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webkit / WebKit / bd7e93c893eb44db2876c16023a672cb30f5f59d / . / Source / WebCore / page / FrameViewLayoutContext.cpp
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/*
* Copyright (C) 2017 Apple Inc. All Rights Reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "FrameViewLayoutContext.h"
#include "CSSAnimationController.h"
#include "DebugPageOverlays.h"
#include "Document.h"
#include "FrameView.h"
#include "InspectorInstrumentation.h"
#include "LayoutDisallowedScope.h"
#include "Logging.h"
#include "RenderElement.h"
#include "RenderLayoutState.h"
#include "RenderView.h"
#include "RuntimeEnabledFeatures.h"
#include "ScriptDisallowedScope.h"
#include "Settings.h"
#if ENABLE(LAYOUT_FORMATTING_CONTEXT)
#include "DisplayBox.h"
#include "InvalidationContext.h"
#include "InvalidationState.h"
#include "LayoutContext.h"
#include "LayoutState.h"
#include "LayoutTreeBuilder.h"
#include "RenderDescendantIterator.h"
#endif
#include <wtf/SetForScope.h>
#include <wtf/SystemTracing.h>
#include <wtf/text/TextStream.h>
namespace WebCore {
#if ENABLE(LAYOUT_FORMATTING_CONTEXT)
void FrameViewLayoutContext::layoutUsingFormattingContext()
{
if (!RuntimeEnabledFeatures::sharedFeatures().layoutFormattingContextEnabled())
return;
// FrameView::setContentsSize temporary disables layout.
if (m_disableSetNeedsLayoutCount)
return;
auto& renderView = *this->renderView();
if (!m_layoutTreeContent) {
m_layoutTreeContent = Layout::TreeBuilder::buildLayoutTree(renderView);
// FIXME: New layout tree requires a new state for now.
m_layoutState = nullptr;
}
if (!m_layoutState)
m_layoutState = makeUnique<Layout::LayoutState>(*document(), m_layoutTreeContent->rootLayoutBox());
// FIXME: This is not the real invalidation yet.
auto invalidationState = Layout::InvalidationState { };
auto layoutContext = Layout::LayoutContext { *m_layoutState };
layoutContext.layout(view().layoutSize(), invalidationState);
// Clean up the render tree state when we don't run RenderView::layout.
if (renderView.needsLayout()) {
auto contentSize = m_layoutState->displayBoxForLayoutBox(*m_layoutState->root().firstChild()).size();
renderView.setSize(contentSize);
renderView.repaintViewRectangle({ 0, 0, contentSize.width(), contentSize.height() });
for (auto& descendant : descendantsOfType<RenderObject>(renderView))
descendant.clearNeedsLayout();
renderView.clearNeedsLayout();
}
#ifndef NDEBUG
Layout::LayoutContext::verifyAndOutputMismatchingLayoutTree(*m_layoutState, renderView);
#endif
}
void FrameViewLayoutContext::invalidateLayoutTreeContent()
{
m_layoutTreeContent = nullptr;
}
#endif
static bool isObjectAncestorContainerOf(RenderElement& ancestor, RenderElement& descendant)
{
for (auto* renderer = &descendant; renderer; renderer = renderer->container()) {
if (renderer == &ancestor)
return true;
}
return false;
}
#ifndef NDEBUG
class RenderTreeNeedsLayoutChecker {
public :
RenderTreeNeedsLayoutChecker(const RenderElement& layoutRoot)
: m_layoutRoot(layoutRoot)
{
}
~RenderTreeNeedsLayoutChecker()
{
auto reportNeedsLayoutError = [] (const RenderObject& renderer) {
WTFReportError(__FILE__, __LINE__, WTF_PRETTY_FUNCTION, "post-layout: dirty renderer(s)");
renderer.showRenderTreeForThis();
ASSERT_NOT_REACHED();
};
if (m_layoutRoot.needsLayout()) {
reportNeedsLayoutError(m_layoutRoot);
return;
}
for (auto* descendant = m_layoutRoot.firstChild(); descendant; descendant = descendant->nextInPreOrder(&m_layoutRoot)) {
if (!descendant->needsLayout())
continue;
reportNeedsLayoutError(*descendant);
return;
}
}
private:
const RenderElement& m_layoutRoot;
};
#endif
class LayoutScope {
public:
LayoutScope(FrameViewLayoutContext& layoutContext)
: m_view(layoutContext.view())
, m_nestedState(layoutContext.m_layoutNestedState, layoutContext.m_layoutNestedState == FrameViewLayoutContext::LayoutNestedState::NotInLayout ? FrameViewLayoutContext::LayoutNestedState::NotNested : FrameViewLayoutContext::LayoutNestedState::Nested)
, m_schedulingIsEnabled(layoutContext.m_layoutSchedulingIsEnabled, false)
, m_previousScrollType(layoutContext.view().currentScrollType())
{
m_view.setCurrentScrollType(ScrollType::Programmatic);
}
~LayoutScope()
{
m_view.setCurrentScrollType(m_previousScrollType);
}
private:
FrameView& m_view;
SetForScope<FrameViewLayoutContext::LayoutNestedState> m_nestedState;
SetForScope<bool> m_schedulingIsEnabled;
ScrollType m_previousScrollType;
};
FrameViewLayoutContext::FrameViewLayoutContext(FrameView& frameView)
: m_frameView(frameView)
, m_layoutTimer(*this, &FrameViewLayoutContext::layoutTimerFired)
, m_asynchronousTasksTimer(*this, &FrameViewLayoutContext::runAsynchronousTasks)
{
}
FrameViewLayoutContext::~FrameViewLayoutContext()
{
}
void FrameViewLayoutContext::layout()
{
LOG_WITH_STREAM(Layout, stream << "FrameView " << &view() << " FrameViewLayoutContext::layout() with size " << view().layoutSize());
RELEASE_ASSERT_WITH_SECURITY_IMPLICATION(!frame().document()->inRenderTreeUpdate());
ASSERT(LayoutDisallowedScope::isLayoutAllowed());
ASSERT(!view().isPainting());
ASSERT(frame().view() == &view());
ASSERT(frame().document());
ASSERT(frame().document()->backForwardCacheState() == Document::NotInBackForwardCache
|| frame().document()->backForwardCacheState() == Document::AboutToEnterBackForwardCache);
if (!canPerformLayout()) {
LOG(Layout, " is not allowed, bailing");
return;
}
Ref<FrameView> protectView(view());
LayoutScope layoutScope(*this);
TraceScope tracingScope(LayoutStart, LayoutEnd);
InspectorInstrumentation::willLayout(view().frame());
AnimationUpdateBlock animationUpdateBlock(&view().frame().animation());
WeakPtr<RenderElement> layoutRoot;
m_layoutTimer.stop();
m_delayedLayout = false;
m_setNeedsLayoutWasDeferred = false;
#if !LOG_DISABLED
if (m_firstLayout && !frame().ownerElement())
LOG(Layout, "FrameView %p elapsed time before first layout: %.3fs", this, document()->timeSinceDocumentCreation().value());
#endif
#if PLATFORM(IOS_FAMILY)
if (view().updateFixedPositionLayoutRect() && subtreeLayoutRoot())
convertSubtreeLayoutToFullLayout();
#endif
if (handleLayoutWithFrameFlatteningIfNeeded())
return;
{
SetForScope<LayoutPhase> layoutPhase(m_layoutPhase, LayoutPhase::InPreLayout);
// If this is a new top-level layout and there are any remaining tasks from the previous layout, finish them now.
if (!isLayoutNested() && m_asynchronousTasksTimer.isActive() && !view().isInChildFrameWithFrameFlattening())
runAsynchronousTasks();
updateStyleForLayout();
if (view().hasOneRef())
return;
view().autoSizeIfEnabled();
if (!renderView())
return;
layoutRoot = makeWeakPtr(subtreeLayoutRoot() ? subtreeLayoutRoot() : renderView());
m_needsFullRepaint = is<RenderView>(layoutRoot.get()) && (m_firstLayout || renderView()->printing());
view().willDoLayout(layoutRoot);
m_firstLayout = false;
}
{
SetForScope<LayoutPhase> layoutPhase(m_layoutPhase, LayoutPhase::InRenderTreeLayout);
ScriptDisallowedScope::InMainThread scriptDisallowedScope;
SubtreeLayoutStateMaintainer subtreeLayoutStateMaintainer(subtreeLayoutRoot());
RenderView::RepaintRegionAccumulator repaintRegionAccumulator(renderView());
#ifndef NDEBUG
RenderTreeNeedsLayoutChecker checker(*layoutRoot);
#endif
layoutRoot->layout();
#if ENABLE(LAYOUT_FORMATTING_CONTEXT)
layoutUsingFormattingContext();
#endif
++m_layoutCount;
#if ENABLE(TEXT_AUTOSIZING)
applyTextSizingIfNeeded(*layoutRoot.get());
#endif
clearSubtreeLayoutRoot();
}
{
SetForScope<LayoutPhase> layoutPhase(m_layoutPhase, LayoutPhase::InViewSizeAdjust);
if (is<RenderView>(layoutRoot.get()) && !renderView()->printing()) {
// This is to protect m_needsFullRepaint's value when layout() is getting re-entered through adjustViewSize().
SetForScope<bool> needsFullRepaint(m_needsFullRepaint);
view().adjustViewSize();
// FIXME: Firing media query callbacks synchronously on nested frames could produced a detached FrameView here by
// navigating away from the current document (see webkit.org/b/173329).
if (view().hasOneRef())
return;
}
}
{
SetForScope<LayoutPhase> layoutPhase(m_layoutPhase, LayoutPhase::InPostLayout);
if (m_needsFullRepaint)
renderView()->repaintRootContents();
ASSERT(!layoutRoot->needsLayout());
view().didLayout(layoutRoot);
runOrScheduleAsynchronousTasks();
}
InspectorInstrumentation::didLayout(view().frame(), *layoutRoot);
DebugPageOverlays::didLayout(view().frame());
}
void FrameViewLayoutContext::runOrScheduleAsynchronousTasks()
{
if (m_asynchronousTasksTimer.isActive())
return;
if (view().isInChildFrameWithFrameFlattening()) {
// While flattening frames, we defer post layout tasks to avoid getting stuck in a cycle,
// except updateWidgetPositions() which is required to kick off subframe layout in certain cases.
if (!m_inAsynchronousTasks)
view().updateWidgetPositions();
m_asynchronousTasksTimer.startOneShot(0_s);
return;
}
// If we are already in performPostLayoutTasks(), defer post layout tasks until after we return
// to avoid re-entrancy.
if (m_inAsynchronousTasks) {
m_asynchronousTasksTimer.startOneShot(0_s);
return;
}
runAsynchronousTasks();
if (needsLayout()) {
// If runAsynchronousTasks() made us layout again, let's defer the tasks until after we return.
m_asynchronousTasksTimer.startOneShot(0_s);
layout();
}
}
void FrameViewLayoutContext::runAsynchronousTasks()
{
m_asynchronousTasksTimer.stop();
if (m_inAsynchronousTasks)
return;
SetForScope<bool> inAsynchronousTasks(m_inAsynchronousTasks, true);
view().performPostLayoutTasks();
}
void FrameViewLayoutContext::flushAsynchronousTasks()
{
if (!m_asynchronousTasksTimer.isActive())
return;
runAsynchronousTasks();
}
void FrameViewLayoutContext::reset()
{
m_layoutPhase = LayoutPhase::OutsideLayout;
clearSubtreeLayoutRoot();
m_layoutCount = 0;
m_layoutSchedulingIsEnabled = true;
m_delayedLayout = false;
m_layoutTimer.stop();
m_firstLayout = true;
m_asynchronousTasksTimer.stop();
m_needsFullRepaint = true;
}
bool FrameViewLayoutContext::needsLayout() const
{
// This can return true in cases where the document does not have a body yet.
// Document::shouldScheduleLayout takes care of preventing us from scheduling
// layout in that case.
auto* renderView = this->renderView();
return isLayoutPending()
|| (renderView && renderView->needsLayout())
|| subtreeLayoutRoot()
|| (m_disableSetNeedsLayoutCount && m_setNeedsLayoutWasDeferred);
}
void FrameViewLayoutContext::setNeedsLayoutAfterViewConfigurationChange()
{
if (m_disableSetNeedsLayoutCount) {
m_setNeedsLayoutWasDeferred = true;
return;
}
if (auto* renderView = this->renderView()) {
ASSERT(!frame().document()->inHitTesting());
renderView->setNeedsLayout();
scheduleLayout();
}
}
void FrameViewLayoutContext::enableSetNeedsLayout()
{
ASSERT(m_disableSetNeedsLayoutCount);
if (!--m_disableSetNeedsLayoutCount)
m_setNeedsLayoutWasDeferred = false; // FIXME: Find a way to make the deferred layout actually happen.
}
void FrameViewLayoutContext::disableSetNeedsLayout()
{
++m_disableSetNeedsLayoutCount;
}
void FrameViewLayoutContext::scheduleLayout()
{
// FIXME: We should assert the page is not in the back/forward cache, but that is causing
// too many false assertions. See <rdar://problem/7218118>.
ASSERT(frame().view() == &view());
if (subtreeLayoutRoot())
convertSubtreeLayoutToFullLayout();
if (!isLayoutSchedulingEnabled())
return;
if (!needsLayout())
return;
if (!frame().document()->shouldScheduleLayout())
return;
InspectorInstrumentation::didInvalidateLayout(frame());
// When frame flattening is enabled, the contents of the frame could affect the layout of the parent frames.
// Also invalidate parent frame starting from the owner element of this frame.
if (frame().ownerRenderer() && view().isInChildFrameWithFrameFlattening())
frame().ownerRenderer()->setNeedsLayout(MarkContainingBlockChain);
Seconds delay = frame().document()->minimumLayoutDelay();
if (m_layoutTimer.isActive() && m_delayedLayout && !delay)
unscheduleLayout();
if (m_layoutTimer.isActive())
return;
m_delayedLayout = delay.value();
#if !LOG_DISABLED
if (!frame().document()->ownerElement())
LOG(Layout, "FrameView %p scheduling layout for %.3fs", this, delay.value());
#endif
m_layoutTimer.startOneShot(delay);
}
void FrameViewLayoutContext::unscheduleLayout()
{
if (m_asynchronousTasksTimer.isActive())
m_asynchronousTasksTimer.stop();
if (!m_layoutTimer.isActive())
return;
#if !LOG_DISABLED
if (!frame().document()->ownerElement())
LOG(Layout, "FrameView %p layout timer unscheduled at %.3fs", this, frame().document()->timeSinceDocumentCreation().value());
#endif
m_layoutTimer.stop();
m_delayedLayout = false;
}
void FrameViewLayoutContext::scheduleSubtreeLayout(RenderElement& layoutRoot)
{
ASSERT(renderView());
auto& renderView = *this->renderView();
// Try to catch unnecessary work during render tree teardown.
ASSERT(!renderView.renderTreeBeingDestroyed());
ASSERT(frame().view() == &view());
if (renderView.needsLayout() && !subtreeLayoutRoot()) {
layoutRoot.markContainingBlocksForLayout(ScheduleRelayout::No);
return;
}
if (!isLayoutPending() && isLayoutSchedulingEnabled()) {
Seconds delay = renderView.document().minimumLayoutDelay();
ASSERT(!layoutRoot.container() || is<RenderView>(layoutRoot.container()) || !layoutRoot.container()->needsLayout());
setSubtreeLayoutRoot(layoutRoot);
InspectorInstrumentation::didInvalidateLayout(frame());
m_delayedLayout = delay.value();
m_layoutTimer.startOneShot(delay);
return;
}
auto* subtreeLayoutRoot = this->subtreeLayoutRoot();
if (subtreeLayoutRoot == &layoutRoot)
return;
if (!subtreeLayoutRoot) {
// We already have a pending (full) layout. Just mark the subtree for layout.
layoutRoot.markContainingBlocksForLayout(ScheduleRelayout::No);
InspectorInstrumentation::didInvalidateLayout(frame());
return;
}
if (isObjectAncestorContainerOf(*subtreeLayoutRoot, layoutRoot)) {
// Keep the current root.
layoutRoot.markContainingBlocksForLayout(ScheduleRelayout::No, subtreeLayoutRoot);
ASSERT(!subtreeLayoutRoot->container() || is<RenderView>(subtreeLayoutRoot->container()) || !subtreeLayoutRoot->container()->needsLayout());
return;
}
if (isObjectAncestorContainerOf(layoutRoot, *subtreeLayoutRoot)) {
// Re-root at newRelayoutRoot.
subtreeLayoutRoot->markContainingBlocksForLayout(ScheduleRelayout::No, &layoutRoot);
setSubtreeLayoutRoot(layoutRoot);
ASSERT(!layoutRoot.container() || is<RenderView>(layoutRoot.container()) || !layoutRoot.container()->needsLayout());
InspectorInstrumentation::didInvalidateLayout(frame());
return;
}
// Two disjoint subtrees need layout. Mark both of them and issue a full layout instead.
convertSubtreeLayoutToFullLayout();
layoutRoot.markContainingBlocksForLayout(ScheduleRelayout::No);
InspectorInstrumentation::didInvalidateLayout(frame());
}
void FrameViewLayoutContext::layoutTimerFired()
{
#if !LOG_DISABLED
if (!frame().document()->ownerElement())
LOG(Layout, "FrameView %p layout timer fired at %.3fs", this, frame().document()->timeSinceDocumentCreation().value());
#endif
layout();
}
RenderElement* FrameViewLayoutContext::subtreeLayoutRoot() const
{
return m_subtreeLayoutRoot.get();
}
void FrameViewLayoutContext::convertSubtreeLayoutToFullLayout()
{
ASSERT(subtreeLayoutRoot());
subtreeLayoutRoot()->markContainingBlocksForLayout(ScheduleRelayout::No);
clearSubtreeLayoutRoot();
}
void FrameViewLayoutContext::setSubtreeLayoutRoot(RenderElement& layoutRoot)
{
m_subtreeLayoutRoot = makeWeakPtr(layoutRoot);
}
bool FrameViewLayoutContext::canPerformLayout() const
{
if (isInRenderTreeLayout())
return false;
if (layoutDisallowed())
return false;
if (view().isPainting())
return false;
if (!subtreeLayoutRoot() && !frame().document()->renderView())
return false;
return true;
}
#if ENABLE(TEXT_AUTOSIZING)
void FrameViewLayoutContext::applyTextSizingIfNeeded(RenderElement& layoutRoot)
{
auto& settings = layoutRoot.settings();
bool idempotentMode = settings.textAutosizingUsesIdempotentMode();
if (!settings.textAutosizingEnabled() || idempotentMode || renderView()->printing())
return;
auto minimumZoomFontSize = settings.minimumZoomFontSize();
if (!idempotentMode && !minimumZoomFontSize)
return;
auto textAutosizingWidth = layoutRoot.page().textAutosizingWidth();
if (auto overrideWidth = settings.textAutosizingWindowSizeOverride().width())
textAutosizingWidth = overrideWidth;
if (!idempotentMode && !textAutosizingWidth)
return;
layoutRoot.adjustComputedFontSizesOnBlocks(minimumZoomFontSize, textAutosizingWidth);
if (!layoutRoot.needsLayout())
return;
LOG(TextAutosizing, "Text Autosizing: minimumZoomFontSize=%.2f textAutosizingWidth=%.2f", minimumZoomFontSize, textAutosizingWidth);
layoutRoot.layout();
}
#endif
void FrameViewLayoutContext::updateStyleForLayout()
{
Document& document = *frame().document();
// FIXME: This shouldn't be necessary, but see rdar://problem/36670246.
if (!document.styleScope().resolverIfExists())
document.styleScope().didChangeStyleSheetEnvironment();
// Viewport-dependent media queries may cause us to need completely different style information.
document.styleScope().evaluateMediaQueriesForViewportChange();
document.updateElementsAffectedByMediaQueries();
// If there is any pagination to apply, it will affect the RenderView's style, so we should
// take care of that now.
view().applyPaginationToViewport();
// 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.
document.updateStyleIfNeeded();
}
bool FrameViewLayoutContext::handleLayoutWithFrameFlatteningIfNeeded()
{
if (!view().isInChildFrameWithFrameFlattening())
return false;
startLayoutAtMainFrameViewIfNeeded();
auto* layoutRoot = subtreeLayoutRoot() ? subtreeLayoutRoot() : frame().document()->renderView();
return !layoutRoot || !layoutRoot->needsLayout();
}
void FrameViewLayoutContext::startLayoutAtMainFrameViewIfNeeded()
{
// When we start a layout at the child level as opposed to the topmost frame view and this child
// frame requires flattening, we need to re-initiate the layout at the topmost view. Layout
// will hit this view eventually.
auto* parentView = view().parentFrameView();
if (!parentView)
return;
// In the middle of parent layout, no need to restart from topmost.
if (parentView->layoutContext().isInLayout())
return;
// Parent tree is clean. Starting layout from it would have no effect.
if (!parentView->needsLayout())
return;
while (parentView->parentFrameView())
parentView = parentView->parentFrameView();
LOG(Layout, " frame flattening, starting from root");
parentView->layoutContext().layout();
}
LayoutSize FrameViewLayoutContext::layoutDelta() const
{
if (auto* layoutState = this->layoutState())
return layoutState->layoutDelta();
return { };
}
void FrameViewLayoutContext::addLayoutDelta(const LayoutSize& delta)
{
if (auto* layoutState = this->layoutState())
layoutState->addLayoutDelta(delta);
}
#if ASSERT_ENABLED
bool FrameViewLayoutContext::layoutDeltaMatches(const LayoutSize& delta)
{
if (auto* layoutState = this->layoutState())
return layoutState->layoutDeltaMatches(delta);
return false;
}
#endif
RenderLayoutState* FrameViewLayoutContext::layoutState() const
{
if (m_layoutStateStack.isEmpty())
return nullptr;
return m_layoutStateStack.last().get();
}
void FrameViewLayoutContext::pushLayoutState(RenderElement& root)
{
ASSERT(!m_paintOffsetCacheDisableCount);
ASSERT(!layoutState());
m_layoutStateStack.append(makeUnique<RenderLayoutState>(root));
}
bool FrameViewLayoutContext::pushLayoutStateForPaginationIfNeeded(RenderBlockFlow& layoutRoot)
{
if (layoutState())
return false;
m_layoutStateStack.append(makeUnique<RenderLayoutState>(layoutRoot, RenderLayoutState::IsPaginated::Yes));
return true;
}
bool FrameViewLayoutContext::pushLayoutState(RenderBox& renderer, const LayoutSize& offset, LayoutUnit pageHeight, bool pageHeightChanged)
{
// We push LayoutState even if layoutState is disabled because it stores layoutDelta too.
auto* layoutState = this->layoutState();
if (!layoutState || !needsFullRepaint() || layoutState->isPaginated() || renderer.enclosingFragmentedFlow()
|| layoutState->lineGrid() || (renderer.style().lineGrid() != RenderStyle::initialLineGrid() && renderer.isRenderBlockFlow())) {
m_layoutStateStack.append(makeUnique<RenderLayoutState>(m_layoutStateStack, renderer, offset, pageHeight, pageHeightChanged));
return true;
}
return false;
}
void FrameViewLayoutContext::popLayoutState()
{
m_layoutStateStack.removeLast();
}
#ifndef NDEBUG
void FrameViewLayoutContext::checkLayoutState()
{
ASSERT(layoutDeltaMatches(LayoutSize()));
ASSERT(!m_paintOffsetCacheDisableCount);
}
#endif
Frame& FrameViewLayoutContext::frame() const
{
return view().frame();
}
FrameView& FrameViewLayoutContext::view() const
{
return m_frameView;
}
RenderView* FrameViewLayoutContext::renderView() const
{
return view().renderView();
}
Document* FrameViewLayoutContext::document() const
{
return frame().document();
}
} // namespace WebCore