ui/accessibility/ax_node_position.cc - chromium/src - Git at Google

 // Copyright 2016 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.

 #include "ui/accessibility/ax_node_position.h"

 #include "base/strings/string_util.h"
 #include "build/build_config.h"
 #include "ui/accessibility/ax_enums.mojom.h"
 #include "ui/accessibility/ax_node_data.h"
 #include "ui/accessibility/ax_tree_manager.h"
 #include "ui/accessibility/ax_tree_manager_map.h"

 namespace ui {

 AXEmbeddedObjectBehavior g_ax_embedded_object_behavior =
 #if defined(OS_WIN)
     AXEmbeddedObjectBehavior::kExposeCharacter;
 #else
     AXEmbeddedObjectBehavior::kSuppressCharacter;
 #endif

 // static
 AXNodePosition::AXPositionInstance AXNodePosition::CreatePosition(
     const AXNode& node,
     int child_index_or_text_offset,
     ax::mojom::TextAffinity affinity) {
   if (!node.tree())
     return CreateNullPosition();

   AXTreeID tree_id = node.tree()->GetAXTreeID();
   if (node.IsText())
     return CreateTextPosition(tree_id, node.id(), child_index_or_text_offset,
                               affinity);

   return CreateTreePosition(tree_id, node.id(), child_index_or_text_offset);
 }

 AXNodePosition::AXNodePosition() = default;

 AXNodePosition::~AXNodePosition() = default;

 AXNodePosition::AXNodePosition(const AXNodePosition& other)
     : AXPosition<AXNodePosition, AXNode>(other) {}

 AXNodePosition::AXPositionInstance AXNodePosition::Clone() const {
   return AXPositionInstance(new AXNodePosition(*this));
 }

 void AXNodePosition::AnchorChild(int child_index,
                                  AXTreeID* tree_id,
                                  AXNode::AXID* child_id) const {
   DCHECK(tree_id);
   DCHECK(child_id);

   if (!GetAnchor() || child_index < 0 || child_index >= AnchorChildCount()) {
     *tree_id = AXTreeIDUnknown();
     *child_id = AXNode::kInvalidAXID;
     return;
   }

   AXNode* child = nullptr;
   const AXTreeManager* child_tree_manager =
       AXTreeManagerMap::GetInstance().GetManagerForChildTree(*GetAnchor());
   if (child_tree_manager) {
     // The child node exists in a separate tree from its parent.
     child = child_tree_manager->GetRootAsAXNode();
     *tree_id = child_tree_manager->GetTreeID();
   } else {
     child = GetAnchor()->children()[size_t{child_index}];
     *tree_id = this->tree_id();
   }

   DCHECK(child);
   *child_id = child->id();
 }

 int AXNodePosition::AnchorChildCount() const {
   if (!GetAnchor())
     return 0;

   const AXTreeManager* child_tree_manager =
       AXTreeManagerMap::GetInstance().GetManagerForChildTree(*GetAnchor());
   if (child_tree_manager)
     return 1;

   return int{GetAnchor()->children().size()};
 }

 int AXNodePosition::AnchorUnignoredChildCount() const {
   if (!GetAnchor())
     return 0;

   return static_cast<int>(GetAnchor()->GetUnignoredChildCount());
 }

 int AXNodePosition::AnchorIndexInParent() const {
   return GetAnchor() ? int{GetAnchor()->index_in_parent()} : INVALID_INDEX;
 }

 base::stack<AXNode*> AXNodePosition::GetAncestorAnchors() const {
   base::stack<AXNode*> anchors;
   AXNode* current_anchor = GetAnchor();

   AXNode::AXID current_anchor_id = GetAnchor()->id();
   AXTreeID current_tree_id = tree_id();

   AXNode::AXID parent_anchor_id = AXNode::kInvalidAXID;
   AXTreeID parent_tree_id = AXTreeIDUnknown();

   while (current_anchor) {
     anchors.push(current_anchor);
     current_anchor = GetParent(
         current_anchor /*child*/, current_tree_id /*child_tree_id*/,
         &parent_tree_id /*parent_tree_id*/, &parent_anchor_id /*parent_id*/);

     current_anchor_id = parent_anchor_id;
     current_tree_id = parent_tree_id;
   }
   return anchors;
 }

 AXNode* AXNodePosition::GetLowestUnignoredAncestor() const {
   if (!GetAnchor())
     return nullptr;

   return GetAnchor()->GetUnignoredParent();
 }

 void AXNodePosition::AnchorParent(AXTreeID* tree_id,
                                   AXNode::AXID* parent_id) const {
   DCHECK(tree_id);
   DCHECK(parent_id);

   *tree_id = AXTreeIDUnknown();
   *parent_id = AXNode::kInvalidAXID;

   if (!GetAnchor())
     return;

   AXNode* parent =
       GetParent(GetAnchor() /*child*/, this->tree_id() /*child_tree_id*/,
                 tree_id /*parent_tree_id*/, parent_id /*parent_id*/);

   if (!parent) {
     *tree_id = AXTreeIDUnknown();
     *parent_id = AXNode::kInvalidAXID;
   }
 }

 AXNode* AXNodePosition::GetNodeInTree(AXTreeID tree_id,
                                       AXNode::AXID node_id) const {
   if (node_id == AXNode::kInvalidAXID)
     return nullptr;

   AXTreeManager* manager = AXTreeManagerMap::GetInstance().GetManager(tree_id);
   if (manager)
     return manager->GetNodeFromTree(tree_id, node_id);

   return nullptr;
 }

 AXNode::AXID AXNodePosition::GetAnchorID(AXNode* node) const {
   return node->id();
 }

 AXTreeID AXNodePosition::GetTreeID(AXNode* node) const {
   return node->tree()->GetAXTreeID();
 }

 base::string16 AXNodePosition::GetText() const {
   if (IsNullPosition())
     return {};

   base::string16 text;
   if (IsEmptyObjectReplacedByCharacter()) {
     text += kEmbeddedCharacter;
     return text;
   }

   const AXNode* anchor = GetAnchor();
   DCHECK(anchor);
   // TODO(nektar): Replace with PlatformChildCount when AXNodePosition and
   // BrowserAccessibilityPosition are merged into one class.
   if (!AnchorChildCount()) {
     // Special case: Allows us to get text even in non-web content, e.g. in the
     // browser's UI.
     text =
         anchor->data().GetString16Attribute(ax::mojom::StringAttribute::kValue);
     if (!text.empty())
       return text;
   }

   if (anchor->IsText()) {
     return anchor->data().GetString16Attribute(
         ax::mojom::StringAttribute::kName);
   }

   for (int i = 0; i < AnchorChildCount(); ++i)
     text += CreateChildPositionAt(i)->GetText();

   return text;
 }

 bool AXNodePosition::IsInLineBreak() const {
   if (IsNullPosition())
     return false;
   DCHECK(GetAnchor());
   return GetAnchor()->IsLineBreak();
 }

 bool AXNodePosition::IsInTextObject() const {
   if (IsNullPosition())
     return false;
   DCHECK(GetAnchor());
   return GetAnchor()->IsText();
 }

 bool AXNodePosition::IsInWhiteSpace() const {
   if (IsNullPosition())
     return false;
   DCHECK(GetAnchor());
   return GetAnchor()->IsLineBreak() ||
          base::ContainsOnlyChars(GetText(), base::kWhitespaceUTF16);
 }

 // This override is an optimized version AXPosition::MaxTextOffset. Instead of
 // concatenating the strings in GetText() to then get their text length, we sum
 // the lengths of the individual strings. This is faster than concatenating the
 // strings first and then taking their length, especially when the process
 // is recursive.
 int AXNodePosition::MaxTextOffset() const {
   if (IsNullPosition())
     return INVALID_OFFSET;

   if (IsEmptyObjectReplacedByCharacter())
     return 1;

   const AXNode* anchor = GetAnchor();
   DCHECK(anchor);
   // TODO(nektar): Replace with PlatformChildCount when AXNodePosition and
   // BrowserAccessibilityPosition will make one.
   if (!AnchorChildCount()) {
     base::string16 value =
         anchor->data().GetString16Attribute(ax::mojom::StringAttribute::kValue);
     if (!value.empty())
       return value.length();
   }

   if (anchor->IsText()) {
     return anchor->data()
         .GetString16Attribute(ax::mojom::StringAttribute::kName)
         .length();
   }

   int text_length = 0;
   for (int i = 0; i < AnchorChildCount(); ++i)
     text_length += CreateChildPositionAt(i)->MaxTextOffset();

   return text_length;
 }

 bool AXNodePosition::IsInLineBreakingObject() const {
   if (IsNullPosition())
     return false;
   DCHECK(GetAnchor());
   return GetAnchor()->data().GetBoolAttribute(
              ax::mojom::BoolAttribute::kIsLineBreakingObject) &&
          !GetAnchor()->IsInListMarker();
 }

 ax::mojom::Role AXNodePosition::GetRole() const {
   if (IsNullPosition())
     return ax::mojom::Role::kNone;
   DCHECK(GetAnchor());
   return GetAnchor()->data().role;
 }

 AXNodeTextStyles AXNodePosition::GetTextStyles() const {
   // Check either the current anchor or its parent for text styles.
   AXNodeTextStyles current_anchor_text_styles =
       !IsNullPosition() ? GetAnchor()->data().GetTextStyles()
                         : AXNodeTextStyles();
   if (current_anchor_text_styles.IsUnset()) {
     AXPositionInstance parent = CreateParentPosition();
     if (!parent->IsNullPosition())
       return parent->GetAnchor()->data().GetTextStyles();
   }
   return current_anchor_text_styles;
 }

 std::vector<int32_t> AXNodePosition::GetWordStartOffsets() const {
   if (IsNullPosition())
     return std::vector<int32_t>();
   DCHECK(GetAnchor());

   // Embedded object replacement characters are not represented in |kWordStarts|
   // attribute.
   if (IsEmptyObjectReplacedByCharacter())
     return {0};

   return GetAnchor()->data().GetIntListAttribute(
       ax::mojom::IntListAttribute::kWordStarts);
 }

 std::vector<int32_t> AXNodePosition::GetWordEndOffsets() const {
   if (IsNullPosition())
     return std::vector<int32_t>();
   DCHECK(GetAnchor());

   // Embedded object replacement characters are not represented in |kWordEnds|
   // attribute. Since the whole text exposed inside of an embedded object is of
   // length 1 (the embedded object replacement character), the word end offset
   // is positioned at 1. Because we want to treat the embedded object
   // replacement characters as ordinary characters, it wouldn't be consistent to
   // assume they have no length and return 0 instead of 1.
   if (IsEmptyObjectReplacedByCharacter())
     return {1};

   return GetAnchor()->data().GetIntListAttribute(
       ax::mojom::IntListAttribute::kWordEnds);
 }

 AXNode::AXID AXNodePosition::GetNextOnLineID(AXNode::AXID node_id) const {
   if (IsNullPosition())
     return AXNode::kInvalidAXID;
   AXNode* node = GetNodeInTree(tree_id(), node_id);
   int next_on_line_id;
   if (!node || !node->data().GetIntAttribute(
                    ax::mojom::IntAttribute::kNextOnLineId, &next_on_line_id)) {
     return AXNode::kInvalidAXID;
   }
   return static_cast<AXNode::AXID>(next_on_line_id);
 }

 AXNode::AXID AXNodePosition::GetPreviousOnLineID(AXNode::AXID node_id) const {
   if (IsNullPosition())
     return AXNode::kInvalidAXID;
   AXNode* node = GetNodeInTree(tree_id(), node_id);
   int previous_on_line_id;
   if (!node ||
       !node->data().GetIntAttribute(ax::mojom::IntAttribute::kPreviousOnLineId,
                                     &previous_on_line_id)) {
     return AXNode::kInvalidAXID;
   }
   return static_cast<AXNode::AXID>(previous_on_line_id);
 }

 AXNode* AXNodePosition::GetParent(AXNode* child,
                                   AXTreeID child_tree_id,
                                   AXTreeID* parent_tree_id,
                                   AXNode::AXID* parent_id) {
   DCHECK(parent_tree_id);
   DCHECK(parent_id);

   *parent_tree_id = AXTreeIDUnknown();
   *parent_id = AXNode::kInvalidAXID;

   if (!child)
     return nullptr;

   AXNode* parent = child->parent();
   *parent_tree_id = child_tree_id;

   if (!parent) {
     AXTreeManager* manager =
         AXTreeManagerMap::GetInstance().GetManager(child_tree_id);
     if (manager) {
       parent = manager->GetParentNodeFromParentTreeAsAXNode();
       *parent_tree_id = manager->GetParentTreeID();
     }
   }

   if (!parent) {
     *parent_tree_id = AXTreeIDUnknown();
     return parent;
   }

   *parent_id = parent->id();
   return parent;
 }

 }  // namespace ui
	// Copyright 2016 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.

	#include "ui/accessibility/ax_node_position.h"

	#include "base/strings/string_util.h"
	#include "build/build_config.h"
	#include "ui/accessibility/ax_enums.mojom.h"
	#include "ui/accessibility/ax_node_data.h"
	#include "ui/accessibility/ax_tree_manager.h"
	#include "ui/accessibility/ax_tree_manager_map.h"

	namespace ui {

	AXEmbeddedObjectBehavior g_ax_embedded_object_behavior =
	#if defined(OS_WIN)
	AXEmbeddedObjectBehavior::kExposeCharacter;
	#else
	AXEmbeddedObjectBehavior::kSuppressCharacter;
	#endif

	// static
	AXNodePosition::AXPositionInstance AXNodePosition::CreatePosition(
	const AXNode& node,
	int child_index_or_text_offset,
	ax::mojom::TextAffinity affinity) {
	if (!node.tree())
	return CreateNullPosition();

	AXTreeID tree_id = node.tree()->GetAXTreeID();
	if (node.IsText())
	return CreateTextPosition(tree_id, node.id(), child_index_or_text_offset,
	affinity);

	return CreateTreePosition(tree_id, node.id(), child_index_or_text_offset);
	}

	AXNodePosition::AXNodePosition() = default;

	AXNodePosition::~AXNodePosition() = default;

	AXNodePosition::AXNodePosition(const AXNodePosition& other)
	: AXPosition<AXNodePosition, AXNode>(other) {}

	AXNodePosition::AXPositionInstance AXNodePosition::Clone() const {
	return AXPositionInstance(new AXNodePosition(*this));
	}

	void AXNodePosition::AnchorChild(int child_index,
	AXTreeID* tree_id,
	AXNode::AXID* child_id) const {
	DCHECK(tree_id);
	DCHECK(child_id);

	if (!GetAnchor() \|\| child_index < 0 \|\| child_index >= AnchorChildCount()) {
	*tree_id = AXTreeIDUnknown();
	*child_id = AXNode::kInvalidAXID;
	return;
	}

	AXNode* child = nullptr;
	const AXTreeManager* child_tree_manager =
	AXTreeManagerMap::GetInstance().GetManagerForChildTree(*GetAnchor());
	if (child_tree_manager) {
	// The child node exists in a separate tree from its parent.
	child = child_tree_manager->GetRootAsAXNode();
	*tree_id = child_tree_manager->GetTreeID();
	} else {
	child = GetAnchor()->children()[size_t{child_index}];
	*tree_id = this->tree_id();
	}

	DCHECK(child);
	*child_id = child->id();
	}

	int AXNodePosition::AnchorChildCount() const {
	if (!GetAnchor())
	return 0;

	const AXTreeManager* child_tree_manager =
	AXTreeManagerMap::GetInstance().GetManagerForChildTree(*GetAnchor());
	if (child_tree_manager)
	return 1;

	return int{GetAnchor()->children().size()};
	}

	int AXNodePosition::AnchorUnignoredChildCount() const {
	if (!GetAnchor())
	return 0;

	return static_cast<int>(GetAnchor()->GetUnignoredChildCount());
	}

	int AXNodePosition::AnchorIndexInParent() const {
	return GetAnchor() ? int{GetAnchor()->index_in_parent()} : INVALID_INDEX;
	}

	base::stack<AXNode*> AXNodePosition::GetAncestorAnchors() const {
	base::stack<AXNode*> anchors;
	AXNode* current_anchor = GetAnchor();

	AXNode::AXID current_anchor_id = GetAnchor()->id();
	AXTreeID current_tree_id = tree_id();

	AXNode::AXID parent_anchor_id = AXNode::kInvalidAXID;
	AXTreeID parent_tree_id = AXTreeIDUnknown();

	while (current_anchor) {
	anchors.push(current_anchor);
	current_anchor = GetParent(
	current_anchor /child/, current_tree_id /child_tree_id/,
	&parent_tree_id /parent_tree_id/, &parent_anchor_id /parent_id/);

	current_anchor_id = parent_anchor_id;
	current_tree_id = parent_tree_id;
	}
	return anchors;
	}

	AXNode* AXNodePosition::GetLowestUnignoredAncestor() const {
	if (!GetAnchor())
	return nullptr;

	return GetAnchor()->GetUnignoredParent();
	}

	void AXNodePosition::AnchorParent(AXTreeID* tree_id,
	AXNode::AXID* parent_id) const {
	DCHECK(tree_id);
	DCHECK(parent_id);

	*tree_id = AXTreeIDUnknown();
	*parent_id = AXNode::kInvalidAXID;

	if (!GetAnchor())
	return;

	AXNode* parent =
	GetParent(GetAnchor() /child/, this->tree_id() /child_tree_id/,
	tree_id /parent_tree_id/, parent_id /parent_id/);

	if (!parent) {
	*tree_id = AXTreeIDUnknown();
	*parent_id = AXNode::kInvalidAXID;
	}
	}

	AXNode* AXNodePosition::GetNodeInTree(AXTreeID tree_id,
	AXNode::AXID node_id) const {
	if (node_id == AXNode::kInvalidAXID)
	return nullptr;

	AXTreeManager* manager = AXTreeManagerMap::GetInstance().GetManager(tree_id);
	if (manager)
	return manager->GetNodeFromTree(tree_id, node_id);

	return nullptr;
	}

	AXNode::AXID AXNodePosition::GetAnchorID(AXNode* node) const {
	return node->id();
	}

	AXTreeID AXNodePosition::GetTreeID(AXNode* node) const {
	return node->tree()->GetAXTreeID();
	}

	base::string16 AXNodePosition::GetText() const {
	if (IsNullPosition())
	return {};

	base::string16 text;
	if (IsEmptyObjectReplacedByCharacter()) {
	text += kEmbeddedCharacter;
	return text;
	}

	const AXNode* anchor = GetAnchor();
	DCHECK(anchor);
	// TODO(nektar): Replace with PlatformChildCount when AXNodePosition and
	// BrowserAccessibilityPosition are merged into one class.
	if (!AnchorChildCount()) {
	// Special case: Allows us to get text even in non-web content, e.g. in the
	// browser's UI.
	text =
	anchor->data().GetString16Attribute(ax::mojom::StringAttribute::kValue);
	if (!text.empty())
	return text;
	}

	if (anchor->IsText()) {
	return anchor->data().GetString16Attribute(
	ax::mojom::StringAttribute::kName);
	}

	for (int i = 0; i < AnchorChildCount(); ++i)
	text += CreateChildPositionAt(i)->GetText();

	return text;
	}

	bool AXNodePosition::IsInLineBreak() const {
	if (IsNullPosition())
	return false;
	DCHECK(GetAnchor());
	return GetAnchor()->IsLineBreak();
	}

	bool AXNodePosition::IsInTextObject() const {
	if (IsNullPosition())
	return false;
	DCHECK(GetAnchor());
	return GetAnchor()->IsText();
	}

	bool AXNodePosition::IsInWhiteSpace() const {
	if (IsNullPosition())
	return false;
	DCHECK(GetAnchor());
	return GetAnchor()->IsLineBreak() \|\|
	base::ContainsOnlyChars(GetText(), base::kWhitespaceUTF16);
	}

	// This override is an optimized version AXPosition::MaxTextOffset. Instead of
	// concatenating the strings in GetText() to then get their text length, we sum
	// the lengths of the individual strings. This is faster than concatenating the
	// strings first and then taking their length, especially when the process
	// is recursive.
	int AXNodePosition::MaxTextOffset() const {
	if (IsNullPosition())
	return INVALID_OFFSET;

	if (IsEmptyObjectReplacedByCharacter())
	return 1;

	const AXNode* anchor = GetAnchor();
	DCHECK(anchor);
	// TODO(nektar): Replace with PlatformChildCount when AXNodePosition and
	// BrowserAccessibilityPosition will make one.
	if (!AnchorChildCount()) {
	base::string16 value =
	anchor->data().GetString16Attribute(ax::mojom::StringAttribute::kValue);
	if (!value.empty())
	return value.length();
	}

	if (anchor->IsText()) {
	return anchor->data()
	.GetString16Attribute(ax::mojom::StringAttribute::kName)
	.length();
	}

	int text_length = 0;
	for (int i = 0; i < AnchorChildCount(); ++i)
	text_length += CreateChildPositionAt(i)->MaxTextOffset();

	return text_length;
	}

	bool AXNodePosition::IsInLineBreakingObject() const {
	if (IsNullPosition())
	return false;
	DCHECK(GetAnchor());
	return GetAnchor()->data().GetBoolAttribute(
	ax::mojom::BoolAttribute::kIsLineBreakingObject) &&
	!GetAnchor()->IsInListMarker();
	}

	ax::mojom::Role AXNodePosition::GetRole() const {
	if (IsNullPosition())
	return ax::mojom::Role::kNone;
	DCHECK(GetAnchor());
	return GetAnchor()->data().role;
	}

	AXNodeTextStyles AXNodePosition::GetTextStyles() const {
	// Check either the current anchor or its parent for text styles.
	AXNodeTextStyles current_anchor_text_styles =
	!IsNullPosition() ? GetAnchor()->data().GetTextStyles()
	: AXNodeTextStyles();
	if (current_anchor_text_styles.IsUnset()) {
	AXPositionInstance parent = CreateParentPosition();
	if (!parent->IsNullPosition())
	return parent->GetAnchor()->data().GetTextStyles();
	}
	return current_anchor_text_styles;
	}

	std::vector<int32_t> AXNodePosition::GetWordStartOffsets() const {
	if (IsNullPosition())
	return std::vector<int32_t>();
	DCHECK(GetAnchor());

	// Embedded object replacement characters are not represented in \|kWordStarts\|
	// attribute.
	if (IsEmptyObjectReplacedByCharacter())
	return {0};

	return GetAnchor()->data().GetIntListAttribute(
	ax::mojom::IntListAttribute::kWordStarts);
	}

	std::vector<int32_t> AXNodePosition::GetWordEndOffsets() const {
	if (IsNullPosition())
	return std::vector<int32_t>();
	DCHECK(GetAnchor());

	// Embedded object replacement characters are not represented in \|kWordEnds\|
	// attribute. Since the whole text exposed inside of an embedded object is of
	// length 1 (the embedded object replacement character), the word end offset
	// is positioned at 1. Because we want to treat the embedded object
	// replacement characters as ordinary characters, it wouldn't be consistent to
	// assume they have no length and return 0 instead of 1.
	if (IsEmptyObjectReplacedByCharacter())
	return {1};

	return GetAnchor()->data().GetIntListAttribute(
	ax::mojom::IntListAttribute::kWordEnds);
	}

	AXNode::AXID AXNodePosition::GetNextOnLineID(AXNode::AXID node_id) const {
	if (IsNullPosition())
	return AXNode::kInvalidAXID;
	AXNode* node = GetNodeInTree(tree_id(), node_id);
	int next_on_line_id;
	if (!node \|\| !node->data().GetIntAttribute(
	ax::mojom::IntAttribute::kNextOnLineId, &next_on_line_id)) {
	return AXNode::kInvalidAXID;
	}
	return static_cast<AXNode::AXID>(next_on_line_id);
	}

	AXNode::AXID AXNodePosition::GetPreviousOnLineID(AXNode::AXID node_id) const {
	if (IsNullPosition())
	return AXNode::kInvalidAXID;
	AXNode* node = GetNodeInTree(tree_id(), node_id);
	int previous_on_line_id;
	if (!node \|\|
	!node->data().GetIntAttribute(ax::mojom::IntAttribute::kPreviousOnLineId,
	&previous_on_line_id)) {
	return AXNode::kInvalidAXID;
	}
	return static_cast<AXNode::AXID>(previous_on_line_id);
	}

	AXNode* AXNodePosition::GetParent(AXNode* child,
	AXTreeID child_tree_id,
	AXTreeID* parent_tree_id,
	AXNode::AXID* parent_id) {
	DCHECK(parent_tree_id);
	DCHECK(parent_id);

	*parent_tree_id = AXTreeIDUnknown();
	*parent_id = AXNode::kInvalidAXID;

	if (!child)
	return nullptr;

	AXNode* parent = child->parent();
	*parent_tree_id = child_tree_id;

	if (!parent) {
	AXTreeManager* manager =
	AXTreeManagerMap::GetInstance().GetManager(child_tree_id);
	if (manager) {
	parent = manager->GetParentNodeFromParentTreeAsAXNode();
	*parent_tree_id = manager->GetParentTreeID();
	}
	}

	if (!parent) {
	*parent_tree_id = AXTreeIDUnknown();
	return parent;
	}

	*parent_id = parent->id();
	return parent;
	}

	} // namespace ui