void SVGRenderSupport::layoutChildren(RenderObject* start, bool selfNeedsLayout)
{
// When hasRelativeLengths() is false, no descendants have relative lengths
// (hence no one is interested in viewport size changes).
bool layoutSizeChanged = toSVGElement(start->node())->hasRelativeLengths()
&& layoutSizeOfNearestViewportChanged(start);
bool transformChanged = transformToRootChanged(start);
for (RenderObject* child = start->slowFirstChild(); child; child = child->nextSibling()) {
bool forceLayout = selfNeedsLayout;
if (transformChanged) {
// If the transform changed we need to update the text metrics (note: this also happens for layoutSizeChanged=true).
if (child->isSVGText())
toRenderSVGText(child)->setNeedsTextMetricsUpdate();
forceLayout = true;
}
if (layoutSizeChanged) {
// When selfNeedsLayout is false and the layout size changed, we have to check whether this child uses relative lengths
if (SVGElement* element = child->node()->isSVGElement() ? toSVGElement(child->node()) : 0) {
if (element->hasRelativeLengths()) {
// FIXME: this should be done on invalidation, not during layout.
// When the layout size changed and when using relative values tell the RenderSVGShape to update its shape object
if (child->isSVGShape()) {
toRenderSVGShape(child)->setNeedsShapeUpdate();
} else if (child->isSVGText()) {
toRenderSVGText(child)->setNeedsTextMetricsUpdate();
toRenderSVGText(child)->setNeedsPositioningValuesUpdate();
}
forceLayout = true;
}
}
}
SubtreeLayoutScope layoutScope(*child);
// Resource containers are nasty: they can invalidate clients outside the current SubtreeLayoutScope.
// Since they only care about viewport size changes (to resolve their relative lengths), we trigger
// their invalidation directly from SVGSVGElement::svgAttributeChange() or at a higher
// SubtreeLayoutScope (in RenderView::layout()).
if (forceLayout && !child->isSVGResourceContainer())
layoutScope.setNeedsLayout(child);
// Lay out any referenced resources before the child.
layoutResourcesIfNeeded(child);
child->layoutIfNeeded();
}
}
void SVGRootInlineBox::computePerCharacterLayoutInformation()
{
RenderSVGText* textRoot = toRenderSVGText(&blockFlow());
ASSERT(textRoot);
Vector<SVGTextLayoutAttributes*>& layoutAttributes = textRoot->layoutAttributes();
if (layoutAttributes.isEmpty())
return;
if (textRoot->needsReordering())
reorderValueLists(layoutAttributes);
// Perform SVG text layout phase two (see SVGTextLayoutEngine for details).
SVGTextLayoutEngine characterLayout(layoutAttributes);
layoutCharactersInTextBoxes(this, characterLayout);
// Perform SVG text layout phase three (see SVGTextChunkBuilder for details).
characterLayout.finishLayout();
// Perform SVG text layout phase four
// Position & resize all SVGInlineText/FlowBoxes in the inline box tree, resize the root box as well as the RenderSVGText parent block.
FloatRect childRect;
layoutChildBoxes(this, &childRect);
layoutRootBox(childRect);
}
const RenderSVGText* RenderSVGText::locateRenderSVGTextAncestor(const RenderObject* start)
{
ASSERT(start);
while (start && !start->isSVGText())
start = start->parent();
if (!start || !start->isSVGText())
return 0;
return toRenderSVGText(start);
}
void SVGRenderSupport::layoutChildren(RenderObject* start, bool selfNeedsLayout)
{
bool layoutSizeChanged = layoutSizeOfNearestViewportChanged(start);
bool transformChanged = transformToRootChanged(start);
HashSet<RenderObject*> notlayoutedObjects;
for (RenderObject* child = start->firstChild(); child; child = child->nextSibling()) {
bool needsLayout = selfNeedsLayout;
if (transformChanged) {
// If the transform changed we need to update the text metrics (note: this also happens for layoutSizeChanged=true).
if (child->isSVGText())
toRenderSVGText(child)->setNeedsTextMetricsUpdate();
needsLayout = true;
}
if (layoutSizeChanged) {
// When selfNeedsLayout is false and the layout size changed, we have to check whether this child uses relative lengths
if (SVGElement* element = child->node()->isSVGElement() ? static_cast<SVGElement*>(child->node()) : 0) {
if (element->isStyled() && static_cast<SVGStyledElement*>(element)->hasRelativeLengths()) {
// When the layout size changed and when using relative values tell the RenderSVGShape to update its shape object
if (child->isSVGShape())
toRenderSVGShape(child)->setNeedsShapeUpdate();
needsLayout = true;
}
}
}
if (needsLayout) {
child->setNeedsLayout(true, false);
child->layout();
} else {
if (child->needsLayout())
child->layout();
else if (layoutSizeChanged)
notlayoutedObjects.add(child);
}
ASSERT(!child->needsLayout());
}
if (!layoutSizeChanged) {
ASSERT(notlayoutedObjects.isEmpty());
return;
}
// If the layout size changed, invalidate all resources of all children that didn't go through the layout() code path.
HashSet<RenderObject*>::iterator end = notlayoutedObjects.end();
for (HashSet<RenderObject*>::iterator it = notlayoutedObjects.begin(); it != end; ++it)
invalidateResourcesOfChildren(*it);
}
static inline void updatePositioningValuesInRenderer(RenderObject* renderer)
{
RenderSVGText* textRenderer = 0;
if (renderer->isSVGText())
textRenderer = toRenderSVGText(renderer);
else {
// Locate RenderSVGText parent renderer.
RenderObject* parent = renderer->parent();
while (parent && !parent->isSVGText())
parent = parent->parent();
if (parent) {
ASSERT(parent->isSVGText());
textRenderer = toRenderSVGText(parent);
}
}
if (!textRenderer)
return;
textRenderer->setNeedsPositioningValuesUpdate();
}
void SVGRenderSupport::layoutChildren(RenderObject* start, bool selfNeedsLayout)
{
bool layoutSizeChanged = layoutSizeOfNearestViewportChanged(start);
bool transformChanged = transformToRootChanged(start);
HashSet<RenderObject*> notlayoutedObjects;
for (RenderObject* child = start->slowFirstChild(); child; child = child->nextSibling()) {
bool needsLayout = selfNeedsLayout;
bool childEverHadLayout = child->everHadLayout();
if (transformChanged) {
// If the transform changed we need to update the text metrics (note: this also happens for layoutSizeChanged=true).
if (child->isSVGText())
toRenderSVGText(child)->setNeedsTextMetricsUpdate();
needsLayout = true;
}
if (layoutSizeChanged) {
// When selfNeedsLayout is false and the layout size changed, we have to check whether this child uses relative lengths
if (SVGElement* element = child->node()->isSVGElement() ? toSVGElement(child->node()) : 0) {
if (element->hasRelativeLengths()) {
// When the layout size changed and when using relative values tell the RenderSVGShape to update its shape object
if (child->isSVGShape()) {
toRenderSVGShape(child)->setNeedsShapeUpdate();
} else if (child->isSVGText()) {
toRenderSVGText(child)->setNeedsTextMetricsUpdate();
toRenderSVGText(child)->setNeedsPositioningValuesUpdate();
}
needsLayout = true;
}
}
}
SubtreeLayoutScope layoutScope(*child);
// Resource containers are nasty: they can invalidate clients outside the current SubtreeLayoutScope.
// Since they only care about viewport size changes (to resolve their relative lengths), we trigger
// their invalidation directly from SVGSVGElement::svgAttributeChange() or at a higher
// SubtreeLayoutScope (in RenderView::layout()).
if (needsLayout && !child->isSVGResourceContainer())
layoutScope.setNeedsLayout(child);
layoutResourcesIfNeeded(child);
if (child->needsLayout()) {
child->layout();
// Renderers are responsible for repainting themselves when changing, except
// for the initial paint to avoid potential double-painting caused by non-sensical "old" bounds.
// We could handle this in the individual objects, but for now it's easier to have
// parent containers call repaint(). (RenderBlock::layout* has similar logic.)
if (!childEverHadLayout && !RuntimeEnabledFeatures::repaintAfterLayoutEnabled())
child->paintInvalidationForWholeRenderer();
} else if (layoutSizeChanged) {
notlayoutedObjects.add(child);
}
}
if (!layoutSizeChanged) {
ASSERT(notlayoutedObjects.isEmpty());
return;
}
// If the layout size changed, invalidate all resources of all children that didn't go through the layout() code path.
HashSet<RenderObject*>::iterator end = notlayoutedObjects.end();
for (HashSet<RenderObject*>::iterator it = notlayoutedObjects.begin(); it != end; ++it)
invalidateResourcesOfChildren(*it);
}
RenderSVGText& SVGRootInlineBox::renderSVGText()
{
return toRenderSVGText(blockFlow());
}
void SVGRenderSupport::layoutChildren(RenderObject* start, bool selfNeedsLayout)
{
bool layoutSizeChanged = layoutSizeOfNearestViewportChanged(start);
bool transformChanged = transformToRootChanged(start);
bool hasSVGShadow = rendererHasSVGShadow(start);
bool needsBoundariesUpdate = start->needsBoundariesUpdate();
HashSet<RenderObject*> notlayoutedObjects;
for (RenderObject* child = start->firstChildSlow(); child; child = child->nextSibling()) {
bool needsLayout = selfNeedsLayout;
bool childEverHadLayout = child->everHadLayout();
if (needsBoundariesUpdate && hasSVGShadow) {
// If we have a shadow, our shadow is baked into our children's cached boundaries,
// so they need to update.
child->setNeedsBoundariesUpdate();
needsLayout = true;
}
if (transformChanged) {
// If the transform changed we need to update the text metrics (note: this also happens for layoutSizeChanged=true).
if (child->isSVGText())
toRenderSVGText(child)->setNeedsTextMetricsUpdate();
needsLayout = true;
}
if (layoutSizeChanged) {
// When selfNeedsLayout is false and the layout size changed, we have to check whether this child uses relative lengths
if (SVGElement* element = child->node()->isSVGElement() ? toSVGElement(child->node()) : 0) {
if (element->hasRelativeLengths()) {
// When the layout size changed and when using relative values tell the RenderSVGShape to update its shape object
if (child->isSVGShape())
toRenderSVGShape(child)->setNeedsShapeUpdate();
else if (child->isSVGText()) {
toRenderSVGText(child)->setNeedsTextMetricsUpdate();
toRenderSVGText(child)->setNeedsPositioningValuesUpdate();
}
needsLayout = true;
}
}
}
if (needsLayout)
child->setNeedsLayout(MarkOnlyThis);
if (child->needsLayout()) {
toRenderElement(child)->layout();
// Renderers are responsible for repainting themselves when changing, except
// for the initial paint to avoid potential double-painting caused by non-sensical "old" bounds.
// We could handle this in the individual objects, but for now it's easier to have
// parent containers call repaint(). (RenderBlock::layout* has similar logic.)
if (!childEverHadLayout)
child->repaint();
} else if (layoutSizeChanged)
notlayoutedObjects.add(child);
ASSERT(!child->needsLayout());
}
if (!layoutSizeChanged) {
ASSERT(notlayoutedObjects.isEmpty());
return;
}
// If the layout size changed, invalidate all resources of all children that didn't go through the layout() code path.
HashSet<RenderObject*>::iterator end = notlayoutedObjects.end();
for (HashSet<RenderObject*>::iterator it = notlayoutedObjects.begin(); it != end; ++it)
invalidateResourcesOfChildren(*it);
}
