// Copyright (c) 2012 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 "content/browser/accessibility/browser_accessibility_manager.h" #include #include "base/logging.h" #include "build/build_config.h" #include "content/browser/accessibility/browser_accessibility.h" #include "content/common/accessibility_messages.h" #include "ui/accessibility/ax_tree_serializer.h" namespace content { namespace { // Search the tree recursively from |node| and return any node that has // a child tree ID of |ax_tree_id|. BrowserAccessibility* FindNodeWithChildTreeId(BrowserAccessibility* node, int ax_tree_id) { if (!node) return nullptr; if (node->GetIntAttribute(ui::AX_ATTR_CHILD_TREE_ID) == ax_tree_id) return node; for (unsigned int i = 0; i < node->InternalChildCount(); ++i) { BrowserAccessibility* child = node->InternalGetChild(i); BrowserAccessibility* result = FindNodeWithChildTreeId(child, ax_tree_id); if (result) return result; } return nullptr; } } // namespace // Map from AXTreeID to BrowserAccessibilityManager using AXTreeIDMap = base::hash_map; base::LazyInstance g_ax_tree_id_map = LAZY_INSTANCE_INITIALIZER; // A function to call when focus changes, for testing only. base::LazyInstance g_focus_change_callback_for_testing = LAZY_INSTANCE_INITIALIZER; ui::AXTreeUpdate MakeAXTreeUpdate( const ui::AXNodeData& node1, const ui::AXNodeData& node2 /* = ui::AXNodeData() */, const ui::AXNodeData& node3 /* = ui::AXNodeData() */, const ui::AXNodeData& node4 /* = ui::AXNodeData() */, const ui::AXNodeData& node5 /* = ui::AXNodeData() */, const ui::AXNodeData& node6 /* = ui::AXNodeData() */, const ui::AXNodeData& node7 /* = ui::AXNodeData() */, const ui::AXNodeData& node8 /* = ui::AXNodeData() */, const ui::AXNodeData& node9 /* = ui::AXNodeData() */, const ui::AXNodeData& node10 /* = ui::AXNodeData() */, const ui::AXNodeData& node11 /* = ui::AXNodeData() */, const ui::AXNodeData& node12 /* = ui::AXNodeData() */) { CR_DEFINE_STATIC_LOCAL(ui::AXNodeData, empty_data, ()); int32_t no_id = empty_data.id; ui::AXTreeUpdate update; update.root_id = node1.id; update.nodes.push_back(node1); if (node2.id != no_id) update.nodes.push_back(node2); if (node3.id != no_id) update.nodes.push_back(node3); if (node4.id != no_id) update.nodes.push_back(node4); if (node5.id != no_id) update.nodes.push_back(node5); if (node6.id != no_id) update.nodes.push_back(node6); if (node7.id != no_id) update.nodes.push_back(node7); if (node8.id != no_id) update.nodes.push_back(node8); if (node9.id != no_id) update.nodes.push_back(node9); if (node10.id != no_id) update.nodes.push_back(node10); if (node11.id != no_id) update.nodes.push_back(node11); if (node12.id != no_id) update.nodes.push_back(node12); return update; } BrowserAccessibility* BrowserAccessibilityFactory::Create() { #if defined(TOOLKIT_QT) return nullptr; #else return BrowserAccessibility::Create(); #endif } BrowserAccessibilityFindInPageInfo::BrowserAccessibilityFindInPageInfo() : request_id(-1), match_index(-1), start_id(-1), start_offset(0), end_id(-1), end_offset(-1), active_request_id(-1) {} #if !defined(PLATFORM_HAS_NATIVE_ACCESSIBILITY_IMPL) // static BrowserAccessibilityManager* BrowserAccessibilityManager::Create( const ui::AXTreeUpdate& initial_tree, BrowserAccessibilityDelegate* delegate, BrowserAccessibilityFactory* factory) { return new BrowserAccessibilityManager(initial_tree, delegate, factory); } #endif // static BrowserAccessibilityManager* BrowserAccessibilityManager::FromID( AXTreeIDRegistry::AXTreeID ax_tree_id) { AXTreeIDMap* ax_tree_id_map = g_ax_tree_id_map.Pointer(); auto iter = ax_tree_id_map->find(ax_tree_id); return iter == ax_tree_id_map->end() ? nullptr : iter->second; } BrowserAccessibilityManager::BrowserAccessibilityManager( BrowserAccessibilityDelegate* delegate, BrowserAccessibilityFactory* factory) : delegate_(delegate), factory_(factory), tree_(new ui::AXSerializableTree()), user_is_navigating_away_(false), osk_state_(OSK_ALLOWED), last_focused_node_(nullptr), last_focused_manager_(nullptr), connected_to_parent_tree_node_(false), ax_tree_id_(AXTreeIDRegistry::kNoAXTreeID), parent_node_id_from_parent_tree_(0) { tree_->SetDelegate(this); } BrowserAccessibilityManager::BrowserAccessibilityManager( const ui::AXTreeUpdate& initial_tree, BrowserAccessibilityDelegate* delegate, BrowserAccessibilityFactory* factory) : delegate_(delegate), factory_(factory), tree_(new ui::AXSerializableTree()), user_is_navigating_away_(false), osk_state_(OSK_ALLOWED), last_focused_node_(nullptr), last_focused_manager_(nullptr), ax_tree_id_(AXTreeIDRegistry::kNoAXTreeID), parent_node_id_from_parent_tree_(0) { tree_->SetDelegate(this); Initialize(initial_tree); } BrowserAccessibilityManager::~BrowserAccessibilityManager() { tree_.reset(NULL); g_ax_tree_id_map.Get().erase(ax_tree_id_); } void BrowserAccessibilityManager::Initialize( const ui::AXTreeUpdate& initial_tree) { if (!tree_->Unserialize(initial_tree)) { if (delegate_) { LOG(ERROR) << tree_->error(); delegate_->AccessibilityFatalError(); } else { LOG(FATAL) << tree_->error(); } } } // static ui::AXTreeUpdate BrowserAccessibilityManager::GetEmptyDocument() { ui::AXNodeData empty_document; empty_document.id = 0; empty_document.role = ui::AX_ROLE_ROOT_WEB_AREA; ui::AXTreeUpdate update; update.nodes.push_back(empty_document); return update; } void BrowserAccessibilityManager::NotifyAccessibilityEvent( BrowserAccessibilityEvent::Source source, ui::AXEvent event_type, BrowserAccessibility* node) { BrowserAccessibilityEvent::Create(source, event_type, node)->Fire(); } void BrowserAccessibilityManager::FireFocusEventsIfNeeded( BrowserAccessibilityEvent::Source source) { BrowserAccessibility* focus = GetFocus(); // Don't fire focus events if the window itself doesn't have focus. // Bypass this check if a global focus listener was set up for testing // so that the test passes whether the window is active or not. if (g_focus_change_callback_for_testing.Get().is_null()) { if (delegate_ && !delegate_->AccessibilityViewHasFocus()) focus = nullptr; if (!CanFireEvents()) focus = nullptr; } // Don't allow the document to be focused if it has no children and // hasn't finished loading yet. Wait for at least a tiny bit of content, // or for the document to actually finish loading. if (focus && focus == focus->manager()->GetRoot() && focus->PlatformChildCount() == 0 && !focus->HasState(ui::AX_STATE_BUSY) && !focus->manager()->GetTreeData().loaded) { focus = nullptr; } if (focus && focus != last_focused_node_) FireFocusEvent(source, focus); last_focused_node_ = focus; last_focused_manager_ = focus ? focus->manager() : nullptr; } bool BrowserAccessibilityManager::CanFireEvents() { return true; } void BrowserAccessibilityManager::FireFocusEvent( BrowserAccessibilityEvent::Source source, BrowserAccessibility* node) { NotifyAccessibilityEvent(source, ui::AX_EVENT_FOCUS, node); if (!g_focus_change_callback_for_testing.Get().is_null()) g_focus_change_callback_for_testing.Get().Run(); } BrowserAccessibility* BrowserAccessibilityManager::GetRoot() { // tree_ can be null during destruction. if (!tree_) return nullptr; // tree_->root() can be null during AXTreeDelegate callbacks. ui::AXNode* root = tree_->root(); return root ? GetFromAXNode(root) : nullptr; } BrowserAccessibility* BrowserAccessibilityManager::GetFromAXNode( const ui::AXNode* node) const { if (!node) return nullptr; return GetFromID(node->id()); } BrowserAccessibility* BrowserAccessibilityManager::GetFromID(int32_t id) const { const auto iter = id_wrapper_map_.find(id); if (iter != id_wrapper_map_.end()) return iter->second; return nullptr; } BrowserAccessibility* BrowserAccessibilityManager::GetParentNodeFromParentTree() { if (!GetRoot()) return nullptr; int parent_tree_id = GetTreeData().parent_tree_id; BrowserAccessibilityManager* parent_manager = BrowserAccessibilityManager::FromID(parent_tree_id); if (!parent_manager) return nullptr; // Try to use the cached parent node from the most recent time this // was called. if (parent_node_id_from_parent_tree_) { BrowserAccessibility* parent_node = parent_manager->GetFromID( parent_node_id_from_parent_tree_); if (parent_node) { int parent_child_tree_id = parent_node->GetIntAttribute(ui::AX_ATTR_CHILD_TREE_ID); if (parent_child_tree_id == ax_tree_id_) return parent_node; } } // If that fails, search for it and cache it for next time. BrowserAccessibility* parent_node = FindNodeWithChildTreeId( parent_manager->GetRoot(), ax_tree_id_); if (parent_node) { parent_node_id_from_parent_tree_ = parent_node->GetId(); return parent_node; } return nullptr; } const ui::AXTreeData& BrowserAccessibilityManager::GetTreeData() { return tree_->data(); } void BrowserAccessibilityManager::OnWindowFocused() { if (this == GetRootManager()) FireFocusEventsIfNeeded(BrowserAccessibilityEvent::FromWindowFocusChange); } void BrowserAccessibilityManager::OnWindowBlurred() { if (this == GetRootManager()) { last_focused_node_ = nullptr; last_focused_manager_ = nullptr; } } void BrowserAccessibilityManager::UserIsNavigatingAway() { user_is_navigating_away_ = true; } void BrowserAccessibilityManager::UserIsReloading() { user_is_navigating_away_ = true; } void BrowserAccessibilityManager::NavigationSucceeded() { user_is_navigating_away_ = false; } void BrowserAccessibilityManager::NavigationFailed() { user_is_navigating_away_ = false; } bool BrowserAccessibilityManager::UseRootScrollOffsetsWhenComputingBounds() { return true; } void BrowserAccessibilityManager::OnAccessibilityEvents( const std::vector& details) { // Process all changes to the accessibility tree first. for (uint32_t index = 0; index < details.size(); ++index) { const AXEventNotificationDetails& detail = details[index]; if (!tree_->Unserialize(detail.update)) { if (delegate_) { LOG(ERROR) << tree_->error(); delegate_->AccessibilityFatalError(); } else { CHECK(false) << tree_->error(); } return; } } // If the root's parent is in another accessibility tree but it wasn't // previously connected, post the proper notifications on the parent. BrowserAccessibility* parent = GetParentNodeFromParentTree(); if (parent) { if (!connected_to_parent_tree_node_) { parent->OnDataChanged(); parent->UpdatePlatformAttributes(); NotifyAccessibilityEvent( BrowserAccessibilityEvent::FromChildFrameLoading, ui::AX_EVENT_CHILDREN_CHANGED, parent); connected_to_parent_tree_node_ = true; } } else { connected_to_parent_tree_node_ = false; } // Based on the changes to the tree, first fire focus events if needed. // Screen readers might not do the right thing if they're not aware of what // has focus, so always try that first. Nothing will be fired if the window // itself isn't focused or if focus hasn't changed. GetRootManager()->FireFocusEventsIfNeeded( BrowserAccessibilityEvent::FromBlink); // Now iterate over the events again and fire the events other than focus // events. for (uint32_t index = 0; index < details.size(); index++) { const AXEventNotificationDetails& detail = details[index]; // Find the node corresponding to the id that's the target of the // event (which may not be the root of the update tree). ui::AXNode* node = tree_->GetFromId(detail.id); if (!node) continue; ui::AXEvent event_type = detail.event_type; if (event_type == ui::AX_EVENT_FOCUS || event_type == ui::AX_EVENT_BLUR) { if (osk_state_ != OSK_DISALLOWED_BECAUSE_TAB_HIDDEN && osk_state_ != OSK_DISALLOWED_BECAUSE_TAB_JUST_APPEARED) { osk_state_ = OSK_ALLOWED; } // We already handled all focus events above. continue; } // Fire the native event. BrowserAccessibility* event_target = GetFromAXNode(node); if (event_target) { if (event_type == ui::AX_EVENT_HOVER) GetRootManager()->CacheHitTestResult(event_target); NotifyAccessibilityEvent( BrowserAccessibilityEvent::FromBlink, event_type, event_target); } } } void BrowserAccessibilityManager::OnLocationChanges( const std::vector& params) { for (size_t i = 0; i < params.size(); ++i) { BrowserAccessibility* obj = GetFromID(params[i].id); if (!obj) continue; ui::AXNode* node = obj->node(); node->SetLocation(params[i].new_location.offset_container_id, params[i].new_location.bounds, params[i].new_location.transform.get()); } SendLocationChangeEvents(params); } void BrowserAccessibilityManager::SendLocationChangeEvents( const std::vector& params) { for (size_t i = 0; i < params.size(); ++i) { BrowserAccessibility* obj = GetFromID(params[i].id); if (obj) obj->OnLocationChanged(); } } void BrowserAccessibilityManager::OnFindInPageResult( int request_id, int match_index, int start_id, int start_offset, int end_id, int end_offset) { find_in_page_info_.request_id = request_id; find_in_page_info_.match_index = match_index; find_in_page_info_.start_id = start_id; find_in_page_info_.start_offset = start_offset; find_in_page_info_.end_id = end_id; find_in_page_info_.end_offset = end_offset; if (find_in_page_info_.active_request_id == request_id) ActivateFindInPageResult(request_id); } void BrowserAccessibilityManager::OnChildFrameHitTestResult( const gfx::Point& point, int hit_obj_id) { BrowserAccessibility* obj = GetFromID(hit_obj_id); if (!obj || !obj->HasIntAttribute(ui::AX_ATTR_CHILD_TREE_ID)) return; BrowserAccessibilityManager* child_manager = BrowserAccessibilityManager::FromID( obj->GetIntAttribute(ui::AX_ATTR_CHILD_TREE_ID)); if (!child_manager || !child_manager->delegate()) return; ui::AXActionData action_data; action_data.target_point = point; action_data.action = ui::AX_ACTION_HIT_TEST; return child_manager->delegate()->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::ActivateFindInPageResult( int request_id) { find_in_page_info_.active_request_id = request_id; if (find_in_page_info_.request_id != request_id) return; BrowserAccessibility* node = GetFromID(find_in_page_info_.start_id); if (!node) return; // If an ancestor of this node is a leaf node, fire the notification on that. node = node->GetClosestPlatformObject(); // The "scrolled to anchor" notification is a great way to get a // screen reader to jump directly to a specific location in a document. NotifyAccessibilityEvent( BrowserAccessibilityEvent::FromFindInPageResult, ui::AX_EVENT_SCROLLED_TO_ANCHOR, node); } BrowserAccessibility* BrowserAccessibilityManager::GetActiveDescendant( BrowserAccessibility* focus) { if (!focus) return nullptr; int32_t active_descendant_id; BrowserAccessibility* active_descendant = nullptr; if (focus->GetIntAttribute(ui::AX_ATTR_ACTIVEDESCENDANT_ID, &active_descendant_id)) { active_descendant = focus->manager()->GetFromID(active_descendant_id); } if (focus->GetRole() == ui::AX_ROLE_POP_UP_BUTTON) { BrowserAccessibility* child = focus->InternalGetChild(0); if (child && child->GetRole() == ui::AX_ROLE_MENU_LIST_POPUP) { // The active descendant is found on the menu list popup, i.e. on the // actual list and not on the button that opens it. // If there is no active descendant, focus should stay on the button so // that Windows screen readers would enable their virtual cursor. if (child->GetIntAttribute(ui::AX_ATTR_ACTIVEDESCENDANT_ID, &active_descendant_id)) { active_descendant = child->manager()->GetFromID(active_descendant_id); } } } if (active_descendant) return active_descendant; return focus; } bool BrowserAccessibilityManager::NativeViewHasFocus() { BrowserAccessibilityDelegate* delegate = GetDelegateFromRootManager(); return delegate && delegate->AccessibilityViewHasFocus(); } BrowserAccessibility* BrowserAccessibilityManager::GetFocus() { BrowserAccessibilityManager* root_manager = GetRootManager(); if (!root_manager) root_manager = this; int32_t focused_tree_id = root_manager->GetTreeData().focused_tree_id; BrowserAccessibilityManager* focused_manager = nullptr; if (focused_tree_id) focused_manager = BrowserAccessibilityManager::FromID(focused_tree_id); // BrowserAccessibilityManager::FromID(focused_tree_id) may return nullptr // if the tree is not created or has been destroyed. if (!focused_manager) focused_manager = root_manager; return focused_manager->GetFocusFromThisOrDescendantFrame(); } BrowserAccessibility* BrowserAccessibilityManager::GetFocusFromThisOrDescendantFrame() { int32_t focus_id = GetTreeData().focus_id; BrowserAccessibility* obj = GetFromID(focus_id); if (!obj) return GetRoot(); if (obj->HasIntAttribute(ui::AX_ATTR_CHILD_TREE_ID)) { BrowserAccessibilityManager* child_manager = BrowserAccessibilityManager::FromID( obj->GetIntAttribute(ui::AX_ATTR_CHILD_TREE_ID)); if (child_manager) return child_manager->GetFocusFromThisOrDescendantFrame(); } return obj; } void BrowserAccessibilityManager::SetFocus(const BrowserAccessibility& node) { if (!delegate_) return; ui::AXActionData action_data; action_data.action = ui::AX_ACTION_SET_FOCUS; action_data.target_node_id = node.GetId(); delegate_->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::SetFocusLocallyForTesting( BrowserAccessibility* node) { ui::AXTreeData data = GetTreeData(); data.focus_id = node->GetId(); tree_->UpdateData(data); } // static void BrowserAccessibilityManager::SetFocusChangeCallbackForTesting( const base::Closure& callback) { g_focus_change_callback_for_testing.Get() = callback; } void BrowserAccessibilityManager::Decrement( const BrowserAccessibility& node) { if (!delegate_) return; ui::AXActionData action_data; action_data.action = ui::AX_ACTION_DECREMENT; action_data.target_node_id = node.GetId(); delegate_->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::DoDefaultAction( const BrowserAccessibility& node) { if (!delegate_) return; ui::AXActionData action_data; action_data.action = ui::AX_ACTION_DO_DEFAULT; action_data.target_node_id = node.GetId(); delegate_->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::Increment( const BrowserAccessibility& node) { if (!delegate_) return; ui::AXActionData action_data; action_data.action = ui::AX_ACTION_INCREMENT; action_data.target_node_id = node.GetId(); delegate_->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::ShowContextMenu( const BrowserAccessibility& node) { if (!delegate_) return; ui::AXActionData action_data; action_data.action = ui::AX_ACTION_SHOW_CONTEXT_MENU; action_data.target_node_id = node.GetId(); delegate_->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::ScrollToMakeVisible( const BrowserAccessibility& node, gfx::Rect subfocus) { if (!delegate_) return; ui::AXActionData action_data; action_data.target_node_id = node.GetId(); action_data.action = ui::AX_ACTION_SCROLL_TO_MAKE_VISIBLE; action_data.target_rect = subfocus; delegate_->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::ScrollToPoint( const BrowserAccessibility& node, gfx::Point point) { if (!delegate_) return; ui::AXActionData action_data; action_data.target_node_id = node.GetId(); action_data.action = ui::AX_ACTION_SCROLL_TO_POINT; action_data.target_point = point; delegate_->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::SetScrollOffset( const BrowserAccessibility& node, gfx::Point offset) { if (!delegate_) return; ui::AXActionData action_data; action_data.target_node_id = node.GetId(); action_data.action = ui::AX_ACTION_SET_SCROLL_OFFSET; action_data.target_point = offset; delegate_->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::SetValue( const BrowserAccessibility& node, const base::string16& value) { if (!delegate_) return; ui::AXActionData action_data; action_data.target_node_id = node.GetId(); action_data.action = ui::AX_ACTION_SET_VALUE; action_data.value = value; delegate_->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::SetTextSelection( const BrowserAccessibility& node, int start_offset, int end_offset) { if (!delegate_) return; ui::AXActionData action_data; action_data.anchor_node_id = node.GetId(); action_data.anchor_offset = start_offset; action_data.focus_node_id = node.GetId(); action_data.focus_offset = end_offset; action_data.action = ui::AX_ACTION_SET_SELECTION; delegate_->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::SetAccessibilityFocus( const BrowserAccessibility& node) { if (!delegate_) return; ui::AXActionData action_data; action_data.action = ui::AX_ACTION_SET_ACCESSIBILITY_FOCUS; action_data.target_node_id = node.GetId(); delegate_->AccessibilityPerformAction(action_data); } void BrowserAccessibilityManager::HitTest(const gfx::Point& point) { if (!delegate_) return; ui::AXActionData action_data; action_data.action = ui::AX_ACTION_HIT_TEST; action_data.target_point = point; delegate_->AccessibilityPerformAction(action_data); } gfx::Rect BrowserAccessibilityManager::GetViewBounds() { BrowserAccessibilityDelegate* delegate = GetDelegateFromRootManager(); if (delegate) return delegate->AccessibilityGetViewBounds(); return gfx::Rect(); } // static // Next object in tree using depth-first pre-order traversal. BrowserAccessibility* BrowserAccessibilityManager::NextInTreeOrder( const BrowserAccessibility* object) { if (!object) return nullptr; if (object->PlatformChildCount()) return object->PlatformGetChild(0); while (object) { BrowserAccessibility* sibling = object->GetNextSibling(); if (sibling) return sibling; object = object->GetParent(); } return nullptr; } // static // Previous object in tree using depth-first pre-order traversal. BrowserAccessibility* BrowserAccessibilityManager::PreviousInTreeOrder( const BrowserAccessibility* object) { if (!object) return nullptr; BrowserAccessibility* sibling = object->GetPreviousSibling(); if (!sibling) return object->GetParent(); if (sibling->PlatformChildCount()) return sibling->PlatformDeepestLastChild(); return sibling; } // static BrowserAccessibility* BrowserAccessibilityManager::PreviousTextOnlyObject( const BrowserAccessibility* object) { BrowserAccessibility* previous_object = PreviousInTreeOrder(object); while (previous_object && !previous_object->IsTextOnlyObject()) previous_object = PreviousInTreeOrder(previous_object); return previous_object; } // static BrowserAccessibility* BrowserAccessibilityManager::NextTextOnlyObject( const BrowserAccessibility* object) { BrowserAccessibility* next_object = NextInTreeOrder(object); while (next_object && !next_object->IsTextOnlyObject()) next_object = NextInTreeOrder(next_object); return next_object; } // static bool BrowserAccessibilityManager::FindIndicesInCommonParent( const BrowserAccessibility& object1, const BrowserAccessibility& object2, BrowserAccessibility** common_parent, int* child_index1, int* child_index2) { DCHECK(common_parent && child_index1 && child_index2); auto* ancestor1 = const_cast(&object1); auto* ancestor2 = const_cast(&object2); do { *child_index1 = ancestor1->GetIndexInParent(); ancestor1 = ancestor1->GetParent(); } while ( ancestor1 && // |BrowserAccessibility::IsAncestorOf| returns true if objects are equal. (ancestor1 == ancestor2 || !ancestor2->IsDescendantOf(ancestor1))); if (!ancestor1) { *common_parent = nullptr; *child_index1 = -1; *child_index2 = -1; return false; } do { *child_index2 = ancestor2->GetIndexInParent(); ancestor2 = ancestor2->GetParent(); } while (ancestor1 != ancestor2); *common_parent = ancestor1; return true; } // static ui::AXTreeOrder BrowserAccessibilityManager::CompareNodes( const BrowserAccessibility& object1, const BrowserAccessibility& object2) { if (&object1 == &object2) return ui::AX_TREE_ORDER_EQUAL; BrowserAccessibility* common_parent; int child_index1; int child_index2; if (FindIndicesInCommonParent( object1, object2, &common_parent, &child_index1, &child_index2)) { if (child_index1 < child_index2) return ui::AX_TREE_ORDER_BEFORE; if (child_index1 > child_index2) return ui::AX_TREE_ORDER_AFTER; } if (object2.IsDescendantOf(&object1)) return ui::AX_TREE_ORDER_BEFORE; if (object1.IsDescendantOf(&object2)) return ui::AX_TREE_ORDER_AFTER; return ui::AX_TREE_ORDER_UNDEFINED; } std::vector BrowserAccessibilityManager::FindTextOnlyObjectsInRange( const BrowserAccessibility& start_object, const BrowserAccessibility& end_object) { std::vector text_only_objects; int child_index1 = -1; int child_index2 = -1; if (&start_object != &end_object) { BrowserAccessibility* common_parent; if (!FindIndicesInCommonParent(start_object, end_object, &common_parent, &child_index1, &child_index2)) { return text_only_objects; } DCHECK(common_parent); DCHECK_GE(child_index1, 0); DCHECK_GE(child_index2, 0); // If the child indices are equal, one object is a descendant of the other. DCHECK(child_index1 != child_index2 || start_object.IsDescendantOf(&end_object) || end_object.IsDescendantOf(&start_object)); } const BrowserAccessibility* start_text_object = nullptr; const BrowserAccessibility* end_text_object = nullptr; if (&start_object == &end_object && start_object.IsSimpleTextControl()) { // We need to get to the shadow DOM that is inside the text control in order // to find the text-only objects. if (!start_object.InternalChildCount()) return text_only_objects; start_text_object = start_object.InternalGetChild(0); end_text_object = start_object.InternalGetChild(start_object.InternalChildCount() - 1); } else if (child_index1 <= child_index2 || end_object.IsDescendantOf(&start_object)) { start_text_object = &start_object; end_text_object = &end_object; } else if (child_index1 > child_index2 || start_object.IsDescendantOf(&end_object)) { start_text_object = &end_object; end_text_object = &start_object; } // Pre-order traversal might leave some text-only objects behind if we don't // start from the deepest children of the end object. if (!end_text_object->PlatformIsLeaf()) end_text_object = end_text_object->PlatformDeepestLastChild(); if (!start_text_object->IsTextOnlyObject()) start_text_object = NextTextOnlyObject(start_text_object); if (!end_text_object->IsTextOnlyObject()) end_text_object = PreviousTextOnlyObject(end_text_object); if (!start_text_object || !end_text_object) return text_only_objects; while (start_text_object && start_text_object != end_text_object) { text_only_objects.push_back(start_text_object); start_text_object = NextTextOnlyObject(start_text_object); } text_only_objects.push_back(end_text_object); return text_only_objects; } // static base::string16 BrowserAccessibilityManager::GetTextForRange( const BrowserAccessibility& start_object, const BrowserAccessibility& end_object) { return GetTextForRange(start_object, 0, end_object, end_object.GetText().length()); } // static base::string16 BrowserAccessibilityManager::GetTextForRange( const BrowserAccessibility& start_object, int start_offset, const BrowserAccessibility& end_object, int end_offset) { DCHECK_GE(start_offset, 0); DCHECK_GE(end_offset, 0); if (&start_object == &end_object && start_object.IsSimpleTextControl()) { if (start_offset > end_offset) std::swap(start_offset, end_offset); if (start_offset >= static_cast(start_object.GetText().length()) || end_offset > static_cast(start_object.GetText().length())) { return base::string16(); } return start_object.GetText().substr(start_offset, end_offset - start_offset); } std::vector text_only_objects = FindTextOnlyObjectsInRange(start_object, end_object); if (text_only_objects.empty()) return base::string16(); if (text_only_objects.size() == 1) { // Be a little permissive with the start and end offsets. if (start_offset > end_offset) std::swap(start_offset, end_offset); const BrowserAccessibility* text_object = text_only_objects[0]; if (start_offset < static_cast(text_object->GetText().length()) && end_offset <= static_cast(text_object->GetText().length())) { return text_object->GetText().substr(start_offset, end_offset - start_offset); } return text_object->GetText(); } base::string16 text; const BrowserAccessibility* start_text_object = text_only_objects[0]; // Figure out if the start and end positions have been reversed. const BrowserAccessibility* first_object = &start_object; if (!first_object->IsTextOnlyObject()) first_object = NextTextOnlyObject(first_object); if (!first_object || first_object != start_text_object) std::swap(start_offset, end_offset); if (start_offset < static_cast(start_text_object->GetText().length())) { text += start_text_object->GetText().substr(start_offset); } else { text += start_text_object->GetText(); } for (size_t i = 1; i < text_only_objects.size() - 1; ++i) { text += text_only_objects[i]->GetText(); } const BrowserAccessibility* end_text_object = text_only_objects.back(); if (end_offset <= static_cast(end_text_object->GetText().length())) { text += end_text_object->GetText().substr(0, end_offset); } else { text += end_text_object->GetText(); } return text; } // static gfx::Rect BrowserAccessibilityManager::GetPageBoundsForRange( const BrowserAccessibility& start_object, int start_offset, const BrowserAccessibility& end_object, int end_offset) { DCHECK_GE(start_offset, 0); DCHECK_GE(end_offset, 0); if (&start_object == &end_object && start_object.IsSimpleTextControl()) { if (start_offset > end_offset) std::swap(start_offset, end_offset); if (start_offset >= static_cast(start_object.GetText().length()) || end_offset > static_cast(start_object.GetText().length())) { return gfx::Rect(); } return start_object.GetPageBoundsForRange( start_offset, end_offset - start_offset); } gfx::Rect result; const BrowserAccessibility* first = &start_object; const BrowserAccessibility* last = &end_object; switch (CompareNodes(*first, *last)) { case ui::AX_TREE_ORDER_BEFORE: case ui::AX_TREE_ORDER_EQUAL: break; case ui::AX_TREE_ORDER_AFTER: std::swap(first, last); std::swap(start_offset, end_offset); break; default: return gfx::Rect(); } const BrowserAccessibility* current = first; do { if (current->IsTextOnlyObject()) { int len = static_cast(current->GetText().size()); int start_char_index = 0; int end_char_index = len; if (current == first) start_char_index = start_offset; if (current == last) end_char_index = end_offset; result.Union(current->GetPageBoundsForRange( start_char_index, end_char_index - start_char_index)); } else { result.Union(current->GetPageBoundsRect()); } if (current == last) break; current = NextInTreeOrder(current); } while (current); return result; } void BrowserAccessibilityManager::OnNodeDataWillChange( ui::AXTree* tree, const ui::AXNodeData& old_node_data, const ui::AXNodeData& new_node_data) {} void BrowserAccessibilityManager::OnTreeDataChanged(ui::AXTree* tree) { } void BrowserAccessibilityManager::OnNodeWillBeDeleted(ui::AXTree* tree, ui::AXNode* node) { DCHECK(node); if (id_wrapper_map_.find(node->id()) == id_wrapper_map_.end()) return; GetFromAXNode(node)->Destroy(); id_wrapper_map_.erase(node->id()); } void BrowserAccessibilityManager::OnSubtreeWillBeDeleted(ui::AXTree* tree, ui::AXNode* node) { DCHECK(node); BrowserAccessibility* obj = GetFromAXNode(node); if (obj) obj->OnSubtreeWillBeDeleted(); } void BrowserAccessibilityManager::OnNodeWillBeReparented(ui::AXTree* tree, ui::AXNode* node) { // BrowserAccessibility should probably ask the tree source for the AXNode via // an id rather than weakly holding a pointer to a AXNode that might have been // destroyed under the hood and re-created later on. Treat this as a delete to // make things work. OnNodeWillBeDeleted(tree, node); } void BrowserAccessibilityManager::OnSubtreeWillBeReparented(ui::AXTree* tree, ui::AXNode* node) { // BrowserAccessibility should probably ask the tree source for the AXNode via // an id rather than weakly holding a pointer to a AXNode that might have been // destroyed under the hood and re-created later on. Treat this as a delete to // make things work. OnSubtreeWillBeDeleted(tree, node); } void BrowserAccessibilityManager::OnNodeCreated(ui::AXTree* tree, ui::AXNode* node) { BrowserAccessibility* wrapper = factory_->Create(); wrapper->Init(this, node); id_wrapper_map_[node->id()] = wrapper; wrapper->OnDataChanged(); } void BrowserAccessibilityManager::OnNodeReparented(ui::AXTree* tree, ui::AXNode* node) { // BrowserAccessibility should probably ask the tree source for the AXNode via // an id rather than weakly holding a pointer to a AXNode that might have been // destroyed under the hood and re-created later on. Treat this as a create to // make things work. OnNodeCreated(tree, node); } void BrowserAccessibilityManager::OnNodeChanged(ui::AXTree* tree, ui::AXNode* node) { DCHECK(node); GetFromAXNode(node)->OnDataChanged(); } void BrowserAccessibilityManager::OnAtomicUpdateFinished( ui::AXTree* tree, bool root_changed, const std::vector& changes) { bool ax_tree_id_changed = false; if (GetTreeData().tree_id != -1 && GetTreeData().tree_id != ax_tree_id_) { g_ax_tree_id_map.Get().erase(ax_tree_id_); ax_tree_id_ = GetTreeData().tree_id; g_ax_tree_id_map.Get().insert(std::make_pair(ax_tree_id_, this)); ax_tree_id_changed = true; } // Whenever the tree ID or the root of this tree changes we may need to // fire an event on our parent node in the parent tree to ensure that // we're properly connected. if (ax_tree_id_changed || root_changed) connected_to_parent_tree_node_ = false; // When the root changes and this is the root manager, we may need to // fire a new focus event. if (root_changed && last_focused_manager_ == this) { last_focused_node_ = nullptr; last_focused_manager_ = nullptr; } // Notify ATs if any live regions have been created. for (auto& change : changes) { if (change.type != NODE_CREATED && change.type != SUBTREE_CREATED) continue; const ui::AXNode* created_node = change.node; DCHECK(created_node); BrowserAccessibility* object = GetFromAXNode(created_node); if (object && object->HasStringAttribute(ui::AX_ATTR_LIVE_STATUS)) { if (object->GetRole() == ui::AX_ROLE_ALERT) { NotifyAccessibilityEvent(BrowserAccessibilityEvent::FromTreeChange, ui::AX_EVENT_ALERT, object); } else { NotifyAccessibilityEvent(BrowserAccessibilityEvent::FromTreeChange, ui::AX_EVENT_LIVE_REGION_CREATED, object); } } } } BrowserAccessibilityManager* BrowserAccessibilityManager::GetRootManager() { BrowserAccessibility* parent = GetParentNodeFromParentTree(); if (!parent) return this; return parent->manager()->GetRootManager(); } BrowserAccessibilityDelegate* BrowserAccessibilityManager::GetDelegateFromRootManager() { BrowserAccessibilityManager* root_manager = GetRootManager(); if (root_manager) return root_manager->delegate(); return nullptr; } bool BrowserAccessibilityManager::IsRootTree() { return delegate() && delegate()->AccessibilityGetAcceleratedWidget(); } ui::AXTreeUpdate BrowserAccessibilityManager::SnapshotAXTreeForTesting() { std::unique_ptr< ui::AXTreeSource> tree_source(tree_->CreateTreeSource()); ui::AXTreeSerializer serializer(tree_source.get()); ui::AXTreeUpdate update; serializer.SerializeChanges(tree_->root(), &update); return update; } BrowserAccessibility* BrowserAccessibilityManager::CachingAsyncHitTest( const gfx::Point& screen_point) { BrowserAccessibilityManager* root_manager = GetRootManager(); if (root_manager && root_manager != this) return root_manager->CachingAsyncHitTest(screen_point); if (delegate()) { // This triggers an asynchronous request to compute the true object that's // under |screen_point|. HitTest(screen_point - GetViewBounds().OffsetFromOrigin()); // Unfortunately we still have to return an answer synchronously because // the APIs were designed that way. The best case scenario is that the // screen point is within the bounds of the last result we got from a // call to AccessibilityHitTest - in that case, we can return that object! if (last_hover_bounds_.Contains(screen_point)) { BrowserAccessibilityManager* manager = BrowserAccessibilityManager::FromID(last_hover_ax_tree_id_); if (manager) { BrowserAccessibility* node = manager->GetFromID(last_hover_node_id_); if (node) return node; } } } // If that test failed we have to fall back on searching the accessibility // tree locally for the best bounding box match. This is generally right // for simple pages but wrong in cases of z-index, overflow, and other // more complicated layouts. The hope is that if the user is moving the // mouse, this fallback will only be used transiently, and the asynchronous // result will be used for the next call. return GetRoot()->ApproximateHitTest(screen_point); } void BrowserAccessibilityManager::CacheHitTestResult( BrowserAccessibility* hit_test_result) { // Walk up to the highest ancestor that's a leaf node; we don't want to // return a node that's hidden from the tree. BrowserAccessibility* parent = hit_test_result->GetParent(); while (parent) { if (parent->PlatformChildCount() == 0) hit_test_result = parent; parent = parent->GetParent(); } last_hover_ax_tree_id_ = hit_test_result->manager()->ax_tree_id(); last_hover_node_id_ = hit_test_result->GetId(); last_hover_bounds_ = hit_test_result->GetScreenBoundsRect(); } } // namespace content