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tree.c
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tree.c
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#define _POSIX_C_SOURCE 200112L
#include "api.h"
#include "./array.h"
#include "./get_changed_ranges.h"
#include "./length.h"
#include "./subtree.h"
#include "./tree_cursor.h"
#include "./tree.h"
TSTree *ts_tree_new(
Subtree root, const TSLanguage *language,
const TSRange *included_ranges, unsigned included_range_count
) {
TSTree *result = ts_malloc(sizeof(TSTree));
result->root = root;
result->language = ts_language_copy(language);
result->included_ranges = ts_calloc(included_range_count, sizeof(TSRange));
memcpy(result->included_ranges, included_ranges, included_range_count * sizeof(TSRange));
result->included_range_count = included_range_count;
return result;
}
TSTree *ts_tree_copy(const TSTree *self) {
ts_subtree_retain(self->root);
return ts_tree_new(self->root, self->language, self->included_ranges, self->included_range_count);
}
void ts_tree_delete(TSTree *self) {
if (!self) return;
SubtreePool pool = ts_subtree_pool_new(0);
ts_subtree_release(&pool, self->root);
ts_subtree_pool_delete(&pool);
ts_language_delete(self->language);
ts_free(self->included_ranges);
ts_free(self);
}
TSNode ts_tree_root_node(const TSTree *self) {
return ts_node_new(self, &self->root, ts_subtree_padding(self->root), 0);
}
TSNode ts_tree_root_node_with_offset(
const TSTree *self,
uint32_t offset_bytes,
TSPoint offset_extent
) {
Length offset = {offset_bytes, offset_extent};
return ts_node_new(self, &self->root, length_add(offset, ts_subtree_padding(self->root)), 0);
}
const TSLanguage *ts_tree_language(const TSTree *self) {
return self->language;
}
void ts_tree_edit(TSTree *self, const TSInputEdit *edit) {
for (unsigned i = 0; i < self->included_range_count; i++) {
TSRange *range = &self->included_ranges[i];
if (range->end_byte >= edit->old_end_byte) {
if (range->end_byte != UINT32_MAX) {
range->end_byte = edit->new_end_byte + (range->end_byte - edit->old_end_byte);
range->end_point = point_add(
edit->new_end_point,
point_sub(range->end_point, edit->old_end_point)
);
if (range->end_byte < edit->new_end_byte) {
range->end_byte = UINT32_MAX;
range->end_point = POINT_MAX;
}
}
} else if (range->end_byte > edit->start_byte) {
range->end_byte = edit->start_byte;
range->end_point = edit->start_point;
}
if (range->start_byte >= edit->old_end_byte) {
range->start_byte = edit->new_end_byte + (range->start_byte - edit->old_end_byte);
range->start_point = point_add(
edit->new_end_point,
point_sub(range->start_point, edit->old_end_point)
);
if (range->start_byte < edit->new_end_byte) {
range->start_byte = UINT32_MAX;
range->start_point = POINT_MAX;
}
} else if (range->start_byte > edit->start_byte) {
range->start_byte = edit->start_byte;
range->start_point = edit->start_point;
}
}
SubtreePool pool = ts_subtree_pool_new(0);
self->root = ts_subtree_edit(self->root, edit, &pool);
ts_subtree_pool_delete(&pool);
}
TSRange *ts_tree_included_ranges(const TSTree *self, uint32_t *length) {
*length = self->included_range_count;
TSRange *ranges = ts_calloc(self->included_range_count, sizeof(TSRange));
memcpy(ranges, self->included_ranges, self->included_range_count * sizeof(TSRange));
return ranges;
}
TSRange *ts_tree_get_changed_ranges(const TSTree *old_tree, const TSTree *new_tree, uint32_t *length) {
TreeCursor cursor1 = {NULL, array_new(), 0};
TreeCursor cursor2 = {NULL, array_new(), 0};
ts_tree_cursor_init(&cursor1, ts_tree_root_node(old_tree));
ts_tree_cursor_init(&cursor2, ts_tree_root_node(new_tree));
TSRangeArray included_range_differences = array_new();
ts_range_array_get_changed_ranges(
old_tree->included_ranges, old_tree->included_range_count,
new_tree->included_ranges, new_tree->included_range_count,
&included_range_differences
);
TSRange *result;
*length = ts_subtree_get_changed_ranges(
&old_tree->root, &new_tree->root, &cursor1, &cursor2,
old_tree->language, &included_range_differences, &result
);
array_delete(&included_range_differences);
array_delete(&cursor1.stack);
array_delete(&cursor2.stack);
return result;
}
#ifdef _WIN32
#include <io.h>
#include <windows.h>
int _ts_dup(HANDLE handle) {
HANDLE dup_handle;
if (!DuplicateHandle(
GetCurrentProcess(), handle,
GetCurrentProcess(), &dup_handle,
0, FALSE, DUPLICATE_SAME_ACCESS
)) return -1;
return _open_osfhandle((intptr_t)dup_handle, 0);
}
void ts_tree_print_dot_graph(const TSTree *self, int fd) {
FILE *file = _fdopen(_ts_dup((HANDLE)_get_osfhandle(fd)), "a");
ts_subtree_print_dot_graph(self->root, self->language, file);
fclose(file);
}
#else
#include <unistd.h>
int _ts_dup(int file_descriptor) {
return dup(file_descriptor);
}
void ts_tree_print_dot_graph(const TSTree *self, int file_descriptor) {
FILE *file = fdopen(_ts_dup(file_descriptor), "a");
ts_subtree_print_dot_graph(self->root, self->language, file);
fclose(file);
}
#endif