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webkit / WebKit / ee4b25a2545a77c7761d4df65def1ef3d4d74b64 / . / Source / WebCore / rendering / RenderRegion.cpp
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/*
* Copyright (C) 2011 Adobe Systems Incorporated. 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 THE COPYRIGHT HOLDER "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 THE COPYRIGHT HOLDER 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 "RenderRegion.h"
#include "FlowThreadController.h"
#include "GraphicsContext.h"
#include "HitTestResult.h"
#include "IntRect.h"
#include "PaintInfo.h"
#include "Range.h"
#include "RenderBoxRegionInfo.h"
#include "RenderNamedFlowThread.h"
#include "RenderView.h"
#include "StyleResolver.h"
namespace WebCore {
RenderRegion::RenderRegion(Node* node, RenderFlowThread* flowThread)
: RenderReplaced(node, IntSize())
, m_flowThread(flowThread)
, m_parentNamedFlowThread(0)
, m_isValid(false)
, m_hasCustomRegionStyle(false)
, m_hasAutoLogicalHeight(false)
, m_regionState(RegionUndefined)
{
}
LayoutUnit RenderRegion::pageLogicalWidth() const
{
return m_flowThread->isHorizontalWritingMode() ? contentWidth() : contentHeight();
}
LayoutUnit RenderRegion::pageLogicalHeight() const
{
if (hasOverrideHeight() && view()->normalLayoutPhase())
return overrideLogicalContentHeight() + borderAndPaddingLogicalHeight();
return m_flowThread->isHorizontalWritingMode() ? contentHeight() : contentWidth();
}
LayoutUnit RenderRegion::logicalHeightOfAllFlowThreadContent() const
{
if (hasOverrideHeight() && view()->normalLayoutPhase())
return overrideLogicalContentHeight() + borderAndPaddingLogicalHeight();
return m_flowThread->isHorizontalWritingMode() ? contentHeight() : contentWidth();
}
LayoutRect RenderRegion::flowThreadPortionOverflowRect() const
{
return overflowRectForFlowThreadPortion(flowThreadPortionRect(), isFirstRegion(), isLastRegion());
}
LayoutRect RenderRegion::overflowRectForFlowThreadPortion(LayoutRect flowThreadPortionRect, bool isFirstPortion, bool isLastPortion) const
{
// FIXME: Would like to just use hasOverflowClip() but we aren't a block yet. When RenderRegion is eliminated and
// folded into RenderBlock, switch to hasOverflowClip().
bool clipX = style()->overflowX() != OVISIBLE;
bool clipY = style()->overflowY() != OVISIBLE;
bool isLastRegionWithRegionOverflowBreak = (isLastPortion && (style()->regionOverflow() == BreakRegionOverflow));
if ((clipX && clipY) || !isValid() || !m_flowThread || isLastRegionWithRegionOverflowBreak)
return flowThreadPortionRect;
LayoutRect flowThreadOverflow = m_flowThread->visualOverflowRect();
// Only clip along the flow thread axis.
LayoutUnit outlineSize = maximalOutlineSize(PaintPhaseOutline);
LayoutRect clipRect;
if (m_flowThread->isHorizontalWritingMode()) {
LayoutUnit minY = isFirstPortion ? (flowThreadOverflow.y() - outlineSize) : flowThreadPortionRect.y();
LayoutUnit maxY = isLastPortion ? max(flowThreadPortionRect.maxY(), flowThreadOverflow.maxY()) + outlineSize : flowThreadPortionRect.maxY();
LayoutUnit minX = clipX ? flowThreadPortionRect.x() : (flowThreadOverflow.x() - outlineSize);
LayoutUnit maxX = clipX ? flowThreadPortionRect.maxX() : (flowThreadOverflow.maxX() + outlineSize);
clipRect = LayoutRect(minX, minY, maxX - minX, maxY - minY);
} else {
LayoutUnit minX = isFirstPortion ? (flowThreadOverflow.x() - outlineSize) : flowThreadPortionRect.x();
LayoutUnit maxX = isLastPortion ? max(flowThreadPortionRect.maxX(), flowThreadOverflow.maxX()) + outlineSize : flowThreadPortionRect.maxX();
LayoutUnit minY = clipY ? flowThreadPortionRect.y() : (flowThreadOverflow.y() - outlineSize);
LayoutUnit maxY = clipY ? flowThreadPortionRect.maxY() : (flowThreadOverflow.maxY() + outlineSize);
clipRect = LayoutRect(minX, minY, maxX - minX, maxY - minY);
}
return clipRect;
}
LayoutUnit RenderRegion::pageLogicalTopForOffset(LayoutUnit /* offset */) const
{
return flowThread()->isHorizontalWritingMode() ? flowThreadPortionRect().y() : flowThreadPortionRect().x();
}
bool RenderRegion::isFirstRegion() const
{
ASSERT(isValid() && m_flowThread);
return m_flowThread->firstRegion() == this;
}
bool RenderRegion::isLastRegion() const
{
ASSERT(isValid() && m_flowThread);
return m_flowThread->lastRegion() == this;
}
void RenderRegion::paintReplaced(PaintInfo& paintInfo, const LayoutPoint& paintOffset)
{
// Delegate painting of content in region to RenderFlowThread.
if (!m_flowThread || !isValid())
return;
setRegionObjectsRegionStyle();
m_flowThread->paintFlowThreadPortionInRegion(paintInfo, this, flowThreadPortionRect(), flowThreadPortionOverflowRect(), LayoutPoint(paintOffset.x() + borderLeft() + paddingLeft(), paintOffset.y() + borderTop() + paddingTop()));
restoreRegionObjectsOriginalStyle();
}
// Hit Testing
bool RenderRegion::nodeAtPoint(const HitTestRequest& request, HitTestResult& result, const HitTestLocation& locationInContainer, const LayoutPoint& accumulatedOffset, HitTestAction action)
{
if (!isValid())
return false;
LayoutPoint adjustedLocation = accumulatedOffset + location();
// Check our bounds next. For this purpose always assume that we can only be hit in the
// foreground phase (which is true for replaced elements like images).
// FIXME: Once we support overflow, we need to intersect with that and not with the bounds rect.
LayoutRect boundsRect = borderBoxRectInRegion(locationInContainer.region());
boundsRect.moveBy(adjustedLocation);
if (visibleToHitTesting() && action == HitTestForeground && locationInContainer.intersects(boundsRect)) {
// Check the contents of the RenderFlowThread.
if (m_flowThread && m_flowThread->hitTestFlowThreadPortionInRegion(this, flowThreadPortionRect(), flowThreadPortionOverflowRect(), request, result, locationInContainer, LayoutPoint(adjustedLocation.x() + borderLeft() + paddingLeft(), adjustedLocation.y() + borderTop() + paddingTop())))
return true;
updateHitTestResult(result, locationInContainer.point() - toLayoutSize(adjustedLocation));
if (!result.addNodeToRectBasedTestResult(generatingNode(), request, locationInContainer, boundsRect))
return true;
}
return false;
}
void RenderRegion::checkRegionStyle()
{
ASSERT(m_flowThread);
bool customRegionStyle = false;
// FIXME: Region styling doesn't work for pseudo elements.
if (node()) {
Element* regionElement = static_cast<Element*>(node());
customRegionStyle = view()->document()->styleResolver()->checkRegionStyle(regionElement);
}
setHasCustomRegionStyle(customRegionStyle);
m_flowThread->checkRegionsWithStyling();
}
void RenderRegion::updateRegionHasAutoLogicalHeightFlag()
{
ASSERT(m_flowThread);
if (!isValid())
return;
bool didHaveAutoLogicalHeight = m_hasAutoLogicalHeight;
m_hasAutoLogicalHeight = shouldHaveAutoLogicalHeight();
if (m_hasAutoLogicalHeight != didHaveAutoLogicalHeight) {
if (m_hasAutoLogicalHeight)
view()->flowThreadController()->incrementAutoLogicalHeightRegions();
else {
clearOverrideLogicalContentHeight();
view()->flowThreadController()->decrementAutoLogicalHeightRegions();
}
}
}
void RenderRegion::styleDidChange(StyleDifference diff, const RenderStyle* oldStyle)
{
RenderReplaced::styleDidChange(diff, oldStyle);
// If the region is not attached to any thread, there is no need to check
// whether the region has region styling since no content will be displayed
// into the region.
if (!m_flowThread) {
setHasCustomRegionStyle(false);
return;
}
checkRegionStyle();
updateRegionHasAutoLogicalHeightFlag();
}
void RenderRegion::layout()
{
StackStats::LayoutCheckPoint layoutCheckPoint;
RenderReplaced::layout();
if (m_flowThread && isValid()) {
LayoutRect oldRegionRect(flowThreadPortionRect());
if (!isHorizontalWritingMode())
oldRegionRect = oldRegionRect.transposedRect();
if (oldRegionRect.width() != pageLogicalWidth() || oldRegionRect.height() != pageLogicalHeight())
m_flowThread->invalidateRegions();
}
// FIXME: We need to find a way to set up overflow properly. Our flow thread hasn't gotten a layout
// yet, so we can't look to it for correct information. It's possible we could wait until after the RenderFlowThread
// gets a layout, and then try to propagate overflow information back to the region, and then mark for a second layout.
// That second layout would then be able to use the information from the RenderFlowThread to set up overflow.
//
// The big problem though is that overflow needs to be region-specific. We can't simply use the RenderFlowThread's global
// overflow values, since then we'd always think any narrow region had huge overflow (all the way to the width of the
// RenderFlowThread itself).
//
// We'll need to expand RenderBoxRegionInfo to also hold left and right overflow values.
}
void RenderRegion::repaintFlowThreadContent(const LayoutRect& repaintRect, bool immediate) const
{
repaintFlowThreadContentRectangle(repaintRect, immediate, flowThreadPortionRect(), flowThreadPortionOverflowRect(), contentBoxRect().location());
}
void RenderRegion::repaintFlowThreadContentRectangle(const LayoutRect& repaintRect, bool immediate, const LayoutRect& flowThreadPortionRect, const LayoutRect& flowThreadPortionOverflowRect, const LayoutPoint& regionLocation) const
{
// We only have to issue a repaint in this region if the region rect intersects the repaint rect.
LayoutRect flippedFlowThreadPortionRect(flowThreadPortionRect);
LayoutRect flippedFlowThreadPortionOverflowRect(flowThreadPortionOverflowRect);
flowThread()->flipForWritingMode(flippedFlowThreadPortionRect); // Put the region rects into physical coordinates.
flowThread()->flipForWritingMode(flippedFlowThreadPortionOverflowRect);
LayoutRect clippedRect(repaintRect);
clippedRect.intersect(flippedFlowThreadPortionOverflowRect);
if (clippedRect.isEmpty())
return;
// Put the region rect into the region's physical coordinate space.
clippedRect.setLocation(regionLocation + (clippedRect.location() - flippedFlowThreadPortionRect.location()));
// Now switch to the region's writing mode coordinate space and let it repaint itself.
flipForWritingMode(clippedRect);
// Issue the repaint.
repaintRectangle(clippedRect, immediate);
}
void RenderRegion::installFlowThread()
{
ASSERT(view());
m_flowThread = view()->flowThreadController()->ensureRenderFlowThreadWithName(style()->regionThread());
// By now the flow thread should already be added to the rendering tree,
// so we go up the rendering parents and check that this region is not part of the same
// flow that it actually needs to display. It would create a circular reference.
RenderObject* parentObject = parent();
m_parentNamedFlowThread = 0;
for ( ; parentObject; parentObject = parentObject->parent()) {
if (parentObject->isRenderNamedFlowThread()) {
m_parentNamedFlowThread = toRenderNamedFlowThread(parentObject);
// Do not take into account a region that links a flow with itself. The dependency
// cannot change, so it is not worth adding it to the list.
if (m_flowThread == m_parentNamedFlowThread)
m_flowThread = 0;
break;
}
}
}
void RenderRegion::attachRegion()
{
if (documentBeingDestroyed())
return;
// A region starts off invalid.
setIsValid(false);
// Initialize the flow thread reference and create the flow thread object if needed.
// The flow thread lifetime is influenced by the number of regions attached to it,
// and we are attaching the region to the flow thread.
installFlowThread();
if (!m_flowThread)
return;
m_flowThread->addRegionToThread(this);
// The region just got attached to the flow thread, lets check whether
// it has region styling rules associated.
checkRegionStyle();
if (!isValid())
return;
m_hasAutoLogicalHeight = shouldHaveAutoLogicalHeight();
if (hasAutoLogicalHeight())
view()->flowThreadController()->incrementAutoLogicalHeightRegions();
}
void RenderRegion::detachRegion()
{
if (m_flowThread) {
m_flowThread->removeRegionFromThread(this);
if (hasAutoLogicalHeight()) {
ASSERT(isValid());
view()->flowThreadController()->decrementAutoLogicalHeightRegions();
}
}
m_flowThread = 0;
}
RenderBoxRegionInfo* RenderRegion::renderBoxRegionInfo(const RenderBox* box) const
{
if (!m_isValid || !m_flowThread)
return 0;
return m_renderBoxRegionInfo.get(box);
}
RenderBoxRegionInfo* RenderRegion::setRenderBoxRegionInfo(const RenderBox* box, LayoutUnit logicalLeftInset, LayoutUnit logicalRightInset,
bool containingBlockChainIsInset)
{
ASSERT(m_isValid && m_flowThread);
if (!m_isValid || !m_flowThread)
return 0;
OwnPtr<RenderBoxRegionInfo>& boxInfo = m_renderBoxRegionInfo.add(box, nullptr).iterator->value;
if (boxInfo)
*boxInfo = RenderBoxRegionInfo(logicalLeftInset, logicalRightInset, containingBlockChainIsInset);
else
boxInfo = adoptPtr(new RenderBoxRegionInfo(logicalLeftInset, logicalRightInset, containingBlockChainIsInset));
return boxInfo.get();
}
PassOwnPtr<RenderBoxRegionInfo> RenderRegion::takeRenderBoxRegionInfo(const RenderBox* box)
{
return m_renderBoxRegionInfo.take(box);
}
void RenderRegion::removeRenderBoxRegionInfo(const RenderBox* box)
{
m_renderBoxRegionInfo.remove(box);
}
void RenderRegion::deleteAllRenderBoxRegionInfo()
{
m_renderBoxRegionInfo.clear();
}
LayoutUnit RenderRegion::logicalTopOfFlowThreadContentRect(const LayoutRect& rect) const
{
if (!m_isValid || !flowThread())
return 0;
return flowThread()->isHorizontalWritingMode() ? rect.y() : rect.x();
}
LayoutUnit RenderRegion::logicalBottomOfFlowThreadContentRect(const LayoutRect& rect) const
{
if (!m_isValid || !flowThread())
return 0;
return flowThread()->isHorizontalWritingMode() ? rect.maxY() : rect.maxX();
}
void RenderRegion::setRegionObjectsRegionStyle()
{
if (!hasCustomRegionStyle())
return;
// Start from content nodes and recursively compute the style in region for the render objects below.
// If the style in region was already computed, used that style instead of computing a new one.
RenderNamedFlowThread* namedFlow = view()->flowThreadController()->ensureRenderFlowThreadWithName(style()->regionThread());
const NamedFlowContentNodes& contentNodes = namedFlow->contentNodes();
for (NamedFlowContentNodes::const_iterator iter = contentNodes.begin(), end = contentNodes.end(); iter != end; ++iter) {
const Node* node = *iter;
// The list of content nodes contains also the nodes with display:none.
if (!node->renderer())
continue;
RenderObject* object = node->renderer();
// If the content node does not flow any of its children in this region,
// we do not compute any style for them in this region.
if (!flowThread()->objectInFlowRegion(object, this))
continue;
// If the object has style in region, use that instead of computing a new one.
RenderObjectRegionStyleMap::iterator it = m_renderObjectRegionStyle.find(object);
RefPtr<RenderStyle> objectStyleInRegion;
bool objectRegionStyleCached = false;
if (it != m_renderObjectRegionStyle.end()) {
objectStyleInRegion = it->value.style;
ASSERT(it->value.cached);
objectRegionStyleCached = true;
} else
objectStyleInRegion = computeStyleInRegion(object);
setObjectStyleInRegion(object, objectStyleInRegion, objectRegionStyleCached);
computeChildrenStyleInRegion(object);
}
}
void RenderRegion::restoreRegionObjectsOriginalStyle()
{
if (!hasCustomRegionStyle())
return;
RenderObjectRegionStyleMap temp;
for (RenderObjectRegionStyleMap::iterator iter = m_renderObjectRegionStyle.begin(), end = m_renderObjectRegionStyle.end(); iter != end; ++iter) {
RenderObject* object = const_cast<RenderObject*>(iter->key);
RefPtr<RenderStyle> objectRegionStyle = object->style();
RefPtr<RenderStyle> objectOriginalStyle = iter->value.style;
object->setStyleInternal(objectOriginalStyle);
bool shouldCacheRegionStyle = iter->value.cached;
if (!shouldCacheRegionStyle) {
// Check whether we should cache the computed style in region.
unsigned changedContextSensitiveProperties = ContextSensitivePropertyNone;
StyleDifference styleDiff = objectOriginalStyle->diff(objectRegionStyle.get(), changedContextSensitiveProperties);
if (styleDiff < StyleDifferenceLayoutPositionedMovementOnly)
shouldCacheRegionStyle = true;
}
if (shouldCacheRegionStyle) {
ObjectRegionStyleInfo styleInfo;
styleInfo.style = objectRegionStyle;
styleInfo.cached = true;
temp.set(object, styleInfo);
}
}
m_renderObjectRegionStyle.swap(temp);
}
void RenderRegion::insertedIntoTree()
{
RenderReplaced::insertedIntoTree();
attachRegion();
}
void RenderRegion::willBeRemovedFromTree()
{
RenderReplaced::willBeRemovedFromTree();
detachRegion();
}
PassRefPtr<RenderStyle> RenderRegion::computeStyleInRegion(const RenderObject* object)
{
ASSERT(object);
ASSERT(object->view());
ASSERT(object->view()->document());
ASSERT(!object->isAnonymous());
ASSERT(object->node() && object->node()->isElementNode());
// FIXME: Region styling fails for pseudo-elements because the renderers don't have a node.
Element* element = toElement(object->node());
RefPtr<RenderStyle> renderObjectRegionStyle = object->view()->document()->styleResolver()->styleForElement(element, 0, DisallowStyleSharing, MatchAllRules, this);
return renderObjectRegionStyle.release();
}
void RenderRegion::computeChildrenStyleInRegion(const RenderObject* object)
{
for (RenderObject* child = object->firstChild(); child; child = child->nextSibling()) {
RenderObjectRegionStyleMap::iterator it = m_renderObjectRegionStyle.find(child);
RefPtr<RenderStyle> childStyleInRegion;
bool objectRegionStyleCached = false;
if (it != m_renderObjectRegionStyle.end()) {
childStyleInRegion = it->value.style;
objectRegionStyleCached = true;
} else {
if (child->isAnonymous())
childStyleInRegion = RenderStyle::createAnonymousStyleWithDisplay(object->style(), child->style()->display());
else if (child->isText())
childStyleInRegion = RenderStyle::clone(object->style());
else
childStyleInRegion = computeStyleInRegion(child);
}
setObjectStyleInRegion(child, childStyleInRegion, objectRegionStyleCached);
computeChildrenStyleInRegion(child);
}
}
void RenderRegion::setObjectStyleInRegion(RenderObject* object, PassRefPtr<RenderStyle> styleInRegion, bool objectRegionStyleCached)
{
ASSERT(object->inRenderFlowThread());
if (!object->inRenderFlowThread())
return;
RefPtr<RenderStyle> objectOriginalStyle = object->style();
object->setStyleInternal(styleInRegion);
if (object->isBoxModelObject() && !object->hasBoxDecorations()) {
bool hasBoxDecorations = object->isTableCell()
|| object->style()->hasBackground()
|| object->style()->hasBorder()
|| object->style()->hasAppearance()
|| object->style()->boxShadow();
object->setHasBoxDecorations(hasBoxDecorations);
}
ObjectRegionStyleInfo styleInfo;
styleInfo.style = objectOriginalStyle;
styleInfo.cached = objectRegionStyleCached;
m_renderObjectRegionStyle.set(object, styleInfo);
}
void RenderRegion::clearObjectStyleInRegion(const RenderObject* object)
{
ASSERT(object);
m_renderObjectRegionStyle.remove(object);
// Clear the style for the children of this object.
for (RenderObject* child = object->firstChild(); child; child = child->nextSibling())
clearObjectStyleInRegion(child);
}
// FIXME: when RenderRegion will inherit from RenderBlock instead of RenderReplaced,
// we should overwrite computePreferredLogicalWidths ( see https://bugs.webkit.org/show_bug.cgi?id=74132 )
LayoutUnit RenderRegion::minPreferredLogicalWidth() const
{
if (!m_flowThread || !m_isValid)
return RenderReplaced::minPreferredLogicalWidth();
// FIXME: Currently, the code handles only the <length> case for min-width. It should also support other values, like percentage, calc
// or viewport relative.
RenderStyle* styleToUse = style();
LayoutUnit minPreferredLogicalWidth = m_flowThread->minPreferredLogicalWidth();
if (styleToUse->logicalMinWidth().isFixed() && styleToUse->logicalMinWidth().value() > 0)
minPreferredLogicalWidth = std::max(minPreferredLogicalWidth, adjustContentBoxLogicalWidthForBoxSizing(styleToUse->logicalMinWidth().value()));
if (styleToUse->logicalMaxWidth().isFixed())
minPreferredLogicalWidth = std::min(minPreferredLogicalWidth, adjustContentBoxLogicalWidthForBoxSizing(styleToUse->logicalMaxWidth().value()));
return minPreferredLogicalWidth + borderAndPaddingLogicalWidth();
}
LayoutUnit RenderRegion::maxPreferredLogicalWidth() const
{
if (!m_flowThread || !m_isValid)
return RenderReplaced::maxPreferredLogicalWidth();
// FIXME: Currently, the code handles only the <length> case for max-width. It should also support other values, like percentage, calc
// or viewport relative.
RenderStyle* styleToUse = style();
LayoutUnit maxPreferredLogicalWidth = m_flowThread->maxPreferredLogicalWidth();
if (styleToUse->logicalMinWidth().isFixed() && styleToUse->logicalMinWidth().value() > 0)
maxPreferredLogicalWidth = std::max(maxPreferredLogicalWidth, adjustContentBoxLogicalWidthForBoxSizing(styleToUse->logicalMinWidth().value()));
if (styleToUse->logicalMaxWidth().isFixed())
maxPreferredLogicalWidth = std::min(maxPreferredLogicalWidth, adjustContentBoxLogicalWidthForBoxSizing(styleToUse->logicalMaxWidth().value()));
return maxPreferredLogicalWidth + borderAndPaddingLogicalWidth();
}
void RenderRegion::getRanges(Vector<RefPtr<Range> >& rangeObjects) const
{
RenderNamedFlowThread* namedFlow = view()->flowThreadController()->ensureRenderFlowThreadWithName(style()->regionThread());
namedFlow->getRanges(rangeObjects, this);
}
void RenderRegion::updateLogicalHeight()
{
RenderReplaced::updateLogicalHeight();
if (!hasAutoLogicalHeight())
return;
// We want to update the logical height based on the computed override logical
// content height only if the view is in the layout phase
// in which all the auto logical height regions have their override logical height set.
if (view()->normalLayoutPhase())
return;
// There may be regions with auto logical height that during the prerequisite layout phase
// did not have the chance to layout flow thread content. Because of that, these regions do not
// have an overrideLogicalContentHeight computed and they will not be able to fragment any flow
// thread content.
if (!hasOverrideHeight())
return;
LayoutUnit newLogicalHeight = overrideLogicalContentHeight() + borderAndPaddingLogicalHeight();
ASSERT(newLogicalHeight < LayoutUnit::max() / 2);
if (newLogicalHeight > logicalHeight())
setLogicalHeight(newLogicalHeight);
}
bool RenderRegion::needsOverrideLogicalContentHeightComputation() const
{
return hasAutoLogicalHeight() && view()->normalLayoutPhase() && !hasOverrideHeight();
}
} // namespace WebCore