tree-sitter/src/runtime/node.c

#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 position) {
  return (TSNode){.data = tree, .position = position };
}

static inline const TSTree *get_tree(TSNode this) {
  return this.data;
}

TSLength ts_node_pos(TSNode this) {
  return ts_length_add(this.position, get_tree(this)->padding);
}

TSLength ts_node_size(TSNode this) {
  return get_tree(this)->size;
}

bool ts_node_eq(TSNode this, TSNode other) {
  return ts_tree_eq(get_tree(this), get_tree(other)) &&
         ts_length_eq(this.position, other.position);
}

const char *ts_node_name(TSNode this, const TSDocument *document) {
  return document->parser.language->symbol_names[get_tree(this)->symbol];
}

const char *ts_node_string(TSNode this, const TSDocument *document) {
  return ts_tree_string(get_tree(this), document->parser.language->symbol_names);
}

TSNode ts_node_parent(TSNode this) {
  TSLength position = this.position;
  const TSTree *tree = get_tree(this);

  do {
    TSTree *parent = tree->context.parent;
    if (!parent)
      return ts_node_null();

    for (size_t i = 0; i < parent->child_count; i++) {
      TSTree *child = parent->children[i];
      if (child == tree)
        break;
      position = ts_length_sub(position, ts_tree_total_size(child));
    }

    tree = parent;
  } while (!ts_tree_is_visible(tree));

  return ts_node_make(tree, position);
}

TSNode ts_node_prev_sibling(TSNode this) {
  const TSTree *tree = get_tree(this);
  TSLength position = this.position;
  do {
    TSTree *parent = tree->context.parent;
    if (!parent)
      break;

    for (size_t i = tree->context.index - 1; i + 1 > 0; i--) {
      const TSTree *child = parent->children[i];
      position = ts_length_sub(position, ts_tree_total_size(child));
      if (ts_tree_is_visible(child))
        return ts_node_make(child, position);
      if (child->visible_child_count > 0)
        return ts_node_child(ts_node_make(child, position), child->visible_child_count - 1);
    }

    tree = parent;
  } while (!ts_tree_is_visible(tree));

  return ts_node_null();
}

TSNode ts_node_next_sibling(TSNode this) {
  const TSTree *tree = get_tree(this);
  TSLength position = this.position;
  do {
    TSTree *parent = tree->context.parent;
    if (!parent)
      break;

    for (size_t i = tree->context.index + 1; i < parent->child_count; i++) {
      const TSTree *child = parent->children[i];
      position = ts_length_add(position, ts_tree_total_size(parent->children[i - 1]));
      if (ts_tree_is_visible(child))
        return ts_node_make(child, position);
      if (child->visible_child_count > 0)
        return ts_node_child(ts_node_make(child, position), 0);
    }

    tree = parent;
  } while (!ts_tree_is_visible(tree));

  return ts_node_null();
}

size_t ts_node_child_count(TSNode this) {
  return get_tree(this)->visible_child_count;
}

TSNode ts_node_child(TSNode this, size_t child_index) {
  TSNode node = this;
  bool did_descend = true;
  while (did_descend) {
    did_descend = false;
    const TSTree *tree = get_tree(node);
    TSLength position = node.position;

    size_t index = 0;
    for (size_t i = 0; i < tree->child_count; i++) {
      TSTree *child = tree->children[i];
      if (ts_tree_is_visible(child)) {
        if (index == child_index)
          return ts_node_make(child, position);
        index++;
      } else {
        size_t grandchild_index = child_index - index;
        if (grandchild_index < child->visible_child_count) {
          did_descend = true;
          node = ts_node_make(child, position);
          child_index = grandchild_index;
        }
        index += child->visible_child_count;
      }
      position = ts_length_add(position, ts_tree_total_size(child));
    }
  }

  return ts_node_null();
}

TSNode ts_node_find_for_range(TSNode this, size_t min, size_t max) {
  TSNode node = this, last_visible_node = this;
  bool did_descend = true;
  while (did_descend) {
    did_descend = false;
    const TSTree *tree = get_tree(node);
    TSLength position = node.position;

    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) {
        node = ts_node_make(child, position);
        if (ts_tree_is_visible(child))
          last_visible_node = node;
        did_descend = true;
      }
      position = ts_length_add(position, ts_tree_total_size(child));
    }
  }

  return last_visible_node;
}

TSNode ts_node_find_for_pos(TSNode this, size_t position) {
  return ts_node_find_for_range(this, position, position);
}
Use stdbool.h 2014-10-03 16:06:08 -07:00			`#include <stdbool.h>`
Hide TSTree, expose TSNode 2014-07-17 23:29:11 -07:00			`#include "runtime/node.h"`
Track AST nodes' sizes in characters as well as bytes The `pos` and `size` functions for Nodes now return TSLength structs, which contain lengths in both characters and bytes. This is important for knowing the number of unicode characters in a Node. 2014-09-26 16:15:07 -07:00			`#include "runtime/length.h"`
Hide TSTree, expose TSNode 2014-07-17 23:29:11 -07:00			`#include "runtime/tree.h"`
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00			`#include "runtime/document.h"`
Hide TSTree, expose TSNode 2014-07-17 23:29:11 -07:00
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00			`TSNode ts_node_make(const TSTree *tree, TSLength position) {`
			`return (TSNode){.data = tree, .position = position };`
Hide TSTree, expose TSNode 2014-07-17 23:29:11 -07:00			`}`

Clean up node.c 2015-08-12 13:41:22 -07:00			`static inline const TSTree *get_tree(TSNode this) {`
			`return this.data;`
Precompute trees' visible children 2014-07-18 13:08:14 -07:00			`}`

Clean up node.c 2015-08-12 13:41:22 -07:00			`TSLength ts_node_pos(TSNode this) {`
Simplify storage of position on nodes 2015-08-14 14:48:29 -07:00			`return ts_length_add(this.position, get_tree(this)->padding);`
Hide TSTree, expose TSNode 2014-07-17 23:29:11 -07:00			`}`

Clean up node.c 2015-08-12 13:41:22 -07:00			`TSLength ts_node_size(TSNode this) {`
			`return get_tree(this)->size;`
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00			`}`
Hide TSTree, expose TSNode 2014-07-17 23:29:11 -07:00
Clean up node.c 2015-08-12 13:41:22 -07:00			`bool ts_node_eq(TSNode this, TSNode other) {`
			`return ts_tree_eq(get_tree(this), get_tree(other)) &&`
			`ts_length_eq(this.position, other.position);`
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00			`}`
Hide TSTree, expose TSNode 2014-07-17 23:29:11 -07:00
Clean up node.c 2015-08-12 13:41:22 -07:00			`const char ts_node_name(TSNode this, const TSDocument document) {`
			`return document->parser.language->symbol_names[get_tree(this)->symbol];`
Add functions to retrieve nodes' siblings and parents 2014-07-18 13:24:03 -07:00			`}`

Clean up node.c 2015-08-12 13:41:22 -07:00			`const char ts_node_string(TSNode this, const TSDocument document) {`
			`return ts_tree_string(get_tree(this), document->parser.language->symbol_names);`
Hide TSTree, expose TSNode 2014-07-17 23:29:11 -07:00			`}`

Store indices on nodes to speed up traversal methods 2015-08-15 23:35:20 -07:00			`TSNode ts_node_parent(TSNode this) {`
Simplify storage of position on nodes 2015-08-14 14:48:29 -07:00			`TSLength position = this.position;`
Don't store visible children on trees 2015-08-14 16:11:37 -07:00			`const TSTree *tree = get_tree(this);`
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00
			`do {`
Store indices on nodes to speed up traversal methods 2015-08-15 23:35:20 -07:00			`TSTree *parent = tree->context.parent;`
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00			`if (!parent)`
Store indices on nodes to speed up traversal methods 2015-08-15 23:35:20 -07:00			`return ts_node_null();`
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00
			`for (size_t i = 0; i < parent->child_count; i++) {`
			`TSTree *child = parent->children[i];`
			`if (child == tree)`
			`break;`
			`position = ts_length_sub(position, ts_tree_total_size(child));`
			`}`
Don't store visible children on trees 2015-08-14 16:11:37 -07:00
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00			`tree = parent;`
			`} while (!ts_tree_is_visible(tree));`

Store indices on nodes to speed up traversal methods 2015-08-15 23:35:20 -07:00			`return ts_node_make(tree, position);`
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00			`}`
Add functions to retrieve nodes' siblings and parents 2014-07-18 13:24:03 -07:00
Clean up node.c 2015-08-12 13:41:22 -07:00			`TSNode ts_node_prev_sibling(TSNode this) {`
Store indices on nodes to speed up traversal methods 2015-08-15 23:35:20 -07:00			`const TSTree *tree = get_tree(this);`
			`TSLength position = this.position;`
			`do {`
			`TSTree *parent = tree->context.parent;`
			`if (!parent)`
			`break;`

			`for (size_t i = tree->context.index - 1; i + 1 > 0; i--) {`
			`const TSTree *child = parent->children[i];`
			`position = ts_length_sub(position, ts_tree_total_size(child));`
			`if (ts_tree_is_visible(child))`
			`return ts_node_make(child, position);`
			`if (child->visible_child_count > 0)`
			`return ts_node_child(ts_node_make(child, position), child->visible_child_count - 1);`
			`}`

			`tree = parent;`
			`} while (!ts_tree_is_visible(tree));`

			`return ts_node_null();`
Add functions to retrieve nodes' siblings and parents 2014-07-18 13:24:03 -07:00			`}`

Clean up node.c 2015-08-12 13:41:22 -07:00			`TSNode ts_node_next_sibling(TSNode this) {`
Store indices on nodes to speed up traversal methods 2015-08-15 23:35:20 -07:00			`const TSTree *tree = get_tree(this);`
			`TSLength position = this.position;`
			`do {`
			`TSTree *parent = tree->context.parent;`
			`if (!parent)`
			`break;`

			`for (size_t i = tree->context.index + 1; i < parent->child_count; i++) {`
			`const TSTree *child = parent->children[i];`
			`position = ts_length_add(position, ts_tree_total_size(parent->children[i - 1]));`
			`if (ts_tree_is_visible(child))`
			`return ts_node_make(child, position);`
			`if (child->visible_child_count > 0)`
			`return ts_node_child(ts_node_make(child, position), 0);`
			`}`

			`tree = parent;`
			`} while (!ts_tree_is_visible(tree));`

			`return ts_node_null();`
Add functions to retrieve nodes' siblings and parents 2014-07-18 13:24:03 -07:00			`}`

Clean up node.c 2015-08-12 13:41:22 -07:00			`size_t ts_node_child_count(TSNode this) {`
Don't store visible children on trees 2015-08-14 16:11:37 -07:00			`return get_tree(this)->visible_child_count;`
Add ts_node_child_count function 2014-07-20 17:57:20 -07:00			`}`

Don't store visible children on trees 2015-08-14 16:11:37 -07:00			`TSNode ts_node_child(TSNode this, size_t child_index) {`
Remove recursion in ts_node_child 2015-08-14 16:34:12 -07:00			`TSNode node = this;`
			`bool did_descend = true;`
			`while (did_descend) {`
			`did_descend = false;`
			`const TSTree *tree = get_tree(node);`
			`TSLength position = node.position;`
Don't store visible children on trees 2015-08-14 16:11:37 -07:00
Remove recursion in ts_node_child 2015-08-14 16:34:12 -07:00			`size_t index = 0;`
			`for (size_t i = 0; i < tree->child_count; i++) {`
			`TSTree *child = tree->children[i];`
			`if (ts_tree_is_visible(child)) {`
			`if (index == child_index)`
			`return ts_node_make(child, position);`
			`index++;`
			`} else {`
			`size_t grandchild_index = child_index - index;`
			`if (grandchild_index < child->visible_child_count) {`
			`did_descend = true;`
			`node = ts_node_make(child, position);`
			`child_index = grandchild_index;`
			`}`
			`index += child->visible_child_count;`
			`}`
			`position = ts_length_add(position, ts_tree_total_size(child));`
Don't store visible children on trees 2015-08-14 16:11:37 -07:00			`}`
			`}`

			`return ts_node_null();`
Hide TSTree, expose TSNode 2014-07-17 23:29:11 -07:00			`}`

Clean up node.c 2015-08-12 13:41:22 -07:00			`TSNode ts_node_find_for_range(TSNode this, size_t min, size_t max) {`
Don't return invisible nodes from ts_node_find_for_range 2015-08-14 20:10:09 -07:00			`TSNode node = this, last_visible_node = this;`
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00			`bool did_descend = true;`
			`while (did_descend) {`
			`did_descend = false;`
Don't store visible children on trees 2015-08-14 16:11:37 -07:00			`const TSTree *tree = get_tree(node);`
			`TSLength position = node.position;`
Remove recursion in ts_node_child 2015-08-14 16:34:12 -07:00
Don't store visible children on trees 2015-08-14 16:11:37 -07:00			`for (size_t i = 0; i < tree->child_count; i++) {`
			`const TSTree *child = tree->children[i];`
			`if (position.chars + child->padding.chars > min)`
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00			`break;`
Don't store visible children on trees 2015-08-14 16:11:37 -07:00			`if (position.chars + child->padding.chars + child->size.chars > max) {`
			`node = ts_node_make(child, position);`
Don't return invisible nodes from ts_node_find_for_range 2015-08-14 20:10:09 -07:00			`if (ts_tree_is_visible(child))`
			`last_visible_node = node;`
Rework AST access API: reduce heap allocation 2015-07-31 15:47:48 -07:00			`did_descend = true;`
			`}`
Don't store visible children on trees 2015-08-14 16:11:37 -07:00			`position = ts_length_add(position, ts_tree_total_size(child));`
Add function for retrieving a leaf node by position 2014-07-18 18:52:08 -07:00			`}`
Use 2-space indent in c files 2014-07-20 20:27:33 -07:00			`}`
Remove recursion in ts_node_child 2015-08-14 16:34:12 -07:00
Don't return invisible nodes from ts_node_find_for_range 2015-08-14 20:10:09 -07:00			`return last_visible_node;`
Hide TSTree, expose TSNode 2014-07-17 23:29:11 -07:00			`}`
Add find_for_range function for Nodes 2014-08-25 09:31:27 -07:00
Clean up node.c 2015-08-12 13:41:22 -07:00			`TSNode ts_node_find_for_pos(TSNode this, size_t position) {`
			`return ts_node_find_for_range(this, position, position);`
Add find_for_range function for Nodes 2014-08-25 09:31:27 -07:00			`}`