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Rhino is an open-source implementation of JavaScript written entirely in Java. It is typically
embedded into Java applications to provide scripting to end users.
/* -*- Mode: java; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
package org.mozilla.javascript.xmlimpl;
import org.mozilla.javascript.Context;
import org.mozilla.javascript.ScriptRuntime;
import org.mozilla.javascript.Scriptable;
import org.mozilla.javascript.Undefined;
import org.mozilla.javascript.xml.XMLObject;
class XML extends XMLObjectImpl {
static final long serialVersionUID = -630969919086449092L;
private XmlNode node;
XML(XMLLibImpl lib, Scriptable scope, XMLObject prototype, XmlNode node) {
super(lib, scope, prototype);
initialize(node);
}
void initialize(XmlNode node) {
this.node = node;
this.node.setXml(this);
}
@Override
final XML getXML() {
return this;
}
void replaceWith(XML value) {
// We use the underlying document structure if the node is not
// "standalone," but we need to just replace the XmlNode instance
// otherwise
if (this.node.parent() != null) {
this.node.replaceWith(value.node);
} else {
this.initialize(value.node);
}
}
/* TODO: needs encapsulation. */
XML makeXmlFromString(XMLName name, String value) {
try {
return newTextElementXML(this.node, name.toQname(), value);
} catch(Exception e) {
throw ScriptRuntime.typeError(e.getMessage());
}
}
/* TODO: Rename this, at the very least. But it's not clear it's even necessary */
XmlNode getAnnotation() {
return node;
}
//
// Methods from ScriptableObject
//
// TODO Either cross-reference this next comment with the specification or delete it and change the behavior
// The comment: XML[0] should return this, all other indexes are Undefined
@Override
public Object get(int index, Scriptable start) {
if (index == 0) {
return this;
} else {
return Scriptable.NOT_FOUND;
}
}
@Override
public boolean has(int index, Scriptable start) {
return (index == 0);
}
@Override
public void put(int index, Scriptable start, Object value) {
// TODO Clarify the following comment and add a reference to the spec
// The comment: Spec says assignment to indexed XML object should return type error
throw ScriptRuntime.typeError("Assignment to indexed XML is not allowed");
}
@Override
public Object[] getIds() {
if (isPrototype()) {
return new Object[0];
} else {
return new Object[] { Integer.valueOf(0) };
}
}
// TODO This is how I found it but I am not sure it makes sense
@Override
public void delete(int index) {
if (index == 0) {
this.remove();
}
}
//
// Methods from XMLObjectImpl
//
@Override
boolean hasXMLProperty(XMLName xmlName) {
return (getPropertyList(xmlName).length() > 0);
}
@Override
Object getXMLProperty(XMLName xmlName) {
return getPropertyList(xmlName);
}
//
//
// Methods that merit further review
//
//
XmlNode.QName getNodeQname() {
return this.node.getQname();
}
XML[] getChildren() {
if (!isElement()) return null;
XmlNode[] children = this.node.getMatchingChildren(XmlNode.Filter.TRUE);
XML[] rv = new XML[children.length];
for (int i=0; i 0);
}
return hasProperty;
}
@Override
protected Object jsConstructor(Context cx, boolean inNewExpr, Object[] args) {
if (args.length == 0 || args[0] == null || args[0] == Undefined.instance) {
args = new Object[] { "" };
}
// ECMA 13.4.2 does not appear to specify what to do if multiple arguments are sent.
XML toXml = ecmaToXml(args[0]);
if (inNewExpr) {
return toXml.copy();
} else {
return toXml;
}
}
// See ECMA 357, 11_2_2_1, Semantics, 3_f.
@SuppressWarnings("deprecation")
@Override
public Scriptable getExtraMethodSource(Context cx) {
if (hasSimpleContent()) {
String src = toString();
return ScriptRuntime.toObjectOrNull(cx, src);
}
return null;
}
//
// TODO Miscellaneous methods not yet grouped
//
void removeChild(int index) {
this.node.removeChild(index);
}
@Override
void normalize() {
this.node.normalize();
}
private XML toXML(XmlNode node) {
if (node.getXml() == null) {
node.setXml(newXML(node));
}
return node.getXml();
}
void setAttribute(XMLName xmlName, Object value) {
if (!isElement()) throw new IllegalStateException("Can only set attributes on elements.");
// TODO Is this legal, but just not "supported"? If so, support it.
if (xmlName.uri() == null && xmlName.localName().equals("*")) {
throw ScriptRuntime.typeError("@* assignment not supported.");
}
this.node.setAttribute(xmlName.toQname(), ScriptRuntime.toString(value));
}
void remove() {
this.node.deleteMe();
}
@Override
void addMatches(XMLList rv, XMLName name) {
name.addMatches(rv, this);
}
@Override
XMLList elements(XMLName name) {
XMLList rv = newXMLList();
rv.setTargets(this, name.toQname());
// TODO Should have an XMLNode.Filter implementation based on XMLName
XmlNode[] elements = this.node.getMatchingChildren(XmlNode.Filter.ELEMENT);
for (int i=0; i= 0 && index < this.node.getChildCount()) {
result.addToList(getXmlChild(index));
}
return result;
}
XML getXmlChild(int index) {
XmlNode child = this.node.getChild(index);
if (child.getXml() == null) {
child.setXml(newXML(child));
}
return child.getXml();
}
/* Return the last added element */
XML getLastXmlChild() {
int pos = this.node.getChildCount() - 1;
if (pos < 0) return null;
return getXmlChild(pos);
}
int childIndex() {
return this.node.getChildIndex();
}
@Override
boolean contains(Object xml) {
if (xml instanceof XML) {
return equivalentXml(xml);
} else {
return false;
}
}
// Method overriding XMLObjectImpl
@Override
boolean equivalentXml(Object target) {
boolean result = false;
if (target instanceof XML) {
// TODO This is a horrifyingly inefficient way to do this so we should make it better. It may also not work.
return this.node.toXmlString(getProcessor()).equals( ((XML)target).node.toXmlString(getProcessor()) );
} else if (target instanceof XMLList) {
// TODO Is this right? Check the spec ...
XMLList otherList = (XMLList) target;
if (otherList.length() == 1) {
result = equivalentXml(otherList.getXML());
}
} else if (hasSimpleContent()) {
String otherStr = ScriptRuntime.toString(target);
result = toString().equals(otherStr);
}
return result;
}
@Override
XMLObjectImpl copy() {
return newXML( this.node.copy() );
}
@Override
boolean hasSimpleContent() {
if (isComment() || isProcessingInstruction()) return false;
if (isText() || this.node.isAttributeType()) return true;
return !this.node.hasChildElement();
}
@Override
boolean hasComplexContent() {
return !hasSimpleContent();
}
// TODO Cross-reference comment below with spec
// Comment is: Length of an XML object is always 1, it's a list of XML objects of size 1.
@Override
int length() {
return 1;
}
// TODO it is not clear what this method was for ...
boolean is(XML other) {
return this.node.isSameNode(other.node);
}
Object nodeKind() {
return ecmaClass();
}
@Override
Object parent() {
XmlNode parent = this.node.parent();
if (parent == null) return null;
return newXML(this.node.parent());
}
@Override
boolean propertyIsEnumerable(Object name)
{
boolean result;
if (name instanceof Integer) {
result = (((Integer)name).intValue() == 0);
} else if (name instanceof Number) {
double x = ((Number)name).doubleValue();
// Check that number is positive 0
result = (x == 0.0 && 1.0 / x > 0);
} else {
result = ScriptRuntime.toString(name).equals("0");
}
return result;
}
@Override
Object valueOf() {
return this;
}
//
// Selection of children
//
@Override
XMLList comments() {
XMLList rv = newXMLList();
this.node.addMatchingChildren(rv, XmlNode.Filter.COMMENT);
return rv;
}
@Override
XMLList text() {
XMLList rv = newXMLList();
this.node.addMatchingChildren(rv, XmlNode.Filter.TEXT);
return rv;
}
@Override
XMLList processingInstructions(XMLName xmlName) {
XMLList rv = newXMLList();
this.node.addMatchingChildren(rv, XmlNode.Filter.PROCESSING_INSTRUCTION(xmlName));
return rv;
}
//
// Methods relating to modification of child nodes
//
// We create all the nodes we are inserting before doing the insert to
// avoid nasty cycles caused by mutability of these objects. For example,
// what if the toString() method of value modifies the XML object we were
// going to insert into? insertAfter might get confused about where to
// insert. This actually came up with SpiderMonkey, leading to a (very)
// long discussion. See bug #354145.
private XmlNode[] getNodesForInsert(Object value) {
if (value instanceof XML) {
return new XmlNode[] { ((XML)value).node };
} else if (value instanceof XMLList) {
XMLList list = (XMLList)value;
XmlNode[] rv = new XmlNode[list.length()];
for (int i=0; i 0) {
// One exists an that index
XML childToReplace = xlChildToReplace.item(0);
insertChildAfter(childToReplace, xml);
removeChild(index);
}
return this;
}
XML prependChild(Object xml) {
if (this.node.isParentType()) {
this.node.insertChildrenAt(0, getNodesForInsert(xml));
}
return this;
}
XML appendChild(Object xml) {
if (this.node.isParentType()) {
XmlNode[] nodes = getNodesForInsert(xml);
this.node.insertChildrenAt(this.node.getChildCount(), nodes);
}
return this;
}
private int getChildIndexOf(XML child) {
for (int i=0; i 0) {
this.node.removeChild(0);
}
XmlNode[] toInsert = getNodesForInsert(xml);
// append new children
this.node.insertChildrenAt(0, toInsert);
return this;
}
//
// Name and namespace-related methods
//
private void addInScopeNamespace(Namespace ns) {
if (!isElement()) {
return;
}
// See ECMA357 9.1.1.13
// in this implementation null prefix means ECMA undefined
if (ns.prefix() != null) {
if (ns.prefix().length() == 0 && ns.uri().length() == 0) {
return;
}
if (node.getQname().getNamespace().getPrefix().equals(ns.prefix())) {
node.invalidateNamespacePrefix();
}
node.declareNamespace(ns.prefix(), ns.uri());
} else {
return;
}
}
Namespace[] inScopeNamespaces() {
XmlNode.Namespace[] inScope = this.node.getInScopeNamespaces();
return createNamespaces(inScope);
}
private XmlNode.Namespace adapt(Namespace ns) {
if (ns.prefix() == null) {
return XmlNode.Namespace.create(ns.uri());
} else {
return XmlNode.Namespace.create(ns.prefix(), ns.uri());
}
}
XML removeNamespace(Namespace ns) {
if (!isElement()) return this;
this.node.removeNamespace(adapt(ns));
return this;
}
XML addNamespace(Namespace ns) {
addInScopeNamespace(ns);
return this;
}
QName name() {
if (isText() || isComment()) return null;
if (isProcessingInstruction()) return newQName("", this.node.getQname().getLocalName(), null);
return newQName(node.getQname());
}
Namespace[] namespaceDeclarations() {
XmlNode.Namespace[] declarations = node.getNamespaceDeclarations();
return createNamespaces(declarations);
}
Namespace namespace(String prefix) {
if (prefix == null) {
return createNamespace( this.node.getNamespaceDeclaration() );
} else {
return createNamespace( this.node.getNamespaceDeclaration(prefix) );
}
}
String localName() {
if (name() == null) return null;
return name().localName();
}
void setLocalName(String localName) {
// ECMA357 13.4.4.34
if (isText() || isComment()) return;
this.node.setLocalName(localName);
}
void setName(QName name) {
// See ECMA357 13.4.4.35
if (isText() || isComment()) return;
if (isProcessingInstruction()) {
// Spec says set the name URI to empty string and then set the [[Name]] property, but I understand this to do the same
// thing, unless we allow colons in processing instruction targets, which I think we do not.
this.node.setLocalName(name.localName());
return;
}
node.renameNode(name.getDelegate());
}
void setNamespace(Namespace ns) {
// See ECMA357 13.4.4.36
if (isText() || isComment() || isProcessingInstruction()) return;
setName(newQName(ns.uri(), localName(), ns.prefix()));
}
final String ecmaClass() {
// See ECMA357 9.1
// TODO See ECMA357 9.1.1 last paragraph for what defaults should be
if (node.isTextType()) {
return "text";
} else if (node.isAttributeType()) {
return "attribute";
} else if (node.isCommentType()) {
return "comment";
} else if (node.isProcessingInstructionType()) {
return "processing-instruction";
} else if (node.isElementType()) {
return "element";
} else {
throw new RuntimeException("Unrecognized type: " + node);
}
}
@Override
public String getClassName() {
// TODO: This appears to confuse the interpreter if we use the "real" class property from ECMA. Otherwise this code
// would be:
// return ecmaClass();
return "XML";
}
private String ecmaValue() {
return node.ecmaValue();
}
private String ecmaToString() {
// See ECMA357 10.1.1
if (isAttribute() || isText()) {
return ecmaValue();
}
if (this.hasSimpleContent()) {
StringBuilder rv = new StringBuilder();
for (int i=0; i < this.node.getChildCount(); i++) {
XmlNode child = this.node.getChild(i);
if (!child.isProcessingInstructionType() &&
!child.isCommentType())
{
// TODO: Probably inefficient; taking clean non-optimized
// solution for now
XML x = new XML(getLib(), getParentScope(),
(XMLObject)getPrototype(), child);
rv.append(x.toString());
}
}
return rv.toString();
}
return toXMLString();
}
@Override
public String toString() {
return ecmaToString();
}
@Override
String toSource(int indent) {
return toXMLString();
}
@Override
String toXMLString() {
return this.node.ecmaToXMLString(getProcessor());
}
final boolean isAttribute() {
return node.isAttributeType();
}
final boolean isComment() {
return node.isCommentType();
}
final boolean isText() {
return node.isTextType();
}
final boolean isElement() {
return node.isElementType();
}
final boolean isProcessingInstruction() {
return node.isProcessingInstructionType();
}
// Support experimental Java interface
org.w3c.dom.Node toDomNode() {
return node.toDomNode();
}
}
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