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tree-sitter/src/runtime/node.c
joshvera 2669933d06 Implement ts_find_parent_offset_point
2015-11-25 11:08:44 -05:00

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#include <stdbool.h>
#include "runtime/node.h"
#include "runtime/length.h"
#include "runtime/tree.h"
#include "runtime/document.h"
TSNode ts_node_make(const TSTree *tree, TSLength offset, TSPoint offset_point) {
return (TSNode){.data = tree, .offset = offset, .offset_point = offset_point };
}
/*
* Private
*/
static inline TSNode ts_node__null() {
return ts_node_make(NULL, ts_length_zero(), ts_point_zero());
}
static inline const TSTree *ts_node__tree(TSNode self) {
return self.data;
}
static inline TSLength ts_node__offset(TSNode self) {
return self.offset;
}
static inline TSPoint ts_node__offset_point(TSNode self) {
return self.offset_point;
}
static inline TSNode ts_node__child(TSNode self, size_t child_index,
TSNodeType type) {
const TSTree *tree = ts_node__tree(self);
TSLength position = ts_node__offset(self);
TSPoint point = ts_node__offset_point(self);
bool did_descend = true;
while (did_descend) {
did_descend = false;
size_t index = 0;
for (size_t i = 0; i < tree->child_count; i++) {
TSTree *child = tree->children[i];
if (child->options.type >= type) {
if (index == child_index)
return ts_node_make(child, position, point);
index++;
} else {
size_t grandchild_index = child_index - index;
size_t grandchild_count = (type == TSNodeTypeNamed)
? child->named_child_count
: child->visible_child_count;
if (grandchild_index < grandchild_count) {
did_descend = true;
tree = child;
child_index = grandchild_index;
break;
}
index += grandchild_count;
}
position = ts_length_add(position, ts_tree_total_size(child));
}
}
return ts_node__null();
}
static inline TSNode ts_node__prev_sibling(TSNode self, TSNodeType type) {
const TSTree *tree = ts_node__tree(self);
TSLength offset = ts_node__offset(self);
TSPoint offset_point = ts_node__offset_point(self);
do {
size_t index = tree->context.index;
offset = ts_length_sub(offset, tree->context.offset);
offset_point = ts_find_parent_offset_point(tree);
tree = tree->context.parent;
if (!tree)
break;
for (size_t i = index - 1; i + 1 > 0; i--) {
const TSTree *child = tree->children[i];
TSLength child_offset = ts_length_add(offset, child->context.offset);
TSPoint child_offset_point = ts_point_add(offset_point, child->context.offset_point);
if (child->options.type >= type)
return ts_node_make(child, child_offset, child_offset_point);
size_t grandchild_count = (type == TSNodeTypeNamed)
? child->named_child_count
: child->visible_child_count;
if (grandchild_count > 0)
return ts_node__child(ts_node_make(child, child_offset, child_offset_point),
grandchild_count - 1, type);
}
} while (!ts_tree_is_visible(tree));
return ts_node__null();
}
static inline TSNode ts_node__next_sibling(TSNode self, TSNodeType type) {
const TSTree *tree = ts_node__tree(self);
TSLength offset = ts_node__offset(self);
TSPoint offset_point = ts_node__offset_point(self);
do {
size_t index = tree->context.index;
offset = ts_length_sub(offset, tree->context.offset);
tree = tree->context.parent;
if (!tree)
break;
for (size_t i = index + 1; i < tree->child_count; i++) {
const TSTree *child = tree->children[i];
TSLength child_offset = ts_length_add(offset, child->context.offset);
TSPoint child_offset_point = ts_point_add(offset_point, child->context.offset_point);
if (child->options.type >= type)
return ts_node_make(child, child_offset, child_offset_point);
size_t grandchild_count = (type == TSNodeTypeNamed)
? child->named_child_count
: child->visible_child_count;
if (grandchild_count > 0)
return ts_node__child(ts_node_make(child, child_offset, child_offset_point), 0, type);
}
} while (!ts_tree_is_visible(tree));
return ts_node__null();
}
static inline TSNode ts_node__descendent_for_range(TSNode self, size_t min,
size_t max, TSNodeType type) {
const TSTree *tree = ts_node__tree(self), *last_visible_tree = tree;
TSLength position = ts_node__offset(self), last_visible_position = position;
TSPoint point = ts_node__offset_point(self), last_visible_point = point;
bool did_descend = true;
while (did_descend) {
did_descend = false;
for (size_t i = 0; i < tree->child_count; i++) {
const TSTree *child = tree->children[i];
if (position.chars + child->padding.chars > min)
break;
if (position.chars + child->padding.chars + child->size.chars > max) {
tree = child;
if (child->options.type >= type) {
last_visible_tree = tree;
last_visible_position = position;
}
did_descend = true;
break;
}
position = ts_length_add(position, ts_tree_total_size(child));
}
}
return ts_node_make(last_visible_tree, last_visible_position, last_visible_point);
}
/*
* Public
*/
TSLength ts_node_pos(TSNode self) {
return ts_length_add(ts_node__offset(self), ts_node__tree(self)->padding);
}
TSLength ts_node_size(TSNode self) {
return ts_node__tree(self)->size;
}
TSPoint ts_node_size_point(TSNode self) {
return ts_node__tree(self)->size_point;
}
TSPoint ts_node_start_point(TSNode self) {
return ts_point_add(ts_node__offset_point(self), ts_node__tree(self)->padding_point);
}
TSPoint ts_node_end_point(TSNode self) {
return ts_point_add(ts_node_start_point(self), ts_node_size_point(self));
}
TSSymbol ts_node_symbol(TSNode self) {
return ts_node__tree(self)->symbol;
}
const char *ts_node_name(TSNode self, const TSDocument *document) {
return document->parser.language->symbol_names[ts_node__tree(self)->symbol];
}
const char *ts_node_string(TSNode self, const TSDocument *document) {
return ts_tree_string(ts_node__tree(self),
document->parser.language->symbol_names, false);
}
bool ts_node_eq(TSNode self, TSNode other) {
return ts_tree_eq(ts_node__tree(self), ts_node__tree(other)) &&
ts_length_eq(ts_node__offset(self), ts_node__offset(other));
}
bool ts_node_is_named(TSNode self) {
return ts_node__tree(self)->options.type == TSNodeTypeNamed;
}
bool ts_node_has_changes(TSNode self) {
return ts_node__tree(self)->options.has_changes;
}
TSNode ts_node_parent(TSNode self) {
const TSTree *tree = ts_node__tree(self);
TSLength position = ts_node__offset(self);
TSPoint point = ts_node__offset_point(self);
do {
position = ts_length_sub(position, tree->context.offset);
point = ts_point_sub(point, tree->context.offset_point);
tree = tree->context.parent;
if (!tree)
return ts_node__null();
} while (!ts_tree_is_visible(tree));
return ts_node_make(tree, position, point);
}
TSNode ts_node_child(TSNode self, size_t child_index) {
return ts_node__child(self, child_index, TSNodeTypeAnonymous);
}
TSNode ts_node_named_child(TSNode self, size_t child_index) {
return ts_node__child(self, child_index, TSNodeTypeNamed);
}
size_t ts_node_child_count(TSNode self) {
return ts_node__tree(self)->visible_child_count;
}
size_t ts_node_named_child_count(TSNode self) {
return ts_node__tree(self)->named_child_count;
}
TSNode ts_node_next_sibling(TSNode self) {
return ts_node__next_sibling(self, TSNodeTypeAnonymous);
}
TSNode ts_node_next_named_sibling(TSNode self) {
return ts_node__next_sibling(self, TSNodeTypeNamed);
}
TSNode ts_node_prev_sibling(TSNode self) {
return ts_node__prev_sibling(self, TSNodeTypeAnonymous);
}
TSNode ts_node_prev_named_sibling(TSNode self) {
return ts_node__prev_sibling(self, TSNodeTypeNamed);
}
TSNode ts_node_descendent_for_range(TSNode self, size_t min, size_t max) {
return ts_node__descendent_for_range(self, min, max, TSNodeTypeAnonymous);
}
TSNode ts_node_named_descendent_for_range(TSNode self, size_t min, size_t max) {
return ts_node__descendent_for_range(self, min, max, TSNodeTypeNamed);
}
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