void DocAccessibleChildBase::ShowEvent(AccShowEvent* aShowEvent) {
  Accessible* parent = aShowEvent->Parent();
  uint64_t parentID =
      parent->IsDoc() ? 0 : reinterpret_cast<uint64_t>(parent->UniqueID());
  uint32_t idxInParent = aShowEvent->GetAccessible()->IndexInParent();
  nsTArray<AccessibleData> shownTree;
  ShowEventData data(parentID, idxInParent, shownTree, false);
  SerializeTree(aShowEvent->GetAccessible(), data.NewTree());
  MaybeSendShowEvent(data, aShowEvent->IsFromUserInput());
}
示例#2
0
void DocAccessibleWrap::UpdateFocusPathBounds() {
  if (!mFocusPath.Count()) {
    return;
  }

  if (IPCAccessibilityActive()) {
    DocAccessibleChild* ipcDoc = IPCDoc();
    nsTArray<BatchData> boundsData(mFocusPath.Count());
    for (auto iter = mFocusPath.Iter(); !iter.Done(); iter.Next()) {
      Accessible* accessible = iter.Data();
      if (!accessible || accessible->IsDefunct()) {
        MOZ_ASSERT_UNREACHABLE("Focus path cached accessible is gone.");
        continue;
      }

      auto uid = accessible->IsDoc() && accessible->AsDoc()->IPCDoc()
                     ? 0
                     : reinterpret_cast<uint64_t>(accessible->UniqueID());
      boundsData.AppendElement(BatchData(
          accessible->Document()->IPCDoc(), uid, 0, accessible->Bounds(), 0,
          nsString(), nsString(), nsString(), UnspecifiedNaN<double>(),
          UnspecifiedNaN<double>(), UnspecifiedNaN<double>(),
          UnspecifiedNaN<double>(), nsTArray<Attribute>()));
    }

    ipcDoc->SendBatch(eBatch_BoundsUpdate, boundsData);
  } else if (SessionAccessibility* sessionAcc =
                 SessionAccessibility::GetInstanceFor(this)) {
    nsTArray<AccessibleWrap*> accessibles(mFocusPath.Count());
    for (auto iter = mFocusPath.Iter(); !iter.Done(); iter.Next()) {
      accessibles.AppendElement(
          static_cast<AccessibleWrap*>(iter.Data().get()));
    }

    sessionAcc->UpdateCachedBounds(accessibles);
  }
}
void
NotificationController::WillRefresh(mozilla::TimeStamp aTime)
{
  Telemetry::AutoTimer<Telemetry::A11Y_UPDATE_TIME> updateTimer;

  // 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;

  if (mObservingState == eRefreshProcessing ||
      mObservingState == eRefreshProcessingForUpdate)
    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.Length() == 0,
                 "Pending content insertions while initial accessible tree isn't created!");
  }

  // Initialize scroll support if needed.
  if (!(mDocument->mDocFlags & DocAccessible::eScrollInitialized))
    mDocument->AddScrollListener();

  // Process content inserted notifications to update the tree. Process other
  // notifications like DOM events and then flush event queue. If any new
  // notifications are queued during this processing then they will be processed
  // on next refresh. If notification processing queues up new events then they
  // are processed in this refresh. If events processing queues up new events
  // then new events are processed on next refresh.
  // Note: notification processing or event handling may shut down the owning
  // document accessible.

  // Process only currently queued content inserted notifications.
  nsTArray<nsRefPtr<ContentInsertion> > contentInsertions;
  contentInsertions.SwapElements(mContentInsertions);

  uint32_t insertionCount = contentInsertions.Length();
  for (uint32_t idx = 0; idx < insertionCount; idx++) {
    contentInsertions[idx]->Process();
    if (!mDocument)
      return;
  }

  // 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 frame then this case should
    // have been handled already by content removal notifications.
    nsINode* containerNode = textNode->GetParentNode();
    if (!containerNode) {
      NS_ASSERTION(!textAcc,
                   "Text node was removed but accessible is kept alive!");
      continue;
    }

    nsIFrame* textFrame = textNode->GetPrimaryFrame();
    if (!textFrame) {
      NS_ASSERTION(!textAcc,
                   "Text node isn't rendered but accessible is kept alive!");
      continue;
    }

    nsIContent* containerElm = containerNode->IsElement() ?
      containerNode->AsElement() : nullptr;

    nsAutoString text;
    textFrame->GetRenderedText(&text);

    // Remove text accessible if rendered text is empty.
    if (textAcc) {
      if (text.IsEmpty()) {
  #ifdef A11Y_LOG
        if (logging::IsEnabled(logging::eTree | logging::eText)) {
          logging::MsgBegin("TREE", "text node lost its content");
          logging::Node("container", containerElm);
          logging::Node("content", textNode);
          logging::MsgEnd();
        }
  #endif

        mDocument->ContentRemoved(containerElm, textNode);
        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");
        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).get());
        logging::MsgEnd();
      }
  #endif

      TextUpdater::Run(mDocument, textAcc->AsTextLeaf(), text);
      continue;
    }

    // Append an accessible if rendered text is not empty.
    if (!text.IsEmpty()) {
  #ifdef A11Y_LOG
      if (logging::IsEnabled(logging::eTree | logging::eText)) {
        logging::MsgBegin("TREE", "text node gains new content");
        logging::Node("container", containerElm);
        logging::Node("content", textNode);
        logging::MsgEnd();
      }
  #endif

      // Make sure the text node is in accessible document still.
      Accessible* container = mDocument->GetAccessibleOrContainer(containerNode);
      NS_ASSERTION(container,
                   "Text node having rendered text hasn't accessible document!");
      if (container) {
        nsTArray<nsCOMPtr<nsIContent> > insertedContents;
        insertedContents.AppendElement(textNode);
        mDocument->ProcessContentInserted(container, &insertedContents);
      }
    }
  }
  mTextHash.Clear();

  // Bind hanging child documents.
  uint32_t hangingDocCnt = mHangingChildDocuments.Length();
  nsTArray<nsRefPtr<DocAccessible>> newChildDocs;
  for (uint32_t idx = 0; idx < hangingDocCnt; idx++) {
    DocAccessible* childDoc = mHangingChildDocuments[idx];
    if (childDoc->IsDefunct())
      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();
    }
  }

  mHangingChildDocuments.Clear();

  // 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 < nsRefPtr<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();

  // 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;

  ProcessEventQueue();

  if (IPCAccessibilityActive()) {
    size_t newDocCount = newChildDocs.Length();
    for (size_t i = 0; i < newDocCount; i++) {
      DocAccessible* childDoc = newChildDocs[i];
      Accessible* parent = childDoc->Parent();
      DocAccessibleChild* parentIPCDoc = mDocument->IPCDoc();
      uint64_t id = reinterpret_cast<uintptr_t>(parent->UniqueID());
      MOZ_ASSERT(id);
      DocAccessibleChild* ipcDoc = childDoc->IPCDoc();
      if (ipcDoc) {
        parentIPCDoc->SendBindChildDoc(ipcDoc, id);
        continue;
      }

      ipcDoc = new DocAccessibleChild(childDoc);
      childDoc->SetIPCDoc(ipcDoc);
      nsCOMPtr<nsITabChild> tabChild =
        do_GetInterface(mDocument->DocumentNode()->GetDocShell());
      static_cast<TabChild*>(tabChild.get())->
        SendPDocAccessibleConstructor(ipcDoc, parentIPCDoc, id);
    }
  }

  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.IsEmpty() && mNotifications.IsEmpty() &&
      mEvents.IsEmpty() && mTextHash.Count() == 0 &&
      mHangingChildDocuments.IsEmpty() &&
      mDocument->HasLoadState(DocAccessible::eCompletelyLoaded) &&
      mPresShell->RemoveRefreshObserver(this, Flush_Display)) {
    mObservingState = eNotObservingRefresh;
  }
}
void
NotificationController::WillRefresh(mozilla::TimeStamp aTime)
{
  Telemetry::AutoTimer<Telemetry::A11Y_UPDATE_TIME> updateTimer;

  // 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;

  if (mObservingState == eRefreshProcessing ||
      mObservingState == eRefreshProcessingForUpdate)
    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.Length() == 0,
                 "Pending content insertions while initial accessible tree isn't created!");
  }

  // Initialize scroll support if needed.
  if (!(mDocument->mDocFlags & DocAccessible::eScrollInitialized))
    mDocument->AddScrollListener();

  // Process content inserted notifications to update the tree. Process other
  // notifications like DOM events and then flush event queue. If any new
  // notifications are queued during this processing then they will be processed
  // on next refresh. If notification processing queues up new events then they
  // are processed in this refresh. If events processing queues up new events
  // then new events are processed on next refresh.
  // Note: notification processing or event handling may shut down the owning
  // document accessible.

  // Process only currently queued content inserted notifications.
  nsTArray<nsRefPtr<ContentInsertion> > contentInsertions;
  contentInsertions.SwapElements(mContentInsertions);

  uint32_t insertionCount = contentInsertions.Length();
  for (uint32_t idx = 0; idx < insertionCount; idx++) {
    contentInsertions[idx]->Process();
    if (!mDocument)
      return;
  }

  // Process rendered text change notifications.
  mTextHash.EnumerateEntries(TextEnumerator, mDocument);
  mTextHash.Clear();

  // Bind hanging child documents.
  uint32_t hangingDocCnt = mHangingChildDocuments.Length();
  for (uint32_t idx = 0; idx < hangingDocCnt; idx++) {
    DocAccessible* childDoc = mHangingChildDocuments[idx];
    if (childDoc->IsDefunct())
      continue;

    nsIContent* ownerContent = mDocument->DocumentNode()->
      FindContentForSubDocument(childDoc->DocumentNode());
    if (ownerContent) {
      Accessible* outerDocAcc = mDocument->GetAccessible(ownerContent);
      if (outerDocAcc && outerDocAcc->AppendChild(childDoc)) {
        if (mDocument->AppendChildDocument(childDoc)) {
          if (XRE_GetProcessType() != GeckoProcessType_Default) {
            DocAccessibleChild* ipcDoc = new DocAccessibleChild(childDoc);
            childDoc->SetIPCDoc(ipcDoc);
            auto contentChild = dom::ContentChild::GetSingleton();
            DocAccessibleChild* parentIPCDoc = mDocument->IPCDoc();
            uint64_t id = reinterpret_cast<uintptr_t>(outerDocAcc->UniqueID());
            contentChild->SendPDocAccessibleConstructor(ipcDoc, parentIPCDoc,
                                                        id);
          }

          continue;
        }

        outerDocAcc->RemoveChild(childDoc);
      }

      // Failed to bind the child document, destroy it.
      childDoc->Shutdown();
    }
  }
  mHangingChildDocuments.Clear();

  // 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 < nsRefPtr<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();

  // 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;

  ProcessEventQueue();
  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.IsEmpty() && mNotifications.IsEmpty() &&
      mEvents.IsEmpty() && mTextHash.Count() == 0 &&
      mHangingChildDocuments.IsEmpty() &&
      mDocument->HasLoadState(DocAccessible::eCompletelyLoaded) &&
      mPresShell->RemoveRefreshObserver(this, Flush_Display)) {
    mObservingState = eNotObservingRefresh;
  }
}
示例#5
0
void DocAccessibleWrap::CacheViewportCallback(nsITimer* aTimer,
                                              void* aDocAccParam) {
  RefPtr<DocAccessibleWrap> docAcc(
      dont_AddRef(reinterpret_cast<DocAccessibleWrap*>(aDocAccParam)));
  if (!docAcc) {
    return;
  }

  nsIPresShell* presShell = docAcc->PresShell();
  if (!presShell) {
    return;
  }
  nsIFrame* rootFrame = presShell->GetRootFrame();
  if (!rootFrame) {
    return;
  }

  nsTArray<nsIFrame*> frames;
  nsIScrollableFrame* sf = presShell->GetRootScrollFrameAsScrollable();
  nsRect scrollPort = sf ? sf->GetScrollPortRect() : rootFrame->GetRect();

  nsLayoutUtils::GetFramesForArea(
      presShell->GetRootFrame(), scrollPort, frames,
      nsLayoutUtils::FrameForPointFlags::ONLY_VISIBLE);
  AccessibleHashtable inViewAccs;
  for (size_t i = 0; i < frames.Length(); i++) {
    nsIContent* content = frames.ElementAt(i)->GetContent();
    if (!content) {
      continue;
    }

    Accessible* visibleAcc = docAcc->GetAccessibleOrContainer(content);
    if (!visibleAcc) {
      continue;
    }

    for (Accessible* acc = visibleAcc; acc && acc != docAcc->Parent();
         acc = acc->Parent()) {
      if (inViewAccs.Contains(acc->UniqueID())) {
        break;
      }
      inViewAccs.Put(acc->UniqueID(), acc);
    }
  }

  if (IPCAccessibilityActive()) {
    DocAccessibleChild* ipcDoc = docAcc->IPCDoc();
    nsTArray<BatchData> cacheData(inViewAccs.Count());
    for (auto iter = inViewAccs.Iter(); !iter.Done(); iter.Next()) {
      Accessible* accessible = iter.Data();
      auto uid = accessible->IsDoc() && accessible->AsDoc()->IPCDoc()
                     ? 0
                     : reinterpret_cast<uint64_t>(accessible->UniqueID());
      cacheData.AppendElement(
          BatchData(accessible->Document()->IPCDoc(), uid, accessible->State(),
                    accessible->Bounds(), accessible->ActionCount(), nsString(),
                    nsString(), nsString(), UnspecifiedNaN<double>(),
                    UnspecifiedNaN<double>(), UnspecifiedNaN<double>(),
                    UnspecifiedNaN<double>(), nsTArray<Attribute>()));
    }

    ipcDoc->SendBatch(eBatch_Viewport, cacheData);
  } else if (SessionAccessibility* sessionAcc =
                 SessionAccessibility::GetInstanceFor(docAcc)) {
    nsTArray<AccessibleWrap*> accessibles(inViewAccs.Count());
    for (auto iter = inViewAccs.Iter(); !iter.Done(); iter.Next()) {
      accessibles.AppendElement(
          static_cast<AccessibleWrap*>(iter.Data().get()));
    }

    sessionAcc->ReplaceViewportCache(accessibles);
  }

  if (docAcc->mCacheRefreshTimer) {
    docAcc->mCacheRefreshTimer = nullptr;
  }
}