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language.c
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language.c
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#include "./language.h"
#include "./wasm_store.h"
#include "api.h"
#include <string.h>
const TSLanguage *ts_language_copy(const TSLanguage *self) {
if (self && ts_language_is_wasm(self)) {
ts_wasm_language_retain(self);
}
return self;
}
void ts_language_delete(const TSLanguage *self) {
if (self && ts_language_is_wasm(self)) {
ts_wasm_language_release(self);
}
}
uint32_t ts_language_symbol_count(const TSLanguage *self) {
return self->symbol_count + self->alias_count;
}
uint32_t ts_language_state_count(const TSLanguage *self) {
return self->state_count;
}
uint32_t ts_language_version(const TSLanguage *self) {
return self->version;
}
uint32_t ts_language_field_count(const TSLanguage *self) {
return self->field_count;
}
void ts_language_table_entry(
const TSLanguage *self,
TSStateId state,
TSSymbol symbol,
TableEntry *result
) {
if (symbol == ts_builtin_sym_error || symbol == ts_builtin_sym_error_repeat) {
result->action_count = 0;
result->is_reusable = false;
result->actions = NULL;
} else {
assert(symbol < self->token_count);
uint32_t action_index = ts_language_lookup(self, state, symbol);
const TSParseActionEntry *entry = &self->parse_actions[action_index];
result->action_count = entry->entry.count;
result->is_reusable = entry->entry.reusable;
result->actions = (const TSParseAction *)(entry + 1);
}
}
TSSymbolMetadata ts_language_symbol_metadata(
const TSLanguage *self,
TSSymbol symbol
) {
if (symbol == ts_builtin_sym_error) {
return (TSSymbolMetadata) {.visible = true, .named = true};
} else if (symbol == ts_builtin_sym_error_repeat) {
return (TSSymbolMetadata) {.visible = false, .named = false};
} else {
return self->symbol_metadata[symbol];
}
}
TSSymbol ts_language_public_symbol(
const TSLanguage *self,
TSSymbol symbol
) {
if (symbol == ts_builtin_sym_error) return symbol;
return self->public_symbol_map[symbol];
}
TSStateId ts_language_next_state(
const TSLanguage *self,
TSStateId state,
TSSymbol symbol
) {
if (symbol == ts_builtin_sym_error || symbol == ts_builtin_sym_error_repeat) {
return 0;
} else if (symbol < self->token_count) {
uint32_t count;
const TSParseAction *actions = ts_language_actions(self, state, symbol, &count);
if (count > 0) {
TSParseAction action = actions[count - 1];
if (action.type == TSParseActionTypeShift) {
return action.shift.extra ? state : action.shift.state;
}
}
return 0;
} else {
return ts_language_lookup(self, state, symbol);
}
}
const char *ts_language_symbol_name(
const TSLanguage *self,
TSSymbol symbol
) {
if (symbol == ts_builtin_sym_error) {
return "ERROR";
} else if (symbol == ts_builtin_sym_error_repeat) {
return "_ERROR";
} else if (symbol < ts_language_symbol_count(self)) {
return self->symbol_names[symbol];
} else {
return NULL;
}
}
TSSymbol ts_language_symbol_for_name(
const TSLanguage *self,
const char *string,
uint32_t length,
bool is_named
) {
if (!strncmp(string, "ERROR", length)) return ts_builtin_sym_error;
uint16_t count = (uint16_t)ts_language_symbol_count(self);
for (TSSymbol i = 0; i < count; i++) {
TSSymbolMetadata metadata = ts_language_symbol_metadata(self, i);
if ((!metadata.visible && !metadata.supertype) || metadata.named != is_named) continue;
const char *symbol_name = self->symbol_names[i];
if (!strncmp(symbol_name, string, length) && !symbol_name[length]) {
return self->public_symbol_map[i];
}
}
return 0;
}
TSSymbolType ts_language_symbol_type(
const TSLanguage *self,
TSSymbol symbol
) {
TSSymbolMetadata metadata = ts_language_symbol_metadata(self, symbol);
if (metadata.named && metadata.visible) {
return TSSymbolTypeRegular;
} else if (metadata.visible) {
return TSSymbolTypeAnonymous;
} else {
return TSSymbolTypeAuxiliary;
}
}
const char *ts_language_field_name_for_id(
const TSLanguage *self,
TSFieldId id
) {
uint32_t count = ts_language_field_count(self);
if (count && id <= count) {
return self->field_names[id];
} else {
return NULL;
}
}
TSFieldId ts_language_field_id_for_name(
const TSLanguage *self,
const char *name,
uint32_t name_length
) {
uint16_t count = (uint16_t)ts_language_field_count(self);
for (TSSymbol i = 1; i < count + 1; i++) {
switch (strncmp(name, self->field_names[i], name_length)) {
case 0:
if (self->field_names[i][name_length] == 0) return i;
break;
case -1:
return 0;
default:
break;
}
}
return 0;
}
TSLookaheadIterator *ts_lookahead_iterator_new(const TSLanguage *self, TSStateId state) {
if (state >= self->state_count) return NULL;
LookaheadIterator *iterator = ts_malloc(sizeof(LookaheadIterator));
*iterator = ts_language_lookaheads(self, state);
return (TSLookaheadIterator *)iterator;
}
void ts_lookahead_iterator_delete(TSLookaheadIterator *self) {
ts_free(self);
}
bool ts_lookahead_iterator_reset_state(TSLookaheadIterator * self, TSStateId state) {
LookaheadIterator *iterator = (LookaheadIterator *)self;
if (state >= iterator->language->state_count) return false;
*iterator = ts_language_lookaheads(iterator->language, state);
return true;
}
const TSLanguage *ts_lookahead_iterator_language(const TSLookaheadIterator *self) {
const LookaheadIterator *iterator = (const LookaheadIterator *)self;
return iterator->language;
}
bool ts_lookahead_iterator_reset(TSLookaheadIterator *self, const TSLanguage *language, TSStateId state) {
if (state >= language->state_count) return false;
LookaheadIterator *iterator = (LookaheadIterator *)self;
*iterator = ts_language_lookaheads(language, state);
return true;
}
bool ts_lookahead_iterator_next(TSLookaheadIterator *self) {
LookaheadIterator *iterator = (LookaheadIterator *)self;
return ts_lookahead_iterator__next(iterator);
}
TSSymbol ts_lookahead_iterator_current_symbol(const TSLookaheadIterator *self) {
const LookaheadIterator *iterator = (const LookaheadIterator *)self;
return iterator->symbol;
}
const char *ts_lookahead_iterator_current_symbol_name(const TSLookaheadIterator *self) {
const LookaheadIterator *iterator = (const LookaheadIterator *)self;
return ts_language_symbol_name(iterator->language, iterator->symbol);
}