/* * Copyright (C) 1999 Lars Knoll (knoll@kde.org) * (C) 1999 Antti Koivisto (koivisto@kde.org) * (C) 2001 Peter Kelly (pmk@post.com) * (C) 2001 Dirk Mueller (mueller@kde.org) * Copyright (C) 2004, 2005, 2006, 2007 Apple Inc. All rights reserved. * * 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., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include "config.h" #include "Element.h" #include "CSSStyleSelector.h" #include "Document.h" #include "Editor.h" #include "ExceptionCode.h" #include "FocusController.h" #include "Frame.h" #include "FrameView.h" #include "HTMLElement.h" #include "HTMLNames.h" #include "KURL.h" #include "NamedAttrMap.h" #include "Page.h" #include "RenderBlock.h" #include "SelectionController.h" #include "TextIterator.h" #include "TextStream.h" #include "XMLNames.h" namespace WebCore { using namespace HTMLNames; using namespace XMLNames; class ElementRareData { public: ElementRareData(Element*); void resetComputedStyle(Element*); IntSize m_minimumSizeForResizing; RenderStyle* m_computedStyle; }; typedef HashMap ElementRareDataMap; static ElementRareDataMap& rareDataMap() { static ElementRareDataMap* dataMap = new ElementRareDataMap; return *dataMap; } static ElementRareData* rareDataFromMap(const Element* element) { return rareDataMap().get(element); } static inline IntSize defaultMinimumSizeForResizing() { return IntSize(INT_MAX, INT_MAX); } inline ElementRareData::ElementRareData(Element* element) : m_minimumSizeForResizing(defaultMinimumSizeForResizing()) , m_computedStyle(0) { } void ElementRareData::resetComputedStyle(Element* element) { if (!m_computedStyle) return; m_computedStyle->deref(element->document()->renderArena()); m_computedStyle = 0; } Element::Element(const QualifiedName& qName, Document *doc) : ContainerNode(doc) , m_updateFocusAppearanceTimer(this, &Element::updateFocusAppearanceTimerFired) , m_needsFocusAppearanceUpdate(false) , m_tagName(qName) { } Element::~Element() { if (namedAttrMap) namedAttrMap->detachFromElement(); if (!m_attrWasSpecifiedOrElementHasRareData) ASSERT(!rareDataMap().contains(this)); else { ElementRareDataMap& dataMap = rareDataMap(); ElementRareDataMap::iterator it = dataMap.find(this); ASSERT(it != dataMap.end()); delete it->second; dataMap.remove(it); } } inline ElementRareData* Element::rareData() { return m_attrWasSpecifiedOrElementHasRareData ? rareDataFromMap(this) : 0; } inline const ElementRareData* Element::rareData() const { return m_attrWasSpecifiedOrElementHasRareData ? rareDataFromMap(this) : 0; } ElementRareData* Element::createRareData() { if (m_attrWasSpecifiedOrElementHasRareData) return rareDataMap().get(this); ASSERT(!rareDataMap().contains(this)); ElementRareData* data = new ElementRareData(this); rareDataMap().set(this, data); m_attrWasSpecifiedOrElementHasRareData = true; return data; } PassRefPtr Element::cloneNode(bool deep) { ExceptionCode ec = 0; RefPtr clone = document()->createElementNS(namespaceURI(), nodeName(), ec); ASSERT(!ec); // clone attributes if (namedAttrMap) *clone->attributes() = *namedAttrMap; clone->copyNonAttributeProperties(this); if (deep) cloneChildNodes(clone.get()); return clone.release(); } void Element::removeAttribute(const QualifiedName& name, ExceptionCode& ec) { if (namedAttrMap) { namedAttrMap->removeNamedItem(name, ec); if (ec == NOT_FOUND_ERR) ec = 0; } } void Element::setAttribute(const QualifiedName& name, const String &value) { ExceptionCode ec = 0; setAttribute(name, value.impl(), ec); } // Virtual function, defined in base class. NamedAttrMap *Element::attributes() const { return attributes(false); } NamedAttrMap* Element::attributes(bool readonly) const { updateStyleAttributeIfNeeded(); if (!readonly && !namedAttrMap) createAttributeMap(); return namedAttrMap.get(); } Node::NodeType Element::nodeType() const { return ELEMENT_NODE; } const AtomicStringList* Element::getClassList() const { return 0; } const AtomicString& Element::getIDAttribute() const { return namedAttrMap ? namedAttrMap->id() : nullAtom; } bool Element::hasAttribute(const QualifiedName& name) const { return hasAttributeNS(name.namespaceURI(), name.localName()); } const AtomicString& Element::getAttribute(const QualifiedName& name) const { if (name == styleAttr) updateStyleAttributeIfNeeded(); if (namedAttrMap) if (Attribute* a = namedAttrMap->getAttributeItem(name)) return a->value(); return nullAtom; } void Element::scrollIntoView(bool alignToTop) { document()->updateLayoutIgnorePendingStylesheets(); IntRect bounds = getRect(); if (renderer()) { // Align to the top / bottom and to the closest edge. if (alignToTop) renderer()->enclosingLayer()->scrollRectToVisible(bounds, RenderLayer::gAlignToEdgeIfNeeded, RenderLayer::gAlignTopAlways); else renderer()->enclosingLayer()->scrollRectToVisible(bounds, RenderLayer::gAlignToEdgeIfNeeded, RenderLayer::gAlignBottomAlways); } } void Element::scrollIntoViewIfNeeded(bool centerIfNeeded) { document()->updateLayoutIgnorePendingStylesheets(); IntRect bounds = getRect(); if (renderer()) { if (centerIfNeeded) renderer()->enclosingLayer()->scrollRectToVisible(bounds, RenderLayer::gAlignCenterIfNeeded, RenderLayer::gAlignCenterIfNeeded); else renderer()->enclosingLayer()->scrollRectToVisible(bounds, RenderLayer::gAlignToEdgeIfNeeded, RenderLayer::gAlignToEdgeIfNeeded); } } void Element::scrollByUnits(int units, ScrollGranularity granularity) { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject *rend = renderer()) { if (rend->hasOverflowClip()) { ScrollDirection direction = ScrollDown; if (units < 0) { direction = ScrollUp; units = -units; } rend->layer()->scroll(direction, granularity, units); } } } void Element::scrollByLines(int lines) { scrollByUnits(lines, ScrollByLine); } void Element::scrollByPages(int pages) { scrollByUnits(pages, ScrollByPage); } int Element::offsetLeft() { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject* rend = renderer()) return rend->offsetLeft(); return 0; } int Element::offsetTop() { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject* rend = renderer()) return rend->offsetTop(); return 0; } int Element::offsetWidth() { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject* rend = renderer()) return rend->offsetWidth(); return 0; } int Element::offsetHeight() { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject* rend = renderer()) return rend->offsetHeight(); return 0; } Element* Element::offsetParent() { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject* rend = renderer()) if (RenderObject* offsetParent = rend->offsetParent()) return static_cast(offsetParent->element()); return 0; } int Element::clientLeft() { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject* rend = renderer()) return rend->clientLeft(); return 0; } int Element::clientTop() { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject* rend = renderer()) return rend->clientTop(); return 0; } int Element::clientWidth() { document()->updateLayoutIgnorePendingStylesheets(); // When in strict mode, clientWidth for the document element should return the width of the containing frame. // When in quirks mode, clientWidth for the body element should return the width of the containing frame. bool inCompatMode = document()->inCompatMode(); if ((!inCompatMode && document()->documentElement() == this) || (inCompatMode && isHTMLElement() && document()->body() == this)) { if (FrameView* view = document()->view()) return view->visibleWidth(); } if (RenderObject* rend = renderer()) return rend->clientWidth(); return 0; } int Element::clientHeight() { document()->updateLayoutIgnorePendingStylesheets(); // When in strict mode, clientHeight for the document element should return the height of the containing frame. // When in quirks mode, clientHeight for the body element should return the height of the containing frame. bool inCompatMode = document()->inCompatMode(); if ((!inCompatMode && document()->documentElement() == this) || (inCompatMode && isHTMLElement() && document()->body() == this)) { if (FrameView* view = document()->view()) return view->visibleHeight(); } if (RenderObject* rend = renderer()) return rend->clientHeight(); return 0; } int Element::scrollLeft() { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject* rend = renderer()) return rend->scrollLeft(); return 0; } int Element::scrollTop() { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject* rend = renderer()) return rend->scrollTop(); return 0; } void Element::setScrollLeft(int newLeft) { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject *rend = renderer()) rend->setScrollLeft(newLeft); } void Element::setScrollTop(int newTop) { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject *rend = renderer()) rend->setScrollTop(newTop); } int Element::scrollWidth() { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject* rend = renderer()) return rend->scrollWidth(); return 0; } int Element::scrollHeight() { document()->updateLayoutIgnorePendingStylesheets(); if (RenderObject* rend = renderer()) return rend->scrollHeight(); return 0; } static inline bool inHTMLDocument(const Element* e) { return e && e->document()->isHTMLDocument(); } const AtomicString& Element::getAttribute(const String& name) const { String localName = inHTMLDocument(this) ? name.lower() : name; if (localName == styleAttr.localName()) updateStyleAttributeIfNeeded(); if (namedAttrMap) if (Attribute* a = namedAttrMap->getAttributeItem(localName)) return a->value(); return nullAtom; } const AtomicString& Element::getAttributeNS(const String& namespaceURI, const String& localName) const { return getAttribute(QualifiedName(nullAtom, localName, namespaceURI)); } void Element::setAttribute(const String& name, const String& value, ExceptionCode& ec) { if (!Document::isValidName(name)) { ec = INVALID_CHARACTER_ERR; return; } String localName = inHTMLDocument(this) ? name.lower() : name; // allocate attributemap if necessary Attribute* old = attributes(false)->getAttributeItem(localName); // NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly if (namedAttrMap->isReadOnlyNode()) { ec = NO_MODIFICATION_ALLOWED_ERR; return; } if (inDocument()) document()->incDOMTreeVersion(); if (localName == idAttr.localName()) updateId(old ? old->value() : nullAtom, value); if (old && value.isNull()) namedAttrMap->removeAttribute(old->name()); else if (!old && !value.isNull()) namedAttrMap->addAttribute(createAttribute(QualifiedName(nullAtom, localName, nullAtom), value.impl())); else if (old && !value.isNull()) { old->setValue(value); attributeChanged(old); } } void Element::setAttribute(const QualifiedName& name, StringImpl* value, ExceptionCode& ec) { if (inDocument()) document()->incDOMTreeVersion(); // allocate attributemap if necessary Attribute* old = attributes(false)->getAttributeItem(name); // NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly if (namedAttrMap->isReadOnlyNode()) { ec = NO_MODIFICATION_ALLOWED_ERR; return; } if (name == idAttr) updateId(old ? old->value() : nullAtom, value); if (old && !value) namedAttrMap->removeAttribute(name); else if (!old && value) namedAttrMap->addAttribute(createAttribute(name, value)); else if (old && value) { old->setValue(value); attributeChanged(old); } } Attribute* Element::createAttribute(const QualifiedName& name, StringImpl* value) { return new Attribute(name, value); } void Element::setAttributeMap(NamedAttrMap* list) { if (inDocument()) document()->incDOMTreeVersion(); // If setting the whole map changes the id attribute, we need to call updateId. Attribute *oldId = namedAttrMap ? namedAttrMap->getAttributeItem(idAttr) : 0; Attribute *newId = list ? list->getAttributeItem(idAttr) : 0; if (oldId || newId) updateId(oldId ? oldId->value() : nullAtom, newId ? newId->value() : nullAtom); if (namedAttrMap) namedAttrMap->element = 0; namedAttrMap = list; if (namedAttrMap) { namedAttrMap->element = this; unsigned len = namedAttrMap->length(); for (unsigned i = 0; i < len; i++) attributeChanged(namedAttrMap->attrs[i]); // FIXME: What about attributes that were in the old map that are not in the new map? } } bool Element::hasAttributes() const { updateStyleAttributeIfNeeded(); return namedAttrMap && namedAttrMap->length() > 0; } String Element::nodeName() const { return m_tagName.toString(); } String Element::nodeNamePreservingCase() const { return m_tagName.toString(); } void Element::setPrefix(const AtomicString &_prefix, ExceptionCode& ec) { checkSetPrefix(_prefix, ec); if (ec) return; m_tagName.setPrefix(_prefix); } String Element::baseURI() const { KURL xmlbase(getAttribute(baseAttr).deprecatedString()); if (!xmlbase.protocol().isEmpty()) return xmlbase.url(); Node* parent = parentNode(); if (parent) return KURL(parent->baseURI().deprecatedString(), xmlbase.url()).url(); return xmlbase.url(); } Node* Element::insertAdjacentElement(const String& where, Node* newChild, int& exception) { if (!newChild) { // IE throws COM Exception E_INVALIDARG; this is the best DOM exception alternative exception = TYPE_MISMATCH_ERR; return 0; } // In Internet Explorer if the element has no parent and where is "beforeBegin" or "afterEnd", // a document fragment is created and the elements appended in the correct order. This document // fragment isn't returned anywhere. // // This is impossible for us to implement as the DOM tree does not allow for such structures, // Opera also appears to disallow such usage. if (equalIgnoringCase(where, "beforeBegin")) { if (Node* p = parent()) return p->insertBefore(newChild, this, exception) ? newChild : 0; } else if (equalIgnoringCase(where, "afterBegin")) { return insertBefore(newChild, firstChild(), exception) ? newChild : 0; } else if (equalIgnoringCase(where, "beforeEnd")) { return appendChild(newChild, exception) ? newChild : 0; } else if (equalIgnoringCase(where, "afterEnd")) { if (Node* p = parent()) return p->insertBefore(newChild, nextSibling(), exception) ? newChild : 0; } else { // IE throws COM Exception E_INVALIDARG; this is the best DOM exception alternative exception = NOT_SUPPORTED_ERR; } return 0; } bool Element::contains(const Node* node) const { if (!node) return false; return this == node || node->isDescendantOf(this); } void Element::createAttributeMap() const { namedAttrMap = new NamedAttrMap(const_cast(this)); } bool Element::isURLAttribute(Attribute *attr) const { return false; } RenderStyle *Element::styleForRenderer(RenderObject *parentRenderer) { return document()->styleSelector()->styleForElement(this); } RenderObject *Element::createRenderer(RenderArena *arena, RenderStyle *style) { if (document()->documentElement() == this && style->display() == NONE) { // Ignore display: none on root elements. Force a display of block in that case. RenderBlock* result = new (arena) RenderBlock(this); if (result) result->setStyle(style); return result; } return RenderObject::createObject(this, style); } void Element::insertedIntoDocument() { // need to do superclass processing first so inDocument() is true // by the time we reach updateId ContainerNode::insertedIntoDocument(); if (hasID()) { NamedAttrMap* attrs = attributes(true); if (attrs) { Attribute* idItem = attrs->getAttributeItem(idAttr); if (idItem && !idItem->isNull()) updateId(nullAtom, idItem->value()); } } } void Element::removedFromDocument() { if (hasID()) { NamedAttrMap* attrs = attributes(true); if (attrs) { Attribute* idItem = attrs->getAttributeItem(idAttr); if (idItem && !idItem->isNull()) updateId(idItem->value(), nullAtom); } } ContainerNode::removedFromDocument(); } void Element::attach() { #if !defined(SPEED_DEBUG) || SPEED_DEBUG < 1 createRendererIfNeeded(); #endif ContainerNode::attach(); if (needsFocusAppearanceUpdate() && !m_updateFocusAppearanceTimer.isActive() && document()->focusedNode() == this) m_updateFocusAppearanceTimer.startOneShot(0); } void Element::detach() { stopUpdateFocusAppearanceTimer(); if (ElementRareData* rd = rareData()) rd->resetComputedStyle(this); ContainerNode::detach(); } void Element::recalcStyle(StyleChange change) { // ### should go away and be done in renderobject RenderStyle* _style = renderStyle(); bool hasParentStyle = parentNode() ? parentNode()->renderStyle() : false; #if ENABLE(SVG) if (!hasParentStyle && isShadowNode() && isSVGElement()) hasParentStyle = true; #endif if ((change > NoChange || changed())) { if (ElementRareData* rd = rareData()) rd->resetComputedStyle(this); } if (hasParentStyle && (change >= Inherit || changed())) { RenderStyle *newStyle = document()->styleSelector()->styleForElement(this); StyleChange ch = diff(_style, newStyle); if (ch == Detach) { if (attached()) detach(); // ### Suboptimal. Style gets calculated again. attach(); // attach recalulates the style for all children. No need to do it twice. setChanged(NoStyleChange); setHasChangedChild(false); newStyle->deref(document()->renderArena()); return; } else if (ch != NoChange) { if (newStyle) setRenderStyle(newStyle); } else if (changed() && newStyle && (document()->usesSiblingRules() || document()->usesDescendantRules())) { // Although no change occurred, we use the new style so that the cousin style sharing code won't get // fooled into believing this style is the same. This is only necessary if the document actually uses // sibling/descendant rules, since otherwise it isn't possible for ancestor styles to affect sharing of // descendants. if (renderer()) renderer()->setStyleInternal(newStyle); else setRenderStyle(newStyle); } newStyle->deref(document()->renderArena()); if (change != Force) { if (document()->usesDescendantRules() && styleChangeType() == FullStyleChange) change = Force; else change = ch; } } for (Node *n = firstChild(); n; n = n->nextSibling()) { if (change >= Inherit || n->isTextNode() || n->hasChangedChild() || n->changed()) n->recalcStyle(change); } setChanged(NoStyleChange); setHasChangedChild(false); } bool Element::childTypeAllowed(NodeType type) { switch (type) { case ELEMENT_NODE: case TEXT_NODE: case COMMENT_NODE: case PROCESSING_INSTRUCTION_NODE: case CDATA_SECTION_NODE: case ENTITY_REFERENCE_NODE: return true; break; default: return false; } } void Element::dispatchAttrRemovalEvent(Attribute*) { ASSERT(!eventDispatchForbidden()); #if 0 if (!document()->hasListenerType(Document::DOMATTRMODIFIED_LISTENER)) return; ExceptionCode ec = 0; dispatchEvent(new MutationEvent(DOMAttrModifiedEvent, true, false, attr, attr->value(), attr->value(), document()->attrName(attr->id()), MutationEvent::REMOVAL), ec); #endif } void Element::dispatchAttrAdditionEvent(Attribute *attr) { ASSERT(!eventDispatchForbidden()); #if 0 if (!document()->hasListenerType(Document::DOMATTRMODIFIED_LISTENER)) return; ExceptionCode ec = 0; dispatchEvent(new MutationEvent(DOMAttrModifiedEvent, true, false, attr, attr->value(), attr->value(),document()->attrName(attr->id()), MutationEvent::ADDITION), ec); #endif } String Element::openTagStartToString() const { String result = "<" + nodeName(); NamedAttrMap *attrMap = attributes(true); if (attrMap) { unsigned numAttrs = attrMap->length(); for (unsigned i = 0; i < numAttrs; i++) { result += " "; Attribute *attribute = attrMap->attributeItem(i); result += attribute->name().toString(); if (!attribute->value().isNull()) { result += "=\""; // FIXME: substitute entities for any instances of " or ' result += attribute->value(); result += "\""; } } } return result; } String Element::toString() const { String result = openTagStartToString(); if (hasChildNodes()) { result += ">"; for (Node *child = firstChild(); child != NULL; child = child->nextSibling()) { result += child->toString(); } result += ""; } else { result += " />"; } return result; } void Element::updateId(const AtomicString& oldId, const AtomicString& newId) { if (!inDocument()) return; if (oldId == newId) return; Document* doc = document(); if (!oldId.isEmpty()) doc->removeElementById(oldId, this); if (!newId.isEmpty()) doc->addElementById(newId, this); } #ifndef NDEBUG void Element::dump(TextStream *stream, DeprecatedString ind) const { updateStyleAttributeIfNeeded(); if (namedAttrMap) { for (unsigned i = 0; i < namedAttrMap->length(); i++) { Attribute *attr = namedAttrMap->attributeItem(i); *stream << " " << attr->name().localName().deprecatedString().ascii() << "=\"" << attr->value().deprecatedString().ascii() << "\""; } } ContainerNode::dump(stream,ind); } #endif #ifndef NDEBUG void Element::formatForDebugger(char *buffer, unsigned length) const { String result; String s; s = nodeName(); if (s.length() > 0) { result += s; } s = getAttribute(idAttr); if (s.length() > 0) { if (result.length() > 0) result += "; "; result += "id="; result += s; } s = getAttribute(classAttr); if (s.length() > 0) { if (result.length() > 0) result += "; "; result += "class="; result += s; } strncpy(buffer, result.deprecatedString().latin1(), length - 1); } #endif PassRefPtr Element::setAttributeNode(Attr *attr, ExceptionCode& ec) { ASSERT(attr); return static_pointer_cast(attributes(false)->setNamedItem(attr, ec)); } PassRefPtr Element::setAttributeNodeNS(Attr* attr, ExceptionCode& ec) { ASSERT(attr); return static_pointer_cast(attributes(false)->setNamedItem(attr, ec)); } PassRefPtr Element::removeAttributeNode(Attr *attr, ExceptionCode& ec) { if (!attr || attr->ownerElement() != this) { ec = NOT_FOUND_ERR; return 0; } if (document() != attr->document()) { ec = WRONG_DOCUMENT_ERR; return 0; } NamedAttrMap *attrs = attributes(true); if (!attrs) return 0; return static_pointer_cast(attrs->removeNamedItem(attr->qualifiedName(), ec)); } void Element::setAttributeNS(const String& namespaceURI, const String& qualifiedName, const String& value, ExceptionCode& ec) { String prefix, localName; if (!Document::parseQualifiedName(qualifiedName, prefix, localName)) { ec = INVALID_CHARACTER_ERR; return; } setAttribute(QualifiedName(prefix, localName, namespaceURI), value.impl(), ec); } void Element::removeAttribute(const String& name, ExceptionCode& ec) { String localName = inHTMLDocument(this) ? name.lower() : name; if (namedAttrMap) { namedAttrMap->removeNamedItem(localName, ec); if (ec == NOT_FOUND_ERR) ec = 0; } } void Element::removeAttributeNS(const String& namespaceURI, const String& localName, ExceptionCode& ec) { removeAttribute(QualifiedName(nullAtom, localName, namespaceURI), ec); } PassRefPtr Element::getAttributeNode(const String& name) { NamedAttrMap* attrs = attributes(true); if (!attrs) return 0; String localName = inHTMLDocument(this) ? name.lower() : name; return static_pointer_cast(attrs->getNamedItem(localName)); } PassRefPtr Element::getAttributeNodeNS(const String& namespaceURI, const String& localName) { NamedAttrMap* attrs = attributes(true); if (!attrs) return 0; return static_pointer_cast(attrs->getNamedItem(QualifiedName(nullAtom, localName, namespaceURI))); } bool Element::hasAttribute(const String& name) const { NamedAttrMap* attrs = attributes(true); if (!attrs) return false; String localName = inHTMLDocument(this) ? name.lower() : name; return attrs->getAttributeItem(localName); } bool Element::hasAttributeNS(const String& namespaceURI, const String& localName) const { NamedAttrMap* attrs = attributes(true); if (!attrs) return false; return attrs->getAttributeItem(QualifiedName(nullAtom, localName, namespaceURI)); } CSSStyleDeclaration *Element::style() { return 0; } void Element::focus(bool restorePreviousSelection) { Document* doc = document(); doc->updateLayout(); if (!supportsFocus()) return; if (Page* page = doc->page()) page->focusController()->setFocusedNode(this, doc->frame()); if (!isFocusable()) { setNeedsFocusAppearanceUpdate(true); return; } updateFocusAppearance(restorePreviousSelection); } void Element::updateFocusAppearance(bool restorePreviousSelection) { if (this == rootEditableElement()) { Frame* frame = document()->frame(); if (!frame) return; // FIXME: We should restore the previous selection if there is one. Selection newSelection = hasTagName(htmlTag) || hasTagName(bodyTag) ? Selection(Position(this, 0), DOWNSTREAM) : Selection::selectionFromContentsOfNode(this); if (frame->shouldChangeSelection(newSelection)) { frame->selectionController()->setSelection(newSelection); frame->revealSelection(); } } else if (renderer() && !renderer()->isWidget()) renderer()->enclosingLayer()->scrollRectToVisible(getRect()); } void Element::updateFocusAppearanceTimerFired(Timer*) { stopUpdateFocusAppearanceTimer(); Document* doc = document(); doc->updateLayout(); if (isFocusable()) updateFocusAppearance(); } void Element::blur() { stopUpdateFocusAppearanceTimer(); Document* doc = document(); if (doc->focusedNode() == this) { if (doc->frame()) doc->frame()->page()->focusController()->setFocusedNode(0, doc->frame()); else doc->setFocusedNode(0); } } void Element::stopUpdateFocusAppearanceTimer() { if (m_updateFocusAppearanceTimer.isActive()) { m_updateFocusAppearanceTimer.stop(); setNeedsFocusAppearanceUpdate(false); } } String Element::innerText() const { // We need to update layout, since plainText uses line boxes in the render tree. document()->updateLayoutIgnorePendingStylesheets(); if (!renderer()) return textContent(true); return plainText(rangeOfContents(const_cast(this)).get()); } String Element::outerText() const { // Getting outerText is the same as getting innerText, only // setting is different. You would think this should get the plain // text for the outer range, but this is wrong,
for instance // would return different values for inner and outer text by such // a rule, but it doesn't in WinIE, and we want to match that. return innerText(); } String Element::title() const { return String(); } IntSize Element::minimumSizeForResizing() const { const ElementRareData* rd = rareData(); return rd ? rd->m_minimumSizeForResizing : defaultMinimumSizeForResizing(); } void Element::setMinimumSizeForResizing(const IntSize& size) { if (size == defaultMinimumSizeForResizing() && !rareData()) return; createRareData()->m_minimumSizeForResizing = size; } RenderStyle* Element::computedStyle() { if (RenderStyle* usedStyle = renderStyle()) return usedStyle; if (!attached()) // FIXME: Try to do better than this. Ensure that styleForElement() works for elements that are not in the // document tree and figure out when to destroy the computed style for such elements. return 0; ElementRareData* rd = createRareData(); if (!rd->m_computedStyle) rd->m_computedStyle = document()->styleSelector()->styleForElement(this, parent() ? parent()->computedStyle() : 0); return rd->m_computedStyle; } }