#include "runtime/get_changed_ranges.h" #include "runtime/tree.h" #include "runtime/language.h" #include "runtime/error_costs.h" #include // #define DEBUG_GET_CHANGED_RANGES typedef Array(TSRange) RangeArray; static void range_array_add(RangeArray *results, TSPoint start, TSPoint end) { if (results->size > 0) { TSRange *last_range = array_back(results); if (point_lte(start, last_range->end)) { last_range->end = end; return; } } if (point_lt(start, end)) { TSRange range = { start, end }; array_push(results, range); } } typedef struct { TreePath path; const TSLanguage *language; unsigned visible_depth; bool in_padding; } Iterator; static Iterator iterator_new(TreePath *path, Tree *tree, const TSLanguage *language) { array_clear(path); array_push(path, ((TreePathEntry){ .tree = tree, .position = length_zero(), .child_index = 0, .structural_child_index = 0, })); return (Iterator) { .path = *path, .language = language, .visible_depth = 1, .in_padding = false, }; } static bool iterator_done(Iterator *self) { return self->path.size == 0; } Length iterator_start_position(Iterator *self) { TreePathEntry entry = *array_back(&self->path); if (self->in_padding) { return entry.position; } else { return length_add(entry.position, entry.tree->padding); } } Length iterator_end_position(Iterator *self) { TreePathEntry entry = *array_back(&self->path); Length result = length_add(entry.position, entry.tree->padding); if (self->in_padding) { return result; } else { return length_add(result, entry.tree->size); } } static bool iterator_tree_is_visible(const Iterator *self) { TreePathEntry entry = *array_back(&self->path); if (entry.tree->visible) return true; if (self->path.size > 1) { Tree *parent = self->path.contents[self->path.size - 2].tree; const TSSymbol *alias_sequence = ts_language_alias_sequence(self->language, parent->alias_sequence_id); return alias_sequence && alias_sequence[entry.structural_child_index] != 0; } return false; } static void iterator_get_visible_state(const Iterator *self, Tree **tree, TSSymbol *alias_symbol, uint32_t *start_byte) { uint32_t i = self->path.size - 1; if (self->in_padding) { while (self->path.contents[i].child_index == 0) i--; } for (; i + 1 > 0; i--) { TreePathEntry entry = self->path.contents[i]; if (i > 0) { Tree *parent = self->path.contents[i - 1].tree; const TSSymbol *alias_sequence = ts_language_alias_sequence( self->language, parent->alias_sequence_id ); if (alias_sequence) { *alias_symbol = alias_sequence[entry.structural_child_index]; } } if (entry.tree->visible || *alias_symbol) { *tree = entry.tree; *start_byte = entry.position.bytes; break; } } } static void iterator_ascend(Iterator *self) { if (iterator_done(self)) return; if (iterator_tree_is_visible(self) && !self->in_padding) self->visible_depth--; if (array_back(&self->path)->child_index > 0) self->in_padding = false; self->path.size--; } static bool iterator_descend(Iterator *self, uint32_t goal_position) { if (self->in_padding) return false; bool did_descend; do { did_descend = false; TreePathEntry entry = *array_back(&self->path); Length position = entry.position; uint32_t structural_child_index = 0; for (uint32_t i = 0; i < entry.tree->child_count; i++) { Tree *child = entry.tree->children[i]; Length child_left = length_add(position, child->padding); Length child_right = length_add(child_left, child->size); if (child_right.bytes > goal_position) { array_push(&self->path, ((TreePathEntry){ .tree = child, .position = position, .child_index = i, .structural_child_index = structural_child_index, })); if (iterator_tree_is_visible(self)) { if (child_left.bytes > goal_position) { self->in_padding = true; } else { self->visible_depth++; } return true; } did_descend = true; break; } position = child_right; if (!child->extra) structural_child_index++; } } while (did_descend); return false; } static void iterator_advance(Iterator *self) { if (self->in_padding) { self->in_padding = false; if (iterator_tree_is_visible(self)) { self->visible_depth++; } else { iterator_descend(self, 0); } return; } for (;;) { if (iterator_tree_is_visible(self)) self->visible_depth--; TreePathEntry entry = array_pop(&self->path); if (iterator_done(self)) return; Tree *parent = array_back(&self->path)->tree; uint32_t child_index = entry.child_index + 1; if (parent->child_count > child_index) { Length position = length_add(entry.position, ts_tree_total_size(entry.tree)); uint32_t structural_child_index = entry.structural_child_index; if (!entry.tree->extra) structural_child_index++; Tree *next_child = parent->children[child_index]; array_push(&self->path, ((TreePathEntry){ .tree = next_child, .position = position, .child_index = child_index, .structural_child_index = structural_child_index, })); if (iterator_tree_is_visible(self)) { if (next_child->padding.bytes > 0) { self->in_padding = true; } else { self->visible_depth++; } } else { iterator_descend(self, 0); } break; } } } typedef enum { IteratorDiffers, IteratorMayDiffer, IteratorMatches, } IteratorComparison; IteratorComparison iterator_compare(const Iterator *old_iter, const Iterator *new_iter) { Tree *old_tree = NULL, *new_tree = NULL; uint32_t old_start = 0, new_start = 0; TSSymbol old_alias_symbol = 0, new_alias_symbol = 0; iterator_get_visible_state(old_iter, &old_tree, &old_alias_symbol, &old_start); iterator_get_visible_state(new_iter, &new_tree, &new_alias_symbol, &new_start); assert(old_tree && new_tree); if (old_alias_symbol == new_alias_symbol) { if (old_start == new_start) { if (!old_tree->has_changes && old_tree->symbol == new_tree->symbol && old_tree->symbol != ts_builtin_sym_error && old_tree->size.bytes == new_tree->size.bytes && old_tree->parse_state != TS_TREE_STATE_NONE && new_tree->parse_state != TS_TREE_STATE_NONE && (old_tree->parse_state == ERROR_STATE) == (new_tree->parse_state == ERROR_STATE)) { return IteratorMatches; } } if (old_tree->symbol == new_tree->symbol) { return IteratorMayDiffer; } } return IteratorDiffers; } #ifdef DEBUG_GET_CHANGED_RANGES static inline void iterator_print_state(Iterator *self) { TreePathEntry entry = *array_back(&self->path); TSPoint start = iterator_start_position(self).extent; TSPoint end = iterator_end_position(self).extent; const char *name = ts_language_symbol_name(self->language, entry.tree->symbol); printf( "(%-25s %s\t depth:%u [%u, %u] - [%u, %u])", name, self->in_padding ? "(p)" : " ", self->visible_depth, start.row, start.column, end.row, end.column ); } #endif unsigned ts_tree_get_changed_ranges(Tree *old_tree, Tree *new_tree, TreePath *path1, TreePath *path2, const TSLanguage *language, TSRange **ranges) { RangeArray results = array_new(); Iterator old_iter = iterator_new(path1, old_tree, language); Iterator new_iter = iterator_new(path2, new_tree, language); Length position = iterator_start_position(&old_iter); Length next_position = iterator_start_position(&new_iter); if (position.bytes < next_position.bytes) { range_array_add(&results, position.extent, next_position.extent); position = next_position; } else if (position.bytes > next_position.bytes) { range_array_add(&results, next_position.extent, position.extent); next_position = position; } do { #ifdef DEBUG_GET_CHANGED_RANGES printf("At [%-2u, %-2u] Compare ", position.extent.row, position.extent.column); iterator_print_state(&old_iter); printf("\tvs\t"); iterator_print_state(&new_iter); puts(""); #endif bool is_changed = false; switch (iterator_compare(&old_iter, &new_iter)) { case IteratorMatches: next_position = iterator_end_position(&old_iter); break; case IteratorMayDiffer: if (iterator_descend(&old_iter, position.bytes)) { if (!iterator_descend(&new_iter, position.bytes)) { is_changed = true; next_position = iterator_end_position(&old_iter); } } else if (iterator_descend(&new_iter, position.bytes)) { is_changed = true; next_position = iterator_end_position(&new_iter); } else { next_position = length_min( iterator_end_position(&old_iter), iterator_end_position(&new_iter) ); } break; case IteratorDiffers: is_changed = true; next_position = length_min( iterator_end_position(&old_iter), iterator_end_position(&new_iter) ); break; } while ( !iterator_done(&old_iter) && iterator_end_position(&old_iter).bytes <= next_position.bytes ) iterator_advance(&old_iter); while ( !iterator_done(&new_iter) && iterator_end_position(&new_iter).bytes <= next_position.bytes ) iterator_advance(&new_iter); while (old_iter.visible_depth > new_iter.visible_depth) iterator_ascend(&old_iter); while (new_iter.visible_depth > old_iter.visible_depth) iterator_ascend(&new_iter); if (is_changed) { #ifdef DEBUG_GET_CHANGED_RANGES printf( " change: [[%u, %u] - [%u, %u]]\n", position.extent.row, position.extent.column, next_position.extent.row, next_position.extent.column ); #endif range_array_add(&results, position.extent, next_position.extent); } position = next_position; } while (!iterator_done(&old_iter) && !iterator_done(&new_iter)); *path1 = old_iter.path; *path2 = new_iter.path; *ranges = results.contents; return results.size; }