#include "config.h"
#include "RenderElement.h"
#include "AXObjectCache.h"
#include "ContentData.h"
#include "CursorList.h"
#include "ElementChildIterator.h"
#include "EventHandler.h"
#include "FlowThreadController.h"
#include "FocusController.h"
#include "Frame.h"
#include "FrameSelection.h"
#include "HTMLAnchorElement.h"
#include "HTMLBodyElement.h"
#include "HTMLHtmlElement.h"
#include "HTMLImageElement.h"
#include "HTMLNames.h"
#include "Logging.h"
#include "Page.h"
#include "PathUtilities.h"
#include "RenderBlock.h"
#include "RenderChildIterator.h"
#include "RenderCounter.h"
#include "RenderDeprecatedFlexibleBox.h"
#include "RenderDescendantIterator.h"
#include "RenderFlexibleBox.h"
#include "RenderImage.h"
#include "RenderImageResourceStyleImage.h"
#include "RenderInline.h"
#include "RenderIterator.h"
#include "RenderLayer.h"
#include "RenderLayerCompositor.h"
#include "RenderLineBreak.h"
#include "RenderListItem.h"
#include "RenderNamedFlowThread.h"
#include "RenderRegion.h"
#include "RenderTableCaption.h"
#include "RenderTableCell.h"
#include "RenderTableCol.h"
#include "RenderTableRow.h"
#include "RenderText.h"
#include "RenderTheme.h"
#include "RenderView.h"
#include "SVGRenderSupport.h"
#include "Settings.h"
#include "ShadowRoot.h"
#include "StylePendingResources.h"
#include "StyleResolver.h"
#include <wtf/MathExtras.h>
#include <wtf/StackStats.h>
#if ENABLE(CSS_GRID_LAYOUT)
#include "RenderGrid.h"
#endif
namespace WebCore {
struct SameSizeAsRenderElement : public RenderObject {
uint8_t bitfields0;
uint8_t bitfields1;
uint8_t bitfields2;
void* firstChild;
void* lastChild;
RenderStyle style;
};
static_assert(sizeof(RenderElement) == sizeof(SameSizeAsRenderElement), "RenderElement should stay small");
bool RenderElement::s_affectsParentBlock = false;
bool RenderElement::s_noLongerAffectsParentBlock = false;
inline RenderElement::RenderElement(ContainerNode& elementOrDocument, RenderStyle&& style, BaseTypeFlags baseTypeFlags)
: RenderObject(elementOrDocument)
, m_baseTypeFlags(baseTypeFlags)
, m_ancestorLineBoxDirty(false)
, m_hasInitializedStyle(false)
, m_renderInlineAlwaysCreatesLineBoxes(false)
, m_renderBoxNeedsLazyRepaint(false)
, m_hasPausedImageAnimations(false)
, m_hasCounterNodeMap(false)
, m_isCSSAnimating(false)
, m_hasContinuation(false)
, m_hasValidCachedFirstLineStyle(false)
, m_renderBlockHasMarginBeforeQuirk(false)
, m_renderBlockHasMarginAfterQuirk(false)
, m_renderBlockShouldForceRelayoutChildren(false)
, m_renderBlockFlowHasMarkupTruncation(false)
, m_renderBlockFlowLineLayoutPath(RenderBlockFlow::UndeterminedPath)
, m_firstChild(nullptr)
, m_lastChild(nullptr)
, m_style(WTFMove(style))
{
}
RenderElement::RenderElement(Element& element, RenderStyle&& style, BaseTypeFlags baseTypeFlags)
: RenderElement(static_cast<ContainerNode&>(element), WTFMove(style), baseTypeFlags)
{
}
RenderElement::RenderElement(Document& document, RenderStyle&& style, BaseTypeFlags baseTypeFlags)
: RenderElement(static_cast<ContainerNode&>(document), WTFMove(style), baseTypeFlags)
{
}
RenderElement::~RenderElement()
{
if (hasInitializedStyle()) {
for (const FillLayer* bgLayer = m_style.backgroundLayers(); bgLayer; bgLayer = bgLayer->next()) {
if (StyleImage* backgroundImage = bgLayer->image())
backgroundImage->removeClient(this);
}
for (const FillLayer* maskLayer = m_style.maskLayers(); maskLayer; maskLayer = maskLayer->next()) {
if (StyleImage* maskImage = maskLayer->image())
maskImage->removeClient(this);
}
if (StyleImage* borderImage = m_style.borderImage().image())
borderImage->removeClient(this);
if (StyleImage* maskBoxImage = m_style.maskBoxImage().image())
maskBoxImage->removeClient(this);
if (auto shapeValue = m_style.shapeOutside()) {
if (auto shapeImage = shapeValue->image())
shapeImage->removeClient(this);
}
}
if (m_hasPausedImageAnimations)
view().removeRendererWithPausedImageAnimations(*this);
if (isRegisteredForVisibleInViewportCallback())
view().unregisterForVisibleInViewportCallback(*this);
}
RenderPtr<RenderElement> RenderElement::createFor(Element& element, RenderStyle&& style)
{
const ContentData* contentData = style.contentData();
if (contentData && !contentData->next() && is<ImageContentData>(*contentData) && !element.isPseudoElement()) {
Style::loadPendingResources(style, element.document(), &element);
auto& styleImage = downcast<ImageContentData>(*contentData).image();
auto image = createRenderer<RenderImage>(element, WTFMove(style), const_cast<StyleImage*>(&styleImage));
image->setIsGeneratedContent();
return WTFMove(image);
}
switch (style.display()) {
case NONE:
case CONTENTS:
return nullptr;
case INLINE:
return createRenderer<RenderInline>(element, WTFMove(style));
case BLOCK:
case INLINE_BLOCK:
case COMPACT:
return createRenderer<RenderBlockFlow>(element, WTFMove(style));
case LIST_ITEM:
return createRenderer<RenderListItem>(element, WTFMove(style));
case TABLE:
case INLINE_TABLE:
return createRenderer<RenderTable>(element, WTFMove(style));
case TABLE_ROW_GROUP:
case TABLE_HEADER_GROUP:
case TABLE_FOOTER_GROUP:
return createRenderer<RenderTableSection>(element, WTFMove(style));
case TABLE_ROW:
return createRenderer<RenderTableRow>(element, WTFMove(style));
case TABLE_COLUMN_GROUP:
case TABLE_COLUMN:
return createRenderer<RenderTableCol>(element, WTFMove(style));
case TABLE_CELL:
return createRenderer<RenderTableCell>(element, WTFMove(style));
case TABLE_CAPTION:
return createRenderer<RenderTableCaption>(element, WTFMove(style));
case BOX:
case INLINE_BOX:
return createRenderer<RenderDeprecatedFlexibleBox>(element, WTFMove(style));
case FLEX:
case INLINE_FLEX:
case WEBKIT_FLEX:
case WEBKIT_INLINE_FLEX:
return createRenderer<RenderFlexibleBox>(element, WTFMove(style));
#if ENABLE(CSS_GRID_LAYOUT)
case GRID:
case INLINE_GRID:
return createRenderer<RenderGrid>(element, WTFMove(style));
#endif
}
ASSERT_NOT_REACHED();
return nullptr;
}
std::unique_ptr<RenderStyle> RenderElement::computeFirstLineStyle() const
{
ASSERT(view().usesFirstLineRules());
RenderElement& rendererForFirstLineStyle = isBeforeOrAfterContent() ? *parent() : const_cast<RenderElement&>(*this);
if (rendererForFirstLineStyle.isRenderBlockFlow() || rendererForFirstLineStyle.isRenderButton()) {
RenderBlock* firstLineBlock = rendererForFirstLineStyle.firstLineBlock();
if (!firstLineBlock)
return nullptr;
auto* firstLineStyle = firstLineBlock->getCachedPseudoStyle(FIRST_LINE, &style());
if (!firstLineStyle)
return nullptr;
return RenderStyle::clonePtr(*firstLineStyle);
}
if (rendererForFirstLineStyle.isAnonymous() || !rendererForFirstLineStyle.isRenderInline())
return nullptr;
auto& parentStyle = rendererForFirstLineStyle.parent()->firstLineStyle();
if (&parentStyle == &rendererForFirstLineStyle.parent()->style())
return nullptr;
return rendererForFirstLineStyle.element()->styleResolver().styleForElement(*element(), &parentStyle).renderStyle;
}
const RenderStyle& RenderElement::firstLineStyle() const
{
if (!view().usesFirstLineRules())
return style();
if (!m_hasValidCachedFirstLineStyle) {
auto firstLineStyle = computeFirstLineStyle();
if (firstLineStyle || hasRareData())
const_cast<RenderElement&>(*this).ensureRareData().cachedFirstLineStyle = WTFMove(firstLineStyle);
m_hasValidCachedFirstLineStyle = true;
}
return (hasRareData() && rareData().cachedFirstLineStyle) ? *rareData().cachedFirstLineStyle : style();
}
StyleDifference RenderElement::adjustStyleDifference(StyleDifference diff, unsigned contextSensitiveProperties) const
{
if (contextSensitiveProperties & ContextSensitivePropertyTransform) {
if (!hasLayer() || !downcast<RenderLayerModelObject>(*this).layer()->isComposited()) {
if (!hasLayer())
diff = std::max(diff, StyleDifferenceLayout);
else {
diff = std::max(diff, (diff == StyleDifferenceLayoutPositionedMovementOnly) ? StyleDifferenceSimplifiedLayoutAndPositionedMovement : StyleDifferenceSimplifiedLayout);
}
} else
diff = std::max(diff, StyleDifferenceRecompositeLayer);
}
if (contextSensitiveProperties & ContextSensitivePropertyOpacity) {
if (!hasLayer() || !downcast<RenderLayerModelObject>(*this).layer()->isComposited())
diff = std::max(diff, StyleDifferenceRepaintLayer);
else
diff = std::max(diff, StyleDifferenceRecompositeLayer);
}
if (contextSensitiveProperties & ContextSensitivePropertyClipPath) {
if (hasLayer()
&& downcast<RenderLayerModelObject>(*this).layer()->isComposited()
&& hasClipPath()
&& RenderLayerCompositor::canCompositeClipPath(*downcast<RenderLayerModelObject>(*this).layer()))
diff = std::max(diff, StyleDifferenceRecompositeLayer);
else
diff = std::max(diff, StyleDifferenceRepaint);
}
if (contextSensitiveProperties & ContextSensitivePropertyWillChange) {
if (style().willChange() && style().willChange()->canTriggerCompositing())
diff = std::max(diff, StyleDifferenceRecompositeLayer);
}
if ((contextSensitiveProperties & ContextSensitivePropertyFilter) && hasLayer()) {
RenderLayer* layer = downcast<RenderLayerModelObject>(*this).layer();
if (!layer->isComposited() || layer->paintsWithFilters())
diff = std::max(diff, StyleDifferenceRepaintLayer);
else
diff = std::max(diff, StyleDifferenceRecompositeLayer);
}
if (diff < StyleDifferenceLayout && isRenderLayerModelObject()) {
if (hasLayer() != downcast<RenderLayerModelObject>(*this).requiresLayer())
diff = StyleDifferenceLayout;
}
if (diff == StyleDifferenceRepaintLayer && !hasLayer())
diff = StyleDifferenceRepaint;
return diff;
}
inline bool RenderElement::hasImmediateNonWhitespaceTextChildOrBorderOrOutline() const
{
for (auto& child : childrenOfType<RenderObject>(*this)) {
if (is<RenderText>(child) && !downcast<RenderText>(child).isAllCollapsibleWhitespace())
return true;
if (child.style().hasOutline() || child.style().hasBorder())
return true;
}
return false;
}
inline bool RenderElement::shouldRepaintForStyleDifference(StyleDifference diff) const
{
return diff == StyleDifferenceRepaint || (diff == StyleDifferenceRepaintIfTextOrBorderOrOutline && hasImmediateNonWhitespaceTextChildOrBorderOrOutline());
}
void RenderElement::updateFillImages(const FillLayer* oldLayers, const FillLayer* newLayers)
{
if (FillLayer::imagesIdentical(oldLayers, newLayers))
return;
for (const FillLayer* currNew = newLayers; currNew; currNew = currNew->next()) {
if (currNew->image())
currNew->image()->addClient(this);
}
for (const FillLayer* currOld = oldLayers; currOld; currOld = currOld->next()) {
if (currOld->image())
currOld->image()->removeClient(this);
}
}
void RenderElement::updateImage(StyleImage* oldImage, StyleImage* newImage)
{
if (oldImage == newImage)
return;
if (oldImage)
oldImage->removeClient(this);
if (newImage)
newImage->addClient(this);
}
void RenderElement::updateShapeImage(const ShapeValue* oldShapeValue, const ShapeValue* newShapeValue)
{
if (oldShapeValue || newShapeValue)
updateImage(oldShapeValue ? oldShapeValue->image() : nullptr, newShapeValue ? newShapeValue->image() : nullptr);
}
void RenderElement::initializeStyle()
{
Style::loadPendingResources(m_style, document(), element());
styleWillChange(StyleDifferenceNewStyle, style());
m_hasInitializedStyle = true;
styleDidChange(StyleDifferenceNewStyle, nullptr);
ASSERT(!childrenOfType<RenderText>(*this).first());
}
void RenderElement::setStyle(RenderStyle&& style, StyleDifference minimalStyleDifference)
{
ASSERT(m_hasInitializedStyle || isRenderView());
StyleDifference diff = StyleDifferenceEqual;
unsigned contextSensitiveProperties = ContextSensitivePropertyNone;
if (m_hasInitializedStyle)
diff = m_style.diff(style, contextSensitiveProperties);
diff = std::max(diff, minimalStyleDifference);
diff = adjustStyleDifference(diff, contextSensitiveProperties);
Style::loadPendingResources(style, document(), element());
styleWillChange(diff, style);
auto oldStyle = WTFMove(m_style);
m_style = WTFMove(style);
bool detachedFromParent = !parent();
if (oldStyle.position() != m_style.position())
adjustFlowThreadStateOnContainingBlockChangeIfNeeded();
styleDidChange(diff, &oldStyle);
for (auto& child : childrenOfType<RenderText>(*this))
child.styleDidChange(diff, &oldStyle);
if (detachedFromParent)
return;
StyleDifference updatedDiff = adjustStyleDifference(diff, contextSensitiveProperties);
if (diff <= StyleDifferenceLayoutPositionedMovementOnly) {
if (updatedDiff == StyleDifferenceLayout)
setNeedsLayoutAndPrefWidthsRecalc();
else if (updatedDiff == StyleDifferenceLayoutPositionedMovementOnly)
setNeedsPositionedMovementLayout(&oldStyle);
else if (updatedDiff == StyleDifferenceSimplifiedLayoutAndPositionedMovement) {
setNeedsPositionedMovementLayout(&oldStyle);
setNeedsSimplifiedNormalFlowLayout();
} else if (updatedDiff == StyleDifferenceSimplifiedLayout)
setNeedsSimplifiedNormalFlowLayout();
}
if (updatedDiff == StyleDifferenceRepaintLayer || shouldRepaintForStyleDifference(updatedDiff)) {
repaint();
}
}
bool RenderElement::childRequiresTable(const RenderObject& child) const
{
if (is<RenderTableCol>(child)) {
const RenderTableCol& newTableColumn = downcast<RenderTableCol>(child);
bool isColumnInColumnGroup = newTableColumn.isTableColumn() && is<RenderTableCol>(*this);
return !is<RenderTable>(*this) && !isColumnInColumnGroup;
}
if (is<RenderTableCaption>(child))
return !is<RenderTable>(*this);
if (is<RenderTableSection>(child))
return !is<RenderTable>(*this);
if (is<RenderTableRow>(child))
return !is<RenderTableSection>(*this);
if (is<RenderTableCell>(child))
return !is<RenderTableRow>(*this);
return false;
}
void RenderElement::addChild(RenderObject* newChild, RenderObject* beforeChild)
{
if (childRequiresTable(*newChild)) {
RenderTable* table;
RenderObject* afterChild = beforeChild ? beforeChild->previousSibling() : m_lastChild;
if (afterChild && afterChild->isAnonymous() && is<RenderTable>(*afterChild) && !afterChild->isBeforeContent())
table = downcast<RenderTable>(afterChild);
else {
table = RenderTable::createAnonymousWithParentRenderer(*this).release();
addChild(table, beforeChild);
}
table->addChild(newChild);
} else
insertChildInternal(newChild, beforeChild, NotifyChildren);
if (is<RenderText>(*newChild))
downcast<RenderText>(*newChild).styleDidChange(StyleDifferenceEqual, nullptr);
if (newChild->hasLayer() && !layerCreationAllowedForSubtree())
downcast<RenderLayerModelObject>(*newChild).layer()->removeOnlyThisLayer();
SVGRenderSupport::childAdded(*this, *newChild);
}
void RenderElement::removeChild(RenderObject& oldChild)
{
removeChildInternal(oldChild, NotifyChildren);
}
void RenderElement::destroyLeftoverChildren()
{
while (m_firstChild) {
if (m_firstChild->style().styleType() == FIRST_LETTER && !m_firstChild->isText()) {
m_firstChild->removeFromParent(); } else {
if (m_firstChild->node())
m_firstChild->node()->setRenderer(nullptr);
m_firstChild->destroy();
}
}
}
void RenderElement::insertChildInternal(RenderObject* newChild, RenderObject* beforeChild, NotifyChildrenType notifyChildren)
{
ASSERT(canHaveChildren() || canHaveGeneratedChildren());
ASSERT(!newChild->parent());
ASSERT(!isRenderBlockFlow() || (!newChild->isTableSection() && !newChild->isTableRow() && !newChild->isTableCell()));
while (beforeChild && beforeChild->parent() && beforeChild->parent() != this)
beforeChild = beforeChild->parent();
if (beforeChild && beforeChild->parent() != this) {
ASSERT_NOT_REACHED();
return;
}
newChild->setParent(this);
if (m_firstChild == beforeChild)
m_firstChild = newChild;
if (beforeChild) {
RenderObject* previousSibling = beforeChild->previousSibling();
if (previousSibling)
previousSibling->setNextSibling(newChild);
newChild->setPreviousSibling(previousSibling);
newChild->setNextSibling(beforeChild);
beforeChild->setPreviousSibling(newChild);
} else {
if (lastChild())
lastChild()->setNextSibling(newChild);
newChild->setPreviousSibling(lastChild());
m_lastChild = newChild;
}
newChild->initializeFlowThreadStateOnInsertion();
if (!documentBeingDestroyed()) {
if (notifyChildren == NotifyChildren)
newChild->insertedIntoTree();
if (is<RenderElement>(*newChild))
RenderCounter::rendererSubtreeAttached(downcast<RenderElement>(*newChild));
}
newChild->setNeedsLayoutAndPrefWidthsRecalc();
setPreferredLogicalWidthsDirty(true);
if (!normalChildNeedsLayout())
setChildNeedsLayout();
if (AXObjectCache* cache = document().axObjectCache())
cache->childrenChanged(this, newChild);
if (is<RenderBlockFlow>(*this))
downcast<RenderBlockFlow>(*this).invalidateLineLayoutPath();
if (hasOutlineAutoAncestor() || outlineStyleForRepaint().outlineStyleIsAuto())
newChild->setHasOutlineAutoAncestor();
}
void RenderElement::removeChildInternal(RenderObject& oldChild, NotifyChildrenType notifyChildren)
{
ASSERT(canHaveChildren() || canHaveGeneratedChildren());
ASSERT(oldChild.parent() == this);
if (oldChild.isFloatingOrOutOfFlowPositioned())
downcast<RenderBox>(oldChild).removeFloatingOrPositionedChildFromBlockLists();
if (!documentBeingDestroyed() && notifyChildren == NotifyChildren && oldChild.everHadLayout()) {
oldChild.setNeedsLayoutAndPrefWidthsRecalc();
if (oldChild.isBody())
view().repaintRootContents();
else
oldChild.repaint();
}
if (is<RenderBox>(oldChild))
downcast<RenderBox>(oldChild).deleteLineBoxWrapper();
else if (is<RenderLineBreak>(oldChild))
downcast<RenderLineBreak>(oldChild).deleteInlineBoxWrapper();
if (!documentBeingDestroyed() && oldChild.isSelectionBorder())
frame().selection().setNeedsSelectionUpdate();
if (!documentBeingDestroyed() && notifyChildren == NotifyChildren)
oldChild.willBeRemovedFromTree();
oldChild.resetFlowThreadStateOnRemoval();
RenderObject* nextSibling = oldChild.nextSibling();
if (oldChild.previousSibling())
oldChild.previousSibling()->setNextSibling(nextSibling);
if (nextSibling)
nextSibling->setPreviousSibling(oldChild.previousSibling());
if (m_firstChild == &oldChild)
m_firstChild = nextSibling;
if (m_lastChild == &oldChild)
m_lastChild = oldChild.previousSibling();
oldChild.setPreviousSibling(nullptr);
oldChild.setNextSibling(nullptr);
oldChild.setParent(nullptr);
if (!documentBeingDestroyed() && is<RenderElement>(oldChild))
RenderCounter::rendererRemovedFromTree(downcast<RenderElement>(oldChild));
if (AXObjectCache* cache = document().existingAXObjectCache())
cache->childrenChanged(this);
}
RenderBlock* RenderElement::containingBlockForFixedPosition() const
{
auto* renderer = parent();
while (renderer && !renderer->canContainFixedPositionObjects())
renderer = renderer->parent();
ASSERT(!renderer || !renderer->isAnonymousBlock());
return downcast<RenderBlock>(renderer);
}
RenderBlock* RenderElement::containingBlockForAbsolutePosition() const
{
auto* renderer = isRenderInline() ? const_cast<RenderElement*>(downcast<RenderElement>(this)) : parent();
while (renderer && !renderer->canContainAbsolutelyPositionedObjects())
renderer = renderer->parent();
while (renderer && (!is<RenderBlock>(*renderer) || renderer->isAnonymousBlock()))
renderer = renderer->containingBlock();
return downcast<RenderBlock>(renderer);
}
static void addLayers(RenderElement& renderer, RenderLayer* parentLayer, RenderElement*& newObject, RenderLayer*& beforeChild)
{
if (renderer.hasLayer()) {
if (!beforeChild && newObject) {
beforeChild = newObject->parent()->findNextLayer(parentLayer, newObject);
newObject = nullptr;
}
parentLayer->addChild(downcast<RenderLayerModelObject>(renderer).layer(), beforeChild);
return;
}
for (auto& child : childrenOfType<RenderElement>(renderer))
addLayers(child, parentLayer, newObject, beforeChild);
}
void RenderElement::addLayers(RenderLayer* parentLayer)
{
if (!parentLayer)
return;
RenderElement* renderer = this;
RenderLayer* beforeChild = nullptr;
WebCore::addLayers(*this, parentLayer, renderer, beforeChild);
}
void RenderElement::removeLayers(RenderLayer* parentLayer)
{
if (!parentLayer)
return;
if (hasLayer()) {
parentLayer->removeChild(downcast<RenderLayerModelObject>(*this).layer());
return;
}
for (auto& child : childrenOfType<RenderElement>(*this))
child.removeLayers(parentLayer);
}
void RenderElement::moveLayers(RenderLayer* oldParent, RenderLayer* newParent)
{
if (!newParent)
return;
if (hasLayer()) {
RenderLayer* layer = downcast<RenderLayerModelObject>(*this).layer();
ASSERT(oldParent == layer->parent());
if (oldParent)
oldParent->removeChild(layer);
newParent->addChild(layer);
return;
}
for (auto& child : childrenOfType<RenderElement>(*this))
child.moveLayers(oldParent, newParent);
}
RenderLayer* RenderElement::findNextLayer(RenderLayer* parentLayer, RenderObject* startPoint, bool checkParent)
{
if (!parentLayer)
return nullptr;
RenderLayer* ourLayer = hasLayer() ? downcast<RenderLayerModelObject>(*this).layer() : nullptr;
if (ourLayer && ourLayer->parent() == parentLayer)
return ourLayer;
if (!ourLayer || ourLayer == parentLayer) {
for (RenderObject* child = startPoint ? startPoint->nextSibling() : firstChild(); child; child = child->nextSibling()) {
if (!is<RenderElement>(*child))
continue;
RenderLayer* nextLayer = downcast<RenderElement>(*child).findNextLayer(parentLayer, nullptr, false);
if (nextLayer)
return nextLayer;
}
}
if (parentLayer == ourLayer)
return nullptr;
if (checkParent && parent())
return parent()->findNextLayer(parentLayer, this, true);
return nullptr;
}
bool RenderElement::layerCreationAllowedForSubtree() const
{
RenderElement* parentRenderer = parent();
while (parentRenderer) {
if (parentRenderer->isSVGHiddenContainer())
return false;
parentRenderer = parentRenderer->parent();
}
return true;
}
void RenderElement::propagateStyleToAnonymousChildren(StylePropagationType propagationType)
{
for (auto& elementChild : childrenOfType<RenderElement>(*this)) {
if (!elementChild.isAnonymous() || elementChild.style().styleType() != NOPSEUDO)
continue;
if (propagationType == PropagateToBlockChildrenOnly && !is<RenderBlock>(elementChild))
continue;
#if ENABLE(FULLSCREEN_API)
if (elementChild.isRenderFullScreen() || elementChild.isRenderFullScreenPlaceholder())
continue;
#endif
if (is<RenderFlowThread>(elementChild))
continue;
auto newStyle = RenderStyle::createAnonymousStyleWithDisplay(style(), elementChild.style().display());
if (style().specifiesColumns()) {
if (elementChild.style().specifiesColumns())
newStyle.inheritColumnPropertiesFrom(&style());
if (elementChild.style().columnSpan())
newStyle.setColumnSpan(ColumnSpanAll);
}
if (elementChild.isInFlowPositioned() && downcast<RenderBlock>(elementChild).isAnonymousBlockContinuation())
newStyle.setPosition(elementChild.style().position());
elementChild.setStyle(WTFMove(newStyle));
}
}
static inline bool rendererHasBackground(const RenderElement* renderer)
{
return renderer && renderer->hasBackground();
}
void RenderElement::invalidateCachedFirstLineStyle()
{
if (!m_hasValidCachedFirstLineStyle)
return;
m_hasValidCachedFirstLineStyle = false;
for (auto& descendant : descendantsOfType<RenderElement>(*this))
descendant.m_hasValidCachedFirstLineStyle = false;
}
void RenderElement::styleWillChange(StyleDifference diff, const RenderStyle& newStyle)
{
auto* oldStyle = hasInitializedStyle() ? &style() : nullptr;
if (oldStyle) {
bool visibilityChanged = m_style.visibility() != newStyle.visibility()
|| m_style.zIndex() != newStyle.zIndex()
|| m_style.hasAutoZIndex() != newStyle.hasAutoZIndex();
#if ENABLE(DASHBOARD_SUPPORT)
if (visibilityChanged)
document().setAnnotatedRegionsDirty(true);
#endif
#if PLATFORM(IOS) && ENABLE(TOUCH_EVENTS)
if (visibilityChanged)
document().dirtyTouchEventRects();
#endif
if (visibilityChanged) {
if (AXObjectCache* cache = document().existingAXObjectCache())
cache->childrenChanged(parent(), this);
}
if (m_style.visibility() != newStyle.visibility()) {
if (RenderLayer* layer = enclosingLayer()) {
if (newStyle.visibility() == VISIBLE)
layer->setHasVisibleContent();
else if (layer->hasVisibleContent() && (this == &layer->renderer() || layer->renderer().style().visibility() != VISIBLE)) {
layer->dirtyVisibleContentStatus();
if (diff > StyleDifferenceRepaintLayer)
repaint();
}
}
}
if (m_parent && (newStyle.outlineSize() < m_style.outlineSize() || shouldRepaintForStyleDifference(diff)))
repaint();
if (isFloating() && m_style.floating() != newStyle.floating()) {
downcast<RenderBox>(*this).removeFloatingOrPositionedChildFromBlockLists();
} else if (isOutOfFlowPositioned() && m_style.position() != newStyle.position()) {
downcast<RenderBox>(*this).removeFloatingOrPositionedChildFromBlockLists();
}
s_affectsParentBlock = isFloatingOrOutOfFlowPositioned()
&& (!newStyle.isFloating() && !newStyle.hasOutOfFlowPosition())
&& parent() && (parent()->isRenderBlockFlow() || parent()->isRenderInline());
s_noLongerAffectsParentBlock = ((!isFloating() && newStyle.isFloating()) || (!isOutOfFlowPositioned() && newStyle.hasOutOfFlowPosition()))
&& parent() && parent()->isRenderBlock();
if (diff == StyleDifferenceLayout || diff == StyleDifferenceLayoutPositionedMovementOnly) {
setFloating(false);
clearPositionedState();
}
if (newStyle.hasPseudoStyle(FIRST_LINE) || oldStyle->hasPseudoStyle(FIRST_LINE))
invalidateCachedFirstLineStyle();
setHorizontalWritingMode(true);
setHasVisibleBoxDecorations(false);
setHasOverflowClip(false);
setHasTransformRelatedProperty(false);
setHasReflection(false);
} else {
s_affectsParentBlock = false;
s_noLongerAffectsParentBlock = false;
}
bool newStyleUsesFixedBackgrounds = newStyle.hasFixedBackgroundImage();
bool oldStyleUsesFixedBackgrounds = m_style.hasFixedBackgroundImage();
if (newStyleUsesFixedBackgrounds || oldStyleUsesFixedBackgrounds) {
bool repaintFixedBackgroundsOnScroll = !frame().settings().fixedBackgroundsPaintRelativeToDocument();
bool newStyleSlowScroll = repaintFixedBackgroundsOnScroll && newStyleUsesFixedBackgrounds;
bool oldStyleSlowScroll = oldStyle && repaintFixedBackgroundsOnScroll && oldStyleUsesFixedBackgrounds;
bool drawsRootBackground = isDocumentElementRenderer() || (isBody() && !rendererHasBackground(document().documentElement()->renderer()));
if (drawsRootBackground && repaintFixedBackgroundsOnScroll) {
if (view().compositor().supportsFixedRootBackgroundCompositing()) {
if (newStyleSlowScroll && newStyle.hasEntirelyFixedBackground())
newStyleSlowScroll = false;
if (oldStyleSlowScroll && m_style.hasEntirelyFixedBackground())
oldStyleSlowScroll = false;
}
}
if (oldStyleSlowScroll != newStyleSlowScroll) {
if (oldStyleSlowScroll)
view().frameView().removeSlowRepaintObject(this);
if (newStyleSlowScroll)
view().frameView().addSlowRepaintObject(this);
}
}
if (isDocumentElementRenderer() || isBody())
view().frameView().updateExtendBackgroundIfNecessary();
}
void RenderElement::handleDynamicFloatPositionChange()
{
setInline(style().isDisplayInlineType());
if (isInline() != parent()->childrenInline()) {
if (!isInline())
downcast<RenderBoxModelObject>(*parent()).childBecameNonInline(*this);
else {
RenderBlock* block = downcast<RenderBlock>(*parent()).createAnonymousBlock();
parent()->insertChildInternal(block, this, RenderElement::NotifyChildren);
parent()->removeChildInternal(*this, RenderElement::NotifyChildren);
block->insertChildInternal(this, nullptr, RenderElement::NotifyChildren);
}
}
}
void RenderElement::removeAnonymousWrappersForInlinesIfNecessary()
{
RenderBlock& parentBlock = downcast<RenderBlock>(*parent());
if (!parentBlock.canDropAnonymousBlockChild())
return;
RenderObject* current = parent()->firstChild();
while (current && ((current->isAnonymousBlock() && !downcast<RenderBlock>(*current).isAnonymousBlockContinuation()) || current->style().isFloating() || current->style().hasOutOfFlowPosition()))
current = current->nextSibling();
if (current)
return;
RenderObject* next;
for (current = parent()->firstChild(); current; current = next) {
next = current->nextSibling();
if (current->isAnonymousBlock())
parentBlock.dropAnonymousBoxChild(parentBlock, downcast<RenderBlock>(*current));
}
}
#if !PLATFORM(IOS)
static bool areNonIdenticalCursorListsEqual(const RenderStyle* a, const RenderStyle* b)
{
ASSERT(a->cursors() != b->cursors());
return a->cursors() && b->cursors() && *a->cursors() == *b->cursors();
}
static inline bool areCursorsEqual(const RenderStyle* a, const RenderStyle* b)
{
return a->cursor() == b->cursor() && (a->cursors() == b->cursors() || areNonIdenticalCursorListsEqual(a, b));
}
#endif
void RenderElement::styleDidChange(StyleDifference diff, const RenderStyle* oldStyle)
{
updateFillImages(oldStyle ? oldStyle->backgroundLayers() : nullptr, m_style.backgroundLayers());
updateFillImages(oldStyle ? oldStyle->maskLayers() : nullptr, m_style.maskLayers());
updateImage(oldStyle ? oldStyle->borderImage().image() : nullptr, m_style.borderImage().image());
updateImage(oldStyle ? oldStyle->maskBoxImage().image() : nullptr, m_style.maskBoxImage().image());
updateShapeImage(oldStyle ? oldStyle->shapeOutside() : nullptr, m_style.shapeOutside());
if (s_affectsParentBlock)
handleDynamicFloatPositionChange();
if (s_noLongerAffectsParentBlock) {
removeAnonymousWrappersForInlinesIfNecessary();
if (style().isFloating() && previousSibling() && previousSibling()->isAnonymousBlock())
downcast<RenderBoxModelObject>(*parent()).moveChildTo(&downcast<RenderBoxModelObject>(*previousSibling()), this);
}
SVGRenderSupport::styleChanged(*this, oldStyle);
if (!m_parent)
return;
if (diff == StyleDifferenceLayout || diff == StyleDifferenceSimplifiedLayout) {
RenderCounter::rendererStyleChanged(*this, oldStyle, &m_style);
if (needsLayout() && oldStyle->position() != m_style.position())
markContainingBlocksForLayout();
if (diff == StyleDifferenceLayout)
setNeedsLayoutAndPrefWidthsRecalc();
else
setNeedsSimplifiedNormalFlowLayout();
} else if (diff == StyleDifferenceSimplifiedLayoutAndPositionedMovement) {
setNeedsPositionedMovementLayout(oldStyle);
setNeedsSimplifiedNormalFlowLayout();
} else if (diff == StyleDifferenceLayoutPositionedMovementOnly)
setNeedsPositionedMovementLayout(oldStyle);
#if !PLATFORM(IOS)
if (oldStyle && !areCursorsEqual(oldStyle, &style()))
frame().eventHandler().scheduleCursorUpdate();
#endif
bool hadOutlineAuto = oldStyle && oldStyle->outlineStyleIsAuto();
bool hasOutlineAuto = outlineStyleForRepaint().outlineStyleIsAuto();
if (hasOutlineAuto != hadOutlineAuto) {
updateOutlineAutoAncestor(hasOutlineAuto);
issueRepaintForOutlineAuto(hasOutlineAuto ? outlineStyleForRepaint().outlineSize() : oldStyle->outlineSize());
}
}
void RenderElement::insertedIntoTree()
{
RenderLayer* layer = nullptr;
if (firstChild() || hasLayer()) {
layer = parent()->enclosingLayer();
addLayers(layer);
}
if (parent()->style().visibility() != VISIBLE && style().visibility() == VISIBLE && !hasLayer()) {
if (!layer)
layer = parent()->enclosingLayer();
if (layer)
layer->setHasVisibleContent();
}
RenderObject::insertedIntoTree();
}
void RenderElement::willBeRemovedFromTree()
{
RenderLayer* layer = nullptr;
if (parent()->style().visibility() != VISIBLE && style().visibility() == VISIBLE && !hasLayer()) {
if ((layer = parent()->enclosingLayer()))
layer->dirtyVisibleContentStatus();
}
if (firstChild() || hasLayer()) {
if (!layer)
layer = parent()->enclosingLayer();
removeLayers(layer);
}
if (isOutOfFlowPositioned() && parent()->childrenInline())
parent()->dirtyLinesFromChangedChild(*this);
RenderObject::willBeRemovedFromTree();
}
inline void RenderElement::clearLayoutRootIfNeeded() const
{
if (documentBeingDestroyed())
return;
if (view().frameView().layoutRoot() != this)
return;
ASSERT_NOT_REACHED();
view().frameView().clearLayoutRoot();
}
void RenderElement::willBeDestroyed()
{
if (m_style.hasFixedBackgroundImage() && !frame().settings().fixedBackgroundsPaintRelativeToDocument())
view().frameView().removeSlowRepaintObject(this);
animation().cancelAnimations(*this);
destroyLeftoverChildren();
if (hasCounterNodeMap())
RenderCounter::destroyCounterNodes(*this);
RenderObject::willBeDestroyed();
#if !ASSERT_DISABLED
if (!documentBeingDestroyed() && view().hasRenderNamedFlowThreads()) {
for (auto& flowThread : *view().flowThreadController().renderNamedFlowThreadList()) {
ASSERT(!flowThread->hasChildInfo(this));
}
}
#endif
clearLayoutRootIfNeeded();
}
void RenderElement::setNeedsPositionedMovementLayout(const RenderStyle* oldStyle)
{
ASSERT(!isSetNeedsLayoutForbidden());
if (needsPositionedMovementLayout())
return;
setNeedsPositionedMovementLayoutBit(true);
markContainingBlocksForLayout();
if (hasLayer()) {
if (oldStyle && style().diffRequiresLayerRepaint(*oldStyle, downcast<RenderLayerModelObject>(*this).layer()->isComposited()))
setLayerNeedsFullRepaint();
else
setLayerNeedsFullRepaintForPositionedMovementLayout();
}
}
void RenderElement::clearChildNeedsLayout()
{
setNormalChildNeedsLayoutBit(false);
setPosChildNeedsLayoutBit(false);
setNeedsSimplifiedNormalFlowLayoutBit(false);
setNormalChildNeedsLayoutBit(false);
setNeedsPositionedMovementLayoutBit(false);
}
void RenderElement::setNeedsSimplifiedNormalFlowLayout()
{
ASSERT(!isSetNeedsLayoutForbidden());
if (needsSimplifiedNormalFlowLayout())
return;
setNeedsSimplifiedNormalFlowLayoutBit(true);
markContainingBlocksForLayout();
if (hasLayer())
setLayerNeedsFullRepaint();
}
RenderElement* RenderElement::hoverAncestor() const
{
RenderElement* hoverAncestor = parent();
if (hoverAncestor && hoverAncestor->isAnonymousBlock() && hoverAncestor->parent() && hoverAncestor->parent()->isRenderNamedFlowThread())
hoverAncestor = hoverAncestor->parent();
if (hoverAncestor && hoverAncestor->isRenderNamedFlowThread()) {
hoverAncestor = nullptr;
if (Element* element = this->element()) {
if (auto parent = element->parentNode())
hoverAncestor = parent->renderer();
}
}
return hoverAncestor;
}
static inline void paintPhase(RenderElement& element, PaintPhase phase, PaintInfo& paintInfo, const LayoutPoint& childPoint)
{
paintInfo.phase = phase;
element.paint(paintInfo, childPoint);
}
void RenderElement::paintAsInlineBlock(PaintInfo& paintInfo, const LayoutPoint& childPoint)
{
if (paintInfo.phase == PaintPhaseSelection) {
paint(paintInfo, childPoint);
} else if (paintInfo.phase == PaintPhaseForeground) {
paintPhase(*this, PaintPhaseBlockBackground, paintInfo, childPoint);
paintPhase(*this, PaintPhaseChildBlockBackgrounds, paintInfo, childPoint);
paintPhase(*this, PaintPhaseFloat, paintInfo, childPoint);
paintPhase(*this, PaintPhaseForeground, paintInfo, childPoint);
paintPhase(*this, PaintPhaseOutline, paintInfo, childPoint);
paintInfo.phase = PaintPhaseForeground;
}
}
void RenderElement::layout()
{
StackStats::LayoutCheckPoint layoutCheckPoint;
ASSERT(needsLayout());
RenderObject* child = firstChild();
while (child) {
if (child->needsLayout())
downcast<RenderElement>(*child).layout();
ASSERT(!child->needsLayout());
child = child->nextSibling();
}
clearNeedsLayout();
}
static bool mustRepaintFillLayers(const RenderElement& renderer, const FillLayer* layer)
{
if (layer->next())
return true;
StyleImage* image = layer->image();
if (!image || !image->canRender(&renderer, renderer.style().effectiveZoom()))
return false;
if (!layer->xPosition().isZero() || !layer->yPosition().isZero())
return true;
EFillSizeType sizeType = layer->sizeType();
if (sizeType == Contain || sizeType == Cover)
return true;
if (sizeType == SizeLength) {
LengthSize size = layer->sizeLength();
if (size.width().isPercentOrCalculated() || size.height().isPercentOrCalculated())
return true;
if ((size.width().isAuto() || size.height().isAuto()) && image->isGeneratedImage())
return true;
} else if (image->usesImageContainerSize())
return true;
return false;
}
static bool mustRepaintBackgroundOrBorder(const RenderElement& renderer)
{
if (renderer.hasMask() && mustRepaintFillLayers(renderer, renderer.style().maskLayers()))
return true;
if (!renderer.hasVisibleBoxDecorations())
return false;
if (mustRepaintFillLayers(renderer, renderer.style().backgroundLayers()))
return true;
if (renderer.style().hasBorder() && renderer.borderImageIsLoadedAndCanBeRendered())
return true;
return false;
}
bool RenderElement::repaintAfterLayoutIfNeeded(const RenderLayerModelObject* repaintContainer, const LayoutRect& oldBounds, const LayoutRect& oldOutlineBox, const LayoutRect* newBoundsPtr, const LayoutRect* newOutlineBoxRectPtr)
{
if (view().printing())
return false;
LayoutRect newBounds = newBoundsPtr ? *newBoundsPtr : clippedOverflowRectForRepaint(repaintContainer);
LayoutRect newOutlineBox;
bool fullRepaint = selfNeedsLayout();
if (!fullRepaint && style().borderFit() == BorderFitLines)
fullRepaint = true;
if (!fullRepaint) {
newOutlineBox = newOutlineBoxRectPtr ? *newOutlineBoxRectPtr : outlineBoundsForRepaint(repaintContainer);
fullRepaint = (newOutlineBox.location() != oldOutlineBox.location() || (mustRepaintBackgroundOrBorder(*this) && (newBounds != oldBounds || newOutlineBox != oldOutlineBox)));
}
if (!repaintContainer)
repaintContainer = &view();
if (fullRepaint) {
repaintUsingContainer(repaintContainer, oldBounds);
if (newBounds != oldBounds)
repaintUsingContainer(repaintContainer, newBounds);
return true;
}
if (newBounds == oldBounds && newOutlineBox == oldOutlineBox)
return false;
LayoutUnit deltaLeft = newBounds.x() - oldBounds.x();
if (deltaLeft > 0)
repaintUsingContainer(repaintContainer, LayoutRect(oldBounds.x(), oldBounds.y(), deltaLeft, oldBounds.height()));
else if (deltaLeft < 0)
repaintUsingContainer(repaintContainer, LayoutRect(newBounds.x(), newBounds.y(), -deltaLeft, newBounds.height()));
LayoutUnit deltaRight = newBounds.maxX() - oldBounds.maxX();
if (deltaRight > 0)
repaintUsingContainer(repaintContainer, LayoutRect(oldBounds.maxX(), newBounds.y(), deltaRight, newBounds.height()));
else if (deltaRight < 0)
repaintUsingContainer(repaintContainer, LayoutRect(newBounds.maxX(), oldBounds.y(), -deltaRight, oldBounds.height()));
LayoutUnit deltaTop = newBounds.y() - oldBounds.y();
if (deltaTop > 0)
repaintUsingContainer(repaintContainer, LayoutRect(oldBounds.x(), oldBounds.y(), oldBounds.width(), deltaTop));
else if (deltaTop < 0)
repaintUsingContainer(repaintContainer, LayoutRect(newBounds.x(), newBounds.y(), newBounds.width(), -deltaTop));
LayoutUnit deltaBottom = newBounds.maxY() - oldBounds.maxY();
if (deltaBottom > 0)
repaintUsingContainer(repaintContainer, LayoutRect(newBounds.x(), oldBounds.maxY(), newBounds.width(), deltaBottom));
else if (deltaBottom < 0)
repaintUsingContainer(repaintContainer, LayoutRect(oldBounds.x(), newBounds.maxY(), oldBounds.width(), -deltaBottom));
if (newOutlineBox == oldOutlineBox)
return false;
const RenderStyle& outlineStyle = outlineStyleForRepaint();
LayoutUnit outlineWidth = outlineStyle.outlineSize();
LayoutBoxExtent insetShadowExtent = style().getBoxShadowInsetExtent();
LayoutUnit width = absoluteValue(newOutlineBox.width() - oldOutlineBox.width());
if (width) {
LayoutUnit shadowLeft;
LayoutUnit shadowRight;
style().getBoxShadowHorizontalExtent(shadowLeft, shadowRight);
LayoutUnit borderRight = is<RenderBox>(*this) ? downcast<RenderBox>(*this).borderRight() : LayoutUnit::fromPixel(0);
LayoutUnit boxWidth = is<RenderBox>(*this) ? downcast<RenderBox>(*this).width() : LayoutUnit();
LayoutUnit minInsetRightShadowExtent = std::min<LayoutUnit>(-insetShadowExtent.right(), std::min<LayoutUnit>(newBounds.width(), oldBounds.width()));
LayoutUnit borderWidth = std::max<LayoutUnit>(borderRight, std::max<LayoutUnit>(valueForLength(style().borderTopRightRadius().width(), boxWidth), valueForLength(style().borderBottomRightRadius().width(), boxWidth)));
LayoutUnit decorationsWidth = std::max<LayoutUnit>(-outlineStyle.outlineOffset(), borderWidth + minInsetRightShadowExtent) + std::max<LayoutUnit>(outlineWidth, shadowRight);
LayoutRect rightRect(newOutlineBox.x() + std::min(newOutlineBox.width(), oldOutlineBox.width()) - decorationsWidth,
newOutlineBox.y(),
width + decorationsWidth,
std::max(newOutlineBox.height(), oldOutlineBox.height()));
LayoutUnit right = std::min<LayoutUnit>(newBounds.maxX(), oldBounds.maxX());
if (rightRect.x() < right) {
rightRect.setWidth(std::min(rightRect.width(), right - rightRect.x()));
repaintUsingContainer(repaintContainer, rightRect);
}
}
LayoutUnit height = absoluteValue(newOutlineBox.height() - oldOutlineBox.height());
if (height) {
LayoutUnit shadowTop;
LayoutUnit shadowBottom;
style().getBoxShadowVerticalExtent(shadowTop, shadowBottom);
LayoutUnit borderBottom = is<RenderBox>(*this) ? downcast<RenderBox>(*this).borderBottom() : LayoutUnit::fromPixel(0);
LayoutUnit boxHeight = is<RenderBox>(*this) ? downcast<RenderBox>(*this).height() : LayoutUnit();
LayoutUnit minInsetBottomShadowExtent = std::min<LayoutUnit>(-insetShadowExtent.bottom(), std::min<LayoutUnit>(newBounds.height(), oldBounds.height()));
LayoutUnit borderHeight = std::max<LayoutUnit>(borderBottom, std::max<LayoutUnit>(valueForLength(style().borderBottomLeftRadius().height(), boxHeight),
valueForLength(style().borderBottomRightRadius().height(), boxHeight)));
LayoutUnit decorationsHeight = std::max<LayoutUnit>(-outlineStyle.outlineOffset(), borderHeight + minInsetBottomShadowExtent) + std::max<LayoutUnit>(outlineWidth, shadowBottom);
LayoutRect bottomRect(newOutlineBox.x(),
std::min(newOutlineBox.maxY(), oldOutlineBox.maxY()) - decorationsHeight,
std::max(newOutlineBox.width(), oldOutlineBox.width()),
height + decorationsHeight);
LayoutUnit bottom = std::min(newBounds.maxY(), oldBounds.maxY());
if (bottomRect.y() < bottom) {
bottomRect.setHeight(std::min(bottomRect.height(), bottom - bottomRect.y()));
repaintUsingContainer(repaintContainer, bottomRect);
}
}
return false;
}
bool RenderElement::borderImageIsLoadedAndCanBeRendered() const
{
ASSERT(style().hasBorder());
StyleImage* borderImage = style().borderImage().image();
return borderImage && borderImage->canRender(this, style().effectiveZoom()) && borderImage->isLoaded();
}
bool RenderElement::mayCauseRepaintInsideViewport(const IntRect* optionalViewportRect) const
{
auto& frameView = view().frameView();
if (frameView.isOffscreen())
return false;
if (!hasOverflowClip()) {
if (!hasLayer() || downcast<RenderLayerModelObject>(*this).layer()->firstChild())
return true;
}
const IntRect& visibleRect = optionalViewportRect ? *optionalViewportRect : frameView.windowToContents(frameView.windowClipRect());
return visibleRect.intersects(enclosingIntRect(absoluteClippedOverflowRect()));
}
static bool shouldRepaintForImageAnimation(const RenderElement& renderer, const IntRect& visibleRect)
{
const Document& document = renderer.document();
if (document.pageCacheState() != Document::NotInPageCache)
return false;
if (document.activeDOMObjectsAreSuspended())
return false;
if (renderer.style().visibility() != VISIBLE)
return false;
if (renderer.view().frameView().isOffscreen())
return false;
bool backgroundIsPaintedByRoot = renderer.isDocumentElementRenderer();
if (renderer.isBody()) {
auto& rootRenderer = *renderer.parent(); ASSERT(rootRenderer.isDocumentElementRenderer());
ASSERT(is<HTMLHtmlElement>(rootRenderer.element()));
backgroundIsPaintedByRoot = !rootRenderer.hasBackground();
}
LayoutRect backgroundPaintingRect = backgroundIsPaintedByRoot ? renderer.view().backgroundRect() : renderer.absoluteClippedOverflowRect();
if (!visibleRect.intersects(enclosingIntRect(backgroundPaintingRect)))
return false;
return true;
}
void RenderElement::registerForVisibleInViewportCallback()
{
if (isRegisteredForVisibleInViewportCallback())
return;
setIsRegisteredForVisibleInViewportCallback(true);
view().registerForVisibleInViewportCallback(*this);
}
void RenderElement::unregisterForVisibleInViewportCallback()
{
if (!isRegisteredForVisibleInViewportCallback())
return;
setIsRegisteredForVisibleInViewportCallback(false);
view().unregisterForVisibleInViewportCallback(*this);
}
void RenderElement::visibleInViewportStateChanged(VisibleInViewportState state)
{
if (state == visibleInViewportState())
return;
setVisibleInViewportState(state);
if (element())
element()->isVisibleInViewportChanged();
}
void RenderElement::newImageAnimationFrameAvailable(CachedImage& image)
{
if (document().pageCacheState() != Document::NotInPageCache)
return;
auto& frameView = view().frameView();
auto visibleRect = frameView.windowToContents(frameView.windowClipRect());
if (!shouldRepaintForImageAnimation(*this, visibleRect)) {
view().addRendererWithPausedImageAnimations(*this);
return;
}
imageChanged(&image);
}
bool RenderElement::repaintForPausedImageAnimationsIfNeeded(const IntRect& visibleRect)
{
ASSERT(m_hasPausedImageAnimations);
if (!shouldRepaintForImageAnimation(*this, visibleRect))
return false;
repaint();
if (is<RenderBoxModelObject>(*this))
downcast<RenderBoxModelObject>(*this).contentChanged(ImageChanged);
return true;
}
const RenderStyle* RenderElement::getCachedPseudoStyle(PseudoId pseudo, const RenderStyle* parentStyle) const
{
if (pseudo < FIRST_INTERNAL_PSEUDOID && !style().hasPseudoStyle(pseudo))
return nullptr;
RenderStyle* cachedStyle = style().getCachedPseudoStyle(pseudo);
if (cachedStyle)
return cachedStyle;
std::unique_ptr<RenderStyle> result = getUncachedPseudoStyle(PseudoStyleRequest(pseudo), parentStyle);
if (result)
return const_cast<RenderStyle&>(m_style).addCachedPseudoStyle(WTFMove(result));
return nullptr;
}
std::unique_ptr<RenderStyle> RenderElement::getUncachedPseudoStyle(const PseudoStyleRequest& pseudoStyleRequest, const RenderStyle* parentStyle, const RenderStyle* ownStyle) const
{
if (pseudoStyleRequest.pseudoId < FIRST_INTERNAL_PSEUDOID && !ownStyle && !style().hasPseudoStyle(pseudoStyleRequest.pseudoId))
return nullptr;
if (!parentStyle) {
ASSERT(!ownStyle);
parentStyle = &style();
}
if (isAnonymous())
return nullptr;
auto& styleResolver = element()->styleResolver();
std::unique_ptr<RenderStyle> style = styleResolver.pseudoStyleForElement(*element(), pseudoStyleRequest, *parentStyle);
if (style)
Style::loadPendingResources(*style, document(), element());
return style;
}
Color RenderElement::selectionColor(int colorProperty) const
{
if (style().userSelect() == SELECT_NONE
|| (view().frameView().paintBehavior() & (PaintBehaviorSelectionOnly | PaintBehaviorSelectionAndBackgroundsOnly)))
return Color();
if (std::unique_ptr<RenderStyle> pseudoStyle = selectionPseudoStyle()) {
Color color = pseudoStyle->visitedDependentColor(colorProperty);
if (!color.isValid())
color = pseudoStyle->visitedDependentColor(CSSPropertyColor);
return color;
}
if (frame().selection().isFocusedAndActive())
return theme().activeSelectionForegroundColor();
return theme().inactiveSelectionForegroundColor();
}
std::unique_ptr<RenderStyle> RenderElement::selectionPseudoStyle() const
{
if (isAnonymous())
return nullptr;
if (ShadowRoot* root = element()->containingShadowRoot()) {
if (root->mode() == ShadowRootMode::UserAgent) {
if (Element* shadowHost = element()->shadowHost())
return shadowHost->renderer()->getUncachedPseudoStyle(PseudoStyleRequest(SELECTION));
}
}
return getUncachedPseudoStyle(PseudoStyleRequest(SELECTION));
}
Color RenderElement::selectionForegroundColor() const
{
return selectionColor(CSSPropertyWebkitTextFillColor);
}
Color RenderElement::selectionEmphasisMarkColor() const
{
return selectionColor(CSSPropertyWebkitTextEmphasisColor);
}
Color RenderElement::selectionBackgroundColor() const
{
if (style().userSelect() == SELECT_NONE)
return Color();
if (frame().selection().shouldShowBlockCursor() && frame().selection().isCaret())
return style().visitedDependentColor(CSSPropertyColor).blendWithWhite();
std::unique_ptr<RenderStyle> pseudoStyle = selectionPseudoStyle();
if (pseudoStyle && pseudoStyle->visitedDependentColor(CSSPropertyBackgroundColor).isValid())
return pseudoStyle->visitedDependentColor(CSSPropertyBackgroundColor).blendWithWhite();
if (frame().selection().isFocusedAndActive())
return theme().activeSelectionBackgroundColor();
return theme().inactiveSelectionBackgroundColor();
}
bool RenderElement::getLeadingCorner(FloatPoint& point, bool& insideFixed) const
{
if (!isInline() || isReplaced()) {
point = localToAbsolute(FloatPoint(), UseTransforms, &insideFixed);
return true;
}
const RenderObject* o = this;
while (o) {
const RenderObject* p = o;
if (RenderObject* child = o->firstChildSlow())
o = child;
else if (o->nextSibling())
o = o->nextSibling();
else {
RenderObject* next = 0;
while (!next && o->parent()) {
o = o->parent();
next = o->nextSibling();
}
o = next;
if (!o)
break;
}
ASSERT(o);
if (!o->isInline() || o->isReplaced()) {
point = o->localToAbsolute(FloatPoint(), UseTransforms, &insideFixed);
return true;
}
if (p->node() && p->node() == element() && is<RenderText>(*o) && !downcast<RenderText>(*o).firstTextBox()) {
} else if (is<RenderText>(*o) || o->isReplaced()) {
point = FloatPoint();
if (is<RenderText>(*o) && downcast<RenderText>(*o).firstTextBox())
point.move(downcast<RenderText>(*o).linesBoundingBox().x(), downcast<RenderText>(*o).topOfFirstText());
else if (is<RenderBox>(*o))
point.moveBy(downcast<RenderBox>(*o).location());
point = o->container()->localToAbsolute(point, UseTransforms, &insideFixed);
return true;
}
}
if (!o && document().view()) {
point = FloatPoint(0, document().view()->contentsHeight());
return true;
}
return false;
}
bool RenderElement::getTrailingCorner(FloatPoint& point, bool& insideFixed) const
{
if (!isInline() || isReplaced()) {
point = localToAbsolute(LayoutPoint(downcast<RenderBox>(*this).size()), UseTransforms, &insideFixed);
return true;
}
const RenderObject* o = this;
while (o) {
if (RenderObject* child = o->lastChildSlow())
o = child;
else if (o->previousSibling())
o = o->previousSibling();
else {
RenderObject* prev = 0;
while (!prev) {
o = o->parent();
if (!o)
return false;
prev = o->previousSibling();
}
o = prev;
}
ASSERT(o);
if (is<RenderText>(*o) || o->isReplaced()) {
point = FloatPoint();
if (is<RenderText>(*o)) {
LayoutRect linesBox = downcast<RenderText>(*o).linesBoundingBox();
if (!linesBox.maxX() && !linesBox.maxY())
continue;
point.moveBy(linesBox.maxXMaxYCorner());
} else
point.moveBy(downcast<RenderBox>(*o).frameRect().maxXMaxYCorner());
point = o->container()->localToAbsolute(point, UseTransforms, &insideFixed);
return true;
}
}
return true;
}
LayoutRect RenderElement::absoluteAnchorRect(bool* insideFixed) const
{
FloatPoint leading, trailing;
bool leadingInFixed = false;
bool trailingInFixed = false;
getLeadingCorner(leading, leadingInFixed);
getTrailingCorner(trailing, trailingInFixed);
FloatPoint upperLeft = leading;
FloatPoint lowerRight = trailing;
if (!isInline() || isReplaced()) {
upperLeft = FloatPoint(std::min(leading.x(), trailing.x()), std::min(leading.y(), trailing.y()));
lowerRight = FloatPoint(std::max(leading.x(), trailing.x()), std::max(leading.y(), trailing.y()));
}
if (insideFixed) {
*insideFixed = leadingInFixed;
}
return enclosingLayoutRect(FloatRect(upperLeft, lowerRight.expandedTo(upperLeft) - upperLeft));
}
const RenderElement* RenderElement::enclosingRendererWithTextDecoration(TextDecoration textDecoration, bool firstLine) const
{
const RenderElement* current = this;
do {
if (current->isRenderBlock())
return current;
if (!current->isRenderInline() || current->isRubyText())
return nullptr;
const RenderStyle& styleToUse = firstLine ? current->firstLineStyle() : current->style();
if (styleToUse.textDecoration() & textDecoration)
return current;
current = current->parent();
} while (current && (!current->element() || (!is<HTMLAnchorElement>(*current->element()) && !current->element()->hasTagName(HTMLNames::fontTag))));
return current;
}
void RenderElement::drawLineForBoxSide(GraphicsContext& graphicsContext, const FloatRect& rect, BoxSide side, Color color, EBorderStyle borderStyle, float adjacentWidth1, float adjacentWidth2, bool antialias) const
{
auto drawBorderRect = [&graphicsContext] (const FloatRect& rect)
{
if (rect.isEmpty())
return;
graphicsContext.drawRect(rect);
};
auto drawLineFor = [this, &graphicsContext, color, antialias] (const FloatRect& rect, BoxSide side, EBorderStyle borderStyle, const FloatSize& adjacent)
{
if (rect.isEmpty())
return;
drawLineForBoxSide(graphicsContext, rect, side, color, borderStyle, adjacent.width(), adjacent.height(), antialias);
};
float x1 = rect.x();
float x2 = rect.maxX();
float y1 = rect.y();
float y2 = rect.maxY();
float thickness;
float length;
if (side == BSTop || side == BSBottom) {
thickness = y2 - y1;
length = x2 - x1;
} else {
thickness = x2 - x1;
length = y2 - y1;
}
if (!thickness || !length)
return;
float deviceScaleFactor = document().deviceScaleFactor();
if (borderStyle == DOUBLE && (thickness * deviceScaleFactor) < 3)
borderStyle = SOLID;
switch (borderStyle) {
case BNONE:
case BHIDDEN:
return;
case DOTTED:
case DASHED: {
bool wasAntialiased = graphicsContext.shouldAntialias();
StrokeStyle oldStrokeStyle = graphicsContext.strokeStyle();
graphicsContext.setShouldAntialias(antialias);
graphicsContext.setStrokeColor(color);
graphicsContext.setStrokeThickness(thickness);
graphicsContext.setStrokeStyle(borderStyle == DASHED ? DashedStroke : DottedStroke);
graphicsContext.drawLine(roundPointToDevicePixels(LayoutPoint(x1, y1), deviceScaleFactor), roundPointToDevicePixels(LayoutPoint(x2, y2), deviceScaleFactor));
graphicsContext.setShouldAntialias(wasAntialiased);
graphicsContext.setStrokeStyle(oldStrokeStyle);
break;
}
case DOUBLE: {
float thirdOfThickness = ceilToDevicePixel(thickness / 3, deviceScaleFactor);
ASSERT(thirdOfThickness);
if (!adjacentWidth1 && !adjacentWidth2) {
StrokeStyle oldStrokeStyle = graphicsContext.strokeStyle();
graphicsContext.setStrokeStyle(NoStroke);
graphicsContext.setFillColor(color);
bool wasAntialiased = graphicsContext.shouldAntialias();
graphicsContext.setShouldAntialias(antialias);
switch (side) {
case BSTop:
case BSBottom:
drawBorderRect(snapRectToDevicePixels(x1, y1, length, thirdOfThickness, deviceScaleFactor));
drawBorderRect(snapRectToDevicePixels(x1, y2 - thirdOfThickness, length, thirdOfThickness, deviceScaleFactor));
break;
case BSLeft:
case BSRight:
drawBorderRect(snapRectToDevicePixels(x1, y1, thirdOfThickness, length, deviceScaleFactor));
drawBorderRect(snapRectToDevicePixels(x2 - thirdOfThickness, y1, thirdOfThickness, length, deviceScaleFactor));
break;
}
graphicsContext.setShouldAntialias(wasAntialiased);
graphicsContext.setStrokeStyle(oldStrokeStyle);
} else {
float adjacent1BigThird = ceilToDevicePixel(adjacentWidth1 / 3, deviceScaleFactor);
float adjacent2BigThird = ceilToDevicePixel(adjacentWidth2 / 3, deviceScaleFactor);
float offset1 = floorToDevicePixel(fabs(adjacentWidth1) * 2 / 3, deviceScaleFactor);
float offset2 = floorToDevicePixel(fabs(adjacentWidth2) * 2 / 3, deviceScaleFactor);
float mitreOffset1 = adjacentWidth1 < 0 ? offset1 : 0;
float mitreOffset2 = adjacentWidth1 > 0 ? offset1 : 0;
float mitreOffset3 = adjacentWidth2 < 0 ? offset2 : 0;
float mitreOffset4 = adjacentWidth2 > 0 ? offset2 : 0;
FloatRect paintBorderRect;
switch (side) {
case BSTop:
paintBorderRect = snapRectToDevicePixels(LayoutRect(x1 + mitreOffset1, y1, (x2 - mitreOffset3) - (x1 + mitreOffset1), thirdOfThickness), deviceScaleFactor);
drawLineFor(paintBorderRect, side, SOLID, FloatSize(adjacent1BigThird, adjacent2BigThird));
paintBorderRect = snapRectToDevicePixels(LayoutRect(x1 + mitreOffset2, y2 - thirdOfThickness, (x2 - mitreOffset4) - (x1 + mitreOffset2), thirdOfThickness), deviceScaleFactor);
drawLineFor(paintBorderRect, side, SOLID, FloatSize(adjacent1BigThird, adjacent2BigThird));
break;
case BSLeft:
paintBorderRect = snapRectToDevicePixels(LayoutRect(x1, y1 + mitreOffset1, thirdOfThickness, (y2 - mitreOffset3) - (y1 + mitreOffset1)), deviceScaleFactor);
drawLineFor(paintBorderRect, side, SOLID, FloatSize(adjacent1BigThird, adjacent2BigThird));
paintBorderRect = snapRectToDevicePixels(LayoutRect(x2 - thirdOfThickness, y1 + mitreOffset2, thirdOfThickness, (y2 - mitreOffset4) - (y1 + mitreOffset2)), deviceScaleFactor);
drawLineFor(paintBorderRect, side, SOLID, FloatSize(adjacent1BigThird, adjacent2BigThird));
break;
case BSBottom:
paintBorderRect = snapRectToDevicePixels(LayoutRect(x1 + mitreOffset2, y1, (x2 - mitreOffset4) - (x1 + mitreOffset2), thirdOfThickness), deviceScaleFactor);
drawLineFor(paintBorderRect, side, SOLID, FloatSize(adjacent1BigThird, adjacent2BigThird));
paintBorderRect = snapRectToDevicePixels(LayoutRect(x1 + mitreOffset1, y2 - thirdOfThickness, (x2 - mitreOffset3) - (x1 + mitreOffset1), thirdOfThickness), deviceScaleFactor);
drawLineFor(paintBorderRect, side, SOLID, FloatSize(adjacent1BigThird, adjacent2BigThird));
break;
case BSRight:
paintBorderRect = snapRectToDevicePixels(LayoutRect(x1, y1 + mitreOffset2, thirdOfThickness, (y2 - mitreOffset4) - (y1 + mitreOffset2)), deviceScaleFactor);
drawLineFor(paintBorderRect, side, SOLID, FloatSize(adjacent1BigThird, adjacent2BigThird));
paintBorderRect = snapRectToDevicePixels(LayoutRect(x2 - thirdOfThickness, y1 + mitreOffset1, thirdOfThickness, (y2 - mitreOffset3) - (y1 + mitreOffset1)), deviceScaleFactor);
drawLineFor(paintBorderRect, side, SOLID, FloatSize(adjacent1BigThird, adjacent2BigThird));
break;
default:
break;
}
}
break;
}
case RIDGE:
case GROOVE: {
EBorderStyle s1;
EBorderStyle s2;
if (borderStyle == GROOVE) {
s1 = INSET;
s2 = OUTSET;
} else {
s1 = OUTSET;
s2 = INSET;
}
float adjacent1BigHalf = ceilToDevicePixel(adjacentWidth1 / 2, deviceScaleFactor);
float adjacent2BigHalf = ceilToDevicePixel(adjacentWidth2 / 2, deviceScaleFactor);
float adjacent1SmallHalf = floorToDevicePixel(adjacentWidth1 / 2, deviceScaleFactor);
float adjacent2SmallHalf = floorToDevicePixel(adjacentWidth2 / 2, deviceScaleFactor);
float offset1 = 0;
float offset2 = 0;
float offset3 = 0;
float offset4 = 0;
if (((side == BSTop || side == BSLeft) && adjacentWidth1 < 0) || ((side == BSBottom || side == BSRight) && adjacentWidth1 > 0))
offset1 = floorToDevicePixel(adjacentWidth1 / 2, deviceScaleFactor);
if (((side == BSTop || side == BSLeft) && adjacentWidth2 < 0) || ((side == BSBottom || side == BSRight) && adjacentWidth2 > 0))
offset2 = ceilToDevicePixel(adjacentWidth2 / 2, deviceScaleFactor);
if (((side == BSTop || side == BSLeft) && adjacentWidth1 > 0) || ((side == BSBottom || side == BSRight) && adjacentWidth1 < 0))
offset3 = floorToDevicePixel(fabs(adjacentWidth1) / 2, deviceScaleFactor);
if (((side == BSTop || side == BSLeft) && adjacentWidth2 > 0) || ((side == BSBottom || side == BSRight) && adjacentWidth2 < 0))
offset4 = ceilToDevicePixel(adjacentWidth2 / 2, deviceScaleFactor);
float adjustedX = ceilToDevicePixel((x1 + x2) / 2, deviceScaleFactor);
float adjustedY = ceilToDevicePixel((y1 + y2) / 2, deviceScaleFactor);
x1 = roundToDevicePixel(x1, deviceScaleFactor);
x2 = roundToDevicePixel(x2, deviceScaleFactor);
y1 = roundToDevicePixel(y1, deviceScaleFactor);
y2 = roundToDevicePixel(y2, deviceScaleFactor);
switch (side) {
case BSTop:
drawLineFor(FloatRect(FloatPoint(x1 + offset1, y1), FloatPoint(x2 - offset2, adjustedY)), side, s1, FloatSize(adjacent1BigHalf, adjacent2BigHalf));
drawLineFor(FloatRect(FloatPoint(x1 + offset3, adjustedY), FloatPoint(x2 - offset4, y2)), side, s2, FloatSize(adjacent1SmallHalf, adjacent2SmallHalf));
break;
case BSLeft:
drawLineFor(FloatRect(FloatPoint(x1, y1 + offset1), FloatPoint(adjustedX, y2 - offset2)), side, s1, FloatSize(adjacent1BigHalf, adjacent2BigHalf));
drawLineFor(FloatRect(FloatPoint(adjustedX, y1 + offset3), FloatPoint(x2, y2 - offset4)), side, s2, FloatSize(adjacent1SmallHalf, adjacent2SmallHalf));
break;
case BSBottom:
drawLineFor(FloatRect(FloatPoint(x1 + offset1, y1), FloatPoint(x2 - offset2, adjustedY)), side, s2, FloatSize(adjacent1BigHalf, adjacent2BigHalf));
drawLineFor(FloatRect(FloatPoint(x1 + offset3, adjustedY), FloatPoint(x2 - offset4, y2)), side, s1, FloatSize(adjacent1SmallHalf, adjacent2SmallHalf));
break;
case BSRight:
drawLineFor(FloatRect(FloatPoint(x1, y1 + offset1), FloatPoint(adjustedX, y2 - offset2)), side, s2, FloatSize(adjacent1BigHalf, adjacent2BigHalf));
drawLineFor(FloatRect(FloatPoint(adjustedX, y1 + offset3), FloatPoint(x2, y2 - offset4)), side, s1, FloatSize(adjacent1SmallHalf, adjacent2SmallHalf));
break;
}
break;
}
case INSET:
case OUTSET:
calculateBorderStyleColor(borderStyle, side, color);
FALLTHROUGH;
case SOLID: {
StrokeStyle oldStrokeStyle = graphicsContext.strokeStyle();
ASSERT(x2 >= x1);
ASSERT(y2 >= y1);
if (!adjacentWidth1 && !adjacentWidth2) {
graphicsContext.setStrokeStyle(NoStroke);
graphicsContext.setFillColor(color);
bool wasAntialiased = graphicsContext.shouldAntialias();
graphicsContext.setShouldAntialias(antialias);
drawBorderRect(snapRectToDevicePixels(x1, y1, x2 - x1, y2 - y1, deviceScaleFactor));
graphicsContext.setShouldAntialias(wasAntialiased);
graphicsContext.setStrokeStyle(oldStrokeStyle);
return;
}
x1 = roundToDevicePixel(x1, deviceScaleFactor);
y1 = roundToDevicePixel(y1, deviceScaleFactor);
x2 = roundToDevicePixel(x2, deviceScaleFactor);
y2 = roundToDevicePixel(y2, deviceScaleFactor);
Vector<FloatPoint> quad;
quad.reserveInitialCapacity(4);
switch (side) {
case BSTop:
quad.uncheckedAppend({ x1 + std::max<float>(-adjacentWidth1, 0), y1 });
quad.uncheckedAppend({ x1 + std::max<float>( adjacentWidth1, 0), y2 });
quad.uncheckedAppend({ x2 - std::max<float>( adjacentWidth2, 0), y2 });
quad.uncheckedAppend({ x2 - std::max<float>(-adjacentWidth2, 0), y1 });
break;
case BSBottom:
quad.uncheckedAppend({ x1 + std::max<float>( adjacentWidth1, 0), y1 });
quad.uncheckedAppend({ x1 + std::max<float>(-adjacentWidth1, 0), y2 });
quad.uncheckedAppend({ x2 - std::max<float>(-adjacentWidth2, 0), y2 });
quad.uncheckedAppend({ x2 - std::max<float>( adjacentWidth2, 0), y1 });
break;
case BSLeft:
quad.uncheckedAppend({ x1, y1 + std::max<float>(-adjacentWidth1, 0) });
quad.uncheckedAppend({ x1, y2 - std::max<float>(-adjacentWidth2, 0) });
quad.uncheckedAppend({ x2, y2 - std::max<float>( adjacentWidth2, 0) });
quad.uncheckedAppend({ x2, y1 + std::max<float>( adjacentWidth1, 0) });
break;
case BSRight:
quad.uncheckedAppend({ x1, y1 + std::max<float>( adjacentWidth1, 0) });
quad.uncheckedAppend({ x1, y2 - std::max<float>( adjacentWidth2, 0) });
quad.uncheckedAppend({ x2, y2 - std::max<float>(-adjacentWidth2, 0) });
quad.uncheckedAppend({ x2, y1 + std::max<float>(-adjacentWidth1, 0) });
break;
}
graphicsContext.setStrokeStyle(NoStroke);
graphicsContext.setFillColor(color);
bool wasAntialiased = graphicsContext.shouldAntialias();
graphicsContext.setShouldAntialias(antialias);
graphicsContext.fillPath(Path::polygonPathFromPoints(quad));
graphicsContext.setShouldAntialias(wasAntialiased);
graphicsContext.setStrokeStyle(oldStrokeStyle);
break;
}
}
}
void RenderElement::paintFocusRing(PaintInfo& paintInfo, const RenderStyle& style, const Vector<LayoutRect>& focusRingRects)
{
ASSERT(style.outlineStyleIsAuto());
float outlineOffset = style.outlineOffset();
Vector<FloatRect> pixelSnappedFocusRingRects;
float deviceScaleFactor = document().deviceScaleFactor();
for (auto rect : focusRingRects) {
rect.inflate(outlineOffset);
pixelSnappedFocusRingRects.append(snapRectToDevicePixels(rect, deviceScaleFactor));
}
#if PLATFORM(MAC)
bool needsRepaint;
if (style.hasBorderRadius()) {
Path path = PathUtilities::pathWithShrinkWrappedRectsForOutline(pixelSnappedFocusRingRects, style.border(), outlineOffset, style.direction(), style.writingMode(),
document().deviceScaleFactor());
if (path.isEmpty()) {
for (auto rect : pixelSnappedFocusRingRects)
path.addRect(rect);
}
paintInfo.context().drawFocusRing(path, document().page()->focusController().timeSinceFocusWasSet(), needsRepaint);
} else
paintInfo.context().drawFocusRing(pixelSnappedFocusRingRects, document().page()->focusController().timeSinceFocusWasSet(), needsRepaint);
if (needsRepaint)
document().page()->focusController().setFocusedElementNeedsRepaint();
#else
paintInfo.context().drawFocusRing(pixelSnappedFocusRingRects, style.outlineWidth(), style.outlineOffset(), style.visitedDependentColor(CSSPropertyOutlineColor));
#endif
}
void RenderElement::paintOutline(PaintInfo& paintInfo, const LayoutRect& paintRect)
{
GraphicsContext& graphicsContext = paintInfo.context();
if (graphicsContext.paintingDisabled())
return;
if (!hasOutline())
return;
auto& styleToUse = style();
float outlineWidth = floorToDevicePixel(styleToUse.outlineWidth(), document().deviceScaleFactor());
float outlineOffset = floorToDevicePixel(styleToUse.outlineOffset(), document().deviceScaleFactor());
if (styleToUse.outlineStyleIsAuto() && !theme().supportsFocusRing(styleToUse)) {
Vector<LayoutRect> focusRingRects;
addFocusRingRects(focusRingRects, paintRect.location(), paintInfo.paintContainer);
paintFocusRing(paintInfo, styleToUse, focusRingRects);
}
if (hasOutlineAnnotation() && !styleToUse.outlineStyleIsAuto() && !theme().supportsFocusRing(styleToUse))
addPDFURLRect(paintInfo, paintRect.location());
if (styleToUse.outlineStyleIsAuto() || styleToUse.outlineStyle() == BNONE)
return;
FloatRect outer = paintRect;
outer.inflate(outlineOffset + outlineWidth);
FloatRect inner = outer;
inner.inflate(-outlineWidth);
if (outer.isEmpty())
return;
EBorderStyle outlineStyle = styleToUse.outlineStyle();
Color outlineColor = styleToUse.visitedDependentColor(CSSPropertyOutlineColor);
bool useTransparencyLayer = !outlineColor.isOpaque();
if (useTransparencyLayer) {
if (outlineStyle == SOLID) {
Path path;
path.addRect(outer);
path.addRect(inner);
graphicsContext.setFillRule(RULE_EVENODD);
graphicsContext.setFillColor(outlineColor);
graphicsContext.fillPath(path);
return;
}
graphicsContext.beginTransparencyLayer(outlineColor.alphaAsFloat());
outlineColor = outlineColor.opaqueColor();
}
float leftOuter = outer.x();
float leftInner = inner.x();
float rightOuter = outer.maxX();
float rightInner = std::min(inner.maxX(), rightOuter);
float topOuter = outer.y();
float topInner = inner.y();
float bottomOuter = outer.maxY();
float bottomInner = std::min(inner.maxY(), bottomOuter);
drawLineForBoxSide(graphicsContext, FloatRect(FloatPoint(leftOuter, topOuter), FloatPoint(leftInner, bottomOuter)), BSLeft, outlineColor, outlineStyle, outlineWidth, outlineWidth);
drawLineForBoxSide(graphicsContext, FloatRect(FloatPoint(leftOuter, topOuter), FloatPoint(rightOuter, topInner)), BSTop, outlineColor, outlineStyle, outlineWidth, outlineWidth);
drawLineForBoxSide(graphicsContext, FloatRect(FloatPoint(rightInner, topOuter), FloatPoint(rightOuter, bottomOuter)), BSRight, outlineColor, outlineStyle, outlineWidth, outlineWidth);
drawLineForBoxSide(graphicsContext, FloatRect(FloatPoint(leftOuter, bottomInner), FloatPoint(rightOuter, bottomOuter)), BSBottom, outlineColor, outlineStyle, outlineWidth, outlineWidth);
if (useTransparencyLayer)
graphicsContext.endTransparencyLayer();
}
void RenderElement::issueRepaintForOutlineAuto(float outlineSize)
{
LayoutRect repaintRect;
Vector<LayoutRect> focusRingRects;
addFocusRingRects(focusRingRects, LayoutPoint(), containerForRepaint());
for (auto rect : focusRingRects) {
rect.inflate(outlineSize);
repaintRect.unite(rect);
}
repaintRectangle(repaintRect);
}
void RenderElement::updateOutlineAutoAncestor(bool hasOutlineAuto)
{
for (auto& child : childrenOfType<RenderObject>(*this)) {
if (hasOutlineAuto == child.hasOutlineAutoAncestor())
continue;
child.setHasOutlineAutoAncestor(hasOutlineAuto);
bool childHasOutlineAuto = child.outlineStyleForRepaint().outlineStyleIsAuto();
if (childHasOutlineAuto)
continue;
if (!is<RenderElement>(child))
continue;
downcast<RenderElement>(child).updateOutlineAutoAncestor(hasOutlineAuto);
}
if (hasContinuation())
downcast<RenderBoxModelObject>(*this).continuation()->updateOutlineAutoAncestor(hasOutlineAuto);
}
bool RenderElement::hasOutlineAnnotation() const
{
return element() && element()->isLink() && document().printing();
}
bool RenderElement::hasSelfPaintingLayer() const
{
if (!hasLayer())
return false;
auto& layerModelObject = downcast<RenderLayerModelObject>(*this);
return layerModelObject.hasSelfPaintingLayer();
}
bool RenderElement::checkForRepaintDuringLayout() const
{
return !document().view()->needsFullRepaint() && everHadLayout() && !hasSelfPaintingLayer();
}
RespectImageOrientationEnum RenderElement::shouldRespectImageOrientation() const
{
#if USE(CG) || USE(CAIRO)
if (document().isImageDocument())
return RespectImageOrientation;
#endif
return (frame().settings().shouldRespectImageOrientation() && is<HTMLImageElement>(element())) ? RespectImageOrientation : DoNotRespectImageOrientation;
}
void RenderElement::adjustFlowThreadStateOnContainingBlockChangeIfNeeded()
{
if (flowThreadState() == NotInsideFlowThread)
return;
if (is<RenderBlock>(*this))
downcast<RenderBlock>(*this).resetFlowThreadContainingBlockAndChildInfoIncludingDescendants();
setFlowThreadState(RenderObject::computedFlowThreadState(*this));
for (auto& descendant : descendantsOfType<RenderObject>(*this))
descendant.setFlowThreadState(RenderObject::computedFlowThreadState(descendant));
}
void RenderElement::removeFromRenderFlowThread()
{
ASSERT(flowThreadState() != NotInsideFlowThread);
removeFromRenderFlowThreadIncludingDescendants(true);
}
void RenderElement::removeFromRenderFlowThreadIncludingDescendants(bool shouldUpdateState)
{
if (isRenderFlowThread())
shouldUpdateState = false;
for (auto& child : childrenOfType<RenderObject>(*this)) {
if (is<RenderElement>(child)) {
downcast<RenderElement>(child).removeFromRenderFlowThreadIncludingDescendants(shouldUpdateState);
continue;
}
if (shouldUpdateState)
child.setFlowThreadState(NotInsideFlowThread);
}
RenderFlowThread* flowThreadContainingBlock = this->flowThreadContainingBlock();
while (flowThreadContainingBlock) {
flowThreadContainingBlock->removeFlowChildInfo(*this);
if (flowThreadContainingBlock->flowThreadState() == NotInsideFlowThread)
break;
auto* parent = flowThreadContainingBlock->parent();
if (!parent)
break;
flowThreadContainingBlock = parent->flowThreadContainingBlock();
}
if (is<RenderBlock>(*this))
downcast<RenderBlock>(*this).setCachedFlowThreadContainingBlockNeedsUpdate();
if (shouldUpdateState)
setFlowThreadState(NotInsideFlowThread);
}
#if ENABLE(TEXT_AUTOSIZING)
static RenderObject::BlockContentHeightType includeNonFixedHeight(const RenderObject& renderer)
{
const RenderStyle& style = renderer.style();
if (style.height().type() == Fixed) {
if (is<RenderBlock>(renderer)) {
if (style.overflowY() == OVISIBLE
&& style.height().value() < downcast<RenderBlock>(renderer).layoutOverflowRect().maxY())
return RenderObject::OverflowHeight;
}
return RenderObject::FixedHeight;
}
return RenderObject::FlexibleHeight;
}
void RenderElement::adjustComputedFontSizesOnBlocks(float size, float visibleWidth)
{
Document* document = view().frameView().frame().document();
if (!document)
return;
Vector<int> depthStack;
int currentDepth = 0;
int newFixedDepth = 0;
for (RenderObject* descendent = traverseNext(this, includeNonFixedHeight, currentDepth, newFixedDepth); descendent; descendent = descendent->traverseNext(this, includeNonFixedHeight, currentDepth, newFixedDepth)) {
while (depthStack.size() > 0 && currentDepth <= depthStack[depthStack.size() - 1])
depthStack.remove(depthStack.size() - 1);
if (newFixedDepth)
depthStack.append(newFixedDepth);
int stackSize = depthStack.size();
if (is<RenderBlockFlow>(*descendent) && !descendent->isListItem() && (!stackSize || currentDepth - depthStack[stackSize - 1] > TextAutoSizingFixedHeightDepth))
downcast<RenderBlockFlow>(*descendent).adjustComputedFontSizes(size, visibleWidth);
newFixedDepth = 0;
}
document->updateAutoSizedNodes();
}
void RenderElement::resetTextAutosizing()
{
Document* document = view().frameView().frame().document();
if (!document)
return;
LOG(TextAutosizing, "RenderElement::resetTextAutosizing()");
document->clearAutoSizedNodes();
Vector<int> depthStack;
int currentDepth = 0;
int newFixedDepth = 0;
for (RenderObject* descendent = traverseNext(this, includeNonFixedHeight, currentDepth, newFixedDepth); descendent; descendent = descendent->traverseNext(this, includeNonFixedHeight, currentDepth, newFixedDepth)) {
while (depthStack.size() > 0 && currentDepth <= depthStack[depthStack.size() - 1])
depthStack.remove(depthStack.size() - 1);
if (newFixedDepth)
depthStack.append(newFixedDepth);
int stackSize = depthStack.size();
if (is<RenderBlockFlow>(*descendent) && !descendent->isListItem() && (!stackSize || currentDepth - depthStack[stackSize - 1] > TextAutoSizingFixedHeightDepth))
downcast<RenderBlockFlow>(*descendent).resetComputedFontSize();
newFixedDepth = 0;
}
}
#endif // ENABLE(TEXT_AUTOSIZING)
}