Example #1
0
void Internals::setBackgroundBlurOnNode(Node* node, int blurLength, ExceptionCode& ec)
{
    if (!node) {
        ec = INVALID_ACCESS_ERR;
        return;
    }

    RenderObject* renderObject = node->renderer();
    if (!renderObject) {
        ec = INVALID_NODE_TYPE_ERR;
        return;
    }

    RenderLayer* renderLayer = renderObject->enclosingLayer();
    if (!renderLayer || !renderLayer->isComposited()) {
        ec = INVALID_STATE_ERR;
        return;
    }

    GraphicsLayer* graphicsLayer = renderLayer->backing()->graphicsLayer();
    if (!graphicsLayer) {
        ec = INVALID_NODE_TYPE_ERR;
        return;
    }

    PlatformLayer* platformLayer = graphicsLayer->platformLayer();
    if (!platformLayer) {
        ec = INVALID_NODE_TYPE_ERR;
        return;
    }

    FilterOperations filters;
    filters.operations().append(BlurFilterOperation::create(Length(blurLength, Fixed), FilterOperation::BLUR));
    platformLayer->setBackgroundFilters(filters);
}
Example #2
0
RenderLayer* LinkHighlight::computeEnclosingCompositingLayer()
{
    if (!m_node || !m_node->renderer())
        return 0;

    // Find the nearest enclosing composited layer and attach to it. We may need to cross frame boundaries
    // to find a suitable layer.
    RenderObject* renderer = m_node->renderer();
    RenderLayer* renderLayer;
    do {
        renderLayer = renderer->enclosingLayer()->enclosingCompositingLayerForRepaint();
        if (!renderLayer) {
            renderer = renderer->frame()->ownerRenderer();
            if (!renderer)
                return 0;
        }
    } while (!renderLayer);

    CompositedLayerMappingPtr compositedLayerMapping = renderLayer->compositingState() == PaintsIntoGroupedBacking ? renderLayer->groupedMapping() : renderLayer->compositedLayerMapping();
    GraphicsLayer* newGraphicsLayer = renderLayer->compositingState() == PaintsIntoGroupedBacking ? compositedLayerMapping->squashingLayer() : compositedLayerMapping->mainGraphicsLayer();

    m_clipLayer->setTransform(SkMatrix44(SkMatrix44::kIdentity_Constructor));

    if (!newGraphicsLayer->drawsContent()) {
        if (renderLayer->scrollableArea() && renderLayer->scrollableArea()->usesCompositedScrolling()) {
            ASSERT(renderLayer->hasCompositedLayerMapping() && renderLayer->compositedLayerMapping()->scrollingContentsLayer());
            newGraphicsLayer = compositedLayerMapping->scrollingContentsLayer();
        }
    }

    if (m_currentGraphicsLayer != newGraphicsLayer) {
        if (m_currentGraphicsLayer)
            clearGraphicsLayerLinkHighlightPointer();

        m_currentGraphicsLayer = newGraphicsLayer;
        m_currentGraphicsLayer->addLinkHighlight(this);
    }

    return renderLayer;
}
Example #3
0
QT_END_NAMESPACE

static bool webframe_scrollOverflow(WebCore::Frame* frame, int dx, int dy, const QPoint& pos)
{
    if (!frame || !frame->document() || !frame->view() || !frame->eventHandler())
        return false;

    QPoint contentsPos = frame->view()->windowToContents(pos);
    Node* node = frame->document()->elementFromPoint(contentsPos.x(), contentsPos.y());
    if (!node)
        return false;

    RenderObject* renderer = node->renderer();
    if (!renderer)
        return false;

    if (renderer->isListBox())
        return false;

    RenderLayer* renderLayer = renderer->enclosingLayer();
    if (!renderLayer)
        return false;

    bool scrolledHorizontal = false;
    bool scrolledVertical = false;

    if (dx > 0)
        scrolledHorizontal = renderLayer->scroll(ScrollRight, ScrollByPixel, dx);
    else if (dx < 0)
        scrolledHorizontal = renderLayer->scroll(ScrollLeft, ScrollByPixel, qAbs(dx));

    if (dy > 0)
        scrolledVertical = renderLayer->scroll(ScrollDown, ScrollByPixel, dy);
    else if (dy < 0)
        scrolledVertical = renderLayer->scroll(ScrollUp, ScrollByPixel, qAbs(dy));

    return (scrolledHorizontal || scrolledVertical);
}
Example #4
0
static bool webframe_scrollOverflow(WebCore::Frame* frame, int dx, int dy)
{
    if (!frame || !frame->document() || !frame->eventHandler())
        return false;

    Node* node = frame->document()->focusedNode();
    if (!node)
        node = frame->document()->elementFromPoint(frame->eventHandler()->currentMousePosition().x(),
                                                   frame->eventHandler()->currentMousePosition().y());
    if (!node)
        return false;

    RenderObject* renderer = node->renderer();
    if (!renderer)
        return false;

    if (renderer->isListBox())
        return false;

    RenderLayer* renderLayer = renderer->enclosingLayer();
    if (!renderLayer)
        return false;

    bool scrolledHorizontal = false;
    bool scrolledVertical = false;

    if (dx > 0)
        scrolledHorizontal = renderLayer->scroll(ScrollRight, ScrollByPixel, dx);
    else if (dx < 0)
        scrolledHorizontal = renderLayer->scroll(ScrollLeft, ScrollByPixel, qAbs(dx));

    if (dy > 0)
        scrolledVertical = renderLayer->scroll(ScrollDown, ScrollByPixel, dy);
    else if (dy < 0)
        scrolledVertical = renderLayer->scroll(ScrollUp, ScrollByPixel, qAbs(dy));

    return (scrolledHorizontal || scrolledVertical);
}
Example #5
0
void TouchEventHandler::drawTapHighlight()
{
    Element* elementUnderFatFinger = m_lastFatFingersResult.nodeAsElementIfApplicable();
    if (!elementUnderFatFinger)
        return;

    Element* element = elementForTapHighlight(elementUnderFatFinger);
    if (!element)
        return;

    // Get the element bounding rect in transformed coordinates so we can extract
    // the focus ring relative position each rect.
    RenderObject* renderer = element->renderer();
    ASSERT(renderer);

    Frame* elementFrame = element->document()->frame();
    ASSERT(elementFrame);

    FrameView* elementFrameView = elementFrame->view();
    if (!elementFrameView)
        return;

    // Tell the client if the element is either in a scrollable container or in a fixed positioned container.
    // On the client side, this info is being used to hide the tap highlight window on scroll.
    RenderLayer* layer = m_webPage->enclosingFixedPositionedAncestorOrSelfIfFixedPositioned(renderer->enclosingLayer());
    bool shouldHideTapHighlightRightAfterScrolling = !layer->renderer()->isRenderView();
    shouldHideTapHighlightRightAfterScrolling |= !!m_webPage->m_inRegionScrollStartingNode.get();

    IntPoint framePos(m_webPage->frameOffset(elementFrame));

    // FIXME: We can get more precise on the <map> case by calculating the rect with HTMLAreaElement::computeRect().
    IntRect absoluteRect = renderer->absoluteClippedOverflowRect();
    absoluteRect.move(framePos.x(), framePos.y());

    IntRect clippingRect;
    if (elementFrame == m_webPage->mainFrame())
        clippingRect = IntRect(IntPoint(0, 0), elementFrameView->contentsSize());
    else
        clippingRect = m_webPage->mainFrame()->view()->windowToContents(m_webPage->getRecursiveVisibleWindowRect(elementFrameView, true /*noClipToMainFrame*/));
    clippingRect = intersection(absoluteRect, clippingRect);

    Vector<FloatQuad> focusRingQuads;
    renderer->absoluteFocusRingQuads(focusRingQuads);

    Platform::IntRectRegion region;
    for (size_t i = 0; i < focusRingQuads.size(); ++i) {
        IntRect rect = focusRingQuads[i].enclosingBoundingBox();
        rect.move(framePos.x(), framePos.y());
        IntRect clippedRect = intersection(clippingRect, rect);
        clippedRect.inflate(2);
        region = unionRegions(region, Platform::IntRect(clippedRect));
    }

    Color highlightColor = element->renderStyle()->tapHighlightColor();

    m_webPage->m_client->drawTapHighlight(region,
                                          highlightColor.red(),
                                          highlightColor.green(),
                                          highlightColor.blue(),
                                          highlightColor.alpha(),
                                          shouldHideTapHighlightRightAfterScrolling);
}
Example #6
0
void FrameView::layout(bool allowSubtree)
{
    // We should never layout a Document which is not in a LocalFrame.
    ASSERT(m_frame);
    ASSERT(m_frame->view() == this);

    ScriptForbiddenScope forbidScript;

    if (isInPerformLayout() || !m_frame->document()->isActive())
        return;

    TRACE_EVENT0("blink", "FrameView::layout");
    TRACE_EVENT_SCOPED_SAMPLING_STATE("blink", "Layout");

    // Protect the view from being deleted during layout (in recalcStyle)
    RefPtr<FrameView> protector(this);

    m_hasPendingLayout = false;

    RELEASE_ASSERT(!isPainting());

    if (!allowSubtree && isSubtreeLayout()) {
        m_layoutSubtreeRoot->markContainingBlocksForLayout(false);
        m_layoutSubtreeRoot = 0;
    }

    performPreLayoutTasks();

    // If there is only one ref to this view left, then its going to be destroyed as soon as we exit,
    // so there's no point to continuing to layout
    if (protector->hasOneRef())
        return;

    Document* document = m_frame->document();
    bool inSubtreeLayout = isSubtreeLayout();
    RenderObject* rootForThisLayout = inSubtreeLayout ? m_layoutSubtreeRoot : document->renderView();
    if (!rootForThisLayout) {
        // FIXME: Do we need to set m_size here?
        ASSERT_NOT_REACHED();
        return;
    }

    FontCachePurgePreventer fontCachePurgePreventer;
    RenderLayer* layer;
    {
        TemporaryChange<bool> changeSchedulingEnabled(m_layoutSchedulingEnabled, false);

        m_nestedLayoutCount++;

        if (!inSubtreeLayout) {
            if (m_firstLayout) {
                m_firstLayout = false;
                m_lastViewportSize = layoutSize();
            }

            m_size = LayoutSize(layoutSize());
        }

        layer = rootForThisLayout->enclosingLayer();

        performLayout(rootForThisLayout, inSubtreeLayout);

        m_layoutSubtreeRoot = 0;
    } // Reset m_layoutSchedulingEnabled to its previous value.

    layer->updateLayerPositionsAfterLayout();

    m_layoutCount++;

    ASSERT(!rootForThisLayout->needsLayout());

    scheduleOrPerformPostLayoutTasks();

    m_nestedLayoutCount--;
    if (m_nestedLayoutCount)
        return;

#if ENABLE(ASSERT)
    // Post-layout assert that nobody was re-marked as needing layout during layout.
    document->renderView()->assertSubtreeIsLaidOut();
#endif
}
Example #7
0
void FrameView::layout(bool allowSubtree)
{
    if (d->m_midLayout)
        return;

    d->m_layoutTimer.stop();
    d->m_delayedLayout = false;

    // Protect the view from being deleted during layout (in recalcStyle)
    RefPtr<FrameView> protector(this);

    if (!m_frame) {
        // FIXME: Do we need to set m_size.width here?
        // FIXME: Should we set m_size.height here too?
        m_size.setWidth(visibleWidth());
        return;
    }
    
    // we shouldn't enter layout() while painting
    ASSERT(!m_frame->isPainting());
    if (m_frame->isPainting())
        return;

    if (!allowSubtree && d->m_layoutRoot) {
        d->m_layoutRoot->markContainingBlocksForLayout(false);
        d->m_layoutRoot = 0;
    }

    ASSERT(m_frame->view() == this);
    // This early return should be removed when rdar://5598072 is resolved. In the meantime, there is a
    // gigantic CrashTracer because of this issue, and the early return will hopefully cause graceful 
    // failure instead.  
    if (m_frame->view() != this)
        return;

    Document* document = m_frame->document();
    if (!document) {
        // FIXME: Should we set m_size.height here too?
        m_size.setWidth(visibleWidth());
        return;
    }

    d->m_layoutSchedulingEnabled = false;

    if (!d->m_nestedLayoutCount && d->m_postLayoutTasksTimer.isActive()) {
        // This is a new top-level layout. If there are any remaining tasks from the previous
        // layout, finish them now.
        d->m_postLayoutTasksTimer.stop();
        performPostLayoutTasks();
    }

    // Viewport-dependent media queries may cause us to need completely different style information.
    // Check that here.
    if (document->styleSelector()->affectedByViewportChange())
        document->updateStyleSelector();

    // Always ensure our style info is up-to-date.  This can happen in situations where
    // the layout beats any sort of style recalc update that needs to occur.
    if (m_frame->needsReapplyStyles())
        m_frame->reapplyStyles();
    else if (document->hasChangedChild())
        document->recalcStyle();
    
    bool subtree = d->m_layoutRoot;

    // If there is only one ref to this view left, then its going to be destroyed as soon as we exit, 
    // so there's no point to continuing to layout
    if (protector->hasOneRef())
        return;

    RenderObject* root = subtree ? d->m_layoutRoot : document->renderer();
    if (!root) {
        // FIXME: Do we need to set m_size here?
        d->m_layoutSchedulingEnabled = true;
        return;
    }

    d->m_nestedLayoutCount++;

    ScrollbarMode hMode = d->m_hmode;
    ScrollbarMode vMode = d->m_vmode;

    if (!subtree) {
        RenderObject* rootRenderer = document->documentElement() ? document->documentElement()->renderer() : 0;
        if (document->isHTMLDocument()) {
            Node* body = static_cast<HTMLDocument*>(document)->body();
            if (body && body->renderer()) {
                if (body->hasTagName(framesetTag)) {
                    body->renderer()->setChildNeedsLayout(true);
                    vMode = ScrollbarAlwaysOff;
                    hMode = ScrollbarAlwaysOff;
                } else if (body->hasTagName(bodyTag)) {
                    if (!d->m_firstLayout && m_size.height() != visibleHeight()
                            && static_cast<RenderBox*>(body->renderer())->stretchesToViewHeight())
                        body->renderer()->setChildNeedsLayout(true);
                    // It's sufficient to just check the X overflow,
                    // since it's illegal to have visible in only one direction.
                    RenderObject* o = rootRenderer->style()->overflowX() == OVISIBLE 
                        ? body->renderer() : rootRenderer;
                    applyOverflowToViewport(o, hMode, vMode); // Only applies to HTML UAs, not to XML/XHTML UAs
                }
            }
        } else if (rootRenderer)
            applyOverflowToViewport(rootRenderer, hMode, vMode); // XML/XHTML UAs use the root element.
#ifdef INSTRUMENT_LAYOUT_SCHEDULING
        if (d->m_firstLayout && !document->ownerElement())
           OWB_PRINTF("Elapsed time before first layout: %d\n", document->elapsedTime());
#endif
    }

    d->m_doFullRepaint = !subtree && (d->m_firstLayout || static_cast<RenderView*>(root)->printing());

    if (!subtree) {
        // Now set our scrollbar state for the layout.
        ScrollbarMode currentHMode = hScrollbarMode();
        ScrollbarMode currentVMode = vScrollbarMode();

        if (d->m_firstLayout || (hMode != currentHMode || vMode != currentVMode)) {
            suppressScrollbars(true);
            if (d->m_firstLayout) {
                d->m_firstLayout = false;
                d->m_firstLayoutCallbackPending = true;
                d->m_lastLayoutSize = IntSize(width(), height());
                d->m_lastZoomFactor = root->style()->zoom();

                // Set the initial vMode to AlwaysOn if we're auto.
                if (vMode == ScrollbarAuto)
                    ScrollView::setVScrollbarMode(ScrollbarAlwaysOn); // This causes a vertical scrollbar to appear.
                // Set the initial hMode to AlwaysOff if we're auto.
                if (hMode == ScrollbarAuto)
                    ScrollView::setHScrollbarMode(ScrollbarAlwaysOff); // This causes a horizontal scrollbar to disappear.
            }
            
            if (hMode == vMode)
                ScrollView::setScrollbarsMode(hMode);
            else {
                ScrollView::setHScrollbarMode(hMode);
                ScrollView::setVScrollbarMode(vMode);
            }

            suppressScrollbars(false, true);
        }

        IntSize oldSize = m_size;

        m_size = IntSize(visibleWidth(), visibleHeight());

        if (oldSize != m_size)
            d->m_doFullRepaint = true;
    }
    
    RenderLayer* layer = root->enclosingLayer();

    pauseScheduledEvents();

    if (subtree)
        root->view()->pushLayoutState(root);
        
    d->m_midLayout = true;
    beginDeferredRepaints();
    root->layout();
    endDeferredRepaints();
    d->m_midLayout = false;

    if (subtree)
        root->view()->popLayoutState();
    d->m_layoutRoot = 0;

    m_frame->invalidateSelection();
   
    d->m_layoutSchedulingEnabled = true;

    if (!subtree && !static_cast<RenderView*>(root)->printing())
        adjustViewSize();

    // Now update the positions of all layers.
    beginDeferredRepaints();
    layer->updateLayerPositions(d->m_doFullRepaint);
    endDeferredRepaints();
    
    d->m_layoutCount++;

#if PLATFORM(MAC)
    if (AXObjectCache::accessibilityEnabled())
        root->document()->axObjectCache()->postNotificationToElement(root, "AXLayoutComplete");
#endif
#if ENABLE(DASHBOARD_SUPPORT)
    updateDashboardRegions();
#endif

    ASSERT(!root->needsLayout());

    setStaticBackground(useSlowRepaints());

    if (document->hasListenerType(Document::OVERFLOWCHANGED_LISTENER))
        updateOverflowStatus(visibleWidth() < contentsWidth(),
                             visibleHeight() < contentsHeight());

    if (!d->m_postLayoutTasksTimer.isActive()) {
        // Calls resumeScheduledEvents()
        performPostLayoutTasks();

        if (needsLayout()) {
            // Post-layout widget updates or an event handler made us need layout again.
            // Lay out again, but this time defer widget updates and event dispatch until after
            // we return.
            d->m_postLayoutTasksTimer.startOneShot(0);
            pauseScheduledEvents();
            layout();
        }
    } else {
        resumeScheduledEvents();
        ASSERT(d->m_enqueueEvents);
    }

    d->m_nestedLayoutCount--;
}