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parser.c
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parser.c
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#define _POSIX_C_SOURCE 200112L
#include <time.h>
#include <assert.h>
#include <stdio.h>
#include <limits.h>
#include <stdbool.h>
#include <inttypes.h>
#include "api.h"
#include "./alloc.h"
#include "./array.h"
#include "./atomic.h"
#include "./clock.h"
#include "./error_costs.h"
#include "./get_changed_ranges.h"
#include "./language.h"
#include "./length.h"
#include "./lexer.h"
#include "./reduce_action.h"
#include "./reusable_node.h"
#include "./stack.h"
#include "./subtree.h"
#include "./tree.h"
#include "./wasm_store.h"
#define LOG(...) \
if (self->lexer.logger.log || self->dot_graph_file) { \
snprintf(self->lexer.debug_buffer, TREE_SITTER_SERIALIZATION_BUFFER_SIZE, __VA_ARGS__); \
ts_parser__log(self); \
}
#define LOG_LOOKAHEAD(symbol_name, size) \
if (self->lexer.logger.log || self->dot_graph_file) { \
char *buf = self->lexer.debug_buffer; \
const char *symbol = symbol_name; \
int off = sprintf(buf, "lexed_lookahead sym:"); \
for ( \
int i = 0; \
symbol[i] != '\0' \
&& off < TREE_SITTER_SERIALIZATION_BUFFER_SIZE; \
i++ \
) { \
switch (symbol[i]) { \
case '\t': buf[off++] = '\\'; buf[off++] = 't'; break; \
case '\n': buf[off++] = '\\'; buf[off++] = 'n'; break; \
case '\v': buf[off++] = '\\'; buf[off++] = 'v'; break; \
case '\f': buf[off++] = '\\'; buf[off++] = 'f'; break; \
case '\r': buf[off++] = '\\'; buf[off++] = 'r'; break; \
case '\\': buf[off++] = '\\'; buf[off++] = '\\'; break; \
default: buf[off++] = symbol[i]; break; \
} \
} \
snprintf( \
buf + off, \
TREE_SITTER_SERIALIZATION_BUFFER_SIZE - off, \
", size:%u", \
size \
); \
ts_parser__log(self); \
}
#define LOG_STACK() \
if (self->dot_graph_file) { \
ts_stack_print_dot_graph(self->stack, self->language, self->dot_graph_file); \
fputs("\n\n", self->dot_graph_file); \
}
#define LOG_TREE(tree) \
if (self->dot_graph_file) { \
ts_subtree_print_dot_graph(tree, self->language, self->dot_graph_file); \
fputs("\n", self->dot_graph_file); \
}
#define SYM_NAME(symbol) ts_language_symbol_name(self->language, symbol)
#define TREE_NAME(tree) SYM_NAME(ts_subtree_symbol(tree))
static const unsigned MAX_VERSION_COUNT = 6;
static const unsigned MAX_VERSION_COUNT_OVERFLOW = 4;
static const unsigned MAX_SUMMARY_DEPTH = 16;
static const unsigned MAX_COST_DIFFERENCE = 16 * ERROR_COST_PER_SKIPPED_TREE;
static const unsigned OP_COUNT_PER_TIMEOUT_CHECK = 100;
typedef struct {
Subtree token;
Subtree last_external_token;
uint32_t byte_index;
} TokenCache;
struct TSParser {
Lexer lexer;
Stack *stack;
SubtreePool tree_pool;
const TSLanguage *language;
TSWasmStore *wasm_store;
ReduceActionSet reduce_actions;
Subtree finished_tree;
SubtreeArray trailing_extras;
SubtreeArray trailing_extras2;
SubtreeArray scratch_trees;
TokenCache token_cache;
ReusableNode reusable_node;
void *external_scanner_payload;
FILE *dot_graph_file;
TSClock end_clock;
TSDuration timeout_duration;
unsigned accept_count;
unsigned operation_count;
const volatile size_t *cancellation_flag;
Subtree old_tree;
TSRangeArray included_range_differences;
unsigned included_range_difference_index;
bool has_scanner_error;
};
typedef struct {
unsigned cost;
unsigned node_count;
int dynamic_precedence;
bool is_in_error;
} ErrorStatus;
typedef enum {
ErrorComparisonTakeLeft,
ErrorComparisonPreferLeft,
ErrorComparisonNone,
ErrorComparisonPreferRight,
ErrorComparisonTakeRight,
} ErrorComparison;
typedef struct {
const char *string;
uint32_t length;
} TSStringInput;
// StringInput
static const char *ts_string_input_read(
void *_self,
uint32_t byte,
TSPoint point,
uint32_t *length
) {
(void)point;
TSStringInput *self = (TSStringInput *)_self;
if (byte >= self->length) {
*length = 0;
return "";
} else {
*length = self->length - byte;
return self->string + byte;
}
}
// Parser - Private
static void ts_parser__log(TSParser *self) {
if (self->lexer.logger.log) {
self->lexer.logger.log(
self->lexer.logger.payload,
TSLogTypeParse,
self->lexer.debug_buffer
);
}
if (self->dot_graph_file) {
fprintf(self->dot_graph_file, "graph {\nlabel=\"");
for (char *chr = &self->lexer.debug_buffer[0]; *chr != 0; chr++) {
if (*chr == '"' || *chr == '\\') fputc('\\', self->dot_graph_file);
fputc(*chr, self->dot_graph_file);
}
fprintf(self->dot_graph_file, "\"\n}\n\n");
}
}
static bool ts_parser__breakdown_top_of_stack(
TSParser *self,
StackVersion version
) {
bool did_break_down = false;
bool pending = false;
do {
StackSliceArray pop = ts_stack_pop_pending(self->stack, version);
if (!pop.size) break;
did_break_down = true;
pending = false;
for (uint32_t i = 0; i < pop.size; i++) {
StackSlice slice = pop.contents[i];
TSStateId state = ts_stack_state(self->stack, slice.version);
Subtree parent = *array_front(&slice.subtrees);
for (uint32_t j = 0, n = ts_subtree_child_count(parent); j < n; j++) {
Subtree child = ts_subtree_children(parent)[j];
pending = ts_subtree_child_count(child) > 0;
if (ts_subtree_is_error(child)) {
state = ERROR_STATE;
} else if (!ts_subtree_extra(child)) {
state = ts_language_next_state(self->language, state, ts_subtree_symbol(child));
}
ts_subtree_retain(child);
ts_stack_push(self->stack, slice.version, child, pending, state);
}
for (uint32_t j = 1; j < slice.subtrees.size; j++) {
Subtree tree = slice.subtrees.contents[j];
ts_stack_push(self->stack, slice.version, tree, false, state);
}
ts_subtree_release(&self->tree_pool, parent);
array_delete(&slice.subtrees);
LOG("breakdown_top_of_stack tree:%s", TREE_NAME(parent));
LOG_STACK();
}
} while (pending);
return did_break_down;
}
static void ts_parser__breakdown_lookahead(
TSParser *self,
Subtree *lookahead,
TSStateId state,
ReusableNode *reusable_node
) {
bool did_descend = false;
Subtree tree = reusable_node_tree(reusable_node);
while (ts_subtree_child_count(tree) > 0 && ts_subtree_parse_state(tree) != state) {
LOG("state_mismatch sym:%s", TREE_NAME(tree));
reusable_node_descend(reusable_node);
tree = reusable_node_tree(reusable_node);
did_descend = true;
}
if (did_descend) {
ts_subtree_release(&self->tree_pool, *lookahead);
*lookahead = tree;
ts_subtree_retain(*lookahead);
}
}
static ErrorComparison ts_parser__compare_versions(
TSParser *self,
ErrorStatus a,
ErrorStatus b
) {
(void)self;
if (!a.is_in_error && b.is_in_error) {
if (a.cost < b.cost) {
return ErrorComparisonTakeLeft;
} else {
return ErrorComparisonPreferLeft;
}
}
if (a.is_in_error && !b.is_in_error) {
if (b.cost < a.cost) {
return ErrorComparisonTakeRight;
} else {
return ErrorComparisonPreferRight;
}
}
if (a.cost < b.cost) {
if ((b.cost - a.cost) * (1 + a.node_count) > MAX_COST_DIFFERENCE) {
return ErrorComparisonTakeLeft;
} else {
return ErrorComparisonPreferLeft;
}
}
if (b.cost < a.cost) {
if ((a.cost - b.cost) * (1 + b.node_count) > MAX_COST_DIFFERENCE) {
return ErrorComparisonTakeRight;
} else {
return ErrorComparisonPreferRight;
}
}
if (a.dynamic_precedence > b.dynamic_precedence) return ErrorComparisonPreferLeft;
if (b.dynamic_precedence > a.dynamic_precedence) return ErrorComparisonPreferRight;
return ErrorComparisonNone;
}
static ErrorStatus ts_parser__version_status(
TSParser *self,
StackVersion version
) {
unsigned cost = ts_stack_error_cost(self->stack, version);
bool is_paused = ts_stack_is_paused(self->stack, version);
if (is_paused) cost += ERROR_COST_PER_SKIPPED_TREE;
return (ErrorStatus) {
.cost = cost,
.node_count = ts_stack_node_count_since_error(self->stack, version),
.dynamic_precedence = ts_stack_dynamic_precedence(self->stack, version),
.is_in_error = is_paused || ts_stack_state(self->stack, version) == ERROR_STATE
};
}
static bool ts_parser__better_version_exists(
TSParser *self,
StackVersion version,
bool is_in_error,
unsigned cost
) {
if (self->finished_tree.ptr && ts_subtree_error_cost(self->finished_tree) <= cost) {
return true;
}
Length position = ts_stack_position(self->stack, version);
ErrorStatus status = {
.cost = cost,
.is_in_error = is_in_error,
.dynamic_precedence = ts_stack_dynamic_precedence(self->stack, version),
.node_count = ts_stack_node_count_since_error(self->stack, version),
};
for (StackVersion i = 0, n = ts_stack_version_count(self->stack); i < n; i++) {
if (i == version ||
!ts_stack_is_active(self->stack, i) ||
ts_stack_position(self->stack, i).bytes < position.bytes) continue;
ErrorStatus status_i = ts_parser__version_status(self, i);
switch (ts_parser__compare_versions(self, status, status_i)) {
case ErrorComparisonTakeRight:
return true;
case ErrorComparisonPreferRight:
if (ts_stack_can_merge(self->stack, i, version)) return true;
break;
default:
break;
}
}
return false;
}
static bool ts_parser__call_main_lex_fn(TSParser *self, TSLexMode lex_mode) {
if (ts_language_is_wasm(self->language)) {
return ts_wasm_store_call_lex_main(self->wasm_store, lex_mode.lex_state);
} else {
return self->language->lex_fn(&self->lexer.data, lex_mode.lex_state);
}
}
static bool ts_parser__call_keyword_lex_fn(TSParser *self, TSLexMode lex_mode) {
if (ts_language_is_wasm(self->language)) {
return ts_wasm_store_call_lex_keyword(self->wasm_store, 0);
} else {
return self->language->keyword_lex_fn(&self->lexer.data, 0);
}
}
static void ts_parser__external_scanner_create(
TSParser *self
) {
if (self->language && self->language->external_scanner.states) {
if (ts_language_is_wasm(self->language)) {
self->external_scanner_payload = (void *)(uintptr_t)ts_wasm_store_call_scanner_create(
self->wasm_store
);
if (ts_wasm_store_has_error(self->wasm_store)) {
self->has_scanner_error = true;
}
} else if (self->language->external_scanner.create) {
self->external_scanner_payload = self->language->external_scanner.create();
}
}
}
static void ts_parser__external_scanner_destroy(
TSParser *self
) {
if (
self->language &&
self->external_scanner_payload &&
self->language->external_scanner.destroy &&
!ts_language_is_wasm(self->language)
) {
self->language->external_scanner.destroy(
self->external_scanner_payload
);
}
self->external_scanner_payload = NULL;
}
static unsigned ts_parser__external_scanner_serialize(
TSParser *self
) {
if (ts_language_is_wasm(self->language)) {
return ts_wasm_store_call_scanner_serialize(
self->wasm_store,
(uintptr_t)self->external_scanner_payload,
self->lexer.debug_buffer
);
} else {
return self->language->external_scanner.serialize(
self->external_scanner_payload,
self->lexer.debug_buffer
);
}
}
static void ts_parser__external_scanner_deserialize(
TSParser *self,
Subtree external_token
) {
const char *data = NULL;
uint32_t length = 0;
if (external_token.ptr) {
data = ts_external_scanner_state_data(&external_token.ptr->external_scanner_state);
length = external_token.ptr->external_scanner_state.length;
}
if (ts_language_is_wasm(self->language)) {
ts_wasm_store_call_scanner_deserialize(
self->wasm_store,
(uintptr_t)self->external_scanner_payload,
data,
length
);
if (ts_wasm_store_has_error(self->wasm_store)) {
self->has_scanner_error = true;
}
} else {
self->language->external_scanner.deserialize(
self->external_scanner_payload,
data,
length
);
}
}
static bool ts_parser__external_scanner_scan(
TSParser *self,
TSStateId external_lex_state
) {
if (ts_language_is_wasm(self->language)) {
bool result = ts_wasm_store_call_scanner_scan(
self->wasm_store,
(uintptr_t)self->external_scanner_payload,
external_lex_state * self->language->external_token_count
);
if (ts_wasm_store_has_error(self->wasm_store)) {
self->has_scanner_error = true;
}
return result;
} else {
const bool *valid_external_tokens = ts_language_enabled_external_tokens(
self->language,
external_lex_state
);
return self->language->external_scanner.scan(
self->external_scanner_payload,
&self->lexer.data,
valid_external_tokens
);
}
}
static bool ts_parser__can_reuse_first_leaf(
TSParser *self,
TSStateId state,
Subtree tree,
TableEntry *table_entry
) {
TSLexMode current_lex_mode = self->language->lex_modes[state];
TSSymbol leaf_symbol = ts_subtree_leaf_symbol(tree);
TSStateId leaf_state = ts_subtree_leaf_parse_state(tree);
TSLexMode leaf_lex_mode = self->language->lex_modes[leaf_state];
// At the end of a non-terminal extra node, the lexer normally returns
// NULL, which indicates that the parser should look for a reduce action
// at symbol `0`. Avoid reusing tokens in this situation to ensure that
// the same thing happens when incrementally reparsing.
if (current_lex_mode.lex_state == (uint16_t)(-1)) return false;
// If the token was created in a state with the same set of lookaheads, it is reusable.
if (
table_entry->action_count > 0 &&
memcmp(&leaf_lex_mode, ¤t_lex_mode, sizeof(TSLexMode)) == 0 &&
(
leaf_symbol != self->language->keyword_capture_token ||
(!ts_subtree_is_keyword(tree) && ts_subtree_parse_state(tree) == state)
)
) return true;
// Empty tokens are not reusable in states with different lookaheads.
if (ts_subtree_size(tree).bytes == 0 && leaf_symbol != ts_builtin_sym_end) return false;
// If the current state allows external tokens or other tokens that conflict with this
// token, this token is not reusable.
return current_lex_mode.external_lex_state == 0 && table_entry->is_reusable;
}
static Subtree ts_parser__lex(
TSParser *self,
StackVersion version,
TSStateId parse_state
) {
TSLexMode lex_mode = self->language->lex_modes[parse_state];
if (lex_mode.lex_state == (uint16_t)-1) {
LOG("no_lookahead_after_non_terminal_extra");
return NULL_SUBTREE;
}
const Length start_position = ts_stack_position(self->stack, version);
const Subtree external_token = ts_stack_last_external_token(self->stack, version);
bool found_external_token = false;
bool error_mode = parse_state == ERROR_STATE;
bool skipped_error = false;
bool called_get_column = false;
int32_t first_error_character = 0;
Length error_start_position = length_zero();
Length error_end_position = length_zero();
uint32_t lookahead_end_byte = 0;
uint32_t external_scanner_state_len = 0;
bool external_scanner_state_changed = false;
ts_lexer_reset(&self->lexer, start_position);
for (;;) {
bool found_token = false;
Length current_position = self->lexer.current_position;
if (lex_mode.external_lex_state != 0) {
LOG(
"lex_external state:%d, row:%u, column:%u",
lex_mode.external_lex_state,
current_position.extent.row,
current_position.extent.column
);
ts_lexer_start(&self->lexer);
ts_parser__external_scanner_deserialize(self, external_token);
found_token = ts_parser__external_scanner_scan(self, lex_mode.external_lex_state);
if (self->has_scanner_error) return NULL_SUBTREE;
ts_lexer_finish(&self->lexer, &lookahead_end_byte);
if (found_token) {
external_scanner_state_len = ts_parser__external_scanner_serialize(self);
external_scanner_state_changed = !ts_external_scanner_state_eq(
ts_subtree_external_scanner_state(external_token),
self->lexer.debug_buffer,
external_scanner_state_len
);
// When recovering from an error, ignore any zero-length external tokens
// unless they have changed the external scanner's state. This helps to
// avoid infinite loops which could otherwise occur, because the lexer is
// looking for any possible token, instead of looking for the specific set of
// tokens that are valid in some parse state.
//
// Note that it's possible that the token end position may be *before* the
// original position of the lexer because of the way that tokens are positioned
// at included range boundaries: when a token is terminated at the start of
// an included range, it is marked as ending at the *end* of the preceding
// included range.
if (
self->lexer.token_end_position.bytes <= current_position.bytes &&
(error_mode || !ts_stack_has_advanced_since_error(self->stack, version)) &&
!external_scanner_state_changed
) {
LOG(
"ignore_empty_external_token symbol:%s",
SYM_NAME(self->language->external_scanner.symbol_map[self->lexer.data.result_symbol])
)
found_token = false;
}
}
if (found_token) {
found_external_token = true;
called_get_column = self->lexer.did_get_column;
break;
}
ts_lexer_reset(&self->lexer, current_position);
}
LOG(
"lex_internal state:%d, row:%u, column:%u",
lex_mode.lex_state,
current_position.extent.row,
current_position.extent.column
);
ts_lexer_start(&self->lexer);
found_token = ts_parser__call_main_lex_fn(self, lex_mode);
ts_lexer_finish(&self->lexer, &lookahead_end_byte);
if (found_token) break;
if (!error_mode) {
error_mode = true;
lex_mode = self->language->lex_modes[ERROR_STATE];
ts_lexer_reset(&self->lexer, start_position);
continue;
}
if (!skipped_error) {
LOG("skip_unrecognized_character");
skipped_error = true;
error_start_position = self->lexer.token_start_position;
error_end_position = self->lexer.token_start_position;
first_error_character = self->lexer.data.lookahead;
}
if (self->lexer.current_position.bytes == error_end_position.bytes) {
if (self->lexer.data.eof(&self->lexer.data)) {
self->lexer.data.result_symbol = ts_builtin_sym_error;
break;
}
self->lexer.data.advance(&self->lexer.data, false);
}
error_end_position = self->lexer.current_position;
}
Subtree result;
if (skipped_error) {
Length padding = length_sub(error_start_position, start_position);
Length size = length_sub(error_end_position, error_start_position);
uint32_t lookahead_bytes = lookahead_end_byte - error_end_position.bytes;
result = ts_subtree_new_error(
&self->tree_pool,
first_error_character,
padding,
size,
lookahead_bytes,
parse_state,
self->language
);
} else {
bool is_keyword = false;
TSSymbol symbol = self->lexer.data.result_symbol;
Length padding = length_sub(self->lexer.token_start_position, start_position);
Length size = length_sub(self->lexer.token_end_position, self->lexer.token_start_position);
uint32_t lookahead_bytes = lookahead_end_byte - self->lexer.token_end_position.bytes;
if (found_external_token) {
symbol = self->language->external_scanner.symbol_map[symbol];
} else if (symbol == self->language->keyword_capture_token && symbol != 0) {
uint32_t end_byte = self->lexer.token_end_position.bytes;
ts_lexer_reset(&self->lexer, self->lexer.token_start_position);
ts_lexer_start(&self->lexer);
is_keyword = ts_parser__call_keyword_lex_fn(self, lex_mode);
if (
is_keyword &&
self->lexer.token_end_position.bytes == end_byte &&
ts_language_has_actions(self->language, parse_state, self->lexer.data.result_symbol)
) {
symbol = self->lexer.data.result_symbol;
}
}
result = ts_subtree_new_leaf(
&self->tree_pool,
symbol,
padding,
size,
lookahead_bytes,
parse_state,
found_external_token,
called_get_column,
is_keyword,
self->language
);
if (found_external_token) {
MutableSubtree mut_result = ts_subtree_to_mut_unsafe(result);
ts_external_scanner_state_init(
&mut_result.ptr->external_scanner_state,
self->lexer.debug_buffer,
external_scanner_state_len
);
mut_result.ptr->has_external_scanner_state_change = external_scanner_state_changed;
}
}
LOG_LOOKAHEAD(
SYM_NAME(ts_subtree_symbol(result)),
ts_subtree_total_size(result).bytes
);
return result;
}
static Subtree ts_parser__get_cached_token(
TSParser *self,
TSStateId state,
size_t position,
Subtree last_external_token,
TableEntry *table_entry
) {
TokenCache *cache = &self->token_cache;
if (
cache->token.ptr && cache->byte_index == position &&
ts_subtree_external_scanner_state_eq(cache->last_external_token, last_external_token)
) {
ts_language_table_entry(self->language, state, ts_subtree_symbol(cache->token), table_entry);
if (ts_parser__can_reuse_first_leaf(self, state, cache->token, table_entry)) {
ts_subtree_retain(cache->token);
return cache->token;
}
}
return NULL_SUBTREE;
}
static void ts_parser__set_cached_token(
TSParser *self,
uint32_t byte_index,
Subtree last_external_token,
Subtree token
) {
TokenCache *cache = &self->token_cache;
if (token.ptr) ts_subtree_retain(token);
if (last_external_token.ptr) ts_subtree_retain(last_external_token);
if (cache->token.ptr) ts_subtree_release(&self->tree_pool, cache->token);
if (cache->last_external_token.ptr) ts_subtree_release(&self->tree_pool, cache->last_external_token);
cache->token = token;
cache->byte_index = byte_index;
cache->last_external_token = last_external_token;
}
static bool ts_parser__has_included_range_difference(
const TSParser *self,
uint32_t start_position,
uint32_t end_position
) {
return ts_range_array_intersects(
&self->included_range_differences,
self->included_range_difference_index,
start_position,
end_position
);
}
static Subtree ts_parser__reuse_node(
TSParser *self,
StackVersion version,
TSStateId *state,
uint32_t position,
Subtree last_external_token,
TableEntry *table_entry
) {
Subtree result;
while ((result = reusable_node_tree(&self->reusable_node)).ptr) {
uint32_t byte_offset = reusable_node_byte_offset(&self->reusable_node);
uint32_t end_byte_offset = byte_offset + ts_subtree_total_bytes(result);
// Do not reuse an EOF node if the included ranges array has changes
// later on in the file.
if (ts_subtree_is_eof(result)) end_byte_offset = UINT32_MAX;
if (byte_offset > position) {
LOG("before_reusable_node symbol:%s", TREE_NAME(result));
break;
}
if (byte_offset < position) {
LOG("past_reusable_node symbol:%s", TREE_NAME(result));
if (end_byte_offset <= position || !reusable_node_descend(&self->reusable_node)) {
reusable_node_advance(&self->reusable_node);
}
continue;
}
if (!ts_subtree_external_scanner_state_eq(self->reusable_node.last_external_token, last_external_token)) {
LOG("reusable_node_has_different_external_scanner_state symbol:%s", TREE_NAME(result));
reusable_node_advance(&self->reusable_node);
continue;
}
const char *reason = NULL;
if (ts_subtree_has_changes(result)) {
reason = "has_changes";
} else if (ts_subtree_is_error(result)) {
reason = "is_error";
} else if (ts_subtree_missing(result)) {
reason = "is_missing";
} else if (ts_subtree_is_fragile(result)) {
reason = "is_fragile";
} else if (ts_parser__has_included_range_difference(self, byte_offset, end_byte_offset)) {
reason = "contains_different_included_range";
}
if (reason) {
LOG("cant_reuse_node_%s tree:%s", reason, TREE_NAME(result));
if (!reusable_node_descend(&self->reusable_node)) {
reusable_node_advance(&self->reusable_node);
ts_parser__breakdown_top_of_stack(self, version);
*state = ts_stack_state(self->stack, version);
}
continue;
}
TSSymbol leaf_symbol = ts_subtree_leaf_symbol(result);
ts_language_table_entry(self->language, *state, leaf_symbol, table_entry);
if (!ts_parser__can_reuse_first_leaf(self, *state, result, table_entry)) {
LOG(
"cant_reuse_node symbol:%s, first_leaf_symbol:%s",
TREE_NAME(result),
SYM_NAME(leaf_symbol)
);
reusable_node_advance_past_leaf(&self->reusable_node);
break;
}
LOG("reuse_node symbol:%s", TREE_NAME(result));
ts_subtree_retain(result);
return result;
}
return NULL_SUBTREE;
}
// Determine if a given tree should be replaced by an alternative tree.
//
// The decision is based on the trees' error costs (if any), their dynamic precedence,
// and finally, as a default, by a recursive comparison of the trees' symbols.
static bool ts_parser__select_tree(TSParser *self, Subtree left, Subtree right) {
if (!left.ptr) return true;
if (!right.ptr) return false;
if (ts_subtree_error_cost(right) < ts_subtree_error_cost(left)) {
LOG("select_smaller_error symbol:%s, over_symbol:%s", TREE_NAME(right), TREE_NAME(left));
return true;
}
if (ts_subtree_error_cost(left) < ts_subtree_error_cost(right)) {
LOG("select_smaller_error symbol:%s, over_symbol:%s", TREE_NAME(left), TREE_NAME(right));
return false;
}
if (ts_subtree_dynamic_precedence(right) > ts_subtree_dynamic_precedence(left)) {
LOG("select_higher_precedence symbol:%s, prec:%" PRId32 ", over_symbol:%s, other_prec:%" PRId32,
TREE_NAME(right), ts_subtree_dynamic_precedence(right), TREE_NAME(left),
ts_subtree_dynamic_precedence(left));
return true;
}
if (ts_subtree_dynamic_precedence(left) > ts_subtree_dynamic_precedence(right)) {
LOG("select_higher_precedence symbol:%s, prec:%" PRId32 ", over_symbol:%s, other_prec:%" PRId32,
TREE_NAME(left), ts_subtree_dynamic_precedence(left), TREE_NAME(right),
ts_subtree_dynamic_precedence(right));
return false;
}
if (ts_subtree_error_cost(left) > 0) return true;
int comparison = ts_subtree_compare(left, right, &self->tree_pool);
switch (comparison) {
case -1:
LOG("select_earlier symbol:%s, over_symbol:%s", TREE_NAME(left), TREE_NAME(right));
return false;
break;
case 1:
LOG("select_earlier symbol:%s, over_symbol:%s", TREE_NAME(right), TREE_NAME(left));
return true;
default:
LOG("select_existing symbol:%s, over_symbol:%s", TREE_NAME(left), TREE_NAME(right));
return false;
}
}
// Determine if a given tree's children should be replaced by an alternative
// array of children.
static bool ts_parser__select_children(
TSParser *self,
Subtree left,
const SubtreeArray *children
) {
array_assign(&self->scratch_trees, children);
// Create a temporary subtree using the scratch trees array. This node does
// not perform any allocation except for possibly growing the array to make
// room for its own heap data. The scratch tree is never explicitly released,
// so the same 'scratch trees' array can be reused again later.
MutableSubtree scratch_tree = ts_subtree_new_node(
ts_subtree_symbol(left),
&self->scratch_trees,
0,
self->language
);
return ts_parser__select_tree(
self,
left,
ts_subtree_from_mut(scratch_tree)
);
}
static void ts_parser__shift(
TSParser *self,
StackVersion version,
TSStateId state,
Subtree lookahead,
bool extra
) {
bool is_leaf = ts_subtree_child_count(lookahead) == 0;
Subtree subtree_to_push = lookahead;
if (extra != ts_subtree_extra(lookahead) && is_leaf) {
MutableSubtree result = ts_subtree_make_mut(&self->tree_pool, lookahead);
ts_subtree_set_extra(&result, extra);
subtree_to_push = ts_subtree_from_mut(result);
}
ts_stack_push(self->stack, version, subtree_to_push, !is_leaf, state);
if (ts_subtree_has_external_tokens(subtree_to_push)) {
ts_stack_set_last_external_token(
self->stack, version, ts_subtree_last_external_token(subtree_to_push)
);
}
}
static StackVersion ts_parser__reduce(
TSParser *self,
StackVersion version,
TSSymbol symbol,
uint32_t count,
int dynamic_precedence,
uint16_t production_id,
bool is_fragile,
bool end_of_non_terminal_extra
) {
uint32_t initial_version_count = ts_stack_version_count(self->stack);
// Pop the given number of nodes from the given version of the parse stack.
// If stack versions have previously merged, then there may be more than one
// path back through the stack. For each path, create a new parent node to
// contain the popped children, and push it onto the stack in place of the
// children.
StackSliceArray pop = ts_stack_pop_count(self->stack, version, count);
uint32_t removed_version_count = 0;
for (uint32_t i = 0; i < pop.size; i++) {
StackSlice slice = pop.contents[i];
StackVersion slice_version = slice.version - removed_version_count;
// This is where new versions are added to the parse stack. The versions
// will all be sorted and truncated at the end of the outer parsing loop.
// Allow the maximum version count to be temporarily exceeded, but only
// by a limited threshold.
if (slice_version > MAX_VERSION_COUNT + MAX_VERSION_COUNT_OVERFLOW) {
ts_stack_remove_version(self->stack, slice_version);
ts_subtree_array_delete(&self->tree_pool, &slice.subtrees);
removed_version_count++;
while (i + 1 < pop.size) {
StackSlice next_slice = pop.contents[i + 1];
if (next_slice.version != slice.version) break;
ts_subtree_array_delete(&self->tree_pool, &next_slice.subtrees);
i++;
}
continue;
}
// Extra tokens on top of the stack should not be included in this new parent
// node. They will be re-pushed onto the stack after the parent node is
// created and pushed.
SubtreeArray children = slice.subtrees;
ts_subtree_array_remove_trailing_extras(&children, &self->trailing_extras);
MutableSubtree parent = ts_subtree_new_node(
symbol, &children, production_id, self->language
);
// This pop operation may have caused multiple stack versions to collapse
// into one, because they all diverged from a common state. In that case,
// choose one of the arrays of trees to be the parent node's children, and
// delete the rest of the tree arrays.
while (i + 1 < pop.size) {
StackSlice next_slice = pop.contents[i + 1];
if (next_slice.version != slice.version) break;
i++;
SubtreeArray next_slice_children = next_slice.subtrees;
ts_subtree_array_remove_trailing_extras(&next_slice_children, &self->trailing_extras2);
if (ts_parser__select_children(
self,
ts_subtree_from_mut(parent),
&next_slice_children
)) {
ts_subtree_array_clear(&self->tree_pool, &self->trailing_extras);
ts_subtree_release(&self->tree_pool, ts_subtree_from_mut(parent));
array_swap(&self->trailing_extras, &self->trailing_extras2);
parent = ts_subtree_new_node(
symbol, &next_slice_children, production_id, self->language
);
} else {
array_clear(&self->trailing_extras2);
ts_subtree_array_delete(&self->tree_pool, &next_slice.subtrees);
}
}
TSStateId state = ts_stack_state(self->stack, slice_version);
TSStateId next_state = ts_language_next_state(self->language, state, symbol);
if (end_of_non_terminal_extra && next_state == state) {
parent.ptr->extra = true;