ui/accessibility/ax_tree.h - chromium/src - Git at Google

 // Copyright 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef UI_ACCESSIBILITY_AX_TREE_H_
 #define UI_ACCESSIBILITY_AX_TREE_H_

 #include <stdint.h>

 #include <map>
 #include <memory>
 #include <set>
 #include <string>
 #include <unordered_map>
 #include <vector>

 #include "base/observer_list.h"
 #include "ui/accessibility/ax_enums.mojom-forward.h"
 #include "ui/accessibility/ax_export.h"
 #include "ui/accessibility/ax_node.h"
 #include "ui/accessibility/ax_node_data.h"
 #include "ui/accessibility/ax_tree_data.h"
 #include "ui/accessibility/ax_tree_update.h"

 namespace ui {

 class AXTableInfo;
 class AXTreeObserver;
 struct AXTreeUpdateState;
 class AXLanguageDetectionManager;

 // AXTree is a live, managed tree of AXNode objects that can receive
 // updates from another AXTreeSource via AXTreeUpdates, and it can be
 // used as a source for sending updates to another client tree.
 // It's designed to be subclassed to implement support for native
 // accessibility APIs on a specific platform.
 class AX_EXPORT AXTree : public AXNode::OwnerTree {
  public:
   using IntReverseRelationMap =
       std::map<ax::mojom::IntAttribute, std::map<int32_t, std::set<int32_t>>>;
   using IntListReverseRelationMap =
       std::map<ax::mojom::IntListAttribute,
                std::map<int32_t, std::set<int32_t>>>;

   AXTree();
   explicit AXTree(const AXTreeUpdate& initial_state);
   virtual ~AXTree();

   // AXTree owns pointers so copying is non-trivial.
   AXTree(const AXTree&) = delete;
   AXTree& operator=(const AXTree&) = delete;

   void AddObserver(AXTreeObserver* observer);
   bool HasObserver(AXTreeObserver* observer);
   void RemoveObserver(AXTreeObserver* observer);

   base::ObserverList<AXTreeObserver>& observers() { return observers_; }

   AXNode* root() const { return root_; }

   const AXTreeData& data() const { return data_; }

   // Destroys the tree and notifies all observers.
   void Destroy();

   // AXNode::OwnerTree override.
   // Returns the globally unique ID of this accessibility tree.
   AXTreeID GetAXTreeID() const override;

   // AXNode::OwnerTree override.
   // Returns the AXNode with the given |id| if it is part of this AXTree.
   AXNode* GetFromId(int32_t id) const override;

   // Returns true on success. If it returns false, it's a fatal error
   // and this tree should be destroyed, and the source of the tree update
   // should not be trusted any longer.
   virtual bool Unserialize(const AXTreeUpdate& update);

   virtual void UpdateData(const AXTreeData& data);

   // Convert any rectangle from the local coordinate space of one node in
   // the tree, to bounds in the coordinate space of the tree.
   // If set, updates |offscreen| boolean to be true if the node is offscreen
   // relative to its rootWebArea. Callers should initialize |offscreen|
   // to false: this method may get called multiple times in a row and
   // |offscreen| will be propagated.
   // If |clip_bounds| is true, result bounds will be clipped.
   gfx::RectF RelativeToTreeBounds(const AXNode* node,
                                   gfx::RectF node_bounds,
                                   bool* offscreen = nullptr,
                                   bool clip_bounds = true) const;

   // Get the bounds of a node in the coordinate space of the tree.
   // If set, updates |offscreen| boolean to be true if the node is offscreen
   // relative to its rootWebArea. Callers should initialize |offscreen|
   // to false: this method may get called multiple times in a row and
   // |offscreen| will be propagated.
   // If |clip_bounds| is true, result bounds will be clipped.
   gfx::RectF GetTreeBounds(const AXNode* node,
                            bool* offscreen = nullptr,
                            bool clip_bounds = true) const;

   // Given a node ID attribute (one where IsNodeIdIntAttribute is true),
   // and a destination node ID, return a set of all source node IDs that
   // have that relationship attribute between them and the destination.
   std::set<int32_t> GetReverseRelations(ax::mojom::IntAttribute attr,
                                         int32_t dst_id) const;

   // Given a node ID list attribute (one where
   // IsNodeIdIntListAttribute is true), and a destination node ID,
   // return a set of all source node IDs that have that relationship
   // attribute between them and the destination.
   std::set<int32_t> GetReverseRelations(ax::mojom::IntListAttribute attr,
                                         int32_t dst_id) const;

   // Given a child tree ID, return the node IDs of all nodes in the tree who
   // have a kChildTreeId int attribute with that value.
   std::set<int32_t> GetNodeIdsForChildTreeId(AXTreeID child_tree_id) const;

   // Get all of the child tree IDs referenced by any node in this tree.
   const std::set<AXTreeID> GetAllChildTreeIds() const;

   // Map from a relation attribute to a map from a target id to source ids.
   const IntReverseRelationMap& int_reverse_relations() {
     return int_reverse_relations_;
   }
   const IntListReverseRelationMap& intlist_reverse_relations() {
     return intlist_reverse_relations_;
   }

   // Return a multi-line indented string representation, for logging.
   std::string ToString() const;

   // A string describing the error from an unsuccessful Unserialize,
   // for testing and debugging.
   const std::string& error() const { return error_; }

   int size() { return static_cast<int>(id_map_.size()); }

   // Call this to enable support for extra Mac nodes - for each table,
   // a table column header and a node for each column.
   void SetEnableExtraMacNodes(bool enabled);
   bool enable_extra_mac_nodes() const { return enable_extra_mac_nodes_; }

   // Return a negative number that's suitable to use for a node ID for
   // internal nodes created automatically by an AXTree, so as not to
   // conflict with positive-numbered node IDs from tree sources.
   int32_t GetNextNegativeInternalNodeId();

   // Returns the PosInSet of |node|. Looks in node_set_size_pos_in_set_info_map_
   // for cached value. Calls |ComputeSetSizePosInSetAndCache|if no value is
   // present in the cache.
   base::Optional<int> GetPosInSet(const AXNode& node) override;
   // Returns the SetSize of |node|. Looks in node_set_size_pos_in_set_info_map_
   // for cached value. Calls |ComputeSetSizePosInSetAndCache|if no value is
   // present in the cache.
   base::Optional<int> GetSetSize(const AXNode& node) override;

   Selection GetUnignoredSelection() const override;

   bool GetTreeUpdateInProgressState() const override;
   void SetTreeUpdateInProgressState(bool set_tree_update_value);

   // AXNode::OwnerTree override.
   // Returns true if the tree represents a paginated document
   bool HasPaginationSupport() const override;

   // Language detection manager, entry point to language detection features.
   // TODO(chrishall): Should this be stored by pointer or value?
   //                  When should we initialize this?
   std::unique_ptr<AXLanguageDetectionManager> language_detection_manager;

   // A list of intents active during a tree update/unserialization.
   const std::vector<AXEventIntent>& event_intents() const {
     return event_intents_;
   }

  private:
   friend class AXTableInfoTest;

   // Accumulate errors as there can be more than one before Chrome is crashed
   // via AccessibilityFatalError();
   void RecordError(std::string new_error);

   // AXNode::OwnerTree override.
   //
   // Given a node in this accessibility tree that corresponds to a table
   // or grid, return an object containing information about the
   // table structure. This object is computed lazily on-demand and
   // cached until the next time the tree is updated. Clients should
   // not retain this pointer, they should just request it every time
   // it's needed.
   //
   // Returns nullptr if the node is not a valid table.
   AXTableInfo* GetTableInfo(const AXNode* table_node) const override;

   AXNode* CreateNode(AXNode* parent,
                      AXNode::AXID id,
                      size_t index_in_parent,
                      AXTreeUpdateState* update_state);

   // Accumulates the work that will be required to update the AXTree.
   // This allows us to notify observers of structure changes when the
   // tree is still in a stable and unchanged state.
   bool ComputePendingChanges(const AXTreeUpdate& update,
                              AXTreeUpdateState* update_state);

   // Populates |update_state| with information about actions that will
   // be performed on the tree during the update, such as adding or
   // removing nodes in the tree. Returns true on success.
   // Nothing within this call should modify tree structure or node data.
   bool ComputePendingChangesToNode(const AXNodeData& new_data,
                                    bool is_new_root,
                                    AXTreeUpdateState* update_state);

   // This is called from within Unserialize(), it returns true on success.
   bool UpdateNode(const AXNodeData& src,
                   bool is_new_root,
                   AXTreeUpdateState* update_state);

   // Notify the delegate that the subtree rooted at |node| will be
   // destroyed or reparented.
   void NotifySubtreeWillBeReparentedOrDeleted(
       AXNode* node,
       const AXTreeUpdateState* update_state);

   // Notify the delegate that |node| will be destroyed or reparented.
   void NotifyNodeWillBeReparentedOrDeleted(
       AXNode* node,
       const AXTreeUpdateState* update_state);

   // Notify the delegate that |node| and all of its descendants will be
   // destroyed. This function is called during AXTree teardown.
   void RecursivelyNotifyNodeDeletedForTreeTeardown(AXNode* node);

   // Notify the delegate that the node marked by |node_id| has been deleted.
   // We are passing the node id instead of ax node is because by the time this
   // function is called, the ax node in the tree will already have been
   // destroyed.
   void NotifyNodeHasBeenDeleted(AXNode::AXID node_id);

   // Notify the delegate that |node| has been created or reparented.
   void NotifyNodeHasBeenReparentedOrCreated(
       AXNode* node,
       const AXTreeUpdateState* update_state);

   // Notify the delegate that a node will change its data.
   void NotifyNodeDataWillChange(const AXNodeData& old_data,
                                 const AXNodeData& new_data);

   // Notify the delegate that |node| has changed its data.
   void NotifyNodeDataHasBeenChanged(AXNode* node,
                                     const AXNodeData& old_data,
                                     const AXNodeData& new_data);

   void UpdateReverseRelations(AXNode* node, const AXNodeData& new_data);

   // Returns true if all pending changes in the |update_state| have been
   // handled. If this returns false, the |error_| message will be populated.
   // It's a fatal error to have pending changes after exhausting
   // the AXTreeUpdate.
   bool ValidatePendingChangesComplete(const AXTreeUpdateState& update_state);

   // Modifies |update_state| so that it knows what subtree and nodes are
   // going to be destroyed for the subtree rooted at |node|.
   void MarkSubtreeForDestruction(AXNode::AXID node_id,
                                  AXTreeUpdateState* update_state);

   // Modifies |update_state| so that it knows what nodes are
   // going to be destroyed for the subtree rooted at |node|.
   void MarkNodesForDestructionRecursive(AXNode::AXID node_id,
                                         AXTreeUpdateState* update_state);

   // Validates that destroying the subtree rooted at |node| has required
   // information in |update_state|, then calls DestroyNodeAndSubtree on it.
   void DestroySubtree(AXNode* node, AXTreeUpdateState* update_state);

   // Call Destroy() on |node|, and delete it from the id map, and then
   // call recursively on all nodes in its subtree.
   void DestroyNodeAndSubtree(AXNode* node, AXTreeUpdateState* update_state);

   // Iterate over the children of |node| and for each child, destroy the
   // child and its subtree if its id is not in |new_child_ids|.
   void DeleteOldChildren(AXNode* node,
                          const std::vector<int32_t>& new_child_ids,
                          AXTreeUpdateState* update_state);

   // Iterate over |new_child_ids| and populate |new_children| with
   // pointers to child nodes, reusing existing nodes already in the tree
   // if they exist, and creating otherwise. Reparenting is disallowed, so
   // if the id already exists as the child of another node, that's an
   // error. Returns true on success, false on fatal error.
   bool CreateNewChildVector(AXNode* node,
                             const std::vector<int32_t>& new_child_ids,
                             std::vector<AXNode*>* new_children,
                             AXTreeUpdateState* update_state);

   // Internal implementation of RelativeToTreeBounds. It calls itself
   // recursively but ensures that it can only do so exactly once!
   gfx::RectF RelativeToTreeBoundsInternal(const AXNode* node,
                                           gfx::RectF node_bounds,
                                           bool* offscreen,
                                           bool clip_bounds,
                                           bool allow_recursion) const;

   base::ObserverList<AXTreeObserver> observers_;
   AXNode* root_ = nullptr;
   std::unordered_map<int32_t, AXNode*> id_map_;
   std::string error_;
   AXTreeData data_;

   // Map from an int attribute (if IsNodeIdIntAttribute is true) to
   // a reverse mapping from target nodes to source nodes.
   IntReverseRelationMap int_reverse_relations_;
   // Map from an int list attribute (if IsNodeIdIntListAttribute is true) to
   // a reverse mapping from target nodes to source nodes.
   IntListReverseRelationMap intlist_reverse_relations_;
   // Map from child tree ID to the set of node IDs that contain that attribute.
   std::map<AXTreeID, std::set<int32_t>> child_tree_id_reverse_map_;

   // Map from node ID to cached table info, if the given node is a table.
   // Invalidated every time the tree is updated.
   mutable std::unordered_map<int32_t, std::unique_ptr<AXTableInfo>>
       table_info_map_;

   // The next negative node ID to use for internal nodes.
   int32_t next_negative_internal_node_id_ = -1;

   // Whether we should create extra nodes that
   // are only useful on macOS. Implemented using this flag to allow
   // this code to be unit-tested on other platforms (for example, more
   // code sanitizers run on Linux).
   bool enable_extra_mac_nodes_ = false;

   // Contains pos_in_set and set_size data for an AXNode.
   struct NodeSetSizePosInSetInfo {
     NodeSetSizePosInSetInfo();
     ~NodeSetSizePosInSetInfo();

     base::Optional<int> pos_in_set;
     base::Optional<int> set_size;
     base::Optional<int> lowest_hierarchical_level;
   };

   // Represents the content of an ordered set which includes the ordered set
   // items and the ordered set container if it exists.
   struct OrderedSetContent;

   // Maps a particular hierarchical level to a list of OrderedSetContents.
   // Represents all ordered set items/container on a particular hierarchical
   // level.
   struct OrderedSetItemsMap;

   // Populates |items_map_to_be_populated| with all items associated with
   // |original_node| and within |ordered_set|. Only items whose roles match the
   // role of the |ordered_set| will be added.
   void PopulateOrderedSetItemsMap(
       const AXNode& original_node,
       const AXNode* ordered_set,
       OrderedSetItemsMap* items_map_to_be_populated) const;

   // Helper function for recursively populating ordered sets items map with
   // all items associated with |original_node| and |ordered_set|. |local_parent|
   // tracks the recursively passed in child nodes of |ordered_set|.
   void RecursivelyPopulateOrderedSetItemsMap(
       const AXNode& original_node,
       const AXNode* ordered_set,
       const AXNode* local_parent,
       base::Optional<int> ordered_set_min_level,
       base::Optional<int> prev_level,
       OrderedSetItemsMap* items_map_to_be_populated) const;

   // Computes the pos_in_set and set_size values of all items in ordered_set and
   // caches those values. Called by GetPosInSet and GetSetSize.
   void ComputeSetSizePosInSetAndCache(const AXNode& node,
                                       const AXNode* ordered_set);

   // Helper for ComputeSetSizePosInSetAndCache. Computes and caches the
   // pos_in_set and set_size values for a given OrderedSetContent.
   void ComputeSetSizePosInSetAndCacheHelper(
       const OrderedSetContent& ordered_set_content);

   // Map from node ID to OrderedSetInfo.
   // Item-like and ordered-set-like objects will map to populated OrderedSetInfo
   // objects.
   // All other objects will map to default-constructed OrderedSetInfo objects.
   // Invalidated every time the tree is updated.
   mutable std::unordered_map<int32_t, NodeSetSizePosInSetInfo>
       node_set_size_pos_in_set_info_map_;

   // Indicates if the tree is updating.
   bool tree_update_in_progress_ = false;

   // Indicates if the tree represents a paginated document
   bool has_pagination_support_ = false;

   std::vector<AXEventIntent> event_intents_;
 };

 }  // namespace ui

 #endif  // UI_ACCESSIBILITY_AX_TREE_H_
	// Copyright 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef UI_ACCESSIBILITY_AX_TREE_H_
	#define UI_ACCESSIBILITY_AX_TREE_H_

	#include <stdint.h>

	#include <map>
	#include <memory>
	#include <set>
	#include <string>
	#include <unordered_map>
	#include <vector>

	#include "base/observer_list.h"
	#include "ui/accessibility/ax_enums.mojom-forward.h"
	#include "ui/accessibility/ax_export.h"
	#include "ui/accessibility/ax_node.h"
	#include "ui/accessibility/ax_node_data.h"
	#include "ui/accessibility/ax_tree_data.h"
	#include "ui/accessibility/ax_tree_update.h"

	namespace ui {

	class AXTableInfo;
	class AXTreeObserver;
	struct AXTreeUpdateState;
	class AXLanguageDetectionManager;

	// AXTree is a live, managed tree of AXNode objects that can receive
	// updates from another AXTreeSource via AXTreeUpdates, and it can be
	// used as a source for sending updates to another client tree.
	// It's designed to be subclassed to implement support for native
	// accessibility APIs on a specific platform.
	class AX_EXPORT AXTree : public AXNode::OwnerTree {
	public:
	using IntReverseRelationMap =
	std::map<ax::mojom::IntAttribute, std::map<int32_t, std::set<int32_t>>>;
	using IntListReverseRelationMap =
	std::map<ax::mojom::IntListAttribute,
	std::map<int32_t, std::set<int32_t>>>;

	AXTree();
	explicit AXTree(const AXTreeUpdate& initial_state);
	virtual ~AXTree();

	// AXTree owns pointers so copying is non-trivial.
	AXTree(const AXTree&) = delete;
	AXTree& operator=(const AXTree&) = delete;

	void AddObserver(AXTreeObserver* observer);
	bool HasObserver(AXTreeObserver* observer);
	void RemoveObserver(AXTreeObserver* observer);

	base::ObserverList<AXTreeObserver>& observers() { return observers_; }

	AXNode* root() const { return root_; }

	const AXTreeData& data() const { return data_; }

	// Destroys the tree and notifies all observers.
	void Destroy();

	// AXNode::OwnerTree override.
	// Returns the globally unique ID of this accessibility tree.
	AXTreeID GetAXTreeID() const override;

	// AXNode::OwnerTree override.
	// Returns the AXNode with the given \|id\| if it is part of this AXTree.
	AXNode* GetFromId(int32_t id) const override;

	// Returns true on success. If it returns false, it's a fatal error
	// and this tree should be destroyed, and the source of the tree update
	// should not be trusted any longer.
	virtual bool Unserialize(const AXTreeUpdate& update);

	virtual void UpdateData(const AXTreeData& data);

	// Convert any rectangle from the local coordinate space of one node in
	// the tree, to bounds in the coordinate space of the tree.
	// If set, updates \|offscreen\| boolean to be true if the node is offscreen
	// relative to its rootWebArea. Callers should initialize \|offscreen\|
	// to false: this method may get called multiple times in a row and
	// \|offscreen\| will be propagated.
	// If \|clip_bounds\| is true, result bounds will be clipped.
	gfx::RectF RelativeToTreeBounds(const AXNode* node,
	gfx::RectF node_bounds,
	bool* offscreen = nullptr,
	bool clip_bounds = true) const;

	// Get the bounds of a node in the coordinate space of the tree.
	// If set, updates \|offscreen\| boolean to be true if the node is offscreen
	// relative to its rootWebArea. Callers should initialize \|offscreen\|
	// to false: this method may get called multiple times in a row and
	// \|offscreen\| will be propagated.
	// If \|clip_bounds\| is true, result bounds will be clipped.
	gfx::RectF GetTreeBounds(const AXNode* node,
	bool* offscreen = nullptr,
	bool clip_bounds = true) const;

	// Given a node ID attribute (one where IsNodeIdIntAttribute is true),
	// and a destination node ID, return a set of all source node IDs that
	// have that relationship attribute between them and the destination.
	std::set<int32_t> GetReverseRelations(ax::mojom::IntAttribute attr,
	int32_t dst_id) const;

	// Given a node ID list attribute (one where
	// IsNodeIdIntListAttribute is true), and a destination node ID,
	// return a set of all source node IDs that have that relationship
	// attribute between them and the destination.
	std::set<int32_t> GetReverseRelations(ax::mojom::IntListAttribute attr,
	int32_t dst_id) const;

	// Given a child tree ID, return the node IDs of all nodes in the tree who
	// have a kChildTreeId int attribute with that value.
	std::set<int32_t> GetNodeIdsForChildTreeId(AXTreeID child_tree_id) const;

	// Get all of the child tree IDs referenced by any node in this tree.
	const std::set<AXTreeID> GetAllChildTreeIds() const;

	// Map from a relation attribute to a map from a target id to source ids.
	const IntReverseRelationMap& int_reverse_relations() {
	return int_reverse_relations_;
	}
	const IntListReverseRelationMap& intlist_reverse_relations() {
	return intlist_reverse_relations_;
	}

	// Return a multi-line indented string representation, for logging.
	std::string ToString() const;

	// A string describing the error from an unsuccessful Unserialize,
	// for testing and debugging.
	const std::string& error() const { return error_; }

	int size() { return static_cast<int>(id_map_.size()); }

	// Call this to enable support for extra Mac nodes - for each table,
	// a table column header and a node for each column.
	void SetEnableExtraMacNodes(bool enabled);
	bool enable_extra_mac_nodes() const { return enable_extra_mac_nodes_; }

	// Return a negative number that's suitable to use for a node ID for
	// internal nodes created automatically by an AXTree, so as not to
	// conflict with positive-numbered node IDs from tree sources.
	int32_t GetNextNegativeInternalNodeId();

	// Returns the PosInSet of \|node\|. Looks in node_set_size_pos_in_set_info_map_
	// for cached value. Calls \|ComputeSetSizePosInSetAndCache\|if no value is
	// present in the cache.
	base::Optional<int> GetPosInSet(const AXNode& node) override;
	// Returns the SetSize of \|node\|. Looks in node_set_size_pos_in_set_info_map_
	// for cached value. Calls \|ComputeSetSizePosInSetAndCache\|if no value is
	// present in the cache.
	base::Optional<int> GetSetSize(const AXNode& node) override;

	Selection GetUnignoredSelection() const override;

	bool GetTreeUpdateInProgressState() const override;
	void SetTreeUpdateInProgressState(bool set_tree_update_value);

	// AXNode::OwnerTree override.
	// Returns true if the tree represents a paginated document
	bool HasPaginationSupport() const override;

	// Language detection manager, entry point to language detection features.
	// TODO(chrishall): Should this be stored by pointer or value?
	// When should we initialize this?
	std::unique_ptr<AXLanguageDetectionManager> language_detection_manager;

	// A list of intents active during a tree update/unserialization.
	const std::vector<AXEventIntent>& event_intents() const {
	return event_intents_;
	}

	private:
	friend class AXTableInfoTest;

	// Accumulate errors as there can be more than one before Chrome is crashed
	// via AccessibilityFatalError();
	void RecordError(std::string new_error);

	// AXNode::OwnerTree override.
	//
	// Given a node in this accessibility tree that corresponds to a table
	// or grid, return an object containing information about the
	// table structure. This object is computed lazily on-demand and
	// cached until the next time the tree is updated. Clients should
	// not retain this pointer, they should just request it every time
	// it's needed.
	//
	// Returns nullptr if the node is not a valid table.
	AXTableInfo* GetTableInfo(const AXNode* table_node) const override;

	AXNode* CreateNode(AXNode* parent,
	AXNode::AXID id,
	size_t index_in_parent,
	AXTreeUpdateState* update_state);

	// Accumulates the work that will be required to update the AXTree.
	// This allows us to notify observers of structure changes when the
	// tree is still in a stable and unchanged state.
	bool ComputePendingChanges(const AXTreeUpdate& update,
	AXTreeUpdateState* update_state);

	// Populates \|update_state\| with information about actions that will
	// be performed on the tree during the update, such as adding or
	// removing nodes in the tree. Returns true on success.
	// Nothing within this call should modify tree structure or node data.
	bool ComputePendingChangesToNode(const AXNodeData& new_data,
	bool is_new_root,
	AXTreeUpdateState* update_state);

	// This is called from within Unserialize(), it returns true on success.
	bool UpdateNode(const AXNodeData& src,
	bool is_new_root,
	AXTreeUpdateState* update_state);

	// Notify the delegate that the subtree rooted at \|node\| will be
	// destroyed or reparented.
	void NotifySubtreeWillBeReparentedOrDeleted(
	AXNode* node,
	const AXTreeUpdateState* update_state);

	// Notify the delegate that \|node\| will be destroyed or reparented.
	void NotifyNodeWillBeReparentedOrDeleted(
	AXNode* node,
	const AXTreeUpdateState* update_state);

	// Notify the delegate that \|node\| and all of its descendants will be
	// destroyed. This function is called during AXTree teardown.
	void RecursivelyNotifyNodeDeletedForTreeTeardown(AXNode* node);

	// Notify the delegate that the node marked by \|node_id\| has been deleted.
	// We are passing the node id instead of ax node is because by the time this
	// function is called, the ax node in the tree will already have been
	// destroyed.
	void NotifyNodeHasBeenDeleted(AXNode::AXID node_id);

	// Notify the delegate that \|node\| has been created or reparented.
	void NotifyNodeHasBeenReparentedOrCreated(
	AXNode* node,
	const AXTreeUpdateState* update_state);

	// Notify the delegate that a node will change its data.
	void NotifyNodeDataWillChange(const AXNodeData& old_data,
	const AXNodeData& new_data);

	// Notify the delegate that \|node\| has changed its data.
	void NotifyNodeDataHasBeenChanged(AXNode* node,
	const AXNodeData& old_data,
	const AXNodeData& new_data);

	void UpdateReverseRelations(AXNode* node, const AXNodeData& new_data);

	// Returns true if all pending changes in the \|update_state\| have been
	// handled. If this returns false, the \|error_\| message will be populated.
	// It's a fatal error to have pending changes after exhausting
	// the AXTreeUpdate.
	bool ValidatePendingChangesComplete(const AXTreeUpdateState& update_state);

	// Modifies \|update_state\| so that it knows what subtree and nodes are
	// going to be destroyed for the subtree rooted at \|node\|.
	void MarkSubtreeForDestruction(AXNode::AXID node_id,
	AXTreeUpdateState* update_state);

	// Modifies \|update_state\| so that it knows what nodes are
	// going to be destroyed for the subtree rooted at \|node\|.
	void MarkNodesForDestructionRecursive(AXNode::AXID node_id,
	AXTreeUpdateState* update_state);

	// Validates that destroying the subtree rooted at \|node\| has required
	// information in \|update_state\|, then calls DestroyNodeAndSubtree on it.
	void DestroySubtree(AXNode* node, AXTreeUpdateState* update_state);

	// Call Destroy() on \|node\|, and delete it from the id map, and then
	// call recursively on all nodes in its subtree.
	void DestroyNodeAndSubtree(AXNode* node, AXTreeUpdateState* update_state);

	// Iterate over the children of \|node\| and for each child, destroy the
	// child and its subtree if its id is not in \|new_child_ids\|.
	void DeleteOldChildren(AXNode* node,
	const std::vector<int32_t>& new_child_ids,
	AXTreeUpdateState* update_state);

	// Iterate over \|new_child_ids\| and populate \|new_children\| with
	// pointers to child nodes, reusing existing nodes already in the tree
	// if they exist, and creating otherwise. Reparenting is disallowed, so
	// if the id already exists as the child of another node, that's an
	// error. Returns true on success, false on fatal error.
	bool CreateNewChildVector(AXNode* node,
	const std::vector<int32_t>& new_child_ids,
	std::vector<AXNode> new_children,
	AXTreeUpdateState* update_state);

	// Internal implementation of RelativeToTreeBounds. It calls itself
	// recursively but ensures that it can only do so exactly once!
	gfx::RectF RelativeToTreeBoundsInternal(const AXNode* node,
	gfx::RectF node_bounds,
	bool* offscreen,
	bool clip_bounds,
	bool allow_recursion) const;

	base::ObserverList<AXTreeObserver> observers_;
	AXNode* root_ = nullptr;
	std::unordered_map<int32_t, AXNode*> id_map_;
	std::string error_;
	AXTreeData data_;

	// Map from an int attribute (if IsNodeIdIntAttribute is true) to
	// a reverse mapping from target nodes to source nodes.
	IntReverseRelationMap int_reverse_relations_;
	// Map from an int list attribute (if IsNodeIdIntListAttribute is true) to
	// a reverse mapping from target nodes to source nodes.
	IntListReverseRelationMap intlist_reverse_relations_;
	// Map from child tree ID to the set of node IDs that contain that attribute.
	std::map<AXTreeID, std::set<int32_t>> child_tree_id_reverse_map_;

	// Map from node ID to cached table info, if the given node is a table.
	// Invalidated every time the tree is updated.
	mutable std::unordered_map<int32_t, std::unique_ptr<AXTableInfo>>
	table_info_map_;

	// The next negative node ID to use for internal nodes.
	int32_t next_negative_internal_node_id_ = -1;

	// Whether we should create extra nodes that
	// are only useful on macOS. Implemented using this flag to allow
	// this code to be unit-tested on other platforms (for example, more
	// code sanitizers run on Linux).
	bool enable_extra_mac_nodes_ = false;

	// Contains pos_in_set and set_size data for an AXNode.
	struct NodeSetSizePosInSetInfo {
	NodeSetSizePosInSetInfo();
	~NodeSetSizePosInSetInfo();

	base::Optional<int> pos_in_set;
	base::Optional<int> set_size;
	base::Optional<int> lowest_hierarchical_level;
	};

	// Represents the content of an ordered set which includes the ordered set
	// items and the ordered set container if it exists.
	struct OrderedSetContent;

	// Maps a particular hierarchical level to a list of OrderedSetContents.
	// Represents all ordered set items/container on a particular hierarchical
	// level.
	struct OrderedSetItemsMap;

	// Populates \|items_map_to_be_populated\| with all items associated with
	// \|original_node\| and within \|ordered_set\|. Only items whose roles match the
	// role of the \|ordered_set\| will be added.
	void PopulateOrderedSetItemsMap(
	const AXNode& original_node,
	const AXNode* ordered_set,
	OrderedSetItemsMap* items_map_to_be_populated) const;

	// Helper function for recursively populating ordered sets items map with
	// all items associated with \|original_node\| and \|ordered_set\|. \|local_parent\|
	// tracks the recursively passed in child nodes of \|ordered_set\|.
	void RecursivelyPopulateOrderedSetItemsMap(
	const AXNode& original_node,
	const AXNode* ordered_set,
	const AXNode* local_parent,
	base::Optional<int> ordered_set_min_level,
	base::Optional<int> prev_level,
	OrderedSetItemsMap* items_map_to_be_populated) const;

	// Computes the pos_in_set and set_size values of all items in ordered_set and
	// caches those values. Called by GetPosInSet and GetSetSize.
	void ComputeSetSizePosInSetAndCache(const AXNode& node,
	const AXNode* ordered_set);

	// Helper for ComputeSetSizePosInSetAndCache. Computes and caches the
	// pos_in_set and set_size values for a given OrderedSetContent.
	void ComputeSetSizePosInSetAndCacheHelper(
	const OrderedSetContent& ordered_set_content);

	// Map from node ID to OrderedSetInfo.
	// Item-like and ordered-set-like objects will map to populated OrderedSetInfo
	// objects.
	// All other objects will map to default-constructed OrderedSetInfo objects.
	// Invalidated every time the tree is updated.
	mutable std::unordered_map<int32_t, NodeSetSizePosInSetInfo>
	node_set_size_pos_in_set_info_map_;

	// Indicates if the tree is updating.
	bool tree_update_in_progress_ = false;

	// Indicates if the tree represents a paginated document
	bool has_pagination_support_ = false;

	std::vector<AXEventIntent> event_intents_;
	};

	} // namespace ui

	#endif // UI_ACCESSIBILITY_AX_TREE_H_