#ifndef tree_sitter_parser_h #define tree_sitter_parser_h #ifdef __cplusplus extern "C" { #endif #include "./runtime.h" #include #include #include //#define TS_DEBUG_PARSE //#define TS_DEBUG_LEX #ifdef TS_DEBUG_LEX #define DEBUG_LEX(...) fprintf(stderr, __VA_ARGS__) #else #define DEBUG_LEX(...) #endif #ifdef TS_DEBUG_PARSE #define DEBUG_PARSE(...) fprintf(stderr, __VA_ARGS__) #else #define DEBUG_PARSE(...) #endif static int INITIAL_STACK_SIZE = 100; static const char *ts_symbol_names[]; typedef int ts_state; typedef struct { ts_state state; ts_tree *node; } ts_stack_entry; typedef struct { const char *input; size_t position; ts_tree *lookahead_node; ts_tree *prev_lookahead_node; ts_state lex_state; ts_stack_entry *stack; size_t stack_size; ts_parse_result result; } ts_parser; static ts_parser TSParserMake(const char *input) { ts_parser result = { .input = input, .position = 0, .lookahead_node = NULL, .lex_state = 0, .stack = calloc(INITIAL_STACK_SIZE, sizeof(ts_stack_entry)), .stack_size = 0, .result = { .tree = NULL, .error = { .expected_inputs = NULL, .expected_input_count = 0 }, }, }; return result; } static char TSParserLookaheadChar(const ts_parser *parser) { return parser->input[parser->position]; } static long TSParserLookaheadSym(const ts_parser *parser) { ts_tree *node = parser->lookahead_node; return node ? node->value : -1; } static ts_state TSParserParseState(const ts_parser *parser) { if (parser->stack_size == 0) return 0; return parser->stack[parser->stack_size - 1].state; } static void TSParserShift(ts_parser *parser, ts_state parse_state) { DEBUG_PARSE("shift: %d \n", parse_state); ts_stack_entry *entry = (parser->stack + parser->stack_size); entry->state = parse_state; entry->node = parser->lookahead_node; parser->lookahead_node = parser->prev_lookahead_node; parser->prev_lookahead_node = NULL; parser->stack_size++; } static void TSParserReduce(ts_parser *parser, ts_symbol symbol, int immediate_child_count, const int *collapse_flags) { parser->stack_size -= immediate_child_count; int total_child_count = 0; for (int i = 0; i < immediate_child_count; i++) { ts_tree *child = parser->stack[parser->stack_size + i].node; if (collapse_flags[i]) { total_child_count += child->child_count; } else { total_child_count++; } } ts_tree **children = malloc(total_child_count * sizeof(ts_tree *)); int n = 0; for (int i = 0; i < immediate_child_count; i++) { ts_tree *child = parser->stack[parser->stack_size + i].node; if (collapse_flags[i]) { memcpy(children + n, child->children, (child->child_count * sizeof(ts_tree *))); n += child->child_count; } else { children[n] = child; n++; } } parser->prev_lookahead_node = parser->lookahead_node; parser->lookahead_node = ts_tree_make(symbol, total_child_count, children); DEBUG_PARSE("reduce: %s, state: %u \n", ts_symbol_names[symbol], TSParserParseState(parser)); } static void TSParserError(ts_parser *parser, size_t count, const char **expected_inputs) { ts_error *error = &parser->result.error; error->position = parser->position; error->lookahead_char = TSParserLookaheadChar(parser); error->expected_input_count = count; error->expected_inputs = expected_inputs; } static int TSParserHasError(const ts_parser *parser) { return (parser->result.error.expected_inputs != NULL); } static void TSParserAdvance(ts_parser *parser, ts_state lex_state) { DEBUG_LEX("character: '%c' \n", TSParserLookaheadChar(parser)); parser->position++; parser->lex_state = lex_state; } static void TSParserSetLookaheadSym(ts_parser *parser, ts_symbol symbol) { DEBUG_LEX("token: %s \n", ts_symbol_names[symbol]); parser->lookahead_node = ts_tree_make(symbol, 0, NULL); } static void TSParserAcceptInput(ts_parser *parser) { parser->result.tree = parser->stack[parser->stack_size - 1].node; DEBUG_PARSE("accept \n"); } static void TSParserSkipWhitespace(ts_parser *parser) { while (isspace(parser->input[parser->position])) parser->position++; } #pragma mark - DSL #define LEX_FN() \ static void ts_lex(ts_parser *parser) #define PARSE_FN() \ static ts_parse_result ts_parse(const char *input) #define SYMBOL_NAMES \ static const char *ts_symbol_names[] = #define EXPORT_PARSER(name) \ ts_parse_config name = { \ .parse_fn = ts_parse, \ .symbol_names = ts_symbol_names \ }; #define START_PARSER() \ ts_parser p = TSParserMake(input), *parser = &p; \ next_state: #define START_LEXER() \ TSParserSkipWhitespace(parser); \ next_state: #define LOOKAHEAD_SYM() \ TSParserLookaheadSym(parser) #define LOOKAHEAD_CHAR() \ TSParserLookaheadChar(parser) #define PARSE_STATE() \ TSParserParseState(parser) #define LEX_STATE() \ parser->lex_state #define SET_LEX_STATE(state_index) \ { \ parser->lex_state = state_index; \ if (LOOKAHEAD_SYM() < 0) ts_lex(parser); \ if (TSParserHasError(parser)) goto done; \ } #define SHIFT(state) \ { TSParserShift(parser, state); goto next_state; } #define ADVANCE(state_index) \ { TSParserAdvance(parser, state_index); goto next_state; } #define REDUCE(symbol, child_count, collapse_flags) \ { \ static const int flags[] = collapse_flags; \ TSParserReduce(parser, symbol, child_count, flags); \ goto next_state; \ } #define ACCEPT_INPUT() \ { TSParserAcceptInput(parser); goto done; } #define ACCEPT_TOKEN(symbol) \ { TSParserSetLookaheadSym(parser, symbol); goto done; } #define LEX_ERROR(count, inputs) \ { \ static const char *expected_inputs[] = inputs; \ TSParserError(parser, count, expected_inputs); \ goto done; \ } #define LEX_PANIC() \ printf("Lex error: unexpected state %ud", LEX_STATE()); #define PARSE_PANIC() \ printf("Parse error: unexpected state %ud", PARSE_STATE()); #define EXPECT(...) __VA_ARGS__ #define COLLAPSE(...) __VA_ARGS__ #define FINISH_PARSER() \ done: \ return parser->result; #define FINISH_LEXER() \ done: #ifdef __cplusplus } #endif #endif