#include #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, size_t row) { return (TSNode){.data = tree, .offset = offset, .row = row }; } /* * Private */ static inline TSNode ts_node__null() { return ts_node_make(NULL, ts_length_zero(), 0); } 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 bool ts_tree__is_relevant(const TSTree *tree, bool include_anonymous) { return include_anonymous ? tree->options.visible : tree->options.named; } static inline size_t ts_tree__relevant_child_count(const TSTree *tree, bool include_anonymous) { return include_anonymous ? tree->visible_child_count : tree->named_child_count; } static inline TSNode ts_node__child(TSNode self, size_t child_index, bool include_anonymous) { const TSTree *tree = ts_node__tree(self); TSLength position = ts_node__offset(self); size_t offset_row = self.row; 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 (ts_tree__is_relevant(child, include_anonymous)) { if (index == child_index) return ts_node_make(child, position, offset_row); index++; } else { size_t grandchild_index = child_index - index; size_t grandchild_count = ts_tree__relevant_child_count(child, include_anonymous); 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)); offset_row += child->padding_point.row + child->size_point.row; } } return ts_node__null(); } static inline TSNode ts_node__prev_sibling(TSNode self, bool include_anonymous) { const TSTree *tree = ts_node__tree(self); TSLength offset = ts_node__offset(self); size_t offset_row = self.row; do { size_t index = tree->context.index; offset = ts_length_sub(offset, tree->context.offset); offset_row -= tree->context.offset_point.row; 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); size_t child_offset_row = offset_row + child->context.offset_point.row; if (ts_tree__is_relevant(child, include_anonymous)) return ts_node_make(child, child_offset, child_offset_row); size_t grandchild_count = ts_tree__relevant_child_count(child, include_anonymous); if (grandchild_count > 0) return ts_node__child(ts_node_make(child, child_offset, child_offset_row), grandchild_count - 1, include_anonymous); } } while (!ts_tree_is_visible(tree)); return ts_node__null(); } static inline TSNode ts_node__next_sibling(TSNode self, bool include_anonymous) { const TSTree *tree = ts_node__tree(self); TSLength offset = ts_node__offset(self); size_t offset_row = self.row; do { size_t index = tree->context.index; offset = ts_length_sub(offset, tree->context.offset); offset_row -= tree->context.offset_point.row; 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); size_t child_offset_row = offset_row + child->context.offset_point.row; if (ts_tree__is_relevant(child, include_anonymous)) return ts_node_make(child, child_offset, child_offset_row); size_t grandchild_count = ts_tree__relevant_child_count(child, include_anonymous); if (grandchild_count > 0) return ts_node__child(ts_node_make(child, child_offset, child_offset_row), 0, include_anonymous); } } while (!ts_tree_is_visible(tree)); return ts_node__null(); } static inline TSNode ts_node__descendant_for_range(TSNode self, size_t min, size_t max, bool include_anonymous) { const TSTree *tree = ts_node__tree(self), *last_visible_tree = tree; TSLength offset = ts_node__offset(self), last_visible_position = offset; size_t offset_row = self.row, last_visible_row = offset_row; 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 (offset.chars + child->padding.chars > min) break; if (offset.chars + child->padding.chars + child->size.chars > max) { tree = child; if (ts_tree__is_relevant(child, include_anonymous)) { last_visible_tree = tree; last_visible_position = offset; last_visible_row = offset_row; } did_descend = true; break; } offset = ts_length_add(offset, ts_tree_total_size(child)); offset_row += child->padding_point.row + child->size_point.row; } } return ts_node_make(last_visible_tree, last_visible_position, last_visible_row); } /* * Public */ size_t ts_node_start_char(TSNode self) { return ts_node__offset(self).chars + ts_node__tree(self)->padding.chars; } size_t ts_node_end_char(TSNode self) { return ts_node_start_char(self) + ts_node__tree(self)->size.chars; } size_t ts_node_start_byte(TSNode self) { return ts_node__offset(self).bytes + ts_node__tree(self)->padding.bytes; } size_t ts_node_end_byte(TSNode self) { return ts_node_start_byte(self) + ts_node__tree(self)->size.bytes; } TSPoint ts_node_size_point(TSNode self) { return ts_node__tree(self)->size_point; } TSPoint ts_node_start_point(TSNode self) { const TSTree *tree = ts_node__tree(self); return ts_point_make(self.row + tree->padding_point.row, ts_tree_offset_column(tree)); } 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)) && self.row == other.row; } bool ts_node_is_named(TSNode self) { return ts_node__tree(self)->options.named; } 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 offset = ts_node__offset(self); size_t offset_row = self.row; do { offset = ts_length_sub(offset, tree->context.offset); offset_row -= tree->context.offset_point.row; tree = tree->context.parent; if (!tree) return ts_node__null(); } while (!ts_tree_is_visible(tree)); return ts_node_make(tree, offset, offset_row); } TSNode ts_node_child(TSNode self, size_t child_index) { return ts_node__child(self, child_index, true); } TSNode ts_node_named_child(TSNode self, size_t child_index) { return ts_node__child(self, child_index, false); } 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, true); } TSNode ts_node_next_named_sibling(TSNode self) { return ts_node__next_sibling(self, false); } TSNode ts_node_prev_sibling(TSNode self) { return ts_node__prev_sibling(self, true); } TSNode ts_node_prev_named_sibling(TSNode self) { return ts_node__prev_sibling(self, false); } TSNode ts_node_descendant_for_range(TSNode self, size_t min, size_t max) { return ts_node__descendant_for_range(self, min, max, true); } TSNode ts_node_named_descendant_for_range(TSNode self, size_t min, size_t max) { return ts_node__descendant_for_range(self, min, max, false); }