/* Automatically generated by tree-sitter v0.25.3 */ #include "tree_sitter/parser.h" #if defined(__GNUC__) || defined(__clang__) #pragma GCC diagnostic ignored "-Wmissing-field-initializers" #endif #define LANGUAGE_VERSION 15 #define STATE_COUNT 36 #define LARGE_STATE_COUNT 2 #define SYMBOL_COUNT 27 #define ALIAS_COUNT 0 #define TOKEN_COUNT 14 #define EXTERNAL_TOKEN_COUNT 0 #define FIELD_COUNT 1 #define MAX_ALIAS_SEQUENCE_LENGTH 6 #define MAX_RESERVED_WORD_SET_SIZE 0 #define PRODUCTION_ID_COUNT 2 #define SUPERTYPE_COUNT 0 enum ts_symbol_identifiers { anon_sym_LBRACE_LBRACK = 1, anon_sym_RBRACK_RBRACE = 2, anon_sym_for = 3, anon_sym_in = 4, anon_sym_done = 5, anon_sym_include = 6, anon_sym_DOT = 7, anon_sym_LBRACK = 8, anon_sym_RBRACK = 9, sym_integer_index = 10, aux_sym_string_token1 = 11, aux_sym_string_token2 = 12, sym_zalupa = 13, sym_source_file = 14, sym_element = 15, sym_interpolation = 16, sym_segment = 17, sym_for = 18, sym_done = 19, sym_actual_bracket = 20, sym_include = 21, sym_path = 22, sym_index = 23, sym_string = 24, aux_sym_source_file_repeat1 = 25, aux_sym_path_repeat1 = 26, }; static const char * const ts_symbol_names[] = { [ts_builtin_sym_end] = "end", [anon_sym_LBRACE_LBRACK] = "{[", [anon_sym_RBRACK_RBRACE] = "]}", [anon_sym_for] = "for", [anon_sym_in] = "in", [anon_sym_done] = "done", [anon_sym_include] = "include", [anon_sym_DOT] = ".", [anon_sym_LBRACK] = "[", [anon_sym_RBRACK] = "]", [sym_integer_index] = "integer_index", [aux_sym_string_token1] = "string_token1", [aux_sym_string_token2] = "string_token2", [sym_zalupa] = "zalupa", [sym_source_file] = "source_file", [sym_element] = "element", [sym_interpolation] = "interpolation", [sym_segment] = "segment", [sym_for] = "for", [sym_done] = "done", [sym_actual_bracket] = "actual_bracket", [sym_include] = "include", [sym_path] = "path", [sym_index] = "index", [sym_string] = "string", [aux_sym_source_file_repeat1] = "source_file_repeat1", [aux_sym_path_repeat1] = "path_repeat1", }; static const TSSymbol ts_symbol_map[] = { [ts_builtin_sym_end] = ts_builtin_sym_end, [anon_sym_LBRACE_LBRACK] = anon_sym_LBRACE_LBRACK, [anon_sym_RBRACK_RBRACE] = anon_sym_RBRACK_RBRACE, [anon_sym_for] = anon_sym_for, [anon_sym_in] = anon_sym_in, [anon_sym_done] = anon_sym_done, [anon_sym_include] = anon_sym_include, [anon_sym_DOT] = anon_sym_DOT, [anon_sym_LBRACK] = anon_sym_LBRACK, [anon_sym_RBRACK] = anon_sym_RBRACK, [sym_integer_index] = sym_integer_index, [aux_sym_string_token1] = aux_sym_string_token1, [aux_sym_string_token2] = aux_sym_string_token2, [sym_zalupa] = sym_zalupa, [sym_source_file] = sym_source_file, [sym_element] = sym_element, [sym_interpolation] = sym_interpolation, [sym_segment] = sym_segment, [sym_for] = sym_for, [sym_done] = sym_done, [sym_actual_bracket] = sym_actual_bracket, [sym_include] = sym_include, [sym_path] = sym_path, [sym_index] = sym_index, [sym_string] = sym_string, [aux_sym_source_file_repeat1] = aux_sym_source_file_repeat1, [aux_sym_path_repeat1] = aux_sym_path_repeat1, }; static const TSSymbolMetadata ts_symbol_metadata[] = { [ts_builtin_sym_end] = { .visible = false, .named = true, }, [anon_sym_LBRACE_LBRACK] = { .visible = true, .named = false, }, [anon_sym_RBRACK_RBRACE] = { .visible = true, .named = false, }, [anon_sym_for] = { .visible = true, .named = false, }, [anon_sym_in] = { .visible = true, .named = false, }, [anon_sym_done] = { .visible = true, .named = false, }, [anon_sym_include] = { .visible = true, .named = false, }, [anon_sym_DOT] = { .visible = true, .named = false, }, [anon_sym_LBRACK] = { .visible = true, .named = false, }, [anon_sym_RBRACK] = { .visible = true, .named = false, }, [sym_integer_index] = { .visible = true, .named = true, }, [aux_sym_string_token1] = { .visible = false, .named = false, }, [aux_sym_string_token2] = { .visible = false, .named = false, }, [sym_zalupa] = { .visible = true, .named = true, }, [sym_source_file] = { .visible = true, .named = true, }, [sym_element] = { .visible = true, .named = true, }, [sym_interpolation] = { .visible = true, .named = true, }, [sym_segment] = { .visible = true, .named = true, }, [sym_for] = { .visible = true, .named = true, }, [sym_done] = { .visible = true, .named = true, }, [sym_actual_bracket] = { .visible = true, .named = true, }, [sym_include] = { .visible = true, .named = true, }, [sym_path] = { .visible = true, .named = true, }, [sym_index] = { .visible = true, .named = true, }, [sym_string] = { .visible = true, .named = true, }, [aux_sym_source_file_repeat1] = { .visible = false, .named = false, }, [aux_sym_path_repeat1] = { .visible = false, .named = false, }, }; enum ts_field_identifiers { field_value = 1, }; static const char * const ts_field_names[] = { [0] = NULL, [field_value] = "value", }; static const TSMapSlice ts_field_map_slices[PRODUCTION_ID_COUNT] = { [1] = {.index = 0, .length = 1}, }; static const TSFieldMapEntry ts_field_map_entries[] = { [0] = {field_value, 1}, }; static const TSSymbol ts_alias_sequences[PRODUCTION_ID_COUNT][MAX_ALIAS_SEQUENCE_LENGTH] = { [0] = {0}, }; static const uint16_t ts_non_terminal_alias_map[] = { 0, }; static const TSStateId ts_primary_state_ids[STATE_COUNT] = { [0] = 0, [1] = 1, [2] = 2, [3] = 3, [4] = 4, [5] = 5, [6] = 6, [7] = 7, [8] = 8, [9] = 9, [10] = 10, [11] = 11, [12] = 12, [13] = 13, [14] = 14, [15] = 15, [16] = 16, [17] = 17, [18] = 18, [19] = 19, [20] = 20, [21] = 21, [22] = 22, [23] = 23, [24] = 24, [25] = 25, [26] = 26, [27] = 27, [28] = 28, [29] = 29, [30] = 30, [31] = 31, [32] = 32, [33] = 33, [34] = 34, [35] = 35, }; static const TSCharacterRange aux_sym_string_token1_character_set_1[] = { {0, 0x08}, {0x0b, '\f'}, {0x0e, 0x1f}, {'!', '!'}, {'#', '-'}, {'/', 'Z'}, {'^', 'z'}, {'|', '|'}, {'~', 0x10ffff}, }; static bool ts_lex(TSLexer *lexer, TSStateId state) { START_LEXER(); eof = lexer->eof(lexer); switch (state) { case 0: if (eof) ADVANCE(20); ADVANCE_MAP( '"', 5, '-', 17, '.', 27, '0', 31, '[', 28, ']', 30, 'd', 14, 'f', 13, 'i', 11, '{', 7, ); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') SKIP(0); if (('1' <= lookahead && lookahead <= '9')) ADVANCE(32); END_STATE(); case 1: ADVANCE_MAP( '"', 5, '.', 27, '[', 28, 'd', 45, 'f', 44, 'i', 42, '{', 7, 0x0b, 33, '\f', 33, ); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') SKIP(1); if (lookahead != 0 && (lookahead < '[' || ']' < lookahead) && lookahead != '}') ADVANCE(48); END_STATE(); case 2: if (lookahead == '"') ADVANCE(5); if (lookahead == '.') ADVANCE(27); if (lookahead == '[') ADVANCE(28); if (lookahead == 'f') ADVANCE(44); if (lookahead == 'i') ADVANCE(42); if (lookahead == '{') ADVANCE(7); if (lookahead == 0x0b || lookahead == '\f') ADVANCE(34); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') SKIP(2); if (lookahead != 0 && (lookahead < '[' || ']' < lookahead) && lookahead != '}') ADVANCE(48); END_STATE(); case 3: if (lookahead == '"') ADVANCE(5); if (lookahead == '.') ADVANCE(27); if (lookahead == '[') ADVANCE(28); if (lookahead == 0x0b || lookahead == '\f') ADVANCE(35); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') SKIP(3); if (lookahead != 0 && (lookahead < '[' || ']' < lookahead) && lookahead != '{' && lookahead != '}') ADVANCE(48); END_STATE(); case 4: if (lookahead == '"') ADVANCE(5); if (lookahead == '[') ADVANCE(28); if (lookahead == 0x0b || lookahead == '\f') ADVANCE(36); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') SKIP(4); if (lookahead != 0 && lookahead != '.' && (lookahead < '[' || ']' < lookahead) && lookahead != '{' && lookahead != '}') ADVANCE(48); END_STATE(); case 5: if (lookahead == '"') ADVANCE(49); if (lookahead != 0) ADVANCE(5); END_STATE(); case 6: if (lookahead == '.') ADVANCE(27); if (lookahead == ']') ADVANCE(16); if (lookahead == 'i') ADVANCE(11); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') SKIP(6); END_STATE(); case 7: if (lookahead == '[') ADVANCE(21); END_STATE(); case 8: if (lookahead == '[') ADVANCE(21); if (lookahead != 0) ADVANCE(51); END_STATE(); case 9: if (lookahead == ']') ADVANCE(29); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') SKIP(9); END_STATE(); case 10: if (lookahead == 'e') ADVANCE(25); END_STATE(); case 11: if (lookahead == 'n') ADVANCE(24); END_STATE(); case 12: if (lookahead == 'n') ADVANCE(10); END_STATE(); case 13: if (lookahead == 'o') ADVANCE(15); END_STATE(); case 14: if (lookahead == 'o') ADVANCE(12); END_STATE(); case 15: if (lookahead == 'r') ADVANCE(23); END_STATE(); case 16: if (lookahead == '}') ADVANCE(22); END_STATE(); case 17: if (('1' <= lookahead && lookahead <= '9')) ADVANCE(32); END_STATE(); case 18: if (lookahead != 0 && lookahead != '[') ADVANCE(51); END_STATE(); case 19: if (eof) ADVANCE(20); if (lookahead == '{') ADVANCE(8); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') ADVANCE(50); if (lookahead != 0) ADVANCE(51); END_STATE(); case 20: ACCEPT_TOKEN(ts_builtin_sym_end); END_STATE(); case 21: ACCEPT_TOKEN(anon_sym_LBRACE_LBRACK); END_STATE(); case 22: ACCEPT_TOKEN(anon_sym_RBRACK_RBRACE); END_STATE(); case 23: ACCEPT_TOKEN(anon_sym_for); END_STATE(); case 24: ACCEPT_TOKEN(anon_sym_in); END_STATE(); case 25: ACCEPT_TOKEN(anon_sym_done); END_STATE(); case 26: ACCEPT_TOKEN(anon_sym_include); END_STATE(); case 27: ACCEPT_TOKEN(anon_sym_DOT); END_STATE(); case 28: ACCEPT_TOKEN(anon_sym_LBRACK); END_STATE(); case 29: ACCEPT_TOKEN(anon_sym_RBRACK); END_STATE(); case 30: ACCEPT_TOKEN(anon_sym_RBRACK); if (lookahead == '}') ADVANCE(22); END_STATE(); case 31: ACCEPT_TOKEN(sym_integer_index); END_STATE(); case 32: ACCEPT_TOKEN(sym_integer_index); if (('0' <= lookahead && lookahead <= '9')) ADVANCE(32); END_STATE(); case 33: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == '.') ADVANCE(27); if (lookahead == '[') ADVANCE(28); if (lookahead == 'd') ADVANCE(45); if (lookahead == 'f') ADVANCE(44); if (lookahead == 'i') ADVANCE(42); if (lookahead == '{') ADVANCE(7); if (lookahead == 0x0b || lookahead == '\f') ADVANCE(33); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') SKIP(1); if (lookahead != 0 && lookahead != '"' && (lookahead < '[' || ']' < lookahead) && lookahead != '}') ADVANCE(48); END_STATE(); case 34: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == '.') ADVANCE(27); if (lookahead == '[') ADVANCE(28); if (lookahead == 'f') ADVANCE(44); if (lookahead == 'i') ADVANCE(42); if (lookahead == '{') ADVANCE(7); if (lookahead == 0x0b || lookahead == '\f') ADVANCE(34); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') SKIP(2); if (lookahead != 0 && lookahead != '"' && (lookahead < '[' || ']' < lookahead) && lookahead != '}') ADVANCE(48); END_STATE(); case 35: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == '.') ADVANCE(27); if (lookahead == '[') ADVANCE(28); if (lookahead == 0x0b || lookahead == '\f') ADVANCE(35); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') SKIP(3); if (lookahead != 0 && lookahead != '"' && (lookahead < '[' || ']' < lookahead) && lookahead != '{' && lookahead != '}') ADVANCE(48); END_STATE(); case 36: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == '[') ADVANCE(28); if (lookahead == 0x0b || lookahead == '\f') ADVANCE(36); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') SKIP(4); if (lookahead != 0 && lookahead != '"' && lookahead != '.' && (lookahead < '[' || ']' < lookahead) && lookahead != '{' && lookahead != '}') ADVANCE(48); END_STATE(); case 37: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == 'c') ADVANCE(41); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 38: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == 'd') ADVANCE(40); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 39: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == 'e') ADVANCE(25); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 40: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == 'e') ADVANCE(26); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 41: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == 'l') ADVANCE(47); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 42: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == 'n') ADVANCE(37); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 43: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == 'n') ADVANCE(39); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 44: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == 'o') ADVANCE(46); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 45: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == 'o') ADVANCE(43); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 46: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == 'r') ADVANCE(23); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 47: ACCEPT_TOKEN(aux_sym_string_token1); if (lookahead == 'u') ADVANCE(38); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 48: ACCEPT_TOKEN(aux_sym_string_token1); if ((!eof && set_contains(aux_sym_string_token1_character_set_1, 9, lookahead))) ADVANCE(48); END_STATE(); case 49: ACCEPT_TOKEN(aux_sym_string_token2); if (lookahead == '"') ADVANCE(5); END_STATE(); case 50: ACCEPT_TOKEN(sym_zalupa); if (lookahead == '{') ADVANCE(8); if (('\t' <= lookahead && lookahead <= '\r') || lookahead == ' ') ADVANCE(50); if (lookahead != 0) ADVANCE(51); END_STATE(); case 51: ACCEPT_TOKEN(sym_zalupa); if (lookahead == '{') ADVANCE(18); if (lookahead != 0) ADVANCE(51); END_STATE(); default: return false; } } static const TSLexerMode ts_lex_modes[STATE_COUNT] = { [0] = {.lex_state = 0}, [1] = {.lex_state = 19}, [2] = {.lex_state = 1}, [3] = {.lex_state = 2}, [4] = {.lex_state = 19}, [5] = {.lex_state = 19}, [6] = {.lex_state = 19}, [7] = {.lex_state = 19}, [8] = {.lex_state = 3}, [9] = {.lex_state = 3}, [10] = {.lex_state = 4}, [11] = {.lex_state = 19}, [12] = {.lex_state = 6}, [13] = {.lex_state = 19}, [14] = {.lex_state = 19}, [15] = {.lex_state = 6}, [16] = {.lex_state = 19}, [17] = {.lex_state = 19}, [18] = {.lex_state = 6}, [19] = {.lex_state = 4}, [20] = {.lex_state = 19}, [21] = {.lex_state = 6}, [22] = {.lex_state = 19}, [23] = {.lex_state = 6}, [24] = {.lex_state = 6}, [25] = {.lex_state = 19}, [26] = {.lex_state = 0}, [27] = {.lex_state = 6}, [28] = {.lex_state = 0}, [29] = {.lex_state = 6}, [30] = {.lex_state = 6}, [31] = {.lex_state = 0}, [32] = {.lex_state = 6}, [33] = {.lex_state = 9}, [34] = {.lex_state = 6}, [35] = {.lex_state = 6}, }; static const uint16_t ts_parse_table[LARGE_STATE_COUNT][SYMBOL_COUNT] = { [STATE(0)] = { [ts_builtin_sym_end] = ACTIONS(1), [anon_sym_LBRACE_LBRACK] = ACTIONS(1), [anon_sym_RBRACK_RBRACE] = ACTIONS(1), [anon_sym_for] = ACTIONS(1), [anon_sym_in] = ACTIONS(1), [anon_sym_done] = ACTIONS(1), [anon_sym_DOT] = ACTIONS(1), [anon_sym_LBRACK] = ACTIONS(1), [anon_sym_RBRACK] = ACTIONS(1), [sym_integer_index] = ACTIONS(1), [aux_sym_string_token2] = ACTIONS(1), }, [STATE(1)] = { [sym_source_file] = STATE(28), [sym_element] = STATE(5), [sym_interpolation] = STATE(13), [sym_segment] = STATE(13), [sym_for] = STATE(4), [sym_actual_bracket] = STATE(13), [sym_include] = STATE(13), [aux_sym_source_file_repeat1] = STATE(5), [ts_builtin_sym_end] = ACTIONS(3), [anon_sym_LBRACE_LBRACK] = ACTIONS(5), [sym_zalupa] = ACTIONS(7), }, }; static const uint16_t ts_small_parse_table[] = { [0] = 9, ACTIONS(9), 1, anon_sym_LBRACE_LBRACK, ACTIONS(11), 1, anon_sym_for, ACTIONS(13), 1, anon_sym_done, ACTIONS(15), 1, anon_sym_include, ACTIONS(17), 1, anon_sym_DOT, ACTIONS(19), 1, anon_sym_LBRACK, STATE(27), 1, sym_path, ACTIONS(21), 2, aux_sym_string_token1, aux_sym_string_token2, STATE(15), 2, sym_index, sym_string, [30] = 8, ACTIONS(9), 1, anon_sym_LBRACE_LBRACK, ACTIONS(11), 1, anon_sym_for, ACTIONS(15), 1, anon_sym_include, ACTIONS(17), 1, anon_sym_DOT, ACTIONS(19), 1, anon_sym_LBRACK, STATE(27), 1, sym_path, ACTIONS(21), 2, aux_sym_string_token1, aux_sym_string_token2, STATE(15), 2, sym_index, sym_string, [57] = 6, ACTIONS(7), 1, sym_zalupa, ACTIONS(23), 1, anon_sym_LBRACE_LBRACK, STATE(4), 1, sym_for, STATE(14), 1, sym_done, STATE(6), 2, sym_element, aux_sym_source_file_repeat1, STATE(13), 4, sym_interpolation, sym_segment, sym_actual_bracket, sym_include, [80] = 6, ACTIONS(5), 1, anon_sym_LBRACE_LBRACK, ACTIONS(7), 1, sym_zalupa, ACTIONS(25), 1, ts_builtin_sym_end, STATE(4), 1, sym_for, STATE(7), 2, sym_element, aux_sym_source_file_repeat1, STATE(13), 4, sym_interpolation, sym_segment, sym_actual_bracket, sym_include, [103] = 6, ACTIONS(7), 1, sym_zalupa, ACTIONS(23), 1, anon_sym_LBRACE_LBRACK, STATE(4), 1, sym_for, STATE(20), 1, sym_done, STATE(7), 2, sym_element, aux_sym_source_file_repeat1, STATE(13), 4, sym_interpolation, sym_segment, sym_actual_bracket, sym_include, [126] = 6, ACTIONS(27), 1, ts_builtin_sym_end, ACTIONS(29), 1, anon_sym_LBRACE_LBRACK, ACTIONS(32), 1, sym_zalupa, STATE(4), 1, sym_for, STATE(7), 2, sym_element, aux_sym_source_file_repeat1, STATE(13), 4, sym_interpolation, sym_segment, sym_actual_bracket, sym_include, [149] = 5, ACTIONS(17), 1, anon_sym_DOT, ACTIONS(19), 1, anon_sym_LBRACK, STATE(35), 1, sym_path, ACTIONS(21), 2, aux_sym_string_token1, aux_sym_string_token2, STATE(15), 2, sym_index, sym_string, [167] = 5, ACTIONS(17), 1, anon_sym_DOT, ACTIONS(19), 1, anon_sym_LBRACK, STATE(32), 1, sym_path, ACTIONS(21), 2, aux_sym_string_token1, aux_sym_string_token2, STATE(15), 2, sym_index, sym_string, [185] = 3, ACTIONS(19), 1, anon_sym_LBRACK, ACTIONS(21), 2, aux_sym_string_token1, aux_sym_string_token2, STATE(23), 2, sym_index, sym_string, [197] = 2, ACTIONS(37), 1, anon_sym_LBRACE_LBRACK, ACTIONS(35), 2, ts_builtin_sym_end, sym_zalupa, [205] = 1, ACTIONS(39), 3, anon_sym_RBRACK_RBRACE, anon_sym_in, anon_sym_DOT, [211] = 2, ACTIONS(43), 1, anon_sym_LBRACE_LBRACK, ACTIONS(41), 2, ts_builtin_sym_end, sym_zalupa, [219] = 2, ACTIONS(47), 1, anon_sym_LBRACE_LBRACK, ACTIONS(45), 2, ts_builtin_sym_end, sym_zalupa, [227] = 3, ACTIONS(49), 1, anon_sym_RBRACK_RBRACE, ACTIONS(51), 1, anon_sym_DOT, STATE(18), 1, aux_sym_path_repeat1, [237] = 2, ACTIONS(55), 1, anon_sym_LBRACE_LBRACK, ACTIONS(53), 2, ts_builtin_sym_end, sym_zalupa, [245] = 2, ACTIONS(59), 1, anon_sym_LBRACE_LBRACK, ACTIONS(57), 2, ts_builtin_sym_end, sym_zalupa, [253] = 3, ACTIONS(51), 1, anon_sym_DOT, ACTIONS(61), 1, anon_sym_RBRACK_RBRACE, STATE(21), 1, aux_sym_path_repeat1, [263] = 3, ACTIONS(21), 1, aux_sym_string_token2, ACTIONS(63), 1, aux_sym_string_token1, STATE(31), 1, sym_string, [273] = 2, ACTIONS(67), 1, anon_sym_LBRACE_LBRACK, ACTIONS(65), 2, ts_builtin_sym_end, sym_zalupa, [281] = 3, ACTIONS(69), 1, anon_sym_RBRACK_RBRACE, ACTIONS(71), 1, anon_sym_DOT, STATE(21), 1, aux_sym_path_repeat1, [291] = 2, ACTIONS(76), 1, anon_sym_LBRACE_LBRACK, ACTIONS(74), 2, ts_builtin_sym_end, sym_zalupa, [299] = 1, ACTIONS(69), 2, anon_sym_RBRACK_RBRACE, anon_sym_DOT, [304] = 1, ACTIONS(78), 2, anon_sym_RBRACK_RBRACE, anon_sym_DOT, [309] = 2, ACTIONS(80), 1, anon_sym_LBRACE_LBRACK, ACTIONS(82), 1, sym_zalupa, [316] = 1, ACTIONS(84), 1, sym_integer_index, [320] = 1, ACTIONS(86), 1, anon_sym_RBRACK_RBRACE, [324] = 1, ACTIONS(88), 1, ts_builtin_sym_end, [328] = 1, ACTIONS(90), 1, anon_sym_RBRACK_RBRACE, [332] = 1, ACTIONS(49), 1, anon_sym_RBRACK_RBRACE, [336] = 1, ACTIONS(92), 1, anon_sym_in, [340] = 1, ACTIONS(94), 1, anon_sym_RBRACK_RBRACE, [344] = 1, ACTIONS(96), 1, anon_sym_RBRACK, [348] = 1, ACTIONS(98), 1, anon_sym_RBRACK_RBRACE, [352] = 1, ACTIONS(100), 1, anon_sym_RBRACK_RBRACE, }; static const uint32_t ts_small_parse_table_map[] = { [SMALL_STATE(2)] = 0, [SMALL_STATE(3)] = 30, [SMALL_STATE(4)] = 57, [SMALL_STATE(5)] = 80, [SMALL_STATE(6)] = 103, [SMALL_STATE(7)] = 126, [SMALL_STATE(8)] = 149, [SMALL_STATE(9)] = 167, [SMALL_STATE(10)] = 185, [SMALL_STATE(11)] = 197, [SMALL_STATE(12)] = 205, [SMALL_STATE(13)] = 211, [SMALL_STATE(14)] = 219, [SMALL_STATE(15)] = 227, [SMALL_STATE(16)] = 237, [SMALL_STATE(17)] = 245, [SMALL_STATE(18)] = 253, [SMALL_STATE(19)] = 263, [SMALL_STATE(20)] = 273, [SMALL_STATE(21)] = 281, [SMALL_STATE(22)] = 291, [SMALL_STATE(23)] = 299, [SMALL_STATE(24)] = 304, [SMALL_STATE(25)] = 309, [SMALL_STATE(26)] = 316, [SMALL_STATE(27)] = 320, [SMALL_STATE(28)] = 324, [SMALL_STATE(29)] = 328, [SMALL_STATE(30)] = 332, [SMALL_STATE(31)] = 336, [SMALL_STATE(32)] = 340, [SMALL_STATE(33)] = 344, [SMALL_STATE(34)] = 348, [SMALL_STATE(35)] = 352, }; static const TSParseActionEntry ts_parse_actions[] = { [0] = {.entry = {.count = 0, .reusable = false}}, [1] = {.entry = {.count = 1, .reusable = false}}, RECOVER(), [3] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_source_file, 0, 0, 0), [5] = {.entry = {.count = 1, .reusable = false}}, SHIFT(3), [7] = {.entry = {.count = 1, .reusable = true}}, SHIFT(13), [9] = {.entry = {.count = 1, .reusable = false}}, SHIFT(29), [11] = {.entry = {.count = 1, .reusable = false}}, SHIFT(19), [13] = {.entry = {.count = 1, .reusable = false}}, SHIFT(34), [15] = {.entry = {.count = 1, .reusable = false}}, SHIFT(9), [17] = {.entry = {.count = 1, .reusable = false}}, SHIFT(30), [19] = {.entry = {.count = 1, .reusable = false}}, SHIFT(26), [21] = {.entry = {.count = 1, .reusable = false}}, SHIFT(12), [23] = {.entry = {.count = 1, .reusable = false}}, SHIFT(2), [25] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_source_file, 1, 0, 0), [27] = {.entry = {.count = 1, .reusable = true}}, REDUCE(aux_sym_source_file_repeat1, 2, 0, 0), [29] = {.entry = {.count = 2, .reusable = false}}, REDUCE(aux_sym_source_file_repeat1, 2, 0, 0), SHIFT_REPEAT(3), [32] = {.entry = {.count = 2, .reusable = true}}, REDUCE(aux_sym_source_file_repeat1, 2, 0, 0), SHIFT_REPEAT(13), [35] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_actual_bracket, 3, 0, 0), [37] = {.entry = {.count = 1, .reusable = false}}, REDUCE(sym_actual_bracket, 3, 0, 0), [39] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_string, 1, 0, 0), [41] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_element, 1, 0, 0), [43] = {.entry = {.count = 1, .reusable = false}}, REDUCE(sym_element, 1, 0, 0), [45] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_segment, 2, 0, 0), [47] = {.entry = {.count = 1, .reusable = false}}, REDUCE(sym_segment, 2, 0, 0), [49] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_path, 1, 0, 0), [51] = {.entry = {.count = 1, .reusable = true}}, SHIFT(10), [53] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_done, 3, 0, 0), [55] = {.entry = {.count = 1, .reusable = false}}, REDUCE(sym_done, 3, 0, 0), [57] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_interpolation, 3, 0, 0), [59] = {.entry = {.count = 1, .reusable = false}}, REDUCE(sym_interpolation, 3, 0, 0), [61] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_path, 2, 0, 0), [63] = {.entry = {.count = 1, .reusable = true}}, SHIFT(12), [65] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_segment, 3, 0, 0), [67] = {.entry = {.count = 1, .reusable = false}}, REDUCE(sym_segment, 3, 0, 0), [69] = {.entry = {.count = 1, .reusable = true}}, REDUCE(aux_sym_path_repeat1, 2, 0, 0), [71] = {.entry = {.count = 2, .reusable = true}}, REDUCE(aux_sym_path_repeat1, 2, 0, 0), SHIFT_REPEAT(10), [74] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_include, 4, 0, 0), [76] = {.entry = {.count = 1, .reusable = false}}, REDUCE(sym_include, 4, 0, 0), [78] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_index, 3, 0, 1), [80] = {.entry = {.count = 1, .reusable = false}}, REDUCE(sym_for, 6, 0, 0), [82] = {.entry = {.count = 1, .reusable = true}}, REDUCE(sym_for, 6, 0, 0), [84] = {.entry = {.count = 1, .reusable = true}}, SHIFT(33), [86] = {.entry = {.count = 1, .reusable = true}}, SHIFT(17), [88] = {.entry = {.count = 1, .reusable = true}}, ACCEPT_INPUT(), [90] = {.entry = {.count = 1, .reusable = true}}, SHIFT(11), [92] = {.entry = {.count = 1, .reusable = true}}, SHIFT(8), [94] = {.entry = {.count = 1, .reusable = true}}, SHIFT(22), [96] = {.entry = {.count = 1, .reusable = true}}, SHIFT(24), [98] = {.entry = {.count = 1, .reusable = true}}, SHIFT(16), [100] = {.entry = {.count = 1, .reusable = true}}, SHIFT(25), }; #ifdef __cplusplus extern "C" { #endif #ifdef TREE_SITTER_HIDE_SYMBOLS #define TS_PUBLIC #elif defined(_WIN32) #define TS_PUBLIC __declspec(dllexport) #else #define TS_PUBLIC __attribute__((visibility("default"))) #endif TS_PUBLIC const TSLanguage *tree_sitter_hemar(void) { static const TSLanguage language = { .abi_version = LANGUAGE_VERSION, .symbol_count = SYMBOL_COUNT, .alias_count = ALIAS_COUNT, .token_count = TOKEN_COUNT, .external_token_count = EXTERNAL_TOKEN_COUNT, .state_count = STATE_COUNT, .large_state_count = LARGE_STATE_COUNT, .production_id_count = PRODUCTION_ID_COUNT, .supertype_count = SUPERTYPE_COUNT, .field_count = FIELD_COUNT, .max_alias_sequence_length = MAX_ALIAS_SEQUENCE_LENGTH, .parse_table = &ts_parse_table[0][0], .small_parse_table = ts_small_parse_table, .small_parse_table_map = ts_small_parse_table_map, .parse_actions = ts_parse_actions, .symbol_names = ts_symbol_names, .field_names = ts_field_names, .field_map_slices = ts_field_map_slices, .field_map_entries = ts_field_map_entries, .symbol_metadata = ts_symbol_metadata, .public_symbol_map = ts_symbol_map, .alias_map = ts_non_terminal_alias_map, .alias_sequences = &ts_alias_sequences[0][0], .lex_modes = (const void*)ts_lex_modes, .lex_fn = ts_lex, .primary_state_ids = ts_primary_state_ids, .name = "hemar", .max_reserved_word_set_size = 0, .metadata = { .major_version = 0, .minor_version = 1, .patch_version = 0, }, }; return &language; } #ifdef __cplusplus } #endif