void RenderSVGShape::layout()
{
StackStats::LayoutCheckPoint layoutCheckPoint;
LayoutRepainter repainter(*this, SVGRenderSupport::checkForSVGRepaintDuringLayout(this) && selfNeedsLayout());
SVGStyledTransformableElement* element = toSVGStyledTransformableElement(node());
bool updateCachedBoundariesInParents = false;
if (m_needsShapeUpdate || m_needsBoundariesUpdate) {
updateShapeFromElement();
m_needsShapeUpdate = false;
updateRepaintBoundingBox();
m_needsBoundariesUpdate = false;
updateCachedBoundariesInParents = true;
}
if (m_needsTransformUpdate) {
m_localTransform = element->animatedLocalTransform();
m_needsTransformUpdate = false;
updateCachedBoundariesInParents = true;
}
// Invalidate all resources of this client if our layout changed.
if (everHadLayout() && selfNeedsLayout())
SVGResourcesCache::clientLayoutChanged(this);
// If our bounds changed, notify the parents.
if (updateCachedBoundariesInParents)
RenderSVGModelObject::setNeedsBoundariesUpdate();
repainter.repaintAfterLayout();
setNeedsLayout(false);
}
bool RenderSVGTransformableContainer::calculateLocalTransform()
{
SVGStyledTransformableElement* element = toSVGStyledTransformableElement(node());
// If we're either the renderer for a <use> element, or for any <g> element inside the shadow
// tree, that was created during the use/symbol/svg expansion in SVGUseElement. These containers
// need to respect the translations induced by their corresponding use elements x/y attributes.
SVGUseElement* useElement = 0;
if (element->hasTagName(SVGNames::useTag))
useElement = static_cast<SVGUseElement*>(element);
else if (element->isInShadowTree() && element->hasTagName(SVGNames::gTag)) {
SVGElement* correspondingElement = element->correspondingElement();
if (correspondingElement && correspondingElement->hasTagName(SVGNames::useTag))
useElement = static_cast<SVGUseElement*>(correspondingElement);
}
if (useElement) {
SVGLengthContext lengthContext(useElement);
FloatSize translation(useElement->x().value(lengthContext), useElement->y().value(lengthContext));
if (translation != m_lastTranslation)
m_needsTransformUpdate = true;
m_lastTranslation = translation;
}
m_didTransformToRootUpdate = m_needsTransformUpdate || SVGRenderSupport::transformToRootChanged(parent());
if (!m_needsTransformUpdate)
return false;
m_localTransform = element->animatedLocalTransform();
m_localTransform.translate(m_lastTranslation.width(), m_lastTranslation.height());
m_needsTransformUpdate = false;
return true;
}
// FIXME: This does not belong here.
AffineTransform RenderSVGResourceContainer::transformOnNonScalingStroke(RenderObject* object, const AffineTransform& resourceTransform)
{
if (!object->isSVGShape())
return resourceTransform;
SVGStyledTransformableElement* element = toSVGStyledTransformableElement(object->node());
AffineTransform transform = element->getScreenCTM(SVGLocatable::DisallowStyleUpdate);
transform *= resourceTransform;
return transform;
}
bool RenderSVGResourceClipper::pathOnlyClipping(GraphicsContext* context, const AffineTransform& animatedLocalTransform, const FloatRect& objectBoundingBox)
{
// If the current clip-path gets clipped itself, we have to fallback to masking.
if (!style()->svgStyle()->clipperResource().isEmpty())
return false;
WindRule clipRule = RULE_NONZERO;
Path clipPath = Path();
// If clip-path only contains one visible shape or path, we can use path-based clipping. Invisible
// shapes don't affect the clipping and can be ignored. If clip-path contains more than one
// visible shape, the additive clipping may not work, caused by the clipRule. EvenOdd
// as well as NonZero can cause self-clipping of the elements.
// See also http://www.w3.org/TR/SVG/painting.html#FillRuleProperty
for (Node* childNode = node()->firstChild(); childNode; childNode = childNode->nextSibling()) {
RenderObject* renderer = childNode->renderer();
if (!renderer)
continue;
// Only shapes or paths are supported for direct clipping. We need to fallback to masking for texts.
if (renderer->isSVGText())
return false;
if (!childNode->isSVGElement() || !toSVGElement(childNode)->isStyledTransformable())
continue;
SVGStyledTransformableElement* styled = toSVGStyledTransformableElement(childNode);
RenderStyle* style = renderer->style();
if (!style || style->display() == NONE || style->visibility() != VISIBLE)
continue;
const SVGRenderStyle* svgStyle = style->svgStyle();
// Current shape in clip-path gets clipped too. Fallback to masking.
if (!svgStyle->clipperResource().isEmpty())
return false;
// Fallback to masking, if there is more than one clipping path.
if (clipPath.isEmpty()) {
styled->toClipPath(clipPath);
clipRule = svgStyle->clipRule();
} else
return false;
}
// Only one visible shape/path was found. Directly continue clipping and transform the content to userspace if necessary.
if (static_cast<SVGClipPathElement*>(node())->clipPathUnits() == SVGUnitTypes::SVG_UNIT_TYPE_OBJECTBOUNDINGBOX) {
AffineTransform transform;
transform.translate(objectBoundingBox.x(), objectBoundingBox.y());
transform.scaleNonUniform(objectBoundingBox.width(), objectBoundingBox.height());
clipPath.transform(transform);
}
// Transform path by animatedLocalTransform.
clipPath.transform(animatedLocalTransform);
// The SVG specification wants us to clip everything, if clip-path doesn't have a child.
if (clipPath.isEmpty())
clipPath.addRect(FloatRect());
context->clipPath(clipPath, clipRule);
return true;
}
void RenderSVGShape::updateShapeFromElement()
{
m_path.clear();
m_path = adoptPtr(new Path);
ASSERT(RenderSVGShape::isEmpty());
SVGStyledTransformableElement* element = toSVGStyledTransformableElement(node());
updatePathFromGraphicsElement(element, path());
processMarkerPositions();
m_fillBoundingBox = calculateObjectBoundingBox();
m_strokeBoundingBox = calculateStrokeBoundingBox();
}
