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserASC_ || _la == SQLiteParserDESC_ { { p.SetState(1817) p.Asc_desc() } } p.SetState(1822) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserNULLS_ { { p.SetState(1820) p.Match(SQLiteParserNULLS_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1821) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserFIRST_ || _la == SQLiteParserLAST_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IAsc_descContext is an interface to support dynamic dispatch. type IAsc_descContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures ASC_() antlr.TerminalNode DESC_() antlr.TerminalNode // IsAsc_descContext differentiates from other interfaces. IsAsc_descContext() } type Asc_descContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyAsc_descContext() *Asc_descContext { var p = new(Asc_descContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_asc_desc return p } func InitEmptyAsc_descContext(p *Asc_descContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_asc_desc } func (*Asc_descContext) IsAsc_descContext() {} func NewAsc_descContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Asc_descContext { var p = new(Asc_descContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_asc_desc return p } func (s *Asc_descContext) GetParser() antlr.Parser { return s.parser } func (s *Asc_descContext) ASC_() antlr.TerminalNode { return s.GetToken(SQLiteParserASC_, 0) } func (s *Asc_descContext) DESC_() antlr.TerminalNode { return s.GetToken(SQLiteParserDESC_, 0) } func (s *Asc_descContext) GetRuleContext() antlr.RuleContext { return s } func (s *Asc_descContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Asc_descContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterAsc_desc(s) } } func (s *Asc_descContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitAsc_desc(s) } } func (s *Asc_descContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitAsc_desc(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Asc_desc() (localctx IAsc_descContext) { localctx = NewAsc_descContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 142, SQLiteParserRULE_asc_desc) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1824) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserASC_ || _la == SQLiteParserDESC_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IFrame_leftContext is an interface to support dynamic dispatch. type IFrame_leftContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Expr() IExprContext PRECEDING_() antlr.TerminalNode FOLLOWING_() antlr.TerminalNode CURRENT_() antlr.TerminalNode ROW_() antlr.TerminalNode UNBOUNDED_() antlr.TerminalNode // IsFrame_leftContext differentiates from other interfaces. IsFrame_leftContext() } type Frame_leftContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyFrame_leftContext() *Frame_leftContext { var p = new(Frame_leftContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_frame_left return p } func InitEmptyFrame_leftContext(p *Frame_leftContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_frame_left } func (*Frame_leftContext) IsFrame_leftContext() {} func NewFrame_leftContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Frame_leftContext { var p = new(Frame_leftContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_frame_left return p } func (s *Frame_leftContext) GetParser() antlr.Parser { return s.parser } func (s *Frame_leftContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Frame_leftContext) PRECEDING_() antlr.TerminalNode { return s.GetToken(SQLiteParserPRECEDING_, 0) } func (s *Frame_leftContext) FOLLOWING_() antlr.TerminalNode { return s.GetToken(SQLiteParserFOLLOWING_, 0) } func (s *Frame_leftContext) CURRENT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCURRENT_, 0) } func (s *Frame_leftContext) ROW_() antlr.TerminalNode { return s.GetToken(SQLiteParserROW_, 0) } func (s *Frame_leftContext) UNBOUNDED_() antlr.TerminalNode { return s.GetToken(SQLiteParserUNBOUNDED_, 0) } func (s *Frame_leftContext) GetRuleContext() antlr.RuleContext { return s } func (s *Frame_leftContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Frame_leftContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterFrame_left(s) } } func (s *Frame_leftContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitFrame_left(s) } } func (s *Frame_leftContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitFrame_left(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Frame_left() (localctx IFrame_leftContext) { localctx = NewFrame_leftContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 144, SQLiteParserRULE_frame_left) p.SetState(1836) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 274, p.GetParserRuleContext()) { case 1: p.EnterOuterAlt(localctx, 1) { p.SetState(1826) p.expr(0) } { p.SetState(1827) p.Match(SQLiteParserPRECEDING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 2: p.EnterOuterAlt(localctx, 2) { p.SetState(1829) p.expr(0) } { p.SetState(1830) p.Match(SQLiteParserFOLLOWING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 3: p.EnterOuterAlt(localctx, 3) { p.SetState(1832) p.Match(SQLiteParserCURRENT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1833) p.Match(SQLiteParserROW_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 4: p.EnterOuterAlt(localctx, 4) { p.SetState(1834) p.Match(SQLiteParserUNBOUNDED_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1835) p.Match(SQLiteParserPRECEDING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case antlr.ATNInvalidAltNumber: goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IFrame_rightContext is an interface to support dynamic dispatch. type IFrame_rightContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Expr() IExprContext PRECEDING_() antlr.TerminalNode FOLLOWING_() antlr.TerminalNode CURRENT_() antlr.TerminalNode ROW_() antlr.TerminalNode UNBOUNDED_() antlr.TerminalNode // IsFrame_rightContext differentiates from other interfaces. IsFrame_rightContext() } type Frame_rightContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyFrame_rightContext() *Frame_rightContext { var p = new(Frame_rightContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_frame_right return p } func InitEmptyFrame_rightContext(p *Frame_rightContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_frame_right } func (*Frame_rightContext) IsFrame_rightContext() {} func NewFrame_rightContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Frame_rightContext { var p = new(Frame_rightContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_frame_right return p } func (s *Frame_rightContext) GetParser() antlr.Parser { return s.parser } func (s *Frame_rightContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Frame_rightContext) PRECEDING_() antlr.TerminalNode { return s.GetToken(SQLiteParserPRECEDING_, 0) } func (s *Frame_rightContext) FOLLOWING_() antlr.TerminalNode { return s.GetToken(SQLiteParserFOLLOWING_, 0) } func (s *Frame_rightContext) CURRENT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCURRENT_, 0) } func (s *Frame_rightContext) ROW_() antlr.TerminalNode { return s.GetToken(SQLiteParserROW_, 0) } func (s *Frame_rightContext) UNBOUNDED_() antlr.TerminalNode { return s.GetToken(SQLiteParserUNBOUNDED_, 0) } func (s *Frame_rightContext) GetRuleContext() antlr.RuleContext { return s } func (s *Frame_rightContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Frame_rightContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterFrame_right(s) } } func (s *Frame_rightContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitFrame_right(s) } } func (s *Frame_rightContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitFrame_right(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Frame_right() (localctx IFrame_rightContext) { localctx = NewFrame_rightContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 146, SQLiteParserRULE_frame_right) p.SetState(1848) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 275, p.GetParserRuleContext()) { case 1: p.EnterOuterAlt(localctx, 1) { p.SetState(1838) p.expr(0) } { p.SetState(1839) p.Match(SQLiteParserPRECEDING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 2: p.EnterOuterAlt(localctx, 2) { p.SetState(1841) p.expr(0) } { p.SetState(1842) p.Match(SQLiteParserFOLLOWING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 3: p.EnterOuterAlt(localctx, 3) { p.SetState(1844) p.Match(SQLiteParserCURRENT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1845) p.Match(SQLiteParserROW_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 4: p.EnterOuterAlt(localctx, 4) { p.SetState(1846) p.Match(SQLiteParserUNBOUNDED_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1847) p.Match(SQLiteParserFOLLOWING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case antlr.ATNInvalidAltNumber: goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IFrame_singleContext is an interface to support dynamic dispatch. type IFrame_singleContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Expr() IExprContext PRECEDING_() antlr.TerminalNode UNBOUNDED_() antlr.TerminalNode CURRENT_() antlr.TerminalNode ROW_() antlr.TerminalNode // IsFrame_singleContext differentiates from other interfaces. IsFrame_singleContext() } type Frame_singleContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyFrame_singleContext() *Frame_singleContext { var p = new(Frame_singleContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_frame_single return p } func InitEmptyFrame_singleContext(p *Frame_singleContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_frame_single } func (*Frame_singleContext) IsFrame_singleContext() {} func NewFrame_singleContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Frame_singleContext { var p = new(Frame_singleContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_frame_single return p } func (s *Frame_singleContext) GetParser() antlr.Parser { return s.parser } func (s *Frame_singleContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Frame_singleContext) PRECEDING_() antlr.TerminalNode { return s.GetToken(SQLiteParserPRECEDING_, 0) } func (s *Frame_singleContext) UNBOUNDED_() antlr.TerminalNode { return s.GetToken(SQLiteParserUNBOUNDED_, 0) } func (s *Frame_singleContext) CURRENT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCURRENT_, 0) } func (s *Frame_singleContext) ROW_() antlr.TerminalNode { return s.GetToken(SQLiteParserROW_, 0) } func (s *Frame_singleContext) GetRuleContext() antlr.RuleContext { return s } func (s *Frame_singleContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Frame_singleContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterFrame_single(s) } } func (s *Frame_singleContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitFrame_single(s) } } func (s *Frame_singleContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitFrame_single(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Frame_single() (localctx IFrame_singleContext) { localctx = NewFrame_singleContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 148, SQLiteParserRULE_frame_single) p.SetState(1857) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 276, p.GetParserRuleContext()) { case 1: p.EnterOuterAlt(localctx, 1) { p.SetState(1850) p.expr(0) } { p.SetState(1851) p.Match(SQLiteParserPRECEDING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 2: p.EnterOuterAlt(localctx, 2) { p.SetState(1853) p.Match(SQLiteParserUNBOUNDED_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1854) p.Match(SQLiteParserPRECEDING_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case 3: p.EnterOuterAlt(localctx, 3) { p.SetState(1855) p.Match(SQLiteParserCURRENT_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1856) p.Match(SQLiteParserROW_) if p.HasError() { // Recognition error - abort rule goto errorExit } } case antlr.ATNInvalidAltNumber: goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IWindow_functionContext is an interface to support dynamic dispatch. type IWindow_functionContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures AllOPEN_PAR() []antlr.TerminalNode OPEN_PAR(i int) antlr.TerminalNode Expr() IExprContext AllCLOSE_PAR() []antlr.TerminalNode CLOSE_PAR(i int) antlr.TerminalNode OVER_() antlr.TerminalNode Order_by_expr_asc_desc() IOrder_by_expr_asc_descContext FIRST_VALUE_() antlr.TerminalNode LAST_VALUE_() antlr.TerminalNode Partition_by() IPartition_byContext Frame_clause() IFrame_clauseContext CUME_DIST_() antlr.TerminalNode PERCENT_RANK_() antlr.TerminalNode Order_by_expr() IOrder_by_exprContext DENSE_RANK_() antlr.TerminalNode RANK_() antlr.TerminalNode ROW_NUMBER_() antlr.TerminalNode LAG_() antlr.TerminalNode LEAD_() antlr.TerminalNode Offset() IOffsetContext Default_value() IDefault_valueContext NTH_VALUE_() antlr.TerminalNode COMMA() antlr.TerminalNode Signed_number() ISigned_numberContext NTILE_() antlr.TerminalNode // IsWindow_functionContext differentiates from other interfaces. IsWindow_functionContext() } type Window_functionContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyWindow_functionContext() *Window_functionContext { var p = new(Window_functionContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_window_function return p } func InitEmptyWindow_functionContext(p *Window_functionContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_window_function } func (*Window_functionContext) IsWindow_functionContext() {} func NewWindow_functionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Window_functionContext { var p = new(Window_functionContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_window_function return p } func (s *Window_functionContext) GetParser() antlr.Parser { return s.parser } func (s *Window_functionContext) AllOPEN_PAR() []antlr.TerminalNode { return s.GetTokens(SQLiteParserOPEN_PAR) } func (s *Window_functionContext) OPEN_PAR(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, i) } func (s *Window_functionContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Window_functionContext) AllCLOSE_PAR() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCLOSE_PAR) } func (s *Window_functionContext) CLOSE_PAR(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, i) } func (s *Window_functionContext) OVER_() antlr.TerminalNode { return s.GetToken(SQLiteParserOVER_, 0) } func (s *Window_functionContext) Order_by_expr_asc_desc() IOrder_by_expr_asc_descContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOrder_by_expr_asc_descContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IOrder_by_expr_asc_descContext) } func (s *Window_functionContext) FIRST_VALUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserFIRST_VALUE_, 0) } func (s *Window_functionContext) LAST_VALUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserLAST_VALUE_, 0) } func (s *Window_functionContext) Partition_by() IPartition_byContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IPartition_byContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IPartition_byContext) } func (s *Window_functionContext) Frame_clause() IFrame_clauseContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IFrame_clauseContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IFrame_clauseContext) } func (s *Window_functionContext) CUME_DIST_() antlr.TerminalNode { return s.GetToken(SQLiteParserCUME_DIST_, 0) } func (s *Window_functionContext) PERCENT_RANK_() antlr.TerminalNode { return s.GetToken(SQLiteParserPERCENT_RANK_, 0) } func (s *Window_functionContext) Order_by_expr() IOrder_by_exprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOrder_by_exprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IOrder_by_exprContext) } func (s *Window_functionContext) DENSE_RANK_() antlr.TerminalNode { return s.GetToken(SQLiteParserDENSE_RANK_, 0) } func (s *Window_functionContext) RANK_() antlr.TerminalNode { return s.GetToken(SQLiteParserRANK_, 0) } func (s *Window_functionContext) ROW_NUMBER_() antlr.TerminalNode { return s.GetToken(SQLiteParserROW_NUMBER_, 0) } func (s *Window_functionContext) LAG_() antlr.TerminalNode { return s.GetToken(SQLiteParserLAG_, 0) } func (s *Window_functionContext) LEAD_() antlr.TerminalNode { return s.GetToken(SQLiteParserLEAD_, 0) } func (s *Window_functionContext) Offset() IOffsetContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IOffsetContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IOffsetContext) } func (s *Window_functionContext) Default_value() IDefault_valueContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IDefault_valueContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IDefault_valueContext) } func (s *Window_functionContext) NTH_VALUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserNTH_VALUE_, 0) } func (s *Window_functionContext) COMMA() antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, 0) } func (s *Window_functionContext) Signed_number() ISigned_numberContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISigned_numberContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISigned_numberContext) } func (s *Window_functionContext) NTILE_() antlr.TerminalNode { return s.GetToken(SQLiteParserNTILE_, 0) } func (s *Window_functionContext) GetRuleContext() antlr.RuleContext { return s } func (s *Window_functionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Window_functionContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterWindow_function(s) } } func (s *Window_functionContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitWindow_function(s) } } func (s *Window_functionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitWindow_function(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Window_function() (localctx IWindow_functionContext) { localctx = NewWindow_functionContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 150, SQLiteParserRULE_window_function) var _la int p.SetState(1944) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserFIRST_VALUE_, SQLiteParserLAST_VALUE_: p.EnterOuterAlt(localctx, 1) { p.SetState(1859) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserFIRST_VALUE_ || _la == SQLiteParserLAST_VALUE_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(1860) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1861) p.expr(0) } { p.SetState(1862) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1863) p.Match(SQLiteParserOVER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1864) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1866) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserPARTITION_ { { p.SetState(1865) p.Partition_by() } } { p.SetState(1868) p.Order_by_expr_asc_desc() } p.SetState(1870) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if (int64((_la-128)) & ^0x3f) == 0 && ((int64(1)<<(_la-128))&2251799880794113) != 0 { { p.SetState(1869) p.Frame_clause() } } { p.SetState(1872) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserCUME_DIST_, SQLiteParserPERCENT_RANK_: p.EnterOuterAlt(localctx, 2) { p.SetState(1874) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserCUME_DIST_ || _la == SQLiteParserPERCENT_RANK_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(1875) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1876) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1877) p.Match(SQLiteParserOVER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1878) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1880) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserPARTITION_ { { p.SetState(1879) p.Partition_by() } } p.SetState(1883) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserORDER_ { { p.SetState(1882) p.Order_by_expr() } } { p.SetState(1885) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserDENSE_RANK_, SQLiteParserRANK_, SQLiteParserROW_NUMBER_: p.EnterOuterAlt(localctx, 3) { p.SetState(1886) _la = p.GetTokenStream().LA(1) if !((int64((_la-160)) & ^0x3f) == 0 && ((int64(1)<<(_la-160))&385) != 0) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(1887) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1888) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1889) p.Match(SQLiteParserOVER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1890) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1892) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserPARTITION_ { { p.SetState(1891) p.Partition_by() } } { p.SetState(1894) p.Order_by_expr_asc_desc() } { p.SetState(1895) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserLAG_, SQLiteParserLEAD_: p.EnterOuterAlt(localctx, 4) { p.SetState(1897) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserLAG_ || _la == SQLiteParserLEAD_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } { p.SetState(1898) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1899) p.expr(0) } p.SetState(1901) p.GetErrorHandler().Sync(p) if p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 282, p.GetParserRuleContext()) == 1 { { p.SetState(1900) p.Offset() } } else if p.HasError() { // JIM goto errorExit } p.SetState(1904) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserCOMMA { { p.SetState(1903) p.Default_value() } } { p.SetState(1906) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1907) p.Match(SQLiteParserOVER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1908) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1910) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserPARTITION_ { { p.SetState(1909) p.Partition_by() } } { p.SetState(1912) p.Order_by_expr_asc_desc() } { p.SetState(1913) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserNTH_VALUE_: p.EnterOuterAlt(localctx, 5) { p.SetState(1915) p.Match(SQLiteParserNTH_VALUE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1916) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1917) p.expr(0) } { p.SetState(1918) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1919) p.Signed_number() } { p.SetState(1920) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1921) p.Match(SQLiteParserOVER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1922) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1924) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserPARTITION_ { { p.SetState(1923) p.Partition_by() } } { p.SetState(1926) p.Order_by_expr_asc_desc() } p.SetState(1928) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if (int64((_la-128)) & ^0x3f) == 0 && ((int64(1)<<(_la-128))&2251799880794113) != 0 { { p.SetState(1927) p.Frame_clause() } } { p.SetState(1930) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserNTILE_: p.EnterOuterAlt(localctx, 6) { p.SetState(1932) p.Match(SQLiteParserNTILE_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1933) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1934) p.expr(0) } { p.SetState(1935) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1936) p.Match(SQLiteParserOVER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1937) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1939) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserPARTITION_ { { p.SetState(1938) p.Partition_by() } } { p.SetState(1941) p.Order_by_expr_asc_desc() } { p.SetState(1942) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IOffsetContext is an interface to support dynamic dispatch. type IOffsetContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures COMMA() antlr.TerminalNode Signed_number() ISigned_numberContext // IsOffsetContext differentiates from other interfaces. IsOffsetContext() } type OffsetContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyOffsetContext() *OffsetContext { var p = new(OffsetContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_offset return p } func InitEmptyOffsetContext(p *OffsetContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_offset } func (*OffsetContext) IsOffsetContext() {} func NewOffsetContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *OffsetContext { var p = new(OffsetContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_offset return p } func (s *OffsetContext) GetParser() antlr.Parser { return s.parser } func (s *OffsetContext) COMMA() antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, 0) } func (s *OffsetContext) Signed_number() ISigned_numberContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISigned_numberContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISigned_numberContext) } func (s *OffsetContext) GetRuleContext() antlr.RuleContext { return s } func (s *OffsetContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *OffsetContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterOffset(s) } } func (s *OffsetContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitOffset(s) } } func (s *OffsetContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitOffset(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Offset() (localctx IOffsetContext) { localctx = NewOffsetContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 152, SQLiteParserRULE_offset) p.EnterOuterAlt(localctx, 1) { p.SetState(1946) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1947) p.Signed_number() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IDefault_valueContext is an interface to support dynamic dispatch. type IDefault_valueContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures COMMA() antlr.TerminalNode Signed_number() ISigned_numberContext // IsDefault_valueContext differentiates from other interfaces. IsDefault_valueContext() } type Default_valueContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyDefault_valueContext() *Default_valueContext { var p = new(Default_valueContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_default_value return p } func InitEmptyDefault_valueContext(p *Default_valueContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_default_value } func (*Default_valueContext) IsDefault_valueContext() {} func NewDefault_valueContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Default_valueContext { var p = new(Default_valueContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_default_value return p } func (s *Default_valueContext) GetParser() antlr.Parser { return s.parser } func (s *Default_valueContext) COMMA() antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, 0) } func (s *Default_valueContext) Signed_number() ISigned_numberContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISigned_numberContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISigned_numberContext) } func (s *Default_valueContext) GetRuleContext() antlr.RuleContext { return s } func (s *Default_valueContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Default_valueContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterDefault_value(s) } } func (s *Default_valueContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitDefault_value(s) } } func (s *Default_valueContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitDefault_value(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Default_value() (localctx IDefault_valueContext) { localctx = NewDefault_valueContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 154, SQLiteParserRULE_default_value) p.EnterOuterAlt(localctx, 1) { p.SetState(1949) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1950) p.Signed_number() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IPartition_byContext is an interface to support dynamic dispatch. type IPartition_byContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures PARTITION_() antlr.TerminalNode BY_() antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext // IsPartition_byContext differentiates from other interfaces. IsPartition_byContext() } type Partition_byContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyPartition_byContext() *Partition_byContext { var p = new(Partition_byContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_partition_by return p } func InitEmptyPartition_byContext(p *Partition_byContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_partition_by } func (*Partition_byContext) IsPartition_byContext() {} func NewPartition_byContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Partition_byContext { var p = new(Partition_byContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_partition_by return p } func (s *Partition_byContext) GetParser() antlr.Parser { return s.parser } func (s *Partition_byContext) PARTITION_() antlr.TerminalNode { return s.GetToken(SQLiteParserPARTITION_, 0) } func (s *Partition_byContext) BY_() antlr.TerminalNode { return s.GetToken(SQLiteParserBY_, 0) } func (s *Partition_byContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Partition_byContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Partition_byContext) GetRuleContext() antlr.RuleContext { return s } func (s *Partition_byContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Partition_byContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterPartition_by(s) } } func (s *Partition_byContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitPartition_by(s) } } func (s *Partition_byContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitPartition_by(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Partition_by() (localctx IPartition_byContext) { localctx = NewPartition_byContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 156, SQLiteParserRULE_partition_by) var _alt int p.EnterOuterAlt(localctx, 1) { p.SetState(1952) p.Match(SQLiteParserPARTITION_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1953) p.Match(SQLiteParserBY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1955) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _alt = 1 for ok := true; ok; ok = _alt != 2 && _alt != antlr.ATNInvalidAltNumber { switch _alt { case 1: { p.SetState(1954) p.expr(0) } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } p.SetState(1957) p.GetErrorHandler().Sync(p) _alt = p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 289, p.GetParserRuleContext()) if p.HasError() { goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IOrder_by_exprContext is an interface to support dynamic dispatch. type IOrder_by_exprContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures ORDER_() antlr.TerminalNode BY_() antlr.TerminalNode AllExpr() []IExprContext Expr(i int) IExprContext // IsOrder_by_exprContext differentiates from other interfaces. IsOrder_by_exprContext() } type Order_by_exprContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyOrder_by_exprContext() *Order_by_exprContext { var p = new(Order_by_exprContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_order_by_expr return p } func InitEmptyOrder_by_exprContext(p *Order_by_exprContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_order_by_expr } func (*Order_by_exprContext) IsOrder_by_exprContext() {} func NewOrder_by_exprContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Order_by_exprContext { var p = new(Order_by_exprContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_order_by_expr return p } func (s *Order_by_exprContext) GetParser() antlr.Parser { return s.parser } func (s *Order_by_exprContext) ORDER_() antlr.TerminalNode { return s.GetToken(SQLiteParserORDER_, 0) } func (s *Order_by_exprContext) BY_() antlr.TerminalNode { return s.GetToken(SQLiteParserBY_, 0) } func (s *Order_by_exprContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Order_by_exprContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Order_by_exprContext) GetRuleContext() antlr.RuleContext { return s } func (s *Order_by_exprContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Order_by_exprContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterOrder_by_expr(s) } } func (s *Order_by_exprContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitOrder_by_expr(s) } } func (s *Order_by_exprContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitOrder_by_expr(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Order_by_expr() (localctx IOrder_by_exprContext) { localctx = NewOrder_by_exprContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 158, SQLiteParserRULE_order_by_expr) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1959) p.Match(SQLiteParserORDER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1960) p.Match(SQLiteParserBY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } p.SetState(1962) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for ok := true; ok; ok = ((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&-33552632) != 0) || ((int64((_la-64)) & ^0x3f) == 0 && ((int64(1)<<(_la-64))&-1152921504606846977) != 0) || ((int64((_la-128)) & ^0x3f) == 0 && ((int64(1)<<(_la-128))&4476578029606273023) != 0) { { p.SetState(1961) p.expr(0) } p.SetState(1964) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IOrder_by_expr_asc_descContext is an interface to support dynamic dispatch. type IOrder_by_expr_asc_descContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures ORDER_() antlr.TerminalNode BY_() antlr.TerminalNode Expr_asc_desc() IExpr_asc_descContext // IsOrder_by_expr_asc_descContext differentiates from other interfaces. IsOrder_by_expr_asc_descContext() } type Order_by_expr_asc_descContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyOrder_by_expr_asc_descContext() *Order_by_expr_asc_descContext { var p = new(Order_by_expr_asc_descContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_order_by_expr_asc_desc return p } func InitEmptyOrder_by_expr_asc_descContext(p *Order_by_expr_asc_descContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_order_by_expr_asc_desc } func (*Order_by_expr_asc_descContext) IsOrder_by_expr_asc_descContext() {} func NewOrder_by_expr_asc_descContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Order_by_expr_asc_descContext { var p = new(Order_by_expr_asc_descContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_order_by_expr_asc_desc return p } func (s *Order_by_expr_asc_descContext) GetParser() antlr.Parser { return s.parser } func (s *Order_by_expr_asc_descContext) ORDER_() antlr.TerminalNode { return s.GetToken(SQLiteParserORDER_, 0) } func (s *Order_by_expr_asc_descContext) BY_() antlr.TerminalNode { return s.GetToken(SQLiteParserBY_, 0) } func (s *Order_by_expr_asc_descContext) Expr_asc_desc() IExpr_asc_descContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExpr_asc_descContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExpr_asc_descContext) } func (s *Order_by_expr_asc_descContext) GetRuleContext() antlr.RuleContext { return s } func (s *Order_by_expr_asc_descContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Order_by_expr_asc_descContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterOrder_by_expr_asc_desc(s) } } func (s *Order_by_expr_asc_descContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitOrder_by_expr_asc_desc(s) } } func (s *Order_by_expr_asc_descContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitOrder_by_expr_asc_desc(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Order_by_expr_asc_desc() (localctx IOrder_by_expr_asc_descContext) { localctx = NewOrder_by_expr_asc_descContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 160, SQLiteParserRULE_order_by_expr_asc_desc) p.EnterOuterAlt(localctx, 1) { p.SetState(1966) p.Match(SQLiteParserORDER_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1967) p.Match(SQLiteParserBY_) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1968) p.Expr_asc_desc() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IExpr_asc_descContext is an interface to support dynamic dispatch. type IExpr_asc_descContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures AllExpr() []IExprContext Expr(i int) IExprContext AllAsc_desc() []IAsc_descContext Asc_desc(i int) IAsc_descContext AllCOMMA() []antlr.TerminalNode COMMA(i int) antlr.TerminalNode // IsExpr_asc_descContext differentiates from other interfaces. IsExpr_asc_descContext() } type Expr_asc_descContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyExpr_asc_descContext() *Expr_asc_descContext { var p = new(Expr_asc_descContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_expr_asc_desc return p } func InitEmptyExpr_asc_descContext(p *Expr_asc_descContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_expr_asc_desc } func (*Expr_asc_descContext) IsExpr_asc_descContext() {} func NewExpr_asc_descContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Expr_asc_descContext { var p = new(Expr_asc_descContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_expr_asc_desc return p } func (s *Expr_asc_descContext) GetParser() antlr.Parser { return s.parser } func (s *Expr_asc_descContext) AllExpr() []IExprContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IExprContext); ok { len++ } } tst := make([]IExprContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IExprContext); ok { tst[i] = t.(IExprContext) i++ } } return tst } func (s *Expr_asc_descContext) Expr(i int) IExprContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IExprContext) } func (s *Expr_asc_descContext) AllAsc_desc() []IAsc_descContext { children := s.GetChildren() len := 0 for _, ctx := range children { if _, ok := ctx.(IAsc_descContext); ok { len++ } } tst := make([]IAsc_descContext, len) i := 0 for _, ctx := range children { if t, ok := ctx.(IAsc_descContext); ok { tst[i] = t.(IAsc_descContext) i++ } } return tst } func (s *Expr_asc_descContext) Asc_desc(i int) IAsc_descContext { var t antlr.RuleContext j := 0 for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAsc_descContext); ok { if j == i { t = ctx.(antlr.RuleContext) break } j++ } } if t == nil { return nil } return t.(IAsc_descContext) } func (s *Expr_asc_descContext) AllCOMMA() []antlr.TerminalNode { return s.GetTokens(SQLiteParserCOMMA) } func (s *Expr_asc_descContext) COMMA(i int) antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMA, i) } func (s *Expr_asc_descContext) GetRuleContext() antlr.RuleContext { return s } func (s *Expr_asc_descContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Expr_asc_descContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterExpr_asc_desc(s) } } func (s *Expr_asc_descContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitExpr_asc_desc(s) } } func (s *Expr_asc_descContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitExpr_asc_desc(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Expr_asc_desc() (localctx IExpr_asc_descContext) { localctx = NewExpr_asc_descContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 162, SQLiteParserRULE_expr_asc_desc) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1970) p.expr(0) } p.SetState(1972) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserASC_ || _la == SQLiteParserDESC_ { { p.SetState(1971) p.Asc_desc() } } p.SetState(1981) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) for _la == SQLiteParserCOMMA { { p.SetState(1974) p.Match(SQLiteParserCOMMA) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(1975) p.expr(0) } p.SetState(1977) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) if _la == SQLiteParserASC_ || _la == SQLiteParserDESC_ { { p.SetState(1976) p.Asc_desc() } } p.SetState(1983) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } _la = p.GetTokenStream().LA(1) } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IInitial_selectContext is an interface to support dynamic dispatch. type IInitial_selectContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Select_stmt() ISelect_stmtContext // IsInitial_selectContext differentiates from other interfaces. IsInitial_selectContext() } type Initial_selectContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyInitial_selectContext() *Initial_selectContext { var p = new(Initial_selectContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_initial_select return p } func InitEmptyInitial_selectContext(p *Initial_selectContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_initial_select } func (*Initial_selectContext) IsInitial_selectContext() {} func NewInitial_selectContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Initial_selectContext { var p = new(Initial_selectContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_initial_select return p } func (s *Initial_selectContext) GetParser() antlr.Parser { return s.parser } func (s *Initial_selectContext) Select_stmt() ISelect_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *Initial_selectContext) GetRuleContext() antlr.RuleContext { return s } func (s *Initial_selectContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Initial_selectContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterInitial_select(s) } } func (s *Initial_selectContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitInitial_select(s) } } func (s *Initial_selectContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitInitial_select(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Initial_select() (localctx IInitial_selectContext) { localctx = NewInitial_selectContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 164, SQLiteParserRULE_initial_select) p.EnterOuterAlt(localctx, 1) { p.SetState(1984) p.Select_stmt() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IRecursive_selectContext is an interface to support dynamic dispatch. type IRecursive_selectContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Select_stmt() ISelect_stmtContext // IsRecursive_selectContext differentiates from other interfaces. IsRecursive_selectContext() } type Recursive_selectContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyRecursive_selectContext() *Recursive_selectContext { var p = new(Recursive_selectContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_recursive_select return p } func InitEmptyRecursive_selectContext(p *Recursive_selectContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_recursive_select } func (*Recursive_selectContext) IsRecursive_selectContext() {} func NewRecursive_selectContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Recursive_selectContext { var p = new(Recursive_selectContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_recursive_select return p } func (s *Recursive_selectContext) GetParser() antlr.Parser { return s.parser } func (s *Recursive_selectContext) Select_stmt() ISelect_stmtContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(ISelect_stmtContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(ISelect_stmtContext) } func (s *Recursive_selectContext) GetRuleContext() antlr.RuleContext { return s } func (s *Recursive_selectContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Recursive_selectContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterRecursive_select(s) } } func (s *Recursive_selectContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitRecursive_select(s) } } func (s *Recursive_selectContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitRecursive_select(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Recursive_select() (localctx IRecursive_selectContext) { localctx = NewRecursive_selectContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 166, SQLiteParserRULE_recursive_select) p.EnterOuterAlt(localctx, 1) { p.SetState(1986) p.Select_stmt() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IUnary_operatorContext is an interface to support dynamic dispatch. type IUnary_operatorContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures MINUS() antlr.TerminalNode PLUS() antlr.TerminalNode TILDE() antlr.TerminalNode NOT_() antlr.TerminalNode // IsUnary_operatorContext differentiates from other interfaces. IsUnary_operatorContext() } type Unary_operatorContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyUnary_operatorContext() *Unary_operatorContext { var p = new(Unary_operatorContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_unary_operator return p } func InitEmptyUnary_operatorContext(p *Unary_operatorContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_unary_operator } func (*Unary_operatorContext) IsUnary_operatorContext() {} func NewUnary_operatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Unary_operatorContext { var p = new(Unary_operatorContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_unary_operator return p } func (s *Unary_operatorContext) GetParser() antlr.Parser { return s.parser } func (s *Unary_operatorContext) MINUS() antlr.TerminalNode { return s.GetToken(SQLiteParserMINUS, 0) } func (s *Unary_operatorContext) PLUS() antlr.TerminalNode { return s.GetToken(SQLiteParserPLUS, 0) } func (s *Unary_operatorContext) TILDE() antlr.TerminalNode { return s.GetToken(SQLiteParserTILDE, 0) } func (s *Unary_operatorContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *Unary_operatorContext) GetRuleContext() antlr.RuleContext { return s } func (s *Unary_operatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Unary_operatorContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterUnary_operator(s) } } func (s *Unary_operatorContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitUnary_operator(s) } } func (s *Unary_operatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitUnary_operator(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Unary_operator() (localctx IUnary_operatorContext) { localctx = NewUnary_operatorContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 168, SQLiteParserRULE_unary_operator) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1988) _la = p.GetTokenStream().LA(1) if !(((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&1792) != 0) || _la == SQLiteParserNOT_) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IError_messageContext is an interface to support dynamic dispatch. type IError_messageContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures STRING_LITERAL() antlr.TerminalNode // IsError_messageContext differentiates from other interfaces. IsError_messageContext() } type Error_messageContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyError_messageContext() *Error_messageContext { var p = new(Error_messageContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_error_message return p } func InitEmptyError_messageContext(p *Error_messageContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_error_message } func (*Error_messageContext) IsError_messageContext() {} func NewError_messageContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Error_messageContext { var p = new(Error_messageContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_error_message return p } func (s *Error_messageContext) GetParser() antlr.Parser { return s.parser } func (s *Error_messageContext) STRING_LITERAL() antlr.TerminalNode { return s.GetToken(SQLiteParserSTRING_LITERAL, 0) } func (s *Error_messageContext) GetRuleContext() antlr.RuleContext { return s } func (s *Error_messageContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Error_messageContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterError_message(s) } } func (s *Error_messageContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitError_message(s) } } func (s *Error_messageContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitError_message(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Error_message() (localctx IError_messageContext) { localctx = NewError_messageContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 170, SQLiteParserRULE_error_message) p.EnterOuterAlt(localctx, 1) { p.SetState(1990) p.Match(SQLiteParserSTRING_LITERAL) if p.HasError() { // Recognition error - abort rule goto errorExit } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IModule_argumentContext is an interface to support dynamic dispatch. type IModule_argumentContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Expr() IExprContext Column_def() IColumn_defContext // IsModule_argumentContext differentiates from other interfaces. IsModule_argumentContext() } type Module_argumentContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyModule_argumentContext() *Module_argumentContext { var p = new(Module_argumentContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_module_argument return p } func InitEmptyModule_argumentContext(p *Module_argumentContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_module_argument } func (*Module_argumentContext) IsModule_argumentContext() {} func NewModule_argumentContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Module_argumentContext { var p = new(Module_argumentContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_module_argument return p } func (s *Module_argumentContext) GetParser() antlr.Parser { return s.parser } func (s *Module_argumentContext) Expr() IExprContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IExprContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IExprContext) } func (s *Module_argumentContext) Column_def() IColumn_defContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IColumn_defContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IColumn_defContext) } func (s *Module_argumentContext) GetRuleContext() antlr.RuleContext { return s } func (s *Module_argumentContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Module_argumentContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterModule_argument(s) } } func (s *Module_argumentContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitModule_argument(s) } } func (s *Module_argumentContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitModule_argument(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Module_argument() (localctx IModule_argumentContext) { localctx = NewModule_argumentContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 172, SQLiteParserRULE_module_argument) p.SetState(1994) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetInterpreter().AdaptivePredict(p.BaseParser, p.GetTokenStream(), 294, p.GetParserRuleContext()) { case 1: p.EnterOuterAlt(localctx, 1) { p.SetState(1992) p.expr(0) } case 2: p.EnterOuterAlt(localctx, 2) { p.SetState(1993) p.Column_def() } case antlr.ATNInvalidAltNumber: goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IColumn_aliasContext is an interface to support dynamic dispatch. type IColumn_aliasContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures IDENTIFIER() antlr.TerminalNode STRING_LITERAL() antlr.TerminalNode // IsColumn_aliasContext differentiates from other interfaces. IsColumn_aliasContext() } type Column_aliasContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyColumn_aliasContext() *Column_aliasContext { var p = new(Column_aliasContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_column_alias return p } func InitEmptyColumn_aliasContext(p *Column_aliasContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_column_alias } func (*Column_aliasContext) IsColumn_aliasContext() {} func NewColumn_aliasContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Column_aliasContext { var p = new(Column_aliasContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_column_alias return p } func (s *Column_aliasContext) GetParser() antlr.Parser { return s.parser } func (s *Column_aliasContext) IDENTIFIER() antlr.TerminalNode { return s.GetToken(SQLiteParserIDENTIFIER, 0) } func (s *Column_aliasContext) STRING_LITERAL() antlr.TerminalNode { return s.GetToken(SQLiteParserSTRING_LITERAL, 0) } func (s *Column_aliasContext) GetRuleContext() antlr.RuleContext { return s } func (s *Column_aliasContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Column_aliasContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterColumn_alias(s) } } func (s *Column_aliasContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitColumn_alias(s) } } func (s *Column_aliasContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitColumn_alias(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Column_alias() (localctx IColumn_aliasContext) { localctx = NewColumn_aliasContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 174, SQLiteParserRULE_column_alias) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1996) _la = p.GetTokenStream().LA(1) if !(_la == SQLiteParserIDENTIFIER || _la == SQLiteParserSTRING_LITERAL) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IKeywordContext is an interface to support dynamic dispatch. type IKeywordContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures ABORT_() antlr.TerminalNode ACTION_() antlr.TerminalNode ADD_() antlr.TerminalNode AFTER_() antlr.TerminalNode ALL_() antlr.TerminalNode ALTER_() antlr.TerminalNode ANALYZE_() antlr.TerminalNode AND_() antlr.TerminalNode AS_() antlr.TerminalNode ASC_() antlr.TerminalNode ATTACH_() antlr.TerminalNode AUTOINCREMENT_() antlr.TerminalNode BEFORE_() antlr.TerminalNode BEGIN_() antlr.TerminalNode BETWEEN_() antlr.TerminalNode BY_() antlr.TerminalNode CASCADE_() antlr.TerminalNode CASE_() antlr.TerminalNode CAST_() antlr.TerminalNode CHECK_() antlr.TerminalNode COLLATE_() antlr.TerminalNode COLUMN_() antlr.TerminalNode COMMIT_() antlr.TerminalNode CONFLICT_() antlr.TerminalNode CONSTRAINT_() antlr.TerminalNode CREATE_() antlr.TerminalNode CROSS_() antlr.TerminalNode CURRENT_DATE_() antlr.TerminalNode CURRENT_TIME_() antlr.TerminalNode CURRENT_TIMESTAMP_() antlr.TerminalNode DATABASE_() antlr.TerminalNode DEFAULT_() antlr.TerminalNode DEFERRABLE_() antlr.TerminalNode DEFERRED_() antlr.TerminalNode DELETE_() antlr.TerminalNode DESC_() antlr.TerminalNode DETACH_() antlr.TerminalNode DISTINCT_() antlr.TerminalNode DROP_() antlr.TerminalNode EACH_() antlr.TerminalNode ELSE_() antlr.TerminalNode END_() antlr.TerminalNode ESCAPE_() antlr.TerminalNode EXCEPT_() antlr.TerminalNode EXCLUSIVE_() antlr.TerminalNode EXISTS_() antlr.TerminalNode EXPLAIN_() antlr.TerminalNode FAIL_() antlr.TerminalNode FOR_() antlr.TerminalNode FOREIGN_() antlr.TerminalNode FROM_() antlr.TerminalNode FULL_() antlr.TerminalNode GLOB_() antlr.TerminalNode GROUP_() antlr.TerminalNode HAVING_() antlr.TerminalNode IF_() antlr.TerminalNode IGNORE_() antlr.TerminalNode IMMEDIATE_() antlr.TerminalNode IN_() antlr.TerminalNode INDEX_() antlr.TerminalNode INDEXED_() antlr.TerminalNode INITIALLY_() antlr.TerminalNode INNER_() antlr.TerminalNode INSERT_() antlr.TerminalNode INSTEAD_() antlr.TerminalNode INTERSECT_() antlr.TerminalNode INTO_() antlr.TerminalNode IS_() antlr.TerminalNode ISNULL_() antlr.TerminalNode JOIN_() antlr.TerminalNode KEY_() antlr.TerminalNode LEFT_() antlr.TerminalNode LIKE_() antlr.TerminalNode LIMIT_() antlr.TerminalNode MATCH_() antlr.TerminalNode NATURAL_() antlr.TerminalNode NO_() antlr.TerminalNode NOT_() antlr.TerminalNode NOTNULL_() antlr.TerminalNode NULL_() antlr.TerminalNode OF_() antlr.TerminalNode OFFSET_() antlr.TerminalNode ON_() antlr.TerminalNode OR_() antlr.TerminalNode ORDER_() antlr.TerminalNode OUTER_() antlr.TerminalNode PLAN_() antlr.TerminalNode PRAGMA_() antlr.TerminalNode PRIMARY_() antlr.TerminalNode QUERY_() antlr.TerminalNode RAISE_() antlr.TerminalNode RECURSIVE_() antlr.TerminalNode REFERENCES_() antlr.TerminalNode REGEXP_() antlr.TerminalNode REINDEX_() antlr.TerminalNode RELEASE_() antlr.TerminalNode RENAME_() antlr.TerminalNode REPLACE_() antlr.TerminalNode RESTRICT_() antlr.TerminalNode RIGHT_() antlr.TerminalNode ROLLBACK_() antlr.TerminalNode ROW_() antlr.TerminalNode ROWS_() antlr.TerminalNode SAVEPOINT_() antlr.TerminalNode SELECT_() antlr.TerminalNode SET_() antlr.TerminalNode TABLE_() antlr.TerminalNode TEMP_() antlr.TerminalNode TEMPORARY_() antlr.TerminalNode THEN_() antlr.TerminalNode TO_() antlr.TerminalNode TRANSACTION_() antlr.TerminalNode TRIGGER_() antlr.TerminalNode UNION_() antlr.TerminalNode UNIQUE_() antlr.TerminalNode UPDATE_() antlr.TerminalNode USING_() antlr.TerminalNode VACUUM_() antlr.TerminalNode VALUES_() antlr.TerminalNode VIEW_() antlr.TerminalNode VIRTUAL_() antlr.TerminalNode WHEN_() antlr.TerminalNode WHERE_() antlr.TerminalNode WITH_() antlr.TerminalNode WITHOUT_() antlr.TerminalNode FIRST_VALUE_() antlr.TerminalNode OVER_() antlr.TerminalNode PARTITION_() antlr.TerminalNode RANGE_() antlr.TerminalNode PRECEDING_() antlr.TerminalNode UNBOUNDED_() antlr.TerminalNode CURRENT_() antlr.TerminalNode FOLLOWING_() antlr.TerminalNode CUME_DIST_() antlr.TerminalNode DENSE_RANK_() antlr.TerminalNode LAG_() antlr.TerminalNode LAST_VALUE_() antlr.TerminalNode LEAD_() antlr.TerminalNode NTH_VALUE_() antlr.TerminalNode NTILE_() antlr.TerminalNode PERCENT_RANK_() antlr.TerminalNode RANK_() antlr.TerminalNode ROW_NUMBER_() antlr.TerminalNode GENERATED_() antlr.TerminalNode ALWAYS_() antlr.TerminalNode STORED_() antlr.TerminalNode TRUE_() antlr.TerminalNode FALSE_() antlr.TerminalNode WINDOW_() antlr.TerminalNode NULLS_() antlr.TerminalNode FIRST_() antlr.TerminalNode LAST_() antlr.TerminalNode FILTER_() antlr.TerminalNode GROUPS_() antlr.TerminalNode EXCLUDE_() antlr.TerminalNode // IsKeywordContext differentiates from other interfaces. IsKeywordContext() } type KeywordContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyKeywordContext() *KeywordContext { var p = new(KeywordContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_keyword return p } func InitEmptyKeywordContext(p *KeywordContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_keyword } func (*KeywordContext) IsKeywordContext() {} func NewKeywordContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *KeywordContext { var p = new(KeywordContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_keyword return p } func (s *KeywordContext) GetParser() antlr.Parser { return s.parser } func (s *KeywordContext) ABORT_() antlr.TerminalNode { return s.GetToken(SQLiteParserABORT_, 0) } func (s *KeywordContext) ACTION_() antlr.TerminalNode { return s.GetToken(SQLiteParserACTION_, 0) } func (s *KeywordContext) ADD_() antlr.TerminalNode { return s.GetToken(SQLiteParserADD_, 0) } func (s *KeywordContext) AFTER_() antlr.TerminalNode { return s.GetToken(SQLiteParserAFTER_, 0) } func (s *KeywordContext) ALL_() antlr.TerminalNode { return s.GetToken(SQLiteParserALL_, 0) } func (s *KeywordContext) ALTER_() antlr.TerminalNode { return s.GetToken(SQLiteParserALTER_, 0) } func (s *KeywordContext) ANALYZE_() antlr.TerminalNode { return s.GetToken(SQLiteParserANALYZE_, 0) } func (s *KeywordContext) AND_() antlr.TerminalNode { return s.GetToken(SQLiteParserAND_, 0) } func (s *KeywordContext) AS_() antlr.TerminalNode { return s.GetToken(SQLiteParserAS_, 0) } func (s *KeywordContext) ASC_() antlr.TerminalNode { return s.GetToken(SQLiteParserASC_, 0) } func (s *KeywordContext) ATTACH_() antlr.TerminalNode { return s.GetToken(SQLiteParserATTACH_, 0) } func (s *KeywordContext) AUTOINCREMENT_() antlr.TerminalNode { return s.GetToken(SQLiteParserAUTOINCREMENT_, 0) } func (s *KeywordContext) BEFORE_() antlr.TerminalNode { return s.GetToken(SQLiteParserBEFORE_, 0) } func (s *KeywordContext) BEGIN_() antlr.TerminalNode { return s.GetToken(SQLiteParserBEGIN_, 0) } func (s *KeywordContext) BETWEEN_() antlr.TerminalNode { return s.GetToken(SQLiteParserBETWEEN_, 0) } func (s *KeywordContext) BY_() antlr.TerminalNode { return s.GetToken(SQLiteParserBY_, 0) } func (s *KeywordContext) CASCADE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCASCADE_, 0) } func (s *KeywordContext) CASE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCASE_, 0) } func (s *KeywordContext) CAST_() antlr.TerminalNode { return s.GetToken(SQLiteParserCAST_, 0) } func (s *KeywordContext) CHECK_() antlr.TerminalNode { return s.GetToken(SQLiteParserCHECK_, 0) } func (s *KeywordContext) COLLATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCOLLATE_, 0) } func (s *KeywordContext) COLUMN_() antlr.TerminalNode { return s.GetToken(SQLiteParserCOLUMN_, 0) } func (s *KeywordContext) COMMIT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCOMMIT_, 0) } func (s *KeywordContext) CONFLICT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCONFLICT_, 0) } func (s *KeywordContext) CONSTRAINT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCONSTRAINT_, 0) } func (s *KeywordContext) CREATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCREATE_, 0) } func (s *KeywordContext) CROSS_() antlr.TerminalNode { return s.GetToken(SQLiteParserCROSS_, 0) } func (s *KeywordContext) CURRENT_DATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserCURRENT_DATE_, 0) } func (s *KeywordContext) CURRENT_TIME_() antlr.TerminalNode { return s.GetToken(SQLiteParserCURRENT_TIME_, 0) } func (s *KeywordContext) CURRENT_TIMESTAMP_() antlr.TerminalNode { return s.GetToken(SQLiteParserCURRENT_TIMESTAMP_, 0) } func (s *KeywordContext) DATABASE_() antlr.TerminalNode { return s.GetToken(SQLiteParserDATABASE_, 0) } func (s *KeywordContext) DEFAULT_() antlr.TerminalNode { return s.GetToken(SQLiteParserDEFAULT_, 0) } func (s *KeywordContext) DEFERRABLE_() antlr.TerminalNode { return s.GetToken(SQLiteParserDEFERRABLE_, 0) } func (s *KeywordContext) DEFERRED_() antlr.TerminalNode { return s.GetToken(SQLiteParserDEFERRED_, 0) } func (s *KeywordContext) DELETE_() antlr.TerminalNode { return s.GetToken(SQLiteParserDELETE_, 0) } func (s *KeywordContext) DESC_() antlr.TerminalNode { return s.GetToken(SQLiteParserDESC_, 0) } func (s *KeywordContext) DETACH_() antlr.TerminalNode { return s.GetToken(SQLiteParserDETACH_, 0) } func (s *KeywordContext) DISTINCT_() antlr.TerminalNode { return s.GetToken(SQLiteParserDISTINCT_, 0) } func (s *KeywordContext) DROP_() antlr.TerminalNode { return s.GetToken(SQLiteParserDROP_, 0) } func (s *KeywordContext) EACH_() antlr.TerminalNode { return s.GetToken(SQLiteParserEACH_, 0) } func (s *KeywordContext) ELSE_() antlr.TerminalNode { return s.GetToken(SQLiteParserELSE_, 0) } func (s *KeywordContext) END_() antlr.TerminalNode { return s.GetToken(SQLiteParserEND_, 0) } func (s *KeywordContext) ESCAPE_() antlr.TerminalNode { return s.GetToken(SQLiteParserESCAPE_, 0) } func (s *KeywordContext) EXCEPT_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXCEPT_, 0) } func (s *KeywordContext) EXCLUSIVE_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXCLUSIVE_, 0) } func (s *KeywordContext) EXISTS_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXISTS_, 0) } func (s *KeywordContext) EXPLAIN_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXPLAIN_, 0) } func (s *KeywordContext) FAIL_() antlr.TerminalNode { return s.GetToken(SQLiteParserFAIL_, 0) } func (s *KeywordContext) FOR_() antlr.TerminalNode { return s.GetToken(SQLiteParserFOR_, 0) } func (s *KeywordContext) FOREIGN_() antlr.TerminalNode { return s.GetToken(SQLiteParserFOREIGN_, 0) } func (s *KeywordContext) FROM_() antlr.TerminalNode { return s.GetToken(SQLiteParserFROM_, 0) } func (s *KeywordContext) FULL_() antlr.TerminalNode { return s.GetToken(SQLiteParserFULL_, 0) } func (s *KeywordContext) GLOB_() antlr.TerminalNode { return s.GetToken(SQLiteParserGLOB_, 0) } func (s *KeywordContext) GROUP_() antlr.TerminalNode { return s.GetToken(SQLiteParserGROUP_, 0) } func (s *KeywordContext) HAVING_() antlr.TerminalNode { return s.GetToken(SQLiteParserHAVING_, 0) } func (s *KeywordContext) IF_() antlr.TerminalNode { return s.GetToken(SQLiteParserIF_, 0) } func (s *KeywordContext) IGNORE_() antlr.TerminalNode { return s.GetToken(SQLiteParserIGNORE_, 0) } func (s *KeywordContext) IMMEDIATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserIMMEDIATE_, 0) } func (s *KeywordContext) IN_() antlr.TerminalNode { return s.GetToken(SQLiteParserIN_, 0) } func (s *KeywordContext) INDEX_() antlr.TerminalNode { return s.GetToken(SQLiteParserINDEX_, 0) } func (s *KeywordContext) INDEXED_() antlr.TerminalNode { return s.GetToken(SQLiteParserINDEXED_, 0) } func (s *KeywordContext) INITIALLY_() antlr.TerminalNode { return s.GetToken(SQLiteParserINITIALLY_, 0) } func (s *KeywordContext) INNER_() antlr.TerminalNode { return s.GetToken(SQLiteParserINNER_, 0) } func (s *KeywordContext) INSERT_() antlr.TerminalNode { return s.GetToken(SQLiteParserINSERT_, 0) } func (s *KeywordContext) INSTEAD_() antlr.TerminalNode { return s.GetToken(SQLiteParserINSTEAD_, 0) } func (s *KeywordContext) INTERSECT_() antlr.TerminalNode { return s.GetToken(SQLiteParserINTERSECT_, 0) } func (s *KeywordContext) INTO_() antlr.TerminalNode { return s.GetToken(SQLiteParserINTO_, 0) } func (s *KeywordContext) IS_() antlr.TerminalNode { return s.GetToken(SQLiteParserIS_, 0) } func (s *KeywordContext) ISNULL_() antlr.TerminalNode { return s.GetToken(SQLiteParserISNULL_, 0) } func (s *KeywordContext) JOIN_() antlr.TerminalNode { return s.GetToken(SQLiteParserJOIN_, 0) } func (s *KeywordContext) KEY_() antlr.TerminalNode { return s.GetToken(SQLiteParserKEY_, 0) } func (s *KeywordContext) LEFT_() antlr.TerminalNode { return s.GetToken(SQLiteParserLEFT_, 0) } func (s *KeywordContext) LIKE_() antlr.TerminalNode { return s.GetToken(SQLiteParserLIKE_, 0) } func (s *KeywordContext) LIMIT_() antlr.TerminalNode { return s.GetToken(SQLiteParserLIMIT_, 0) } func (s *KeywordContext) MATCH_() antlr.TerminalNode { return s.GetToken(SQLiteParserMATCH_, 0) } func (s *KeywordContext) NATURAL_() antlr.TerminalNode { return s.GetToken(SQLiteParserNATURAL_, 0) } func (s *KeywordContext) NO_() antlr.TerminalNode { return s.GetToken(SQLiteParserNO_, 0) } func (s *KeywordContext) NOT_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOT_, 0) } func (s *KeywordContext) NOTNULL_() antlr.TerminalNode { return s.GetToken(SQLiteParserNOTNULL_, 0) } func (s *KeywordContext) NULL_() antlr.TerminalNode { return s.GetToken(SQLiteParserNULL_, 0) } func (s *KeywordContext) OF_() antlr.TerminalNode { return s.GetToken(SQLiteParserOF_, 0) } func (s *KeywordContext) OFFSET_() antlr.TerminalNode { return s.GetToken(SQLiteParserOFFSET_, 0) } func (s *KeywordContext) ON_() antlr.TerminalNode { return s.GetToken(SQLiteParserON_, 0) } func (s *KeywordContext) OR_() antlr.TerminalNode { return s.GetToken(SQLiteParserOR_, 0) } func (s *KeywordContext) ORDER_() antlr.TerminalNode { return s.GetToken(SQLiteParserORDER_, 0) } func (s *KeywordContext) OUTER_() antlr.TerminalNode { return s.GetToken(SQLiteParserOUTER_, 0) } func (s *KeywordContext) PLAN_() antlr.TerminalNode { return s.GetToken(SQLiteParserPLAN_, 0) } func (s *KeywordContext) PRAGMA_() antlr.TerminalNode { return s.GetToken(SQLiteParserPRAGMA_, 0) } func (s *KeywordContext) PRIMARY_() antlr.TerminalNode { return s.GetToken(SQLiteParserPRIMARY_, 0) } func (s *KeywordContext) QUERY_() antlr.TerminalNode { return s.GetToken(SQLiteParserQUERY_, 0) } func (s *KeywordContext) RAISE_() antlr.TerminalNode { return s.GetToken(SQLiteParserRAISE_, 0) } func (s *KeywordContext) RECURSIVE_() antlr.TerminalNode { return s.GetToken(SQLiteParserRECURSIVE_, 0) } func (s *KeywordContext) REFERENCES_() antlr.TerminalNode { return s.GetToken(SQLiteParserREFERENCES_, 0) } func (s *KeywordContext) REGEXP_() antlr.TerminalNode { return s.GetToken(SQLiteParserREGEXP_, 0) } func (s *KeywordContext) REINDEX_() antlr.TerminalNode { return s.GetToken(SQLiteParserREINDEX_, 0) } func (s *KeywordContext) RELEASE_() antlr.TerminalNode { return s.GetToken(SQLiteParserRELEASE_, 0) } func (s *KeywordContext) RENAME_() antlr.TerminalNode { return s.GetToken(SQLiteParserRENAME_, 0) } func (s *KeywordContext) REPLACE_() antlr.TerminalNode { return s.GetToken(SQLiteParserREPLACE_, 0) } func (s *KeywordContext) RESTRICT_() antlr.TerminalNode { return s.GetToken(SQLiteParserRESTRICT_, 0) } func (s *KeywordContext) RIGHT_() antlr.TerminalNode { return s.GetToken(SQLiteParserRIGHT_, 0) } func (s *KeywordContext) ROLLBACK_() antlr.TerminalNode { return s.GetToken(SQLiteParserROLLBACK_, 0) } func (s *KeywordContext) ROW_() antlr.TerminalNode { return s.GetToken(SQLiteParserROW_, 0) } func (s *KeywordContext) ROWS_() antlr.TerminalNode { return s.GetToken(SQLiteParserROWS_, 0) } func (s *KeywordContext) SAVEPOINT_() antlr.TerminalNode { return s.GetToken(SQLiteParserSAVEPOINT_, 0) } func (s *KeywordContext) SELECT_() antlr.TerminalNode { return s.GetToken(SQLiteParserSELECT_, 0) } func (s *KeywordContext) SET_() antlr.TerminalNode { return s.GetToken(SQLiteParserSET_, 0) } func (s *KeywordContext) TABLE_() antlr.TerminalNode { return s.GetToken(SQLiteParserTABLE_, 0) } func (s *KeywordContext) TEMP_() antlr.TerminalNode { return s.GetToken(SQLiteParserTEMP_, 0) } func (s *KeywordContext) TEMPORARY_() antlr.TerminalNode { return s.GetToken(SQLiteParserTEMPORARY_, 0) } func (s *KeywordContext) THEN_() antlr.TerminalNode { return s.GetToken(SQLiteParserTHEN_, 0) } func (s *KeywordContext) TO_() antlr.TerminalNode { return s.GetToken(SQLiteParserTO_, 0) } func (s *KeywordContext) TRANSACTION_() antlr.TerminalNode { return s.GetToken(SQLiteParserTRANSACTION_, 0) } func (s *KeywordContext) TRIGGER_() antlr.TerminalNode { return s.GetToken(SQLiteParserTRIGGER_, 0) } func (s *KeywordContext) UNION_() antlr.TerminalNode { return s.GetToken(SQLiteParserUNION_, 0) } func (s *KeywordContext) UNIQUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserUNIQUE_, 0) } func (s *KeywordContext) UPDATE_() antlr.TerminalNode { return s.GetToken(SQLiteParserUPDATE_, 0) } func (s *KeywordContext) USING_() antlr.TerminalNode { return s.GetToken(SQLiteParserUSING_, 0) } func (s *KeywordContext) VACUUM_() antlr.TerminalNode { return s.GetToken(SQLiteParserVACUUM_, 0) } func (s *KeywordContext) VALUES_() antlr.TerminalNode { return s.GetToken(SQLiteParserVALUES_, 0) } func (s *KeywordContext) VIEW_() antlr.TerminalNode { return s.GetToken(SQLiteParserVIEW_, 0) } func (s *KeywordContext) VIRTUAL_() antlr.TerminalNode { return s.GetToken(SQLiteParserVIRTUAL_, 0) } func (s *KeywordContext) WHEN_() antlr.TerminalNode { return s.GetToken(SQLiteParserWHEN_, 0) } func (s *KeywordContext) WHERE_() antlr.TerminalNode { return s.GetToken(SQLiteParserWHERE_, 0) } func (s *KeywordContext) WITH_() antlr.TerminalNode { return s.GetToken(SQLiteParserWITH_, 0) } func (s *KeywordContext) WITHOUT_() antlr.TerminalNode { return s.GetToken(SQLiteParserWITHOUT_, 0) } func (s *KeywordContext) FIRST_VALUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserFIRST_VALUE_, 0) } func (s *KeywordContext) OVER_() antlr.TerminalNode { return s.GetToken(SQLiteParserOVER_, 0) } func (s *KeywordContext) PARTITION_() antlr.TerminalNode { return s.GetToken(SQLiteParserPARTITION_, 0) } func (s *KeywordContext) RANGE_() antlr.TerminalNode { return s.GetToken(SQLiteParserRANGE_, 0) } func (s *KeywordContext) PRECEDING_() antlr.TerminalNode { return s.GetToken(SQLiteParserPRECEDING_, 0) } func (s *KeywordContext) UNBOUNDED_() antlr.TerminalNode { return s.GetToken(SQLiteParserUNBOUNDED_, 0) } func (s *KeywordContext) CURRENT_() antlr.TerminalNode { return s.GetToken(SQLiteParserCURRENT_, 0) } func (s *KeywordContext) FOLLOWING_() antlr.TerminalNode { return s.GetToken(SQLiteParserFOLLOWING_, 0) } func (s *KeywordContext) CUME_DIST_() antlr.TerminalNode { return s.GetToken(SQLiteParserCUME_DIST_, 0) } func (s *KeywordContext) DENSE_RANK_() antlr.TerminalNode { return s.GetToken(SQLiteParserDENSE_RANK_, 0) } func (s *KeywordContext) LAG_() antlr.TerminalNode { return s.GetToken(SQLiteParserLAG_, 0) } func (s *KeywordContext) LAST_VALUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserLAST_VALUE_, 0) } func (s *KeywordContext) LEAD_() antlr.TerminalNode { return s.GetToken(SQLiteParserLEAD_, 0) } func (s *KeywordContext) NTH_VALUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserNTH_VALUE_, 0) } func (s *KeywordContext) NTILE_() antlr.TerminalNode { return s.GetToken(SQLiteParserNTILE_, 0) } func (s *KeywordContext) PERCENT_RANK_() antlr.TerminalNode { return s.GetToken(SQLiteParserPERCENT_RANK_, 0) } func (s *KeywordContext) RANK_() antlr.TerminalNode { return s.GetToken(SQLiteParserRANK_, 0) } func (s *KeywordContext) ROW_NUMBER_() antlr.TerminalNode { return s.GetToken(SQLiteParserROW_NUMBER_, 0) } func (s *KeywordContext) GENERATED_() antlr.TerminalNode { return s.GetToken(SQLiteParserGENERATED_, 0) } func (s *KeywordContext) ALWAYS_() antlr.TerminalNode { return s.GetToken(SQLiteParserALWAYS_, 0) } func (s *KeywordContext) STORED_() antlr.TerminalNode { return s.GetToken(SQLiteParserSTORED_, 0) } func (s *KeywordContext) TRUE_() antlr.TerminalNode { return s.GetToken(SQLiteParserTRUE_, 0) } func (s *KeywordContext) FALSE_() antlr.TerminalNode { return s.GetToken(SQLiteParserFALSE_, 0) } func (s *KeywordContext) WINDOW_() antlr.TerminalNode { return s.GetToken(SQLiteParserWINDOW_, 0) } func (s *KeywordContext) NULLS_() antlr.TerminalNode { return s.GetToken(SQLiteParserNULLS_, 0) } func (s *KeywordContext) FIRST_() antlr.TerminalNode { return s.GetToken(SQLiteParserFIRST_, 0) } func (s *KeywordContext) LAST_() antlr.TerminalNode { return s.GetToken(SQLiteParserLAST_, 0) } func (s *KeywordContext) FILTER_() antlr.TerminalNode { return s.GetToken(SQLiteParserFILTER_, 0) } func (s *KeywordContext) GROUPS_() antlr.TerminalNode { return s.GetToken(SQLiteParserGROUPS_, 0) } func (s *KeywordContext) EXCLUDE_() antlr.TerminalNode { return s.GetToken(SQLiteParserEXCLUDE_, 0) } func (s *KeywordContext) GetRuleContext() antlr.RuleContext { return s } func (s *KeywordContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *KeywordContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterKeyword(s) } } func (s *KeywordContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitKeyword(s) } } func (s *KeywordContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitKeyword(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Keyword() (localctx IKeywordContext) { localctx = NewKeywordContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 176, SQLiteParserRULE_keyword) var _la int p.EnterOuterAlt(localctx, 1) { p.SetState(1998) _la = p.GetTokenStream().LA(1) if !(((int64(_la) & ^0x3f) == 0 && ((int64(1)<<_la)&-33554432) != 0) || ((int64((_la-64)) & ^0x3f) == 0 && ((int64(1)<<(_la-64))&-1152921504606846977) != 0) || ((int64((_la-128)) & ^0x3f) == 0 && ((int64(1)<<(_la-128))&9007199254740991) != 0)) { p.GetErrorHandler().RecoverInline(p) } else { p.GetErrorHandler().ReportMatch(p) p.Consume() } } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // INameContext is an interface to support dynamic dispatch. type INameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsNameContext differentiates from other interfaces. IsNameContext() } type NameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyNameContext() *NameContext { var p = new(NameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_name return p } func InitEmptyNameContext(p *NameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_name } func (*NameContext) IsNameContext() {} func NewNameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *NameContext { var p = new(NameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_name return p } func (s *NameContext) GetParser() antlr.Parser { return s.parser } func (s *NameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *NameContext) GetRuleContext() antlr.RuleContext { return s } func (s *NameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *NameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterName(s) } } func (s *NameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitName(s) } } func (s *NameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitName(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Name() (localctx INameContext) { localctx = NewNameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 178, SQLiteParserRULE_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2000) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IFunction_nameContext is an interface to support dynamic dispatch. type IFunction_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsFunction_nameContext differentiates from other interfaces. IsFunction_nameContext() } type Function_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyFunction_nameContext() *Function_nameContext { var p = new(Function_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_function_name return p } func InitEmptyFunction_nameContext(p *Function_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_function_name } func (*Function_nameContext) IsFunction_nameContext() {} func NewFunction_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Function_nameContext { var p = new(Function_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_function_name return p } func (s *Function_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Function_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Function_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Function_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Function_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterFunction_name(s) } } func (s *Function_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitFunction_name(s) } } func (s *Function_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitFunction_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Function_name() (localctx IFunction_nameContext) { localctx = NewFunction_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 180, SQLiteParserRULE_function_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2002) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ISchema_nameContext is an interface to support dynamic dispatch. type ISchema_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsSchema_nameContext differentiates from other interfaces. IsSchema_nameContext() } type Schema_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptySchema_nameContext() *Schema_nameContext { var p = new(Schema_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_schema_name return p } func InitEmptySchema_nameContext(p *Schema_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_schema_name } func (*Schema_nameContext) IsSchema_nameContext() {} func NewSchema_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Schema_nameContext { var p = new(Schema_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_schema_name return p } func (s *Schema_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Schema_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Schema_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Schema_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Schema_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterSchema_name(s) } } func (s *Schema_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitSchema_name(s) } } func (s *Schema_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitSchema_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Schema_name() (localctx ISchema_nameContext) { localctx = NewSchema_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 182, SQLiteParserRULE_schema_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2004) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ITable_nameContext is an interface to support dynamic dispatch. type ITable_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsTable_nameContext differentiates from other interfaces. IsTable_nameContext() } type Table_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyTable_nameContext() *Table_nameContext { var p = new(Table_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_name return p } func InitEmptyTable_nameContext(p *Table_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_name } func (*Table_nameContext) IsTable_nameContext() {} func NewTable_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Table_nameContext { var p = new(Table_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_table_name return p } func (s *Table_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Table_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Table_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Table_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Table_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterTable_name(s) } } func (s *Table_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitTable_name(s) } } func (s *Table_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitTable_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Table_name() (localctx ITable_nameContext) { localctx = NewTable_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 184, SQLiteParserRULE_table_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2006) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ITable_or_index_nameContext is an interface to support dynamic dispatch. type ITable_or_index_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsTable_or_index_nameContext differentiates from other interfaces. IsTable_or_index_nameContext() } type Table_or_index_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyTable_or_index_nameContext() *Table_or_index_nameContext { var p = new(Table_or_index_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_or_index_name return p } func InitEmptyTable_or_index_nameContext(p *Table_or_index_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_or_index_name } func (*Table_or_index_nameContext) IsTable_or_index_nameContext() {} func NewTable_or_index_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Table_or_index_nameContext { var p = new(Table_or_index_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_table_or_index_name return p } func (s *Table_or_index_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Table_or_index_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Table_or_index_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Table_or_index_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Table_or_index_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterTable_or_index_name(s) } } func (s *Table_or_index_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitTable_or_index_name(s) } } func (s *Table_or_index_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitTable_or_index_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Table_or_index_name() (localctx ITable_or_index_nameContext) { localctx = NewTable_or_index_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 186, SQLiteParserRULE_table_or_index_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2008) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IColumn_nameContext is an interface to support dynamic dispatch. type IColumn_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsColumn_nameContext differentiates from other interfaces. IsColumn_nameContext() } type Column_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyColumn_nameContext() *Column_nameContext { var p = new(Column_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_column_name return p } func InitEmptyColumn_nameContext(p *Column_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_column_name } func (*Column_nameContext) IsColumn_nameContext() {} func NewColumn_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Column_nameContext { var p = new(Column_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_column_name return p } func (s *Column_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Column_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Column_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Column_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Column_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterColumn_name(s) } } func (s *Column_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitColumn_name(s) } } func (s *Column_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitColumn_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Column_name() (localctx IColumn_nameContext) { localctx = NewColumn_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 188, SQLiteParserRULE_column_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2010) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ICollation_nameContext is an interface to support dynamic dispatch. type ICollation_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsCollation_nameContext differentiates from other interfaces. IsCollation_nameContext() } type Collation_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyCollation_nameContext() *Collation_nameContext { var p = new(Collation_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_collation_name return p } func InitEmptyCollation_nameContext(p *Collation_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_collation_name } func (*Collation_nameContext) IsCollation_nameContext() {} func NewCollation_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Collation_nameContext { var p = new(Collation_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_collation_name return p } func (s *Collation_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Collation_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Collation_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Collation_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Collation_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterCollation_name(s) } } func (s *Collation_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitCollation_name(s) } } func (s *Collation_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitCollation_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Collation_name() (localctx ICollation_nameContext) { localctx = NewCollation_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 190, SQLiteParserRULE_collation_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2012) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IForeign_tableContext is an interface to support dynamic dispatch. type IForeign_tableContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsForeign_tableContext differentiates from other interfaces. IsForeign_tableContext() } type Foreign_tableContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyForeign_tableContext() *Foreign_tableContext { var p = new(Foreign_tableContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_foreign_table return p } func InitEmptyForeign_tableContext(p *Foreign_tableContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_foreign_table } func (*Foreign_tableContext) IsForeign_tableContext() {} func NewForeign_tableContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Foreign_tableContext { var p = new(Foreign_tableContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_foreign_table return p } func (s *Foreign_tableContext) GetParser() antlr.Parser { return s.parser } func (s *Foreign_tableContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Foreign_tableContext) GetRuleContext() antlr.RuleContext { return s } func (s *Foreign_tableContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Foreign_tableContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterForeign_table(s) } } func (s *Foreign_tableContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitForeign_table(s) } } func (s *Foreign_tableContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitForeign_table(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Foreign_table() (localctx IForeign_tableContext) { localctx = NewForeign_tableContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 192, SQLiteParserRULE_foreign_table) p.EnterOuterAlt(localctx, 1) { p.SetState(2014) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IIndex_nameContext is an interface to support dynamic dispatch. type IIndex_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsIndex_nameContext differentiates from other interfaces. IsIndex_nameContext() } type Index_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyIndex_nameContext() *Index_nameContext { var p = new(Index_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_index_name return p } func InitEmptyIndex_nameContext(p *Index_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_index_name } func (*Index_nameContext) IsIndex_nameContext() {} func NewIndex_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Index_nameContext { var p = new(Index_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_index_name return p } func (s *Index_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Index_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Index_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Index_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Index_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterIndex_name(s) } } func (s *Index_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitIndex_name(s) } } func (s *Index_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitIndex_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Index_name() (localctx IIndex_nameContext) { localctx = NewIndex_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 194, SQLiteParserRULE_index_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2016) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ITrigger_nameContext is an interface to support dynamic dispatch. type ITrigger_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsTrigger_nameContext differentiates from other interfaces. IsTrigger_nameContext() } type Trigger_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyTrigger_nameContext() *Trigger_nameContext { var p = new(Trigger_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_trigger_name return p } func InitEmptyTrigger_nameContext(p *Trigger_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_trigger_name } func (*Trigger_nameContext) IsTrigger_nameContext() {} func NewTrigger_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Trigger_nameContext { var p = new(Trigger_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_trigger_name return p } func (s *Trigger_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Trigger_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Trigger_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Trigger_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Trigger_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterTrigger_name(s) } } func (s *Trigger_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitTrigger_name(s) } } func (s *Trigger_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitTrigger_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Trigger_name() (localctx ITrigger_nameContext) { localctx = NewTrigger_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 196, SQLiteParserRULE_trigger_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2018) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IView_nameContext is an interface to support dynamic dispatch. type IView_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsView_nameContext differentiates from other interfaces. IsView_nameContext() } type View_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyView_nameContext() *View_nameContext { var p = new(View_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_view_name return p } func InitEmptyView_nameContext(p *View_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_view_name } func (*View_nameContext) IsView_nameContext() {} func NewView_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *View_nameContext { var p = new(View_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_view_name return p } func (s *View_nameContext) GetParser() antlr.Parser { return s.parser } func (s *View_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *View_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *View_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *View_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterView_name(s) } } func (s *View_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitView_name(s) } } func (s *View_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitView_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) View_name() (localctx IView_nameContext) { localctx = NewView_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 198, SQLiteParserRULE_view_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2020) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IModule_nameContext is an interface to support dynamic dispatch. type IModule_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsModule_nameContext differentiates from other interfaces. IsModule_nameContext() } type Module_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyModule_nameContext() *Module_nameContext { var p = new(Module_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_module_name return p } func InitEmptyModule_nameContext(p *Module_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_module_name } func (*Module_nameContext) IsModule_nameContext() {} func NewModule_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Module_nameContext { var p = new(Module_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_module_name return p } func (s *Module_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Module_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Module_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Module_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Module_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterModule_name(s) } } func (s *Module_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitModule_name(s) } } func (s *Module_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitModule_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Module_name() (localctx IModule_nameContext) { localctx = NewModule_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 200, SQLiteParserRULE_module_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2022) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IPragma_nameContext is an interface to support dynamic dispatch. type IPragma_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsPragma_nameContext differentiates from other interfaces. IsPragma_nameContext() } type Pragma_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyPragma_nameContext() *Pragma_nameContext { var p = new(Pragma_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_pragma_name return p } func InitEmptyPragma_nameContext(p *Pragma_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_pragma_name } func (*Pragma_nameContext) IsPragma_nameContext() {} func NewPragma_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Pragma_nameContext { var p = new(Pragma_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_pragma_name return p } func (s *Pragma_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Pragma_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Pragma_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Pragma_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Pragma_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterPragma_name(s) } } func (s *Pragma_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitPragma_name(s) } } func (s *Pragma_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitPragma_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Pragma_name() (localctx IPragma_nameContext) { localctx = NewPragma_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 202, SQLiteParserRULE_pragma_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2024) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ISavepoint_nameContext is an interface to support dynamic dispatch. type ISavepoint_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsSavepoint_nameContext differentiates from other interfaces. IsSavepoint_nameContext() } type Savepoint_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptySavepoint_nameContext() *Savepoint_nameContext { var p = new(Savepoint_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_savepoint_name return p } func InitEmptySavepoint_nameContext(p *Savepoint_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_savepoint_name } func (*Savepoint_nameContext) IsSavepoint_nameContext() {} func NewSavepoint_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Savepoint_nameContext { var p = new(Savepoint_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_savepoint_name return p } func (s *Savepoint_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Savepoint_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Savepoint_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Savepoint_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Savepoint_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterSavepoint_name(s) } } func (s *Savepoint_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitSavepoint_name(s) } } func (s *Savepoint_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitSavepoint_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Savepoint_name() (localctx ISavepoint_nameContext) { localctx = NewSavepoint_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 204, SQLiteParserRULE_savepoint_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2026) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ITable_aliasContext is an interface to support dynamic dispatch. type ITable_aliasContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsTable_aliasContext differentiates from other interfaces. IsTable_aliasContext() } type Table_aliasContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyTable_aliasContext() *Table_aliasContext { var p = new(Table_aliasContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_alias return p } func InitEmptyTable_aliasContext(p *Table_aliasContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_alias } func (*Table_aliasContext) IsTable_aliasContext() {} func NewTable_aliasContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Table_aliasContext { var p = new(Table_aliasContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_table_alias return p } func (s *Table_aliasContext) GetParser() antlr.Parser { return s.parser } func (s *Table_aliasContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Table_aliasContext) GetRuleContext() antlr.RuleContext { return s } func (s *Table_aliasContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Table_aliasContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterTable_alias(s) } } func (s *Table_aliasContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitTable_alias(s) } } func (s *Table_aliasContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitTable_alias(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Table_alias() (localctx ITable_aliasContext) { localctx = NewTable_aliasContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 206, SQLiteParserRULE_table_alias) p.EnterOuterAlt(localctx, 1) { p.SetState(2028) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ITransaction_nameContext is an interface to support dynamic dispatch. type ITransaction_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsTransaction_nameContext differentiates from other interfaces. IsTransaction_nameContext() } type Transaction_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyTransaction_nameContext() *Transaction_nameContext { var p = new(Transaction_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_transaction_name return p } func InitEmptyTransaction_nameContext(p *Transaction_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_transaction_name } func (*Transaction_nameContext) IsTransaction_nameContext() {} func NewTransaction_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Transaction_nameContext { var p = new(Transaction_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_transaction_name return p } func (s *Transaction_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Transaction_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Transaction_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Transaction_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Transaction_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterTransaction_name(s) } } func (s *Transaction_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitTransaction_name(s) } } func (s *Transaction_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitTransaction_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Transaction_name() (localctx ITransaction_nameContext) { localctx = NewTransaction_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 208, SQLiteParserRULE_transaction_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2030) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IWindow_nameContext is an interface to support dynamic dispatch. type IWindow_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsWindow_nameContext differentiates from other interfaces. IsWindow_nameContext() } type Window_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyWindow_nameContext() *Window_nameContext { var p = new(Window_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_window_name return p } func InitEmptyWindow_nameContext(p *Window_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_window_name } func (*Window_nameContext) IsWindow_nameContext() {} func NewWindow_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Window_nameContext { var p = new(Window_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_window_name return p } func (s *Window_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Window_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Window_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Window_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Window_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterWindow_name(s) } } func (s *Window_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitWindow_name(s) } } func (s *Window_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitWindow_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Window_name() (localctx IWindow_nameContext) { localctx = NewWindow_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 210, SQLiteParserRULE_window_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2032) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IAliasContext is an interface to support dynamic dispatch. type IAliasContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsAliasContext differentiates from other interfaces. IsAliasContext() } type AliasContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyAliasContext() *AliasContext { var p = new(AliasContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_alias return p } func InitEmptyAliasContext(p *AliasContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_alias } func (*AliasContext) IsAliasContext() {} func NewAliasContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *AliasContext { var p = new(AliasContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_alias return p } func (s *AliasContext) GetParser() antlr.Parser { return s.parser } func (s *AliasContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *AliasContext) GetRuleContext() antlr.RuleContext { return s } func (s *AliasContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *AliasContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterAlias(s) } } func (s *AliasContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitAlias(s) } } func (s *AliasContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitAlias(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Alias() (localctx IAliasContext) { localctx = NewAliasContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 212, SQLiteParserRULE_alias) p.EnterOuterAlt(localctx, 1) { p.SetState(2034) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IFilenameContext is an interface to support dynamic dispatch. type IFilenameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsFilenameContext differentiates from other interfaces. IsFilenameContext() } type FilenameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyFilenameContext() *FilenameContext { var p = new(FilenameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_filename return p } func InitEmptyFilenameContext(p *FilenameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_filename } func (*FilenameContext) IsFilenameContext() {} func NewFilenameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *FilenameContext { var p = new(FilenameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_filename return p } func (s *FilenameContext) GetParser() antlr.Parser { return s.parser } func (s *FilenameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *FilenameContext) GetRuleContext() antlr.RuleContext { return s } func (s *FilenameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *FilenameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterFilename(s) } } func (s *FilenameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitFilename(s) } } func (s *FilenameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitFilename(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Filename() (localctx IFilenameContext) { localctx = NewFilenameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 214, SQLiteParserRULE_filename) p.EnterOuterAlt(localctx, 1) { p.SetState(2036) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IBase_window_nameContext is an interface to support dynamic dispatch. type IBase_window_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsBase_window_nameContext differentiates from other interfaces. IsBase_window_nameContext() } type Base_window_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyBase_window_nameContext() *Base_window_nameContext { var p = new(Base_window_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_base_window_name return p } func InitEmptyBase_window_nameContext(p *Base_window_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_base_window_name } func (*Base_window_nameContext) IsBase_window_nameContext() {} func NewBase_window_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Base_window_nameContext { var p = new(Base_window_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_base_window_name return p } func (s *Base_window_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Base_window_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Base_window_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Base_window_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Base_window_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterBase_window_name(s) } } func (s *Base_window_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitBase_window_name(s) } } func (s *Base_window_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitBase_window_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Base_window_name() (localctx IBase_window_nameContext) { localctx = NewBase_window_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 216, SQLiteParserRULE_base_window_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2038) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ISimple_funcContext is an interface to support dynamic dispatch. type ISimple_funcContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsSimple_funcContext differentiates from other interfaces. IsSimple_funcContext() } type Simple_funcContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptySimple_funcContext() *Simple_funcContext { var p = new(Simple_funcContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_simple_func return p } func InitEmptySimple_funcContext(p *Simple_funcContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_simple_func } func (*Simple_funcContext) IsSimple_funcContext() {} func NewSimple_funcContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Simple_funcContext { var p = new(Simple_funcContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_simple_func return p } func (s *Simple_funcContext) GetParser() antlr.Parser { return s.parser } func (s *Simple_funcContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Simple_funcContext) GetRuleContext() antlr.RuleContext { return s } func (s *Simple_funcContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Simple_funcContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterSimple_func(s) } } func (s *Simple_funcContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitSimple_func(s) } } func (s *Simple_funcContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitSimple_func(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Simple_func() (localctx ISimple_funcContext) { localctx = NewSimple_funcContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 218, SQLiteParserRULE_simple_func) p.EnterOuterAlt(localctx, 1) { p.SetState(2040) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IAggregate_funcContext is an interface to support dynamic dispatch. type IAggregate_funcContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsAggregate_funcContext differentiates from other interfaces. IsAggregate_funcContext() } type Aggregate_funcContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyAggregate_funcContext() *Aggregate_funcContext { var p = new(Aggregate_funcContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_aggregate_func return p } func InitEmptyAggregate_funcContext(p *Aggregate_funcContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_aggregate_func } func (*Aggregate_funcContext) IsAggregate_funcContext() {} func NewAggregate_funcContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Aggregate_funcContext { var p = new(Aggregate_funcContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_aggregate_func return p } func (s *Aggregate_funcContext) GetParser() antlr.Parser { return s.parser } func (s *Aggregate_funcContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Aggregate_funcContext) GetRuleContext() antlr.RuleContext { return s } func (s *Aggregate_funcContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Aggregate_funcContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterAggregate_func(s) } } func (s *Aggregate_funcContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitAggregate_func(s) } } func (s *Aggregate_funcContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitAggregate_func(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Aggregate_func() (localctx IAggregate_funcContext) { localctx = NewAggregate_funcContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 220, SQLiteParserRULE_aggregate_func) p.EnterOuterAlt(localctx, 1) { p.SetState(2042) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // ITable_function_nameContext is an interface to support dynamic dispatch. type ITable_function_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures Any_name() IAny_nameContext // IsTable_function_nameContext differentiates from other interfaces. IsTable_function_nameContext() } type Table_function_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyTable_function_nameContext() *Table_function_nameContext { var p = new(Table_function_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_function_name return p } func InitEmptyTable_function_nameContext(p *Table_function_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_table_function_name } func (*Table_function_nameContext) IsTable_function_nameContext() {} func NewTable_function_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Table_function_nameContext { var p = new(Table_function_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_table_function_name return p } func (s *Table_function_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Table_function_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Table_function_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Table_function_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Table_function_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterTable_function_name(s) } } func (s *Table_function_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitTable_function_name(s) } } func (s *Table_function_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitTable_function_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Table_function_name() (localctx ITable_function_nameContext) { localctx = NewTable_function_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 222, SQLiteParserRULE_table_function_name) p.EnterOuterAlt(localctx, 1) { p.SetState(2044) p.Any_name() } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } // IAny_nameContext is an interface to support dynamic dispatch. type IAny_nameContext interface { antlr.ParserRuleContext // GetParser returns the parser. GetParser() antlr.Parser // Getter signatures IDENTIFIER() antlr.TerminalNode Keyword() IKeywordContext STRING_LITERAL() antlr.TerminalNode OPEN_PAR() antlr.TerminalNode Any_name() IAny_nameContext CLOSE_PAR() antlr.TerminalNode // IsAny_nameContext differentiates from other interfaces. IsAny_nameContext() } type Any_nameContext struct { antlr.BaseParserRuleContext parser antlr.Parser } func NewEmptyAny_nameContext() *Any_nameContext { var p = new(Any_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_any_name return p } func InitEmptyAny_nameContext(p *Any_nameContext) { antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, nil, -1) p.RuleIndex = SQLiteParserRULE_any_name } func (*Any_nameContext) IsAny_nameContext() {} func NewAny_nameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *Any_nameContext { var p = new(Any_nameContext) antlr.InitBaseParserRuleContext(&p.BaseParserRuleContext, parent, invokingState) p.parser = parser p.RuleIndex = SQLiteParserRULE_any_name return p } func (s *Any_nameContext) GetParser() antlr.Parser { return s.parser } func (s *Any_nameContext) IDENTIFIER() antlr.TerminalNode { return s.GetToken(SQLiteParserIDENTIFIER, 0) } func (s *Any_nameContext) Keyword() IKeywordContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IKeywordContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IKeywordContext) } func (s *Any_nameContext) STRING_LITERAL() antlr.TerminalNode { return s.GetToken(SQLiteParserSTRING_LITERAL, 0) } func (s *Any_nameContext) OPEN_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserOPEN_PAR, 0) } func (s *Any_nameContext) Any_name() IAny_nameContext { var t antlr.RuleContext for _, ctx := range s.GetChildren() { if _, ok := ctx.(IAny_nameContext); ok { t = ctx.(antlr.RuleContext) break } } if t == nil { return nil } return t.(IAny_nameContext) } func (s *Any_nameContext) CLOSE_PAR() antlr.TerminalNode { return s.GetToken(SQLiteParserCLOSE_PAR, 0) } func (s *Any_nameContext) GetRuleContext() antlr.RuleContext { return s } func (s *Any_nameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { return antlr.TreesStringTree(s, ruleNames, recog) } func (s *Any_nameContext) EnterRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.EnterAny_name(s) } } func (s *Any_nameContext) ExitRule(listener antlr.ParseTreeListener) { if listenerT, ok := listener.(SQLiteParserListener); ok { listenerT.ExitAny_name(s) } } func (s *Any_nameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { switch t := visitor.(type) { case SQLiteParserVisitor: return t.VisitAny_name(s) default: return t.VisitChildren(s) } } func (p *SQLiteParser) Any_name() (localctx IAny_nameContext) { localctx = NewAny_nameContext(p, p.GetParserRuleContext(), p.GetState()) p.EnterRule(localctx, 224, SQLiteParserRULE_any_name) p.SetState(2053) p.GetErrorHandler().Sync(p) if p.HasError() { goto errorExit } switch p.GetTokenStream().LA(1) { case SQLiteParserIDENTIFIER: p.EnterOuterAlt(localctx, 1) { p.SetState(2046) p.Match(SQLiteParserIDENTIFIER) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserABORT_, SQLiteParserACTION_, SQLiteParserADD_, SQLiteParserAFTER_, SQLiteParserALL_, SQLiteParserALTER_, SQLiteParserANALYZE_, SQLiteParserAND_, SQLiteParserAS_, SQLiteParserASC_, SQLiteParserATTACH_, SQLiteParserAUTOINCREMENT_, SQLiteParserBEFORE_, SQLiteParserBEGIN_, SQLiteParserBETWEEN_, SQLiteParserBY_, SQLiteParserCASCADE_, SQLiteParserCASE_, SQLiteParserCAST_, SQLiteParserCHECK_, SQLiteParserCOLLATE_, SQLiteParserCOLUMN_, SQLiteParserCOMMIT_, SQLiteParserCONFLICT_, SQLiteParserCONSTRAINT_, SQLiteParserCREATE_, SQLiteParserCROSS_, SQLiteParserCURRENT_DATE_, SQLiteParserCURRENT_TIME_, SQLiteParserCURRENT_TIMESTAMP_, SQLiteParserDATABASE_, SQLiteParserDEFAULT_, SQLiteParserDEFERRABLE_, SQLiteParserDEFERRED_, SQLiteParserDELETE_, SQLiteParserDESC_, SQLiteParserDETACH_, SQLiteParserDISTINCT_, SQLiteParserDROP_, SQLiteParserEACH_, SQLiteParserELSE_, SQLiteParserEND_, SQLiteParserESCAPE_, SQLiteParserEXCEPT_, SQLiteParserEXCLUSIVE_, SQLiteParserEXISTS_, SQLiteParserEXPLAIN_, SQLiteParserFAIL_, SQLiteParserFOR_, SQLiteParserFOREIGN_, SQLiteParserFROM_, SQLiteParserFULL_, SQLiteParserGLOB_, SQLiteParserGROUP_, SQLiteParserHAVING_, SQLiteParserIF_, SQLiteParserIGNORE_, SQLiteParserIMMEDIATE_, SQLiteParserIN_, SQLiteParserINDEX_, SQLiteParserINDEXED_, SQLiteParserINITIALLY_, SQLiteParserINNER_, SQLiteParserINSERT_, SQLiteParserINSTEAD_, SQLiteParserINTERSECT_, SQLiteParserINTO_, SQLiteParserIS_, SQLiteParserISNULL_, SQLiteParserJOIN_, SQLiteParserKEY_, SQLiteParserLEFT_, SQLiteParserLIKE_, SQLiteParserLIMIT_, SQLiteParserMATCH_, SQLiteParserNATURAL_, SQLiteParserNO_, SQLiteParserNOT_, SQLiteParserNOTNULL_, SQLiteParserNULL_, SQLiteParserOF_, SQLiteParserOFFSET_, SQLiteParserON_, SQLiteParserOR_, SQLiteParserORDER_, SQLiteParserOUTER_, SQLiteParserPLAN_, SQLiteParserPRAGMA_, SQLiteParserPRIMARY_, SQLiteParserQUERY_, SQLiteParserRAISE_, SQLiteParserRECURSIVE_, SQLiteParserREFERENCES_, SQLiteParserREGEXP_, SQLiteParserREINDEX_, SQLiteParserRELEASE_, SQLiteParserRENAME_, SQLiteParserREPLACE_, SQLiteParserRESTRICT_, SQLiteParserRIGHT_, SQLiteParserROLLBACK_, SQLiteParserROW_, SQLiteParserROWS_, SQLiteParserSAVEPOINT_, SQLiteParserSELECT_, SQLiteParserSET_, SQLiteParserTABLE_, SQLiteParserTEMP_, SQLiteParserTEMPORARY_, SQLiteParserTHEN_, SQLiteParserTO_, SQLiteParserTRANSACTION_, SQLiteParserTRIGGER_, SQLiteParserUNION_, SQLiteParserUNIQUE_, SQLiteParserUPDATE_, SQLiteParserUSING_, SQLiteParserVACUUM_, SQLiteParserVALUES_, SQLiteParserVIEW_, SQLiteParserVIRTUAL_, SQLiteParserWHEN_, SQLiteParserWHERE_, SQLiteParserWITH_, SQLiteParserWITHOUT_, SQLiteParserFIRST_VALUE_, SQLiteParserOVER_, SQLiteParserPARTITION_, SQLiteParserRANGE_, SQLiteParserPRECEDING_, SQLiteParserUNBOUNDED_, SQLiteParserCURRENT_, SQLiteParserFOLLOWING_, SQLiteParserCUME_DIST_, SQLiteParserDENSE_RANK_, SQLiteParserLAG_, SQLiteParserLAST_VALUE_, SQLiteParserLEAD_, SQLiteParserNTH_VALUE_, SQLiteParserNTILE_, SQLiteParserPERCENT_RANK_, SQLiteParserRANK_, SQLiteParserROW_NUMBER_, SQLiteParserGENERATED_, SQLiteParserALWAYS_, SQLiteParserSTORED_, SQLiteParserTRUE_, SQLiteParserFALSE_, SQLiteParserWINDOW_, SQLiteParserNULLS_, SQLiteParserFIRST_, SQLiteParserLAST_, SQLiteParserFILTER_, SQLiteParserGROUPS_, SQLiteParserEXCLUDE_: p.EnterOuterAlt(localctx, 2) { p.SetState(2047) p.Keyword() } case SQLiteParserSTRING_LITERAL: p.EnterOuterAlt(localctx, 3) { p.SetState(2048) p.Match(SQLiteParserSTRING_LITERAL) if p.HasError() { // Recognition error - abort rule goto errorExit } } case SQLiteParserOPEN_PAR: p.EnterOuterAlt(localctx, 4) { p.SetState(2049) p.Match(SQLiteParserOPEN_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } { p.SetState(2050) p.Any_name() } { p.SetState(2051) p.Match(SQLiteParserCLOSE_PAR) if p.HasError() { // Recognition error - abort rule goto errorExit } } default: p.SetError(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil)) goto errorExit } errorExit: if p.HasError() { v := p.GetError() localctx.SetException(v) p.GetErrorHandler().ReportError(p, v) p.GetErrorHandler().Recover(p, v) p.SetError(nil) } p.ExitRule() return localctx goto errorExit // Trick to prevent compiler error if the label is not used } func (p *SQLiteParser) Sempred(localctx antlr.RuleContext, ruleIndex, predIndex int) bool { switch ruleIndex { case 32: var t *ExprContext = nil if localctx != nil { t = localctx.(*ExprContext) } return p.Expr_Sempred(t, predIndex) default: panic("No predicate with index: " + fmt.Sprint(ruleIndex)) } } func (p *SQLiteParser) Expr_Sempred(localctx antlr.RuleContext, predIndex int) bool { switch predIndex { case 0: return p.Precpred(p.GetParserRuleContext(), 20) case 1: return p.Precpred(p.GetParserRuleContext(), 19) case 2: return p.Precpred(p.GetParserRuleContext(), 18) case 3: return p.Precpred(p.GetParserRuleContext(), 17) case 4: return p.Precpred(p.GetParserRuleContext(), 16) case 5: return p.Precpred(p.GetParserRuleContext(), 15) case 6: return p.Precpred(p.GetParserRuleContext(), 14) case 7: return p.Precpred(p.GetParserRuleContext(), 13) case 8: return p.Precpred(p.GetParserRuleContext(), 6) case 9: return p.Precpred(p.GetParserRuleContext(), 5) case 10: return p.Precpred(p.GetParserRuleContext(), 9) case 11: return p.Precpred(p.GetParserRuleContext(), 8) case 12: return p.Precpred(p.GetParserRuleContext(), 7) case 13: return p.Precpred(p.GetParserRuleContext(), 4) default: panic("No predicate with index: " + fmt.Sprint(predIndex)) } }