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tdelibs/khtml/xml/dom_elementimpl.cpp

1302 lines
37 KiB

/**
* This file is part of the DOM implementation for KDE.
*
* 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)
* (C) 2006 Allan Sandfeld Jensen (kde@carewolf.com)
*
* 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.
*/
//#define EVENT_DEBUG
#include "dom/dom_exception.h"
#include "dom/dom_node.h"
#include "dom/html_image.h"
#include "xml/dom_textimpl.h"
#include "xml/dom_docimpl.h"
#include "xml/dom2_eventsimpl.h"
#include "xml/dom_elementimpl.h"
#include "xml/dom_restyler.h"
#include "html/dtd.h"
#include "html/htmlparser.h"
#include "html/html_imageimpl.h"
#include "rendering/render_canvas.h"
#include "misc/htmlhashes.h"
#include "css/css_valueimpl.h"
#include "css/css_stylesheetimpl.h"
#include "css/cssstyleselector.h"
#include "css/cssvalues.h"
#include "css/cssproperties.h"
#include "xml/dom_xmlimpl.h"
#include <tqtextstream.h>
#include <kdebug.h>
#include <stdlib.h>
// ### support default attributes
// ### dispatch mutation events
// ### check for INVALID_CHARACTER_ERR where appropriate
using namespace DOM;
using namespace khtml;
AttrImpl::AttrImpl(ElementImpl* element, DocumentImpl* docPtr, NodeImpl::Id attrId,
DOMStringImpl *value, DOMStringImpl *prefix)
: NodeBaseImpl(docPtr),
m_element(element),
m_attrId(attrId)
{
m_value = value;
m_value->ref();
m_prefix = prefix;
if (m_prefix)
m_prefix->ref();
m_specified = true; // we don't yet support default attributes
}
AttrImpl::~AttrImpl()
{
m_value->deref();
if (m_prefix)
m_prefix->deref();
}
DOMString AttrImpl::nodeName() const
{
return name();
}
unsigned short AttrImpl::nodeType() const
{
return Node::ATTRIBUTE_NODE;
}
DOMString AttrImpl::prefix() const
{
return m_prefix;
}
void AttrImpl::setPrefix(const DOMString &_prefix, int &exceptioncode )
{
checkSetPrefix(_prefix, exceptioncode);
if (exceptioncode)
return;
if (m_prefix == _prefix.implementation())
return;
if (m_prefix)
m_prefix->deref();
m_prefix = _prefix.implementation();
if (m_prefix)
m_prefix->ref();
}
DOMString AttrImpl::namespaceURI() const
{
if (m_htmlCompat)
return DOMString();
return getDocument()->getName(NamespaceId, m_attrId >> 16);
}
DOMString AttrImpl::localName() const
{
if (m_htmlCompat)
return DOMString();
return getDocument()->getName(AttributeId, m_attrId);
}
DOMString AttrImpl::nodeValue() const
{
return m_value;
}
DOMString AttrImpl::name() const
{
DOMString n = getDocument()->getName(AttributeId, m_attrId);
// compat mode always return attribute names in lowercase.
// that's not formally in the specification, but common
// practice - a w3c erratum to DOM L2 is pending.
if (m_htmlCompat)
n = n.lower();
if (m_prefix && m_prefix->l)
return DOMString(m_prefix) + ":" + n;
return n;
}
void AttrImpl::setValue( const DOMString &v, int &exceptioncode )
{
exceptioncode = 0;
// ### according to the DOM docs, we should create an unparsed Text child
// node here
// do not interprete entities in the string, its literal!
// NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly
if (isReadOnly()) {
exceptioncode = DOMException::NO_MODIFICATION_ALLOWED_ERR;
return;
}
// ### what to do on 0 ?
if (v.isNull()) {
exceptioncode = DOMException::DOMSTRING_SIZE_ERR;
return;
}
if (m_value == v.implementation())
return;
if (m_element && m_attrId == ATTR_ID)
m_element->updateId(m_value, v.implementation());
m_value->deref();
m_value = v.implementation();
m_value->ref();
if (m_element) {
m_element->parseAttribute(m_attrId,m_value);
m_element->attributeChanged(m_attrId);
}
}
void AttrImpl::setNodeValue( const DOMString &v, int &exceptioncode )
{
exceptioncode = 0;
// NO_MODIFICATION_ALLOWED_ERR: taken care of by setValue()
setValue(v, exceptioncode);
}
NodeImpl *AttrImpl::cloneNode ( bool /*deep*/)
{
AttrImpl* attr = new AttrImpl(0, docPtr(), m_attrId, m_value, m_prefix);
attr->setHTMLCompat(m_htmlCompat);
return attr;
}
// DOM Section 1.1.1
bool AttrImpl::childAllowed( NodeImpl *newChild )
{
if(!newChild)
return false;
return childTypeAllowed(newChild->nodeType());
}
bool AttrImpl::childTypeAllowed( unsigned short type )
{
switch (type) {
case Node::TEXT_NODE:
case Node::ENTITY_REFERENCE_NODE:
return true;
break;
default:
return false;
}
}
DOMString AttrImpl::toString() const
{
DOMString result;
result += nodeName();
// FIXME: substitute entities for any instances of " or ' --
// maybe easier to just use text value and ignore existing
// entity refs?
if ( firstChild() ) {
result += "=\"";
for (NodeImpl *child = firstChild(); child != NULL; child = child->nextSibling()) {
result += child->toString();
}
result += "\"";
} else if ( !nodeValue().isEmpty() ){
//remove the else once the AttributeImpl changes are merged
result += "=\"";
result += nodeValue();
result += "\"";
}
return result;
}
void AttrImpl::setElement(ElementImpl *element)
{
m_element = element;
}
// Strictly speaking, these two methods should not be needed, but
// we can't fully deal with the mess that are DOM attributes right..
DOMStringImpl* AttrImpl::textContent() const
{
if (m_value)
return new DOMStringImpl(m_value->s, m_value->l);
else
return 0;
}
void AttrImpl::setTextContent( const DOMString &text, int& exceptioncode )
{
setValue(text, exceptioncode);
}
// -------------------------------------------------------------------------
void AttributeImpl::setValue(DOMStringImpl *value, ElementImpl *element)
{
assert(value);
if (m_attrId) {
if (m_data.value == value)
return;
if (element && m_attrId == ATTR_ID)
element->updateId(m_data.value, value);
m_data.value->deref();
m_data.value = value;
m_data.value->ref();
if (element) {
element->parseAttribute(this);
element->attributeChanged(m_attrId);
}
}
else {
int exceptioncode = 0;
m_data.attr->setValue(value,exceptioncode);
// AttrImpl::setValue() calls parseAttribute()
}
}
AttrImpl *AttributeImpl::createAttr(ElementImpl *element, DocumentImpl *docPtr)
{
if (m_attrId) {
AttrImpl *attr = new AttrImpl(element,docPtr,m_attrId,m_data.value);
if (!attr) return 0;
attr->setHTMLCompat( docPtr->htmlMode() != DocumentImpl::XHtml );
m_data.value->deref();
m_data.attr = attr;
m_data.attr->ref();
m_attrId = 0; /* "has implementation" flag */
}
return m_data.attr;
}
void AttributeImpl::free()
{
if (m_attrId) {
m_data.value->deref();
}
else {
m_data.attr->setElement(0);
m_data.attr->deref();
}
}
// -------------------------------------------------------------------------
ElementImpl::ElementImpl(DocumentImpl *doc)
: NodeBaseImpl(doc)
{
namedAttrMap = 0;
m_styleDecls = 0;
m_prefix = 0;
}
ElementImpl::~ElementImpl()
{
if(namedAttrMap) {
namedAttrMap->detachFromElement();
namedAttrMap->deref();
}
if (m_styleDecls) {
m_styleDecls->setNode(0);
m_styleDecls->setParent(0);
m_styleDecls->deref();
}
if (m_prefix)
m_prefix->deref();
}
unsigned short ElementImpl::nodeType() const
{
return Node::ELEMENT_NODE;
}
DOMStringImpl* ElementImpl::getAttributeImpl( NodeImpl::Id id, bool nsAware, DOMStringImpl* qName) const
{
if (!namedAttrMap)
return 0;
DOMStringImpl *value = namedAttrMap->getValue(id, nsAware, qName);
if (value)
return value;
// then search in default attr in case it is not yet set
NamedAttrMapImpl* dm = defaultMap();
value = dm ? dm->getValue(id, nsAware, qName) : 0;
if (value)
return value;
return 0;
}
DOMString ElementImpl::getAttribute( NodeImpl::Id id, bool nsAware, const DOMString& qName) const
{
return DOMString(getAttributeImpl(id, nsAware, qName.implementation()));
}
void ElementImpl::setAttribute(NodeImpl::Id id, const DOMString &value, const DOMString& qName, int &exceptioncode)
{
// NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly
if (isReadOnly()) {
exceptioncode = DOMException::NO_MODIFICATION_ALLOWED_ERR;
return;
}
attributes()->setValue(id, value.implementation(), (qName.isEmpty() ? 0: qName.implementation()));
}
void ElementImpl::setAttributeNS( const DOMString &namespaceURI, const DOMString &qualifiedName,
const DOMString &value, int &exceptioncode )
{
// NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly
if (isReadOnly()) {
exceptioncode = DOMException::NO_MODIFICATION_ALLOWED_ERR;
return;
}
int colonPos;
if (!DOM::checkQualifiedName(qualifiedName, namespaceURI, &colonPos,
false/*nameCanBeNull*/, false/*nameCanBeEmpty*/,
&exceptioncode))
return;
DOMString prefix, localName;
splitPrefixLocalName(qualifiedName.implementation(), prefix, localName, colonPos);
NodeImpl::Id id = getDocument()->getId(AttributeId, namespaceURI.implementation(),
prefix.implementation(), localName.implementation(), false, true /*lookupHTML*/);
attributes()->setValue(id, value.implementation(), 0, prefix.implementation(),
true /*nsAware*/, !namespaceURI.isNull() /*hasNS*/);
}
void ElementImpl::setAttribute(NodeImpl::Id id, const DOMString &value)
{
int exceptioncode = 0;
setAttribute(id,value,DOMString(),exceptioncode);
}
void ElementImpl::setAttributeMap( NamedAttrMapImpl* list )
{
// If setting the whole map changes the id attribute, we need to
// call updateId.
DOMStringImpl *oldId = namedAttrMap ? namedAttrMap->getValue(ATTR_ID) : 0;
DOMStringImpl *newId = list ? list->getValue(ATTR_ID) : 0;
if (oldId || newId) {
updateId(oldId, newId);
}
if (namedAttrMap) {
namedAttrMap->detachFromElement();
namedAttrMap->deref();
}
namedAttrMap = list;
if (namedAttrMap) {
namedAttrMap->ref();
assert(namedAttrMap->m_element == 0);
namedAttrMap->setElement(this);
unsigned long len = namedAttrMap->length();
for (unsigned long i = 0; i < len; i++) {
parseAttribute(&namedAttrMap->m_attrs[i]);
attributeChanged(namedAttrMap->m_attrs[i].id());
}
}
}
NodeImpl *ElementImpl::cloneNode(bool deep)
{
ElementImpl *clone;
if ( !localName().isNull() )
clone = getDocument()->createElementNS( namespaceURI(), nodeName() );
else
clone = getDocument()->createElement( nodeName() );
if (!clone) return 0;
finishCloneNode( clone, deep );
return clone;
}
void ElementImpl::finishCloneNode( ElementImpl* clone, bool deep )
{
// clone attributes
if (namedAttrMap)
clone->attributes()->copyAttributes(namedAttrMap);
// clone individual style rules
if (m_styleDecls)
*(clone->styleRules()) = *m_styleDecls;
if (deep)
cloneChildNodes(clone);
}
DOMString ElementImpl::nodeName() const
{
return tagName();
}
DOMString ElementImpl::namespaceURI() const
{
if (m_htmlCompat)
return DOMString();
return getDocument()->getName(NamespaceId, id() >> 16);
}
DOMString ElementImpl::prefix() const
{
return m_prefix;
}
void ElementImpl::setPrefix( const DOMString &_prefix, int &exceptioncode )
{
checkSetPrefix(_prefix, exceptioncode);
if (exceptioncode)
return;
if (m_prefix == _prefix.implementation())
return;
if (m_prefix)
m_prefix->deref();
m_prefix = _prefix.implementation();
if (m_prefix)
m_prefix->ref();
}
void ElementImpl::createAttributeMap() const
{
namedAttrMap = new NamedAttrMapImpl(const_cast<ElementImpl*>(this));
namedAttrMap->ref();
}
NamedAttrMapImpl* ElementImpl::defaultMap() const
{
return 0;
}
RenderStyle *ElementImpl::styleForRenderer(RenderObject * /*parentRenderer*/)
{
return getDocument()->styleSelector()->styleForElement(this);
}
RenderObject *ElementImpl::createRenderer(RenderArena *arena, RenderStyle *style)
{
if (getDocument()->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 ElementImpl::attach()
{
assert(!attached());
assert(!m_render);
assert(parentNode());
#if SPEED_DEBUG < 1
createRendererIfNeeded();
#endif
NodeBaseImpl::attach();
}
void ElementImpl::close()
{
NodeImpl::close();
// Trigger all the addChild changes as one large dynamic appendChildren change
if (attached())
backwardsStructureChanged();
}
void ElementImpl::detach()
{
getDocument()->dynamicDomRestyler().resetDependencies(this);
NodeBaseImpl::detach();
}
void ElementImpl::structureChanged()
{
NodeBaseImpl::structureChanged();
if (!getDocument()->renderer())
return; // the document is about to be destroyed
getDocument()->dynamicDomRestyler().restyleDepedent(this, StructuralDependency);
// In theory BackwardsStructurualDependencies are indifferent to prepend,
// but it's too rare to optimize.
getDocument()->dynamicDomRestyler().restyleDepedent(this, BackwardsStructuralDependency);
}
void ElementImpl::backwardsStructureChanged()
{
NodeBaseImpl::backwardsStructureChanged();
if (!getDocument()->renderer())
return; // the document is about to be destroyed
// Most selectors are not affected by append. Fire the few that are.
getDocument()->dynamicDomRestyler().restyleDepedent(this, BackwardsStructuralDependency);
}
void ElementImpl::attributeChanged(NodeImpl::Id id)
{
if (!getDocument()->renderer())
return; // the document is about to be destroyed
#if 0 // one-one dependencies for attributes disabled
getDocument()->dynamicDomRestyler().restyleDepedent(this, AttributeDependency);
#endif
if (getDocument()->dynamicDomRestyler().checkDependency(id, PersonalDependency))
setChanged(true);
if (getDocument()->dynamicDomRestyler().checkDependency(id, AncestorDependency))
setChangedAscendentAttribute(true);
if (getDocument()->dynamicDomRestyler().checkDependency(id, PredecessorDependency) && parent())
// Any element that dependt on a predecessors attribute, also depend structurally on parent
parent()->structureChanged();
}
void ElementImpl::recalcStyle( StyleChange change )
{
// ### should go away and be done in renderobject
RenderStyle* _style = m_render ? m_render->style() : 0;
bool hasParentRenderer = parent() ? parent()->attached() : false;
#if 0
const char* debug;
switch(change) {
case NoChange: debug = "NoChange";
break;
case NoInherit: debug= "NoInherit";
break;
case Inherit: debug = "Inherit";
break;
case Force: debug = "Force";
break;
}
qDebug("recalcStyle(%d: %s, changed: %d)[%p: %s]", change, debug, changed(), this, tagName().string().latin1());
#endif
if ( hasParentRenderer && (change >= Inherit || changed()) ) {
RenderStyle *newStyle = getDocument()->styleSelector()->styleForElement(this);
newStyle->ref();
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( false );
setHasChangedChild( false );
newStyle->deref();
return;
}
else if (ch != NoChange) {
if( m_render && newStyle ) {
m_render->setStyle(newStyle);
}
}
newStyle->deref();
if ( change != Force)
change = ch;
}
// If a changed attribute has ancestor dependencies, restyle all children
if (changedAscendentAttribute()) {
change = Force;
setChangedAscendentAttribute(false);
}
NodeImpl *n;
for (n = _first; n; n = n->nextSibling()) {
if ( change >= Inherit || n->isTextNode() ||
n->hasChangedChild() || n->changed() ) {
//qDebug(" (%p) calling recalcStyle on child %p/%s, change=%d", this, n, n->isElementNode() ? ((ElementImpl *)n)->tagName().string().latin1() : n->isTextNode() ? "text" : "unknown", change );
n->recalcStyle( change );
}
}
setChanged( false );
setHasChangedChild( false );
}
bool ElementImpl::isFocusable() const
{
// Only make editable elements selectable if its parent element
// is not editable. FIXME: this is not 100% right as non-editable elements
// within editable elements are focusable too.
return contentEditable() && !(parentNode() && parentNode()->contentEditable());
}
// DOM Section 1.1.1
bool ElementImpl::childAllowed( NodeImpl *newChild )
{
if (!childTypeAllowed(newChild->nodeType()))
return false;
// ### check xml element allowedness according to DTD
// If either this node or the other node is an XML element node, allow regardless (we don't do DTD checks for XML
// yet)
if (isXMLElementNode() || newChild->isXMLElementNode())
return true;
else
return checkChild(id(), newChild->id(), !getDocument()->inCompatMode());
}
bool ElementImpl::childTypeAllowed( unsigned short type )
{
switch (type) {
case Node::ELEMENT_NODE:
case Node::TEXT_NODE:
case Node::COMMENT_NODE:
case Node::PROCESSING_INSTRUCTION_NODE:
case Node::CDATA_SECTION_NODE:
case Node::ENTITY_REFERENCE_NODE:
return true;
break;
default:
return false;
}
}
void ElementImpl::scrollIntoView(bool /*alignToTop*/)
{
// ###
kdWarning() << "non-standard scrollIntoView() not implemented" << endl;
}
void ElementImpl::createDecl( )
{
m_styleDecls = new CSSStyleDeclarationImpl(0);
m_styleDecls->ref();
m_styleDecls->setParent(getDocument()->elementSheet());
m_styleDecls->setNode(this);
m_styleDecls->setStrictParsing( !getDocument()->inCompatMode() );
}
void ElementImpl::dispatchAttrRemovalEvent(NodeImpl::Id /*id*/, DOMStringImpl * /*value*/)
{
// ### enable this stuff again
if (!getDocument()->hasListenerType(DocumentImpl::DOMATTRMODIFIED_LISTENER))
return;
//int exceptioncode = 0;
//dispatchEvent(new MutationEventImpl(EventImpl::DOMATTRMODIFIED_EVENT,true,false,attr,attr->value(),
//attr->value(), getDocument()->attrName(attr->id()),MutationEvent::REMOVAL),exceptioncode);
}
void ElementImpl::dispatchAttrAdditionEvent(NodeImpl::Id /*id*/, DOMStringImpl * /*value*/)
{
// ### enable this stuff again
if (!getDocument()->hasListenerType(DocumentImpl::DOMATTRMODIFIED_LISTENER))
return;
//int exceptioncode = 0;
//dispatchEvent(new MutationEventImpl(EventImpl::DOMATTRMODIFIED_EVENT,true,false,attr,attr->value(),
//attr->value(),getDocument()->attrName(attr->id()),MutationEvent::ADDITION),exceptioncode);
}
void ElementImpl::updateId(DOMStringImpl* oldId, DOMStringImpl* newId)
{
if (!inDocument())
return;
if (oldId && oldId->l)
removeId(DOMString(oldId).string());
if (newId && newId->l)
addId(DOMString(newId).string());
}
void ElementImpl::removeId(const TQString& id)
{
getDocument()->getElementByIdCache().remove(id, this);
}
void ElementImpl::addId(const TQString& id)
{
getDocument()->getElementByIdCache().add(id, this);
}
void ElementImpl::insertedIntoDocument()
{
// need to do superclass processing first so inDocument() is true
// by the time we reach updateId
NodeBaseImpl::insertedIntoDocument();
if (hasID()) {
DOMString id = getAttribute(ATTR_ID);
updateId(0, id.implementation());
}
}
void ElementImpl::removedFromDocument()
{
if (hasID()) {
DOMString id = getAttribute(ATTR_ID);
updateId(id.implementation(), 0);
}
NodeBaseImpl::removedFromDocument();
}
DOMString ElementImpl::openTagStartToString(bool expandurls) const
{
DOMString result = DOMString("<") + tagName();
NamedAttrMapImpl *attrMap = attributes(true);
if (attrMap) {
unsigned long numAttrs = attrMap->length();
for (unsigned long i = 0; i < numAttrs; i++) {
result += " ";
AttributeImpl *attribute = attrMap->attrAt(i);
AttrImpl *attr = attribute->attr();
if (attr) {
result += attr->toString();
} else {
result += getDocument()->getName( NodeImpl::AttributeId, attribute->id());
if (!attribute->value().isNull()) {
result += "=\"";
// FIXME: substitute entities for any instances of " or '
// Expand out all urls, i.e. the src and href attributes
if(expandurls && ( attribute->id() == ATTR_SRC || attribute->id() == ATTR_HREF))
if(getDocument()) {
//We need to sanitize the urls - strip out the passwords.
//FIXME: are src= and href= the only places that might have a password and need to be sanitized?
KURL safeURL(getDocument()->completeURL(attribute->value().string()));
safeURL.setPass(TQString::null);
result += safeURL.htmlURL();
}
else {
kdWarning() << "getDocument() returned false";
result += attribute->value();
}
else
result += attribute->value();
result += "\"";
}
}
}
}
return result;
}
DOMString ElementImpl::selectionToString(NodeImpl *selectionStart, NodeImpl *selectionEnd, int startOffset, int endOffset, bool &found) const
{
DOMString result = openTagStartToString();
if (hasChildNodes()) {
result += ">";
for (NodeImpl *child = firstChild(); child != NULL; child = child->nextSibling()) {
result += child->selectionToString(selectionStart, selectionEnd, startOffset, endOffset, found); // this might set found to true
if(child == selectionEnd)
found = true;
if(found) break;
}
result += "</";
result += tagName();
result += ">";
} else {
result += " />";
}
return result;
}
DOMString ElementImpl::toString() const
{
TQString result = openTagStartToString().string(); //Accumulate in TQString, since DOMString can't append well.
if (hasChildNodes()) {
result += ">";
for (NodeImpl *child = firstChild(); child != NULL; child = child->nextSibling()) {
DOMString kid = child->toString();
result += TQConstString(kid.tqunicode(), kid.length()).string();
}
result += "</";
result += tagName().string();
result += ">";
} else if (result.length() == 1) {
// ensure we dont get results like < /> can happen when serialize document
result = "";
} else {
result += " />";
}
return result;
}
bool ElementImpl::contentEditable() const {
#if 0
DOM::CSSPrimitiveValueImpl *val = static_cast<DOM::CSSPrimitiveValueImpl *>
(const_cast<ElementImpl *>(this)->styleRules()
->getPropertyCSSValue(CSS_PROP__KONQ_USER_INPUT));
// kdDebug() << "val" << val << endl;
return val ? val->getIdent() == CSS_VAL_ENABLED : false;
#endif
return NodeImpl::contentEditable();
}
void ElementImpl::setContentEditable(bool enabled) {
// FIXME: the approach is flawed, better use an enum instead of bool
int value;
if (enabled)
value = CSS_VAL_ENABLED;
else {
// Intelligently use "none" or "disabled", depending on the type of
// element
// FIXME: intelligence not impl'd yet
value = CSS_VAL_NONE;
// FIXME: reset caret if it is in this node or a child
}/*end if*/
// FIXME: use addCSSProperty when I get permission to move it here
// kdDebug(6000) << "CSS_PROP__KHTML_USER_INPUT: "<< value << endl;
styleRules()->setProperty(CSS_PROP__KHTML_USER_INPUT, value, false, true);
setChanged();
}
// -------------------------------------------------------------------------
XMLElementImpl::XMLElementImpl(DocumentImpl *doc, NodeImpl::Id id)
: ElementImpl(doc)
{
// Called from createElement(). In this case localName, prefix, and namespaceURI all need to be null.
m_id = id;
}
XMLElementImpl::XMLElementImpl(DocumentImpl *doc, NodeImpl::Id id, DOMStringImpl *_prefix)
: ElementImpl(doc)
{
// Called from createElementNS()
m_id = id;
m_prefix = _prefix;
if (m_prefix)
m_prefix->ref();
}
XMLElementImpl::~XMLElementImpl()
{
}
DOMString XMLElementImpl::localName() const
{
if ( m_htmlCompat )
return DOMString(); // was created with non-namespace-aware createElement()
return getDocument()->getName(ElementId, m_id);
}
DOMString XMLElementImpl::tagName() const
{
DOMString tn = getDocument()->getName(ElementId, id());
if (m_htmlCompat)
tn = tn.upper();
if (m_prefix)
return DOMString(m_prefix) + ":" + tn;
return tn;
}
NodeImpl *XMLElementImpl::cloneNode ( bool deep )
{
XMLElementImpl *clone = new XMLElementImpl(docPtr(), id(), m_prefix);
finishCloneNode( clone, deep );
return clone;
}
// -------------------------------------------------------------------------
NamedAttrMapImpl::NamedAttrMapImpl(ElementImpl *element)
: m_element(element),
m_attrs(0),
m_attrCount(0)
{
}
NamedAttrMapImpl::~NamedAttrMapImpl()
{
for (unsigned long i = 0; i < m_attrCount; i++)
m_attrs[i].free();
free(m_attrs);
}
NodeImpl *NamedAttrMapImpl::getNamedItem ( NodeImpl::Id id, bool nsAware, DOMStringImpl* qName ) const
{
if (!m_element)
return 0;
unsigned int mask = nsAware ? ~0L : NodeImpl_IdLocalMask;
id = (id & mask);
for (unsigned long i = 0; i < m_attrCount; i++) {
if ((m_attrs[i].id() & mask) == id) {
// if we are called with a qualified name, filter out NS-aware elements with non-matching name.
if (qName && (namespacePart(m_attrs[i].id()) != defaultNamespace) &&
strcasecmp(m_attrs[i].name(), DOMString(qName)))
continue;
return m_attrs[i].createAttr(m_element,m_element->docPtr());
}
}
return 0;
}
Node NamedAttrMapImpl::removeNamedItem ( NodeImpl::Id id, bool nsAware, DOMStringImpl* qName, int &exceptioncode )
{
if (!m_element) {
exceptioncode = DOMException::NOT_FOUND_ERR;
return 0;
}
// NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly
if (isReadOnly()) {
exceptioncode = DOMException::NO_MODIFICATION_ALLOWED_ERR;
return 0;
}
unsigned int mask = nsAware ? ~0L : NodeImpl_IdLocalMask;
id = (id & mask);
for (unsigned long i = 0; i < m_attrCount; i++) {
if ((m_attrs[i].id() & mask) == id) {
// if we are called with a qualified name, filter out NS-aware elements with non-matching name.
if (qName && (namespacePart(m_attrs[i].id()) != defaultNamespace) &&
strcasecmp(m_attrs[i].name(), DOMString(qName)))
continue;
id = m_attrs[i].id();
if (id == ATTR_ID)
m_element->updateId(m_attrs[i].val(), 0);
Node removed(m_attrs[i].createAttr(m_element,m_element->docPtr()));
m_attrs[i].free();
memmove(m_attrs+i,m_attrs+i+1,(m_attrCount-i-1)*sizeof(AttributeImpl));
m_attrCount--;
m_attrs = (AttributeImpl*)realloc(m_attrs,m_attrCount*sizeof(AttributeImpl));
m_element->parseAttribute(id,0);
m_element->attributeChanged(id);
return removed;
}
}
// NOT_FOUND_ERR: Raised if there is no node with the specified namespaceURI
// and localName in this map.
exceptioncode = DOMException::NOT_FOUND_ERR;
return 0;
}
Node NamedAttrMapImpl::setNamedItem ( NodeImpl* arg, bool nsAware, DOMStringImpl* qName, int &exceptioncode )
{
if (!m_element) {
exceptioncode = DOMException::NOT_FOUND_ERR;
return 0;
}
// NO_MODIFICATION_ALLOWED_ERR: Raised if this map is readonly.
if (isReadOnly()) {
exceptioncode = DOMException::NO_MODIFICATION_ALLOWED_ERR;
return 0;
}
// WRONG_DOCUMENT_ERR: Raised if arg was created from a different document than the one that created this map.
if (arg->getDocument() != m_element->getDocument()) {
exceptioncode = DOMException::WRONG_DOCUMENT_ERR;
return 0;
}
// HIERARCHY_REQUEST_ERR: Raised if an attempt is made to add a node doesn't belong in this NamedNodeMap
if (!arg->isAttributeNode()) {
exceptioncode = DOMException::HIERARCHY_REQUEST_ERR;
return 0;
}
AttrImpl *attr = static_cast<AttrImpl*>(arg);
// INUSE_ATTRIBUTE_ERR: Raised if arg is an Attr that is already an attribute of another Element object.
// The DOM user must explicitly clone Attr nodes to re-use them in other elements.
if (attr->ownerElement() && attr->ownerElement() != m_element) {
exceptioncode = DOMException::INUSE_ATTRIBUTE_ERR;
return 0;
}
if (attr->ownerElement() == m_element) {
// Already have this attribute.
// DOMTS core-1 test "hc_elementreplaceattributewithself" says we should return it.
return attr;
}
unsigned int mask = nsAware ? ~0L : NodeImpl_IdLocalMask;
NodeImpl::Id id = (attr->id() & mask);
for (unsigned long i = 0; i < m_attrCount; i++) {
if ((m_attrs[i].id() & mask) == id) {
// if we are called with a qualified name, filter out NS-aware elements with non-matching name.
if (qName && (namespacePart(m_attrs[i].id()) != defaultNamespace) &&
strcasecmp(m_attrs[i].name(), DOMString(qName)))
continue;
// Attribute exists; replace it
if (id == ATTR_ID)
m_element->updateId(m_attrs[i].val(), attr->val());
Node replaced = m_attrs[i].createAttr(m_element,m_element->docPtr());
m_attrs[i].free();
m_attrs[i].m_attrId = 0; /* "has implementation" flag */
m_attrs[i].m_data.attr = attr;
m_attrs[i].m_data.attr->ref();
attr->setElement(m_element);
m_element->parseAttribute(&m_attrs[i]);
m_element->attributeChanged(m_attrs[i].id());
// ### dispatch mutation events
return replaced;
}
}
// No existing attribute; add to list
m_attrCount++;
m_attrs = (AttributeImpl*)realloc(m_attrs,m_attrCount*sizeof(AttributeImpl));
m_attrs[m_attrCount-1].m_attrId = 0; /* "has implementation" flag */
m_attrs[m_attrCount-1].m_data.attr = attr;
m_attrs[m_attrCount-1].m_data.attr->ref();
attr->setElement(m_element);
if (id == ATTR_ID)
m_element->updateId(0, attr->val());
m_element->parseAttribute(&m_attrs[m_attrCount-1]);
m_element->attributeChanged(m_attrs[m_attrCount-1].id());
// ### dispatch mutation events
return 0;
}
NodeImpl *NamedAttrMapImpl::item ( unsigned long index ) const
{
if (!m_element)
return 0;
if (index >= m_attrCount)
return 0;
else
return m_attrs[index].createAttr(m_element,m_element->docPtr());
}
unsigned long NamedAttrMapImpl::length( ) const
{
if (!m_element)
return 0;
return m_attrCount;
}
NodeImpl::Id NamedAttrMapImpl::idAt(unsigned long index) const
{
assert(index <= m_attrCount);
return m_attrs[index].id();
}
DOMStringImpl *NamedAttrMapImpl::valueAt(unsigned long index) const
{
assert(index <= m_attrCount);
return m_attrs[index].val();
}
DOMStringImpl *NamedAttrMapImpl::getValue(NodeImpl::Id id, bool nsAware, DOMStringImpl* qName) const
{
unsigned int mask = nsAware ? ~0L : NodeImpl_IdLocalMask;
id = (id & mask);
for (unsigned long i = 0; i < m_attrCount; i++)
if ((m_attrs[i].id() & mask) == id) {
// if we are called with a qualified name, filter out NS-aware elements with non-matching name.
if (qName && (namespacePart(m_attrs[i].id()) != defaultNamespace) &&
strcasecmp(m_attrs[i].name(), qName))
continue;
return m_attrs[i].val();
}
return 0;
}
void NamedAttrMapImpl::setValue(NodeImpl::Id id, DOMStringImpl *value, DOMStringImpl* qName,
DOMStringImpl *prefix, bool nsAware, bool hasNS)
{
assert( !(qName && nsAware) );
if (!id) return;
// Passing in a null value here causes the attribute to be removed. This is a khtml extension
// (the spec does not specify what to do in this situation).
int exceptioncode = 0;
if (!value) {
removeNamedItem(id, nsAware, qName, exceptioncode);
return;
}
unsigned int mask = nsAware ? ~0L : NodeImpl_IdLocalMask;
NodeImpl::Id mid = (id & mask);
// Check for an existing attribute.
for (unsigned long i = 0; i < m_attrCount; i++) {
if ((m_attrs[i].id() & mask) == mid) {
// if we are called with a qualified name, filter out NS-aware elements with non-matching name.
if (qName && (namespacePart(m_attrs[i].id()) != defaultNamespace) &&
strcasecmp(m_attrs[i].name(), DOMString(qName)))
continue;
if (prefix)
m_attrs[i].attr()->setPrefix(prefix,exceptioncode);
m_attrs[i].setValue(value,m_element);
// ### dispatch mutation events
return;
}
}
// No existing matching attribute; add a new one
m_attrCount++;
m_attrs = (AttributeImpl*)realloc(m_attrs,m_attrCount*sizeof(AttributeImpl));
if (!nsAware) {
// Called from setAttribute()... we only have a name
m_attrs[m_attrCount-1].m_attrId = id;
m_attrs[m_attrCount-1].m_data.value = value;
m_attrs[m_attrCount-1].m_data.value->ref();
}
else {
// Called from setAttributeNS()... need to create a full AttrImpl here
if(!m_element)
return;
m_attrs[m_attrCount-1].m_data.attr = new AttrImpl(m_element,m_element->docPtr(),
id,
value,
prefix);
m_attrs[m_attrCount-1].m_attrId = 0; /* "has implementation" flag */
m_attrs[m_attrCount-1].m_data.attr->ref();
m_attrs[m_attrCount-1].m_data.attr->setHTMLCompat( !hasNS &&
m_element->getDocument()->htmlMode() != DocumentImpl::XHtml );
}
if (m_element) {
if (id == ATTR_ID)
m_element->updateId(0, value);
m_element->parseAttribute(&m_attrs[m_attrCount-1]);
m_element->attributeChanged(m_attrs[m_attrCount-1].id());
}
// ### dispatch mutation events
}
Attr NamedAttrMapImpl::removeAttr(AttrImpl *attr)
{
for (unsigned long i = 0; i < m_attrCount; i++) {
if (m_attrs[i].attr() == attr) {
NodeImpl::Id id = m_attrs[i].id();
if (id == ATTR_ID)
m_element->updateId(attr->val(), 0);
Node removed(m_attrs[i].createAttr(m_element,m_element->docPtr()));
m_attrs[i].free();
memmove(m_attrs+i,m_attrs+i+1,(m_attrCount-i-1)*sizeof(AttributeImpl));
m_attrCount--;
m_attrs = (AttributeImpl*)realloc(m_attrs,m_attrCount*sizeof(AttributeImpl));
m_element->parseAttribute(id,0);
m_element->attributeChanged(id);
// ### dispatch mutation events
return removed;
}
}
return 0;
}
NodeImpl::Id NamedAttrMapImpl::mapId(DOMStringImpl* namespaceURI,
DOMStringImpl* localName, bool readonly)
{
if (!m_element)
return 0;
return m_element->getDocument()->getId(NodeImpl::AttributeId, namespaceURI, 0, localName, readonly,
true /*lookupHTML*/);
}
void NamedAttrMapImpl::copyAttributes(NamedAttrMapImpl *other)
{
assert(m_element);
unsigned long i;
for (i = 0; i < m_attrCount; i++) {
if (m_attrs[i].id() == ATTR_ID)
m_element->updateId(m_attrs[i].val(), 0);
m_attrs[i].free();
}
m_attrCount = other->m_attrCount;
m_attrs = (AttributeImpl*)realloc(m_attrs,m_attrCount*sizeof(AttributeImpl));
for (i = 0; i < m_attrCount; i++) {
m_attrs[i].m_attrId = other->m_attrs[i].m_attrId;
if (m_attrs[i].m_attrId) {
m_attrs[i].m_data.value = other->m_attrs[i].m_data.value;
m_attrs[i].m_data.value->ref();
}
else {
m_attrs[i].m_data.attr = static_cast<AttrImpl*>(other->m_attrs[i].m_data.attr->cloneNode(true));
m_attrs[i].m_data.attr->ref();
m_attrs[i].m_data.attr->setElement(m_element);
}
if (m_attrs[i].id() == ATTR_ID)
m_element->updateId(0, m_attrs[i].val());
m_element->parseAttribute(&m_attrs[i]);
m_element->attributeChanged(m_attrs[i].id());
}
}
void NamedAttrMapImpl::setElement(ElementImpl *element)
{
assert(!m_element);
m_element = element;
for (unsigned long i = 0; i < m_attrCount; i++)
if (m_attrs[i].attr())
m_attrs[i].attr()->setElement(element);
}
void NamedAttrMapImpl::detachFromElement()
{
// This makes the map invalid; nothing can really be done with it now since it's not
// associated with an element. But we have to keep it around in memory in case there
// are still references to it.
m_element = 0;
for (unsigned long i = 0; i < m_attrCount; i++)
m_attrs[i].free();
free(m_attrs);
m_attrs = 0;
m_attrCount = 0;
}