gecko-dev/accessible/base/NotificationController.cpp

997 строки
33 KiB
C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "NotificationController.h"
#include "DocAccessible-inl.h"
#include "DocAccessibleChild.h"
#include "nsEventShell.h"
#include "TextLeafAccessible.h"
#include "TextUpdater.h"
#include "mozilla/dom/TabChild.h"
#include "mozilla/dom/Element.h"
#include "mozilla/Telemetry.h"
using namespace mozilla;
using namespace mozilla::a11y;
using namespace mozilla::dom;
////////////////////////////////////////////////////////////////////////////////
// NotificationCollector
////////////////////////////////////////////////////////////////////////////////
NotificationController::NotificationController(DocAccessible* aDocument,
nsIPresShell* aPresShell) :
EventQueue(aDocument), mObservingState(eNotObservingRefresh),
mPresShell(aPresShell), mEventGeneration(0)
{
#ifdef DEBUG
mMoveGuardOnStack = false;
#endif
// Schedule initial accessible tree construction.
ScheduleProcessing();
}
NotificationController::~NotificationController()
{
NS_ASSERTION(!mDocument, "Controller wasn't shutdown properly!");
if (mDocument)
Shutdown();
}
////////////////////////////////////////////////////////////////////////////////
// NotificationCollector: AddRef/Release and cycle collection
NS_IMPL_CYCLE_COLLECTING_NATIVE_ADDREF(NotificationController)
NS_IMPL_CYCLE_COLLECTING_NATIVE_RELEASE(NotificationController)
NS_IMPL_CYCLE_COLLECTION_CLASS(NotificationController)
NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(NotificationController)
if (tmp->mDocument)
tmp->Shutdown();
NS_IMPL_CYCLE_COLLECTION_UNLINK_END
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(NotificationController)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mHangingChildDocuments)
for (auto it = tmp->mContentInsertions.ConstIter(); !it.Done(); it.Next()) {
NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "mContentInsertions key");
cb.NoteXPCOMChild(it.Key());
nsTArray<nsCOMPtr<nsIContent>>* list = it.UserData();
for (uint32_t i = 0; i < list->Length(); i++) {
NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb,
"mContentInsertions value item");
cb.NoteXPCOMChild(list->ElementAt(i));
}
}
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mEvents)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mRelocations)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END
NS_IMPL_CYCLE_COLLECTION_ROOT_NATIVE(NotificationController, AddRef)
NS_IMPL_CYCLE_COLLECTION_UNROOT_NATIVE(NotificationController, Release)
////////////////////////////////////////////////////////////////////////////////
// NotificationCollector: public
void
NotificationController::Shutdown()
{
if (mObservingState != eNotObservingRefresh &&
mPresShell->RemoveRefreshObserver(this, FlushType::Display)) {
mObservingState = eNotObservingRefresh;
}
// Shutdown handling child documents.
int32_t childDocCount = mHangingChildDocuments.Length();
for (int32_t idx = childDocCount - 1; idx >= 0; idx--) {
if (!mHangingChildDocuments[idx]->IsDefunct())
mHangingChildDocuments[idx]->Shutdown();
}
mHangingChildDocuments.Clear();
mDocument = nullptr;
mPresShell = nullptr;
mTextHash.Clear();
mContentInsertions.Clear();
mNotifications.Clear();
mEvents.Clear();
mRelocations.Clear();
mEventTree.Clear();
}
EventTree*
NotificationController::QueueMutation(Accessible* aContainer)
{
EventTree* tree = mEventTree.FindOrInsert(aContainer);
if (tree) {
ScheduleProcessing();
}
return tree;
}
bool
NotificationController::QueueMutationEvent(AccTreeMutationEvent* aEvent)
{
// We have to allow there to be a hide and then a show event for a target
// because of targets getting moved. However we need to coalesce a show and
// then a hide for a target which means we need to check for that here.
if (aEvent->GetEventType() == nsIAccessibleEvent::EVENT_HIDE &&
aEvent->GetAccessible()->ShowEventTarget()) {
AccTreeMutationEvent* showEvent = mMutationMap.GetEvent(aEvent->GetAccessible(), EventMap::ShowEvent);
DropMutationEvent(showEvent);
return false;
}
AccMutationEvent* mutEvent = downcast_accEvent(aEvent);
mEventGeneration++;
mutEvent->SetEventGeneration(mEventGeneration);
if (!mFirstMutationEvent) {
mFirstMutationEvent = aEvent;
ScheduleProcessing();
}
if (mLastMutationEvent) {
NS_ASSERTION(!mLastMutationEvent->NextEvent(), "why isn't the last event the end?");
mLastMutationEvent->SetNextEvent(aEvent);
}
aEvent->SetPrevEvent(mLastMutationEvent);
mLastMutationEvent = aEvent;
mMutationMap.PutEvent(aEvent);
// Because we could be hiding the target of a show event we need to get rid
// of any such events. It may be possible to do less than coallesce all
// events, however that is easiest.
if (aEvent->GetEventType() == nsIAccessibleEvent::EVENT_HIDE) {
CoalesceMutationEvents();
// mLastMutationEvent will point to something other than aEvent if and only
// if aEvent was just coalesced away. In that case a parent accessible
// must already have the required reorder and text change events so we are
// done here.
if (mLastMutationEvent != aEvent) {
return false;
}
}
// We need to fire a reorder event after all of the events targeted at shown or
// hidden children of a container. So either queue a new one, or move an
// existing one to the end of the queue if the container already has a
// reorder event.
Accessible* target = aEvent->GetAccessible();
Accessible* container = aEvent->GetAccessible()->Parent();
RefPtr<AccReorderEvent> reorder;
if (!container->ReorderEventTarget()) {
reorder = new AccReorderEvent(container);
container->SetReorderEventTarget(true);
mMutationMap.PutEvent(reorder);
// Since this is the first child of container that is changing, the name of
// container may be changing.
QueueNameChange(target);
} else {
AccReorderEvent* event = downcast_accEvent(mMutationMap.GetEvent(container, EventMap::ReorderEvent));
reorder = event;
if (mFirstMutationEvent == event) {
mFirstMutationEvent = event->NextEvent();
} else {
event->PrevEvent()->SetNextEvent(event->NextEvent());
}
event->NextEvent()->SetPrevEvent(event->PrevEvent());
event->SetNextEvent(nullptr);
}
reorder->SetEventGeneration(mEventGeneration);
reorder->SetPrevEvent(mLastMutationEvent);
mLastMutationEvent->SetNextEvent(reorder);
mLastMutationEvent = reorder;
// It is not possible to have a text change event for something other than a
// hyper text accessible.
if (!container->IsHyperText()) {
return true;
}
MOZ_ASSERT(mutEvent);
nsString text;
aEvent->GetAccessible()->AppendTextTo(text);
if (text.IsEmpty()) {
return true;
}
int32_t offset = container->AsHyperText()->GetChildOffset(target);
AccTreeMutationEvent* prevEvent = aEvent->PrevEvent();
while (prevEvent && prevEvent->GetEventType() == nsIAccessibleEvent::EVENT_REORDER) {
prevEvent = prevEvent->PrevEvent();
}
if (prevEvent && prevEvent->GetEventType() == nsIAccessibleEvent::EVENT_HIDE &&
mutEvent->IsHide()) {
AccHideEvent* prevHide = downcast_accEvent(prevEvent);
AccTextChangeEvent* prevTextChange = prevHide->mTextChangeEvent;
if (prevTextChange && prevHide->Parent() == mutEvent->Parent()) {
if (prevHide->mNextSibling == target) {
target->AppendTextTo(prevTextChange->mModifiedText);
prevHide->mTextChangeEvent.swap(mutEvent->mTextChangeEvent);
} else if (prevHide->mPrevSibling == target) {
nsString temp;
target->AppendTextTo(temp);
uint32_t extraLen = temp.Length();
temp += prevTextChange->mModifiedText;;
prevTextChange->mModifiedText = temp;
prevTextChange->mStart -= extraLen;
prevHide->mTextChangeEvent.swap(mutEvent->mTextChangeEvent);
}
}
} else if (prevEvent && mutEvent->IsShow() &&
prevEvent->GetEventType() == nsIAccessibleEvent::EVENT_SHOW) {
AccShowEvent* prevShow = downcast_accEvent(prevEvent);
AccTextChangeEvent* prevTextChange = prevShow->mTextChangeEvent;
if (prevTextChange && prevShow->Parent() == target->Parent()) {
int32_t index = target->IndexInParent();
int32_t prevIndex = prevShow->GetAccessible()->IndexInParent();
if (prevIndex + 1 == index) {
target->AppendTextTo(prevTextChange->mModifiedText);
prevShow->mTextChangeEvent.swap(mutEvent->mTextChangeEvent);
} else if (index + 1 == prevIndex) {
nsString temp;
target->AppendTextTo(temp);
prevTextChange->mStart -= temp.Length();
temp += prevTextChange->mModifiedText;
prevTextChange->mModifiedText = temp;
prevShow->mTextChangeEvent.swap(mutEvent->mTextChangeEvent);
}
}
}
if (!mutEvent->mTextChangeEvent) {
mutEvent->mTextChangeEvent =
new AccTextChangeEvent(container, offset, text, mutEvent->IsShow(),
aEvent->mIsFromUserInput ? eFromUserInput : eNoUserInput);
}
return true;
}
void
NotificationController::DropMutationEvent(AccTreeMutationEvent* aEvent)
{
// unset the event bits since the event isn't being fired any more.
if (aEvent->GetEventType() == nsIAccessibleEvent::EVENT_REORDER) {
aEvent->GetAccessible()->SetReorderEventTarget(false);
} else if (aEvent->GetEventType() == nsIAccessibleEvent::EVENT_SHOW) {
aEvent->GetAccessible()->SetShowEventTarget(false);
} else {
aEvent->GetAccessible()->SetHideEventTarget(false);
AccHideEvent* hideEvent = downcast_accEvent(aEvent);
MOZ_ASSERT(hideEvent);
if (hideEvent->NeedsShutdown()) {
mDocument->ShutdownChildrenInSubtree(aEvent->GetAccessible());
}
}
// Do the work to splice the event out of the list.
if (mFirstMutationEvent == aEvent) {
mFirstMutationEvent = aEvent->NextEvent();
} else {
aEvent->PrevEvent()->SetNextEvent(aEvent->NextEvent());
}
if (mLastMutationEvent == aEvent) {
mLastMutationEvent = aEvent->PrevEvent();
} else {
aEvent->NextEvent()->SetPrevEvent(aEvent->PrevEvent());
}
aEvent->SetPrevEvent(nullptr);
aEvent->SetNextEvent(nullptr);
mMutationMap.RemoveEvent(aEvent);
}
void
NotificationController::CoalesceMutationEvents()
{
AccTreeMutationEvent* event = mFirstMutationEvent;
while (event) {
AccTreeMutationEvent* nextEvent = event->NextEvent();
uint32_t eventType = event->GetEventType();
if (event->GetEventType() == nsIAccessibleEvent::EVENT_REORDER) {
Accessible* acc = event->GetAccessible();
while (acc) {
if (acc->IsDoc()) {
break;
}
// if a parent of the reorder event's target is being hidden that
// hide event's target must have a parent that is also a reorder event
// target. That means we don't need this reorder event.
if (acc->HideEventTarget()) {
DropMutationEvent(event);
break;
}
Accessible* parent = acc->Parent();
if (parent->ReorderEventTarget()) {
AccReorderEvent* reorder = downcast_accEvent(mMutationMap.GetEvent(parent, EventMap::ReorderEvent));
// We want to make sure that a reorder event comes after any show or
// hide events targeted at the children of its target. We keep the
// invariant that event generation goes up as you are farther in the
// queue, so we want to use the spot of the event with the higher
// generation number, and keep that generation number.
if (reorder && reorder->EventGeneration() < event->EventGeneration()) {
reorder->SetEventGeneration(event->EventGeneration());
// It may be true that reorder was before event, and we coalesced
// away all the show / hide events between them. In that case
// event is already immediately after reorder in the queue and we
// do not need to rearrange the list of events.
if (event != reorder->NextEvent()) {
// There really should be a show or hide event before the first
// reorder event.
if (reorder->PrevEvent()) {
reorder->PrevEvent()->SetNextEvent(reorder->NextEvent());
} else {
mFirstMutationEvent = reorder->NextEvent();
}
reorder->NextEvent()->SetPrevEvent(reorder->PrevEvent());
event->PrevEvent()->SetNextEvent(reorder);
reorder->SetPrevEvent(event->PrevEvent());
event->SetPrevEvent(reorder);
reorder->SetNextEvent(event);
}
}
DropMutationEvent(event);
break;
}
acc = parent;
}
} else if (eventType == nsIAccessibleEvent::EVENT_SHOW) {
Accessible* parent = event->GetAccessible()->Parent();
while (parent) {
if (parent->IsDoc()) {
break;
}
// if the parent of a show event is being either shown or hidden then
// we don't need to fire a show event for a subtree of that change.
if (parent->ShowEventTarget() || parent->HideEventTarget()) {
DropMutationEvent(event);
break;
}
parent = parent->Parent();
}
} else {
MOZ_ASSERT(eventType == nsIAccessibleEvent::EVENT_HIDE, "mutation event list has an invalid event");
AccHideEvent* hideEvent = downcast_accEvent(event);
Accessible* parent = hideEvent->Parent();
while (parent) {
if (parent->IsDoc()) {
break;
}
if (parent->HideEventTarget()) {
DropMutationEvent(event);
break;
}
if (parent->ShowEventTarget()) {
AccShowEvent* showEvent = downcast_accEvent(mMutationMap.GetEvent(parent, EventMap::ShowEvent));
if (showEvent->EventGeneration() < hideEvent->EventGeneration()) {
DropMutationEvent(hideEvent);
break;
}
}
parent = parent->Parent();
}
}
event = nextEvent;
}
}
void
NotificationController::ScheduleChildDocBinding(DocAccessible* aDocument)
{
// Schedule child document binding to the tree.
mHangingChildDocuments.AppendElement(aDocument);
ScheduleProcessing();
}
void
NotificationController::ScheduleContentInsertion(Accessible* aContainer,
nsIContent* aStartChildNode,
nsIContent* aEndChildNode)
{
nsTArray<nsCOMPtr<nsIContent>> list;
bool needsProcessing = false;
nsIContent* node = aStartChildNode;
while (node != aEndChildNode) {
// Notification triggers for content insertion even if no content was
// actually inserted, check if the given content has a frame to discard
// this case early.
if (node->GetPrimaryFrame()) {
if (list.AppendElement(node))
needsProcessing = true;
}
node = node->GetNextSibling();
}
if (needsProcessing) {
mContentInsertions.LookupOrAdd(aContainer)->AppendElements(list);
ScheduleProcessing();
}
}
void
NotificationController::ScheduleProcessing()
{
// If notification flush isn't planed yet start notification flush
// asynchronously (after style and layout).
if (mObservingState == eNotObservingRefresh) {
if (mPresShell->AddRefreshObserver(this, FlushType::Display))
mObservingState = eRefreshObserving;
}
}
////////////////////////////////////////////////////////////////////////////////
// NotificationCollector: protected
bool
NotificationController::IsUpdatePending()
{
return mPresShell->IsLayoutFlushObserver() ||
mObservingState == eRefreshProcessingForUpdate ||
WaitingForParent() ||
mContentInsertions.Count() != 0 || mNotifications.Length() != 0 ||
mTextHash.Count() != 0 ||
!mDocument->HasLoadState(DocAccessible::eTreeConstructed);
}
bool
NotificationController::WaitingForParent()
{
DocAccessible* parentdoc = mDocument->ParentDocument();
if (!parentdoc) {
return false;
}
NotificationController* parent = parentdoc->mNotificationController;
if (!parent || parent == this) {
// Do not wait for nothing or ourselves
return false;
}
// Wait for parent's notifications processing
return parent->mContentInsertions.Count() != 0 ||
parent->mNotifications.Length() != 0;
}
void
NotificationController::ProcessMutationEvents()
{
// there is no reason to fire a hide event for a child of a show event
// target. That can happen if something is inserted into the tree and
// removed before the next refresh driver tick, but it should not be
// observable outside gecko so it should be safe to coalesce away any such
// events. This means that it should be fine to fire all of the hide events
// first, and then deal with any shown subtrees.
for (AccTreeMutationEvent* event = mFirstMutationEvent;
event; event = event->NextEvent()) {
if (event->GetEventType() != nsIAccessibleEvent::EVENT_HIDE) {
continue;
}
nsEventShell::FireEvent(event);
if (!mDocument) {
return;
}
AccMutationEvent* mutEvent = downcast_accEvent(event);
if (mutEvent->mTextChangeEvent) {
nsEventShell::FireEvent(mutEvent->mTextChangeEvent);
if (!mDocument) {
return;
}
}
// Fire menupopup end event before a hide event if a menu goes away.
// XXX: We don't look into children of hidden subtree to find hiding
// menupopup (as we did prior bug 570275) because we don't do that when
// menu is showing (and that's impossible until bug 606924 is fixed).
// Nevertheless we should do this at least because layout coalesces
// the changes before our processing and we may miss some menupopup
// events. Now we just want to be consistent in content insertion/removal
// handling.
if (event->mAccessible->ARIARole() == roles::MENUPOPUP) {
nsEventShell::FireEvent(nsIAccessibleEvent::EVENT_MENUPOPUP_END,
event->mAccessible);
if (!mDocument) {
return;
}
}
AccHideEvent* hideEvent = downcast_accEvent(event);
if (hideEvent->NeedsShutdown()) {
mDocument->ShutdownChildrenInSubtree(event->mAccessible);
}
}
// Group the show events by the parent of their target.
nsDataHashtable<nsPtrHashKey<Accessible>, nsTArray<AccTreeMutationEvent*>> showEvents;
for (AccTreeMutationEvent* event = mFirstMutationEvent;
event; event = event->NextEvent()) {
if (event->GetEventType() != nsIAccessibleEvent::EVENT_SHOW) {
continue;
}
Accessible* parent = event->GetAccessible()->Parent();
showEvents.GetOrInsert(parent).AppendElement(event);
}
// We need to fire show events for the children of an accessible in the order
// of their indices at this point. So sort each set of events for the same
// container by the index of their target.
for (auto iter = showEvents.Iter(); !iter.Done(); iter.Next()) {
struct AccIdxComparator {
bool LessThan(const AccTreeMutationEvent* a, const AccTreeMutationEvent* b) const
{
int32_t aIdx = a->GetAccessible()->IndexInParent();
int32_t bIdx = b->GetAccessible()->IndexInParent();
MOZ_ASSERT(aIdx >= 0 && bIdx >= 0 && aIdx != bIdx);
return aIdx < bIdx;
}
bool Equals(const AccTreeMutationEvent* a, const AccTreeMutationEvent* b) const
{
DebugOnly<int32_t> aIdx = a->GetAccessible()->IndexInParent();
DebugOnly<int32_t> bIdx = b->GetAccessible()->IndexInParent();
MOZ_ASSERT(aIdx >= 0 && bIdx >= 0 && aIdx != bIdx);
return false;
}
};
nsTArray<AccTreeMutationEvent*>& events = iter.Data();
events.Sort(AccIdxComparator());
for (AccTreeMutationEvent* event: events) {
nsEventShell::FireEvent(event);
if (!mDocument) {
return;
}
AccMutationEvent* mutEvent = downcast_accEvent(event);
if (mutEvent->mTextChangeEvent) {
nsEventShell::FireEvent(mutEvent->mTextChangeEvent);
if (!mDocument) {
return;
}
}
}
}
// Now we can fire the reorder events after all the show and hide events.
for (AccTreeMutationEvent* event = mFirstMutationEvent;
event; event = event->NextEvent()) {
if (event->GetEventType() != nsIAccessibleEvent::EVENT_REORDER) {
continue;
}
nsEventShell::FireEvent(event);
if (!mDocument) {
return;
}
Accessible* target = event->GetAccessible();
target->Document()->MaybeNotifyOfValueChange(target);
if (!mDocument) {
return;
}
}
}
////////////////////////////////////////////////////////////////////////////////
// NotificationCollector: private
void
NotificationController::WillRefresh(mozilla::TimeStamp aTime)
{
Telemetry::AutoTimer<Telemetry::A11Y_TREE_UPDATE_TIMING_MS> timer;
AUTO_PROFILER_LABEL("NotificationController::WillRefresh", OTHER);
// If the document accessible that notification collector was created for is
// now shut down, don't process notifications anymore.
NS_ASSERTION(mDocument,
"The document was shut down while refresh observer is attached!");
if (!mDocument)
return;
// Wait until an update, we have started, or an interruptible reflow is
// finished.
if (mObservingState == eRefreshProcessing ||
mObservingState == eRefreshProcessingForUpdate ||
mPresShell->IsReflowInterrupted()) {
return;
}
// Process parent's notifications before ours, to get proper ordering between
// e.g. tab event and content event.
if (WaitingForParent()) {
mDocument->ParentDocument()->mNotificationController->WillRefresh(aTime);
if (!mDocument) {
return;
}
}
// Any generic notifications should be queued if we're processing content
// insertions or generic notifications.
mObservingState = eRefreshProcessingForUpdate;
// Initial accessible tree construction.
if (!mDocument->HasLoadState(DocAccessible::eTreeConstructed)) {
// If document is not bound to parent at this point then the document is not
// ready yet (process notifications later).
if (!mDocument->IsBoundToParent()) {
mObservingState = eRefreshObserving;
return;
}
#ifdef A11Y_LOG
if (logging::IsEnabled(logging::eTree)) {
logging::MsgBegin("TREE", "initial tree created");
logging::Address("document", mDocument);
logging::MsgEnd();
}
#endif
mDocument->DoInitialUpdate();
NS_ASSERTION(mContentInsertions.Count() == 0,
"Pending content insertions while initial accessible tree isn't created!");
}
// Initialize scroll support if needed.
if (!(mDocument->mDocFlags & DocAccessible::eScrollInitialized))
mDocument->AddScrollListener();
// Process rendered text change notifications.
for (auto iter = mTextHash.Iter(); !iter.Done(); iter.Next()) {
nsCOMPtrHashKey<nsIContent>* entry = iter.Get();
nsIContent* textNode = entry->GetKey();
Accessible* textAcc = mDocument->GetAccessible(textNode);
// If the text node is not in tree or doesn't have a frame, or placed in
// another document, then this case should have been handled already by
// content removal notifications.
nsINode* containerNode = textNode->GetFlattenedTreeParentNode();
if (!containerNode || textNode->OwnerDoc() != mDocument->DocumentNode()) {
MOZ_ASSERT(!textAcc,
"Text node was removed but accessible is kept alive!");
continue;
}
nsIFrame* textFrame = textNode->GetPrimaryFrame();
if (!textFrame) {
MOZ_ASSERT(!textAcc,
"Text node isn't rendered but accessible is kept alive!");
continue;
}
#ifdef A11Y_LOG
nsIContent* containerElm = containerNode->IsElement() ?
containerNode->AsElement() : nullptr;
#endif
nsIFrame::RenderedText text = textFrame->GetRenderedText(0,
UINT32_MAX, nsIFrame::TextOffsetType::OFFSETS_IN_CONTENT_TEXT,
nsIFrame::TrailingWhitespace::DONT_TRIM_TRAILING_WHITESPACE);
// Remove text accessible if rendered text is empty.
if (textAcc) {
if (text.mString.IsEmpty()) {
#ifdef A11Y_LOG
if (logging::IsEnabled(logging::eTree | logging::eText)) {
logging::MsgBegin("TREE", "text node lost its content; doc: %p", mDocument);
logging::Node("container", containerElm);
logging::Node("content", textNode);
logging::MsgEnd();
}
#endif
mDocument->ContentRemoved(textAcc);
continue;
}
// Update text of the accessible and fire text change events.
#ifdef A11Y_LOG
if (logging::IsEnabled(logging::eText)) {
logging::MsgBegin("TEXT", "text may be changed; doc: %p", mDocument);
logging::Node("container", containerElm);
logging::Node("content", textNode);
logging::MsgEntry("old text '%s'",
NS_ConvertUTF16toUTF8(textAcc->AsTextLeaf()->Text()).get());
logging::MsgEntry("new text: '%s'",
NS_ConvertUTF16toUTF8(text.mString).get());
logging::MsgEnd();
}
#endif
TextUpdater::Run(mDocument, textAcc->AsTextLeaf(), text.mString);
continue;
}
// Append an accessible if rendered text is not empty.
if (!text.mString.IsEmpty()) {
#ifdef A11Y_LOG
if (logging::IsEnabled(logging::eTree | logging::eText)) {
logging::MsgBegin("TREE", "text node gains new content; doc: %p", mDocument);
logging::Node("container", containerElm);
logging::Node("content", textNode);
logging::MsgEnd();
}
#endif
Accessible* container = mDocument->AccessibleOrTrueContainer(containerNode);
MOZ_ASSERT(container,
"Text node having rendered text hasn't accessible document!");
if (container) {
nsTArray<nsCOMPtr<nsIContent>>* list =
mContentInsertions.LookupOrAdd(container);
list->AppendElement(textNode);
}
}
}
mTextHash.Clear();
// Process content inserted notifications to update the tree.
for (auto iter = mContentInsertions.ConstIter(); !iter.Done(); iter.Next()) {
mDocument->ProcessContentInserted(iter.Key(), iter.UserData());
if (!mDocument) {
return;
}
}
mContentInsertions.Clear();
// Bind hanging child documents unless we are using IPC and the
// document has no IPC actor. If we fail to bind the child doc then
// shut it down.
uint32_t hangingDocCnt = mHangingChildDocuments.Length();
nsTArray<RefPtr<DocAccessible>> newChildDocs;
for (uint32_t idx = 0; idx < hangingDocCnt; idx++) {
DocAccessible* childDoc = mHangingChildDocuments[idx];
if (childDoc->IsDefunct())
continue;
if (IPCAccessibilityActive() && !mDocument->IPCDoc()) {
childDoc->Shutdown();
continue;
}
nsIContent* ownerContent = mDocument->DocumentNode()->
FindContentForSubDocument(childDoc->DocumentNode());
if (ownerContent) {
Accessible* outerDocAcc = mDocument->GetAccessible(ownerContent);
if (outerDocAcc && outerDocAcc->AppendChild(childDoc)) {
if (mDocument->AppendChildDocument(childDoc)) {
newChildDocs.AppendElement(Move(mHangingChildDocuments[idx]));
continue;
}
outerDocAcc->RemoveChild(childDoc);
}
// Failed to bind the child document, destroy it.
childDoc->Shutdown();
}
}
// Clear the hanging documents list, even if we didn't bind them.
mHangingChildDocuments.Clear();
MOZ_ASSERT(mDocument, "Illicit document shutdown");
if (!mDocument) {
return;
}
// If the document is ready and all its subdocuments are completely loaded
// then process the document load.
if (mDocument->HasLoadState(DocAccessible::eReady) &&
!mDocument->HasLoadState(DocAccessible::eCompletelyLoaded) &&
hangingDocCnt == 0) {
uint32_t childDocCnt = mDocument->ChildDocumentCount(), childDocIdx = 0;
for (; childDocIdx < childDocCnt; childDocIdx++) {
DocAccessible* childDoc = mDocument->GetChildDocumentAt(childDocIdx);
if (!childDoc->HasLoadState(DocAccessible::eCompletelyLoaded))
break;
}
if (childDocIdx == childDocCnt) {
mDocument->ProcessLoad();
if (!mDocument)
return;
}
}
// Process only currently queued generic notifications.
nsTArray < RefPtr<Notification> > notifications;
notifications.SwapElements(mNotifications);
uint32_t notificationCount = notifications.Length();
for (uint32_t idx = 0; idx < notificationCount; idx++) {
notifications[idx]->Process();
if (!mDocument)
return;
}
// Process invalidation list of the document after all accessible tree
// modification are done.
mDocument->ProcessInvalidationList();
// Process relocation list.
for (uint32_t idx = 0; idx < mRelocations.Length(); idx++) {
// owner should be in a document and have na associated DOM node (docs sometimes don't)
if (mRelocations[idx]->IsInDocument() && mRelocations[idx]->HasOwnContent()) {
mDocument->DoARIAOwnsRelocation(mRelocations[idx]);
}
}
mRelocations.Clear();
// If a generic notification occurs after this point then we may be allowed to
// process it synchronously. However we do not want to reenter if fireing
// events causes script to run.
mObservingState = eRefreshProcessing;
CoalesceMutationEvents();
ProcessMutationEvents();
mEventGeneration = 0;
// Now that we are done with them get rid of the events we fired.
RefPtr<AccTreeMutationEvent> mutEvent = Move(mFirstMutationEvent);
mLastMutationEvent = nullptr;
mFirstMutationEvent = nullptr;
while (mutEvent) {
RefPtr<AccTreeMutationEvent> nextEvent = mutEvent->NextEvent();
Accessible* target = mutEvent->GetAccessible();
// We need to be careful here, while it may seem that we can simply 0 all
// the pending event bits that is not true. Because accessibles may be
// reparented they may be the target of both a hide event and a show event
// at the same time.
if (mutEvent->GetEventType() == nsIAccessibleEvent::EVENT_SHOW) {
target->SetShowEventTarget(false);
}
if (mutEvent->GetEventType() == nsIAccessibleEvent::EVENT_HIDE) {
target->SetHideEventTarget(false);
}
// However it is not possible for a reorder event target to also be the
// target of a show or hide, so we can just zero that.
target->SetReorderEventTarget(false);
mutEvent->SetPrevEvent(nullptr);
mutEvent->SetNextEvent(nullptr);
mMutationMap.RemoveEvent(mutEvent);
mutEvent = nextEvent;
}
ProcessEventQueue();
if (IPCAccessibilityActive()) {
size_t newDocCount = newChildDocs.Length();
for (size_t i = 0; i < newDocCount; i++) {
DocAccessible* childDoc = newChildDocs[i];
if (childDoc->IsDefunct()) {
continue;
}
Accessible* parent = childDoc->Parent();
DocAccessibleChild* parentIPCDoc = mDocument->IPCDoc();
MOZ_DIAGNOSTIC_ASSERT(parentIPCDoc);
uint64_t id = reinterpret_cast<uintptr_t>(parent->UniqueID());
MOZ_DIAGNOSTIC_ASSERT(id);
DocAccessibleChild* ipcDoc = childDoc->IPCDoc();
if (ipcDoc) {
parentIPCDoc->SendBindChildDoc(ipcDoc, id);
continue;
}
ipcDoc = new DocAccessibleChild(childDoc, parentIPCDoc->Manager());
childDoc->SetIPCDoc(ipcDoc);
#if defined(XP_WIN)
parentIPCDoc->ConstructChildDocInParentProcess(ipcDoc, id,
AccessibleWrap::GetChildIDFor(childDoc));
#else
nsCOMPtr<nsITabChild> tabChild =
do_GetInterface(mDocument->DocumentNode()->GetDocShell());
if (tabChild) {
static_cast<TabChild*>(tabChild.get())->
SendPDocAccessibleConstructor(ipcDoc, parentIPCDoc, id, 0, 0);
}
#endif
}
}
mObservingState = eRefreshObserving;
if (!mDocument)
return;
// Stop further processing if there are no new notifications of any kind or
// events and document load is processed.
if (mContentInsertions.Count() == 0 && mNotifications.IsEmpty() &&
mEvents.IsEmpty() && mTextHash.Count() == 0 &&
mHangingChildDocuments.IsEmpty() &&
mDocument->HasLoadState(DocAccessible::eCompletelyLoaded) &&
mPresShell->RemoveRefreshObserver(this, FlushType::Display)) {
mObservingState = eNotObservingRefresh;
}
}
void
NotificationController::EventMap::PutEvent(AccTreeMutationEvent* aEvent)
{
EventType type = GetEventType(aEvent);
uint64_t addr = reinterpret_cast<uintptr_t>(aEvent->GetAccessible());
MOZ_ASSERT((addr & 0x3) == 0, "accessible is not 4 byte aligned");
addr |= type;
mTable.Put(addr, aEvent);
}
AccTreeMutationEvent*
NotificationController::EventMap::GetEvent(Accessible* aTarget, EventType aType)
{
uint64_t addr = reinterpret_cast<uintptr_t>(aTarget);
MOZ_ASSERT((addr & 0x3) == 0, "target is not 4 byte aligned");
addr |= aType;
return mTable.GetWeak(addr);
}
void
NotificationController::EventMap::RemoveEvent(AccTreeMutationEvent* aEvent)
{
EventType type = GetEventType(aEvent);
uint64_t addr = reinterpret_cast<uintptr_t>(aEvent->GetAccessible());
MOZ_ASSERT((addr & 0x3) == 0, "accessible is not 4 byte aligned");
addr |= type;
MOZ_ASSERT(mTable.GetWeak(addr) == aEvent, "mTable has the wrong event");
mTable.Remove(addr);
}
NotificationController::EventMap::EventType
NotificationController::EventMap::GetEventType(AccTreeMutationEvent* aEvent)
{
switch(aEvent->GetEventType())
{
case nsIAccessibleEvent::EVENT_SHOW:
return ShowEvent;
case nsIAccessibleEvent::EVENT_HIDE:
return HideEvent;
case nsIAccessibleEvent::EVENT_REORDER:
return ReorderEvent;
default:
MOZ_ASSERT_UNREACHABLE("event has invalid type");
return ShowEvent;
}
}