/* Copyright (C) 2004, 2005, 2006, 2007 Nikolas Zimmermann 2004, 2005, 2006, 2007 Rob Buis This file is part of the KDE project This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "config.h" // Dump SVGElementInstance object tree - useful to debug instanceRoot problems // #define DUMP_INSTANCE_TREE // Dump the deep-expanded shadow tree (where the renderes are built from) // #define DUMP_SHADOW_TREE #if ENABLE(SVG) #include "SVGUseElement.h" #include "CSSStyleSelector.h" #include "CString.h" #include "Document.h" #include "Event.h" #include "HTMLNames.h" #include "RenderSVGTransformableContainer.h" #include "SVGElementInstance.h" #include "SVGElementInstanceList.h" #include "SVGGElement.h" #include "SVGLength.h" #include "SVGNames.h" #include "SVGPreserveAspectRatio.h" #include "SVGSVGElement.h" #include "SVGSymbolElement.h" #include "XLinkNames.h" #include "XMLSerializer.h" #include namespace WebCore { SVGUseElement::SVGUseElement(const QualifiedName& tagName, Document* doc) : SVGStyledTransformableElement(tagName, doc) , SVGTests() , SVGLangSpace() , SVGExternalResourcesRequired() , SVGURIReference() , m_x(this, LengthModeWidth) , m_y(this, LengthModeHeight) , m_width(this, LengthModeWidth) , m_height(this, LengthModeHeight) { } SVGUseElement::~SVGUseElement() { } ANIMATED_PROPERTY_DEFINITIONS(SVGUseElement, SVGLength, Length, length, X, x, SVGNames::xAttr.localName(), m_x) ANIMATED_PROPERTY_DEFINITIONS(SVGUseElement, SVGLength, Length, length, Y, y, SVGNames::yAttr.localName(), m_y) ANIMATED_PROPERTY_DEFINITIONS(SVGUseElement, SVGLength, Length, length, Width, width, SVGNames::widthAttr.localName(), m_width) ANIMATED_PROPERTY_DEFINITIONS(SVGUseElement, SVGLength, Length, length, Height, height, SVGNames::heightAttr.localName(), m_height) SVGElementInstance* SVGUseElement::instanceRoot() const { return m_targetElementInstance.get(); } SVGElementInstance* SVGUseElement::animatedInstanceRoot() const { // FIXME: Implement me. return 0; } void SVGUseElement::parseMappedAttribute(MappedAttribute* attr) { if (attr->name() == SVGNames::xAttr) setXBaseValue(SVGLength(this, LengthModeWidth, attr->value())); else if (attr->name() == SVGNames::yAttr) setYBaseValue(SVGLength(this, LengthModeHeight, attr->value())); else if (attr->name() == SVGNames::widthAttr) { setWidthBaseValue(SVGLength(this, LengthModeWidth, attr->value())); if (width().value() < 0.0) document()->accessSVGExtensions()->reportError("A negative value for use attribute is not allowed"); } else if (attr->name() == SVGNames::heightAttr) { setHeightBaseValue(SVGLength(this, LengthModeHeight, attr->value())); if (height().value() < 0.0) document()->accessSVGExtensions()->reportError("A negative value for use attribute is not allowed"); } else { if (SVGTests::parseMappedAttribute(attr)) return; if (SVGLangSpace::parseMappedAttribute(attr)) return; if (SVGExternalResourcesRequired::parseMappedAttribute(attr)) return; if (SVGURIReference::parseMappedAttribute(attr)) return; SVGStyledTransformableElement::parseMappedAttribute(attr); } } void SVGUseElement::insertedIntoDocument() { SVGElement::insertedIntoDocument(); String id = SVGURIReference::getTarget(href()); Element* targetElement = document()->getElementById(id); if (!targetElement) { document()->accessSVGExtensions()->addPendingResource(id, this); return; } buildPendingResource(); } void SVGUseElement::removedFromDocument() { SVGElement::removedFromDocument(); m_targetElementInstance = 0; m_shadowTreeRootElement = 0; } void SVGUseElement::attributeChanged(Attribute* attr, bool preserveDecls) { // Avoid calling SVGStyledElement::attributeChanged(), as it always calls notifyAttributeChange. SVGElement::attributeChanged(attr, preserveDecls); if (!attached()) return; // Only update the tree if x/y/width/height or xlink:href changed. if (attr->name() == SVGNames::xAttr || attr->name() == SVGNames::yAttr || attr->name() == SVGNames::widthAttr || attr->name() == SVGNames::heightAttr || attr->name().matches(XLinkNames::hrefAttr)) buildPendingResource(); else if (m_shadowTreeRootElement) m_shadowTreeRootElement->setChanged(); } void SVGUseElement::notifyAttributeChange() const { if (!attached()) return; // NOTE: A lot of room for improvments here. This is too slow. // It has to be done correctly, by implementing attributeChanged(). const_cast(this)->buildPendingResource(); if (m_shadowTreeRootElement) m_shadowTreeRootElement->setChanged(); } void SVGUseElement::recalcStyle(StyleChange change) { SVGStyledElement::recalcStyle(change); // The shadow tree root element is NOT a direct child element of us. // So we have to take care it receives style updates, manually. if (!m_shadowTreeRootElement || !m_shadowTreeRootElement->attached()) return; // Mimic Element::recalcStyle(). The main difference is that we don't call attach() on the // shadow tree root element, but call attachShadowTree() here. Calling attach() will crash // as the shadow tree root element has no (direct) parent node. Yes, shadow trees are tricky. if (change >= Inherit || m_shadowTreeRootElement->changed()) { RenderStyle* newStyle = document()->styleSelector()->styleForElement(m_shadowTreeRootElement.get()); StyleChange ch = m_shadowTreeRootElement->diff(m_shadowTreeRootElement->renderStyle(), newStyle); if (ch == Detach) { ASSERT(m_shadowTreeRootElement->attached()); m_shadowTreeRootElement->detach(); attachShadowTree(); // attach recalulates the style for all children. No need to do it twice. m_shadowTreeRootElement->setChanged(NoStyleChange); m_shadowTreeRootElement->setHasChangedChild(false); newStyle->deref(document()->renderArena()); return; } newStyle->deref(document()->renderArena()); } // Only change==Detach needs special treatment, for anything else recalcStyle() works. m_shadowTreeRootElement->recalcStyle(change); } #ifdef DUMP_INSTANCE_TREE void dumpInstanceTree(unsigned int& depth, String& text, SVGElementInstance* targetInstance) { SVGElement* element = targetInstance->correspondingElement(); ASSERT(element); String elementId = element->getIDAttribute(); String elementNodeName = element->nodeName(); String parentNodeName = element->parentNode() ? element->parentNode()->nodeName() : "null"; String firstChildNodeName = element->firstChild() ? element->firstChild()->nodeName() : "null"; for (unsigned int i = 0; i < depth; ++i) text += " "; text += String::format("SVGElementInstance (parentNode=%s, firstChild=%s, correspondingElement=%s, id=%s)\n", parentNodeName.latin1().data(), firstChildNodeName.latin1().data(), elementNodeName.latin1().data(), elementId.latin1().data()); depth++; for (SVGElementInstance* instance = targetInstance->firstChild(); instance; instance = instance->nextSibling()) dumpInstanceTree(depth, text, instance); depth--; } #endif static bool isDisallowedElement(Node* element) { // should never be contained in a tree. Too dangerous side effects possible. if (element->hasTagName(SVGNames::foreignObjectTag)) return true; return false; } static bool subtreeContainsDisallowedElement(Node* start) { if (isDisallowedElement(start)) return true; for (Node* cur = start->firstChild(); cur; cur = cur->nextSibling()) { if (subtreeContainsDisallowedElement(cur)) return true; } return false; } void SVGUseElement::buildPendingResource() { // Do not build the shadow/instance tree for elements living in a shadow tree. // The will be expanded soon anyway - see expandUseElementsInShadowTree(). Node* parent = parentNode(); while (parent) { if (parent->isShadowNode()) return; parent = parent->parentNode(); } String id = SVGURIReference::getTarget(href()); Element* targetElement = document()->getElementById(id); SVGElement* target = 0; if (targetElement && targetElement->isSVGElement()) target = static_cast(targetElement); // Do not allow self-referencing. // 'target' may be null, if it's a non SVG namespaced element. if (!target || target == this) { m_targetElementInstance = 0; m_shadowTreeRootElement = 0; return; } // Why a seperated instance/shadow tree? SVG demands it: // The instance tree is accesable from JavaScript, and has to // expose a 1:1 copy of the referenced tree, whereas internally we need // to alter the tree for correct "use-on-symbol", "use-on-svg" support. // Build instance tree. Create root SVGElementInstance object for the first sub-tree node. // // Spec: If the 'use' element references a simple graphics element such as a 'rect', then there is only a // single SVGElementInstance object, and the correspondingElement attribute on this SVGElementInstance object // is the SVGRectElement that corresponds to the referenced 'rect' element. m_targetElementInstance = new SVGElementInstance(this, target); // Eventually enter recursion to build SVGElementInstance objects for the sub-tree children bool foundProblem = false; buildInstanceTree(target, m_targetElementInstance.get(), foundProblem); // SVG specification does not say a word about & cycles. My view on this is: just ignore it! // Non-appearing content is easier to debug, then half-appearing content. if (foundProblem) { m_targetElementInstance = 0; m_shadowTreeRootElement = 0; return; } // Assure instance tree building was successfull ASSERT(m_targetElementInstance); ASSERT(m_targetElementInstance->correspondingUseElement() == this); // Setup shadow tree root node m_shadowTreeRootElement = new SVGGElement(SVGNames::gTag, document()); m_shadowTreeRootElement->setInDocument(); m_shadowTreeRootElement->setShadowParentNode(this); // Spec: An additional transformation translate(x,y) is appended to the end // (i.e., right-side) of the transform attribute on the generated 'g', where x // and y represent the values of the x and y attributes on the 'use' element. if (x().value() != 0.0 || y().value() != 0.0) { String transformString = String::format("translate(%f, %f)", x().value(), y().value()); m_shadowTreeRootElement->setAttribute(SVGNames::transformAttr, transformString); } // Build shadow tree from instance tree // This also handles the special cases: on , on . buildShadowTree(target, m_targetElementInstance.get()); #if ENABLE(SVG) && ENABLE(SVG_USE) // Expand all elements in the shadow tree. // Expand means: replace the actual element by what it references. expandUseElementsInShadowTree(m_shadowTreeRootElement.get()); // Expand all elements in the shadow tree. // Expand means: replace the actual element by the element. expandSymbolElementsInShadowTree(m_shadowTreeRootElement.get()); #endif // Now that the shadow tree is completly expanded, we can associate // shadow tree elements <-> instances in the instance tree. associateInstancesWithShadowTreeElements(m_shadowTreeRootElement->firstChild(), m_targetElementInstance.get()); // Eventually dump instance tree #ifdef DUMP_INSTANCE_TREE String text; unsigned int depth = 0; dumpInstanceTree(depth, text, m_targetElementInstance.get()); fprintf(stderr, "\nDumping instance tree:\n%s\n", text.latin1().data()); #endif // Eventually dump shadow tree #ifdef DUMP_SHADOW_TREE ExceptionCode ec = 0; OwnPtr serializer(new XMLSerializer()); String markup = serializer->serializeToString(m_shadowTreeRootElement.get(), ec); ASSERT(ec == 0); fprintf(stderr, "Dumping shadow tree markup:\n%s\n", markup.latin1().data()); #endif // The DOM side is setup properly. Now we have to attach the root shadow // tree element manually - using attach() won't work for "shadow nodes". attachShadowTree(); } RenderObject* SVGUseElement::createRenderer(RenderArena* arena, RenderStyle*) { return new (arena) RenderSVGTransformableContainer(this); } void SVGUseElement::attach() { SVGStyledTransformableElement::attach(); // If we're a pending resource, this doesn't have any effect. attachShadowTree(); } void SVGUseElement::detach() { SVGStyledTransformableElement::detach(); if (m_shadowTreeRootElement) m_shadowTreeRootElement->detach(); } void SVGUseElement::buildInstanceTree(SVGElement* target, SVGElementInstance* targetInstance, bool& foundProblem) { ASSERT(target); ASSERT(targetInstance); // A general description from the SVG spec, describing what buildInstanceTree() actually does. // // Spec: If the 'use' element references a 'g' which contains two 'rect' elements, then the instance tree // contains three SVGElementInstance objects, a root SVGElementInstance object whose correspondingElement // is the SVGGElement object for the 'g', and then two child SVGElementInstance objects, each of which has // its correspondingElement that is an SVGRectElement object. for (Node* node = target->firstChild(); node; node = node->nextSibling()) { SVGElement* element = 0; if (node->isSVGElement()) element = static_cast(node); // Skip any non-svg nodes or any disallowed element. if (!element || isDisallowedElement(element)) continue; // Create SVGElementInstance object, for both container/non-container nodes. SVGElementInstance* instancePtr = new SVGElementInstance(this, element); RefPtr instance = instancePtr; targetInstance->appendChild(instance.release()); // Enter recursion, appending new instance tree nodes to the "instance" object. if (element->hasChildNodes()) buildInstanceTree(element, instancePtr, foundProblem); // Spec: If the referenced object is itself a 'use', or if there are 'use' subelements within the referenced // object, the instance tree will contain recursive expansion of the indirect references to form a complete tree. if (element->hasTagName(SVGNames::useTag)) handleDeepUseReferencing(element, instancePtr, foundProblem); } // Spec: If the referenced object is itself a 'use', or if there are 'use' subelements within the referenced // object, the instance tree will contain recursive expansion of the indirect references to form a complete tree. if (target->hasTagName(SVGNames::useTag)) handleDeepUseReferencing(target, targetInstance, foundProblem); } void SVGUseElement::handleDeepUseReferencing(SVGElement* use, SVGElementInstance* targetInstance, bool& foundProblem) { String id = SVGURIReference::getTarget(use->href()); Element* targetElement = document()->getElementById(id); SVGElement* target = 0; if (targetElement && targetElement->isSVGElement()) target = static_cast(targetElement); if (!target) return; // Cycle detection first! foundProblem = (target == this); // Shortcut for self-references if (foundProblem) return; SVGElementInstance* instance = targetInstance->parentNode(); while (instance) { SVGElement* element = instance->correspondingElement(); if (element->getIDAttribute() == id) { foundProblem = true; return; } instance = instance->parentNode(); } // Create an instance object, even if we're dealing with a cycle SVGElementInstance* newInstance = new SVGElementInstance(this, target); targetInstance->appendChild(newInstance); // Eventually enter recursion to build SVGElementInstance objects for the sub-tree children buildInstanceTree(target, newInstance, foundProblem); } void SVGUseElement::alterShadowTreeForSVGTag(SVGElement* target) { String widthString = String::number(width().value()); String heightString = String::number(height().value()); if (hasAttribute(SVGNames::widthAttr)) target->setAttribute(SVGNames::widthAttr, widthString); if (hasAttribute(SVGNames::heightAttr)) target->setAttribute(SVGNames::heightAttr, heightString); } void SVGUseElement::removeDisallowedElementsFromSubtree(Node* element) { ExceptionCode ec = 0; for (RefPtr child = element->firstChild(); child; child = child->nextSibling()) { if (isDisallowedElement(child.get())) { ASSERT(child->parent()); child->parent()->removeChild(child.get(), ec); ASSERT(ec == 0); continue; } if (child->hasChildNodes()) removeDisallowedElementsFromSubtree(child.get()); } } void SVGUseElement::buildShadowTree(SVGElement* target, SVGElementInstance* targetInstance) { // For instance on (direct case). if (isDisallowedElement(target)) return; RefPtr newChild = targetInstance->correspondingElement()->cloneNode(true); // We don't walk the target tree element-by-element, and clone each element, // but instead use cloneNode(deep=true). This is an optimization for the common // case where doesn't contain disallowed elements (ie. ). // Though if there are disallowed elements in the subtree, we have to remove them. // For instance: on containing (indirect case). if (subtreeContainsDisallowedElement(newChild.get())) removeDisallowedElementsFromSubtree(newChild.get()); SVGElement* newChildPtr = 0; if (newChild->isSVGElement()) newChildPtr = static_cast(newChild.get()); ASSERT(newChildPtr); ExceptionCode ec = 0; m_shadowTreeRootElement->appendChild(newChild.release(), ec); ASSERT(ec == 0); // Handle use referencing special case if (target->hasTagName(SVGNames::svgTag)) alterShadowTreeForSVGTag(newChildPtr); } #if ENABLE(SVG) && ENABLE(SVG_USE) void SVGUseElement::expandUseElementsInShadowTree(Node* element) { // Why expand the elements in the shadow tree here, and not just // do this directly in buildShadowTree, if we encounter a element? // // Short answer: Because we may miss to expand some elements. Ie. if a // contains tags, we'd miss them. So once we're done with settin' up the // actual shadow tree (after the special case modification for svg/symbol) we have // to walk it completely and expand all elements. if (element->hasTagName(SVGNames::useTag)) { SVGUseElement* use = static_cast(element); String id = SVGURIReference::getTarget(use->href()); Element* targetElement = document()->getElementById(id); SVGElement* target = 0; if (targetElement && targetElement->isSVGElement()) target = static_cast(targetElement); // Don't ASSERT(target) here, it may be "pending", too. if (target) { // Setup sub-shadow tree root node RefPtr cloneParent = new SVGGElement(SVGNames::gTag, document()); // Spec: In the generated content, the 'use' will be replaced by 'g', where all attributes from the // 'use' element except for x, y, width, height and xlink:href are transferred to the generated 'g' element. transferUseAttributesToReplacedElement(use, cloneParent.get()); // Spec: An additional transformation translate(x,y) is appended to the end // (i.e., right-side) of the transform attribute on the generated 'g', where x // and y represent the values of the x and y attributes on the 'use' element. if (use->x().value() != 0.0 || use->y().value() != 0.0) { if (!cloneParent->hasAttribute(SVGNames::transformAttr)) { String transformString = String::format("translate(%f, %f)", use->x().value(), use->y().value()); cloneParent->setAttribute(SVGNames::transformAttr, transformString); } else { String transformString = String::format(" translate(%f, %f)", use->x().value(), use->y().value()); const AtomicString& transformAttribute = cloneParent->getAttribute(SVGNames::transformAttr); cloneParent->setAttribute(SVGNames::transformAttr, transformAttribute + transformString); } } ExceptionCode ec = 0; // For instance on (direct case). if (isDisallowedElement(target)) { // We still have to setup the replacment (). Otherwhise // associateInstancesWithShadowTreeElements() makes wrong assumptions. // Replace with referenced content. ASSERT(use->parentNode()); use->parentNode()->replaceChild(cloneParent.release(), use, ec); ASSERT(ec == 0); return; } RefPtr newChild = target->cloneNode(true); // We don't walk the target tree element-by-element, and clone each element, // but instead use cloneNode(deep=true). This is an optimization for the common // case where doesn't contain disallowed elements (ie. ). // Though if there are disallowed elements in the subtree, we have to remove them. // For instance: on containing (indirect case). if (subtreeContainsDisallowedElement(newChild.get())) removeDisallowedElementsFromSubtree(newChild.get()); SVGElement* newChildPtr = 0; if (newChild->isSVGElement()) newChildPtr = static_cast(newChild.get()); ASSERT(newChildPtr); cloneParent->appendChild(newChild.release(), ec); ASSERT(ec == 0); // Replace with referenced content. ASSERT(use->parentNode()); use->parentNode()->replaceChild(cloneParent.release(), use, ec); ASSERT(ec == 0); // Handle use referencing special case if (target->hasTagName(SVGNames::svgTag)) alterShadowTreeForSVGTag(newChildPtr); // Immediately stop here, and restart expanding. expandUseElementsInShadowTree(m_shadowTreeRootElement.get()); return; } } for (RefPtr child = element->firstChild(); child; child = child->nextSibling()) expandUseElementsInShadowTree(child.get()); } void SVGUseElement::expandSymbolElementsInShadowTree(Node* element) { if (element->hasTagName(SVGNames::symbolTag)) { // Spec: The referenced 'symbol' and its contents are deep-cloned into the generated tree, // with the exception that the 'symbol' is replaced by an 'svg'. This generated 'svg' will // always have explicit values for attributes width and height. If attributes width and/or // height are provided on the 'use' element, then these attributes will be transferred to // the generated 'svg'. If attributes width and/or height are not specified, the generated // 'svg' element will use values of 100% for these attributes. RefPtr svgElement = new SVGSVGElement(SVGNames::svgTag, document()); // Transfer all attributes from to the new element *svgElement->attributes() = *element->attributes(); // Explicitly re-set width/height values String widthString = String::number(width().value()); String heightString = String::number(height().value()); svgElement->setAttribute(SVGNames::widthAttr, hasAttribute(SVGNames::widthAttr) ? widthString : "100%"); svgElement->setAttribute(SVGNames::heightAttr, hasAttribute(SVGNames::heightAttr) ? heightString : "100%"); ExceptionCode ec = 0; // Only clone symbol children, and add them to the new element for (Node* child = element->firstChild(); child; child = child->nextSibling()) { RefPtr newChild = child->cloneNode(true); svgElement->appendChild(newChild.release(), ec); ASSERT(ec == 0); } // We don't walk the target tree element-by-element, and clone each element, // but instead use cloneNode(deep=true). This is an optimization for the common // case where doesn't contain disallowed elements (ie. ). // Though if there are disallowed elements in the subtree, we have to remove them. // For instance: on containing (indirect case). if (subtreeContainsDisallowedElement(svgElement.get())) removeDisallowedElementsFromSubtree(svgElement.get()); // Replace with . ASSERT(element->parentNode()); element->parentNode()->replaceChild(svgElement.release(), element, ec); ASSERT(ec == 0); // Immediately stop here, and restart expanding. expandSymbolElementsInShadowTree(m_shadowTreeRootElement.get()); return; } for (RefPtr child = element->firstChild(); child; child = child->nextSibling()) expandSymbolElementsInShadowTree(child.get()); } #endif void SVGUseElement::attachShadowTree() { if (!m_shadowTreeRootElement || m_shadowTreeRootElement->attached() || !document()->shouldCreateRenderers() || !attached() || !renderer()) return; // Inspired by RenderTextControl::createSubtreeIfNeeded(). if (renderer()->canHaveChildren() && childShouldCreateRenderer(m_shadowTreeRootElement.get())) { RenderStyle* style = m_shadowTreeRootElement->styleForRenderer(renderer()); if (m_shadowTreeRootElement->rendererIsNeeded(style)) { m_shadowTreeRootElement->setRenderer(m_shadowTreeRootElement->createRenderer(document()->renderArena(), style)); if (RenderObject* shadowRenderer = m_shadowTreeRootElement->renderer()) { shadowRenderer->setStyle(style); renderer()->addChild(shadowRenderer, m_shadowTreeRootElement->nextRenderer()); m_shadowTreeRootElement->setAttached(); } } style->deref(document()->renderArena()); // This will take care of attaching all shadow tree child nodes. for (Node* child = m_shadowTreeRootElement->firstChild(); child; child = child->nextSibling()) child->attach(); } } void SVGUseElement::associateInstancesWithShadowTreeElements(Node* target, SVGElementInstance* targetInstance) { if (!target || !targetInstance) return; SVGElement* originalElement = targetInstance->correspondingElement(); if (originalElement->hasTagName(SVGNames::useTag)) { #if ENABLE(SVG) && ENABLE(SVG_USE) // gets replaced by ASSERT(target->nodeName() == SVGNames::gTag); #else ASSERT(target->nodeName() == SVGNames::gTag || target->nodeName() == SVGNames::useTag); #endif } else if (originalElement->hasTagName(SVGNames::symbolTag)) { // gets replaced by ASSERT(target->nodeName() == SVGNames::svgTag); } else ASSERT(target->nodeName() == originalElement->nodeName()); SVGElement* element = 0; if (target->isSVGElement()) element = static_cast(target); ASSERT(!targetInstance->shadowTreeElement()); targetInstance->setShadowTreeElement(element); Node* node = target->firstChild(); for (SVGElementInstance* instance = targetInstance->firstChild(); node && instance; instance = instance->nextSibling()) { // Skip any non-svg elements in shadow tree while (node && !node->isSVGElement()) node = node->nextSibling(); associateInstancesWithShadowTreeElements(node, instance); node = node->nextSibling(); } } SVGElementInstance* SVGUseElement::instanceForShadowTreeElement(Node* element) const { return instanceForShadowTreeElement(element, m_targetElementInstance.get()); } SVGElementInstance* SVGUseElement::instanceForShadowTreeElement(Node* element, SVGElementInstance* instance) const { ASSERT(element); ASSERT(instance); ASSERT(instance->shadowTreeElement()); if (element == instance->shadowTreeElement()) return instance; for (SVGElementInstance* current = instance->firstChild(); current; current = current->nextSibling()) { SVGElementInstance* search = instanceForShadowTreeElement(element, current); if (search) return search; } return 0; } void SVGUseElement::transferUseAttributesToReplacedElement(SVGElement* from, SVGElement* to) const { ASSERT(from); ASSERT(to); *to->attributes() = *from->attributes(); ExceptionCode ec = 0; to->removeAttribute(SVGNames::xAttr, ec); ASSERT(ec == 0); to->removeAttribute(SVGNames::yAttr, ec); ASSERT(ec == 0); to->removeAttribute(SVGNames::widthAttr, ec); ASSERT(ec == 0); to->removeAttribute(SVGNames::heightAttr, ec); ASSERT(ec == 0); to->removeAttribute(XLinkNames::hrefAttr, ec); ASSERT(ec == 0); } } #endif // ENABLE(SVG) // vim:ts=4:noet