/**
* Get n'th attribute (DOM NamedNodeMap method). In this implementation we number the attributes
* as follows: 0 - the xmlns:xml namespace declaration 1-n further namespace declarations n+1...
* "real" attribute declarations
*/
public Node item(int index) {
if (index < 0) {
return null;
}
if (index == 0) {
NamespaceIterator.NamespaceNodeImpl nn =
new NamespaceIterator.NamespaceNodeImpl(parent, NamespaceConstant.XML_NAMESPACE_CODE, 0);
return NodeOverNodeInfo.wrap(nn);
}
int nscount = getNumberOfNamespaces();
if (index < nscount) {
int[] buffer = new int[8];
int[] nsList = parent.getDeclaredNamespaces(buffer);
int nscode = nsList[index - 1];
NamespaceIterator.NamespaceNodeImpl nn =
new NamespaceIterator.NamespaceNodeImpl(parent, nscode, index);
return NodeOverNodeInfo.wrap(nn);
}
int pos = 0;
int attNr = (index - nscount);
AxisIterator atts = parent.iterateAxis(Axis.ATTRIBUTE);
while (true) {
NodeInfo att = (NodeInfo) atts.next();
if (att == null) {
return null;
}
if (pos == attNr) {
return NodeOverNodeInfo.wrap(att);
}
pos++;
}
}
/** Get named attribute (DOM NamedNodeMap method) */
public Node getNamedItem(String name) {
if (name.equals("xmlns")) {
int[] nsarray = parent.getDeclaredNamespaces(null);
for (int i = 0; i < nsarray.length; i++) {
if (nsarray[i] == -1) {
return null;
} else if (((nsarray[i] >> 16) & 0xffff) == 0) {
NamespaceIterator.NamespaceNodeImpl nn =
new NamespaceIterator.NamespaceNodeImpl(parent, nsarray[i], i + 1);
return NodeOverNodeInfo.wrap(nn);
}
}
return null;
} else if (name.startsWith("xmlns:")) {
String prefix = name.substring(6);
if (prefix.equals("xml")) {
NamespaceIterator.NamespaceNodeImpl nn =
new NamespaceIterator.NamespaceNodeImpl(parent, NamespaceConstant.XML_CODE, 0);
return NodeOverNodeInfo.wrap(nn);
}
int[] buffer = new int[8];
int[] nsarray = parent.getDeclaredNamespaces(buffer);
for (int i = 0; i < nsarray.length; i++) {
if (nsarray[i] == -1) {
return null;
} else if (prefix.equals(parent.getNamePool().getPrefixFromNamespaceCode(nsarray[i]))) {
NamespaceIterator.NamespaceNodeImpl nn =
new NamespaceIterator.NamespaceNodeImpl(parent, nsarray[i], i + 1);
return NodeOverNodeInfo.wrap(nn);
}
}
return null;
} else {
AxisIterator atts = parent.iterateAxis(Axis.ATTRIBUTE);
while (true) {
NodeInfo att = (NodeInfo) atts.next();
if (att == null) {
return null;
}
if (name.equals(att.getDisplayName())) {
return NodeOverNodeInfo.wrap(att);
}
}
}
}
/** Get named attribute (DOM NamedNodeMap method) */
public Node getNamedItemNS(String uri, String localName) {
if (uri == null) {
uri = "";
}
if (NamespaceConstant.XMLNS.equals(uri)) {
return getNamedItem("xmlns:" + localName);
}
if (uri.equals("") && localName.equals("xmlns")) {
return getNamedItem("xmlns");
}
AxisIterator atts = parent.iterateAxis(Axis.ATTRIBUTE);
while (true) {
NodeInfo att = (NodeInfo) atts.next();
if (att == null) {
return null;
}
if (uri.equals(att.getURI()) && localName.equals(att.getLocalPart())) {
return NodeOverNodeInfo.wrap(att);
}
}
}
/**
* Convert an XPath value to an object in this object model. If the supplied value can be
* converted to an object in this model, of the specified class, then the conversion should be
* done and the resulting object returned. If the value cannot be converted, the method should
* return null. Note that the supplied class might be a List, in which case the method should
* inspect the contents of the Value to see whether they belong to this object model.
*
* @throws XPathException if the target class is explicitly associated with this object model, but
* the supplied value cannot be converted to the appropriate class
*/
public Object convertXPathValueToObject(Value value, Class target, XPathContext context)
throws XPathException {
// We accept the object if (a) the target class is Node, Node[], or NodeList,
// or (b) the supplied object is a node, or sequence of nodes, that wrap DOM nodes,
// provided that the target class is Object or a collection class
boolean requireDOM =
(Node.class.isAssignableFrom(target)
|| (target == NodeList.class)
|| (target.isArray() && Node.class.isAssignableFrom(target.getComponentType())));
// Note: we allow the declared type of the method argument to be a subclass of Node. If the
// actual
// node supplied is the wrong kind of node, this will result in a Java exception.
boolean allowDOM =
(target == Object.class
|| target.isAssignableFrom(ArrayList.class)
|| target.isAssignableFrom(HashSet.class)
|| (target.isArray() && target.getComponentType() == Object.class));
if (!(requireDOM || allowDOM)) {
return null;
}
List nodes = new ArrayList(20);
SequenceIterator iter = value.iterate(context);
while (true) {
Item item = iter.next();
if (item == null) {
break;
}
if (item instanceof VirtualNode) {
Object o = ((VirtualNode) item).getUnderlyingNode();
if (o instanceof Node) {
nodes.add(o);
} else {
if (requireDOM) {
DynamicError err =
new DynamicError(
"Extension function required class "
+ target.getName()
+ "; supplied value of class "
+ item.getClass().getName()
+ " could not be converted");
throw err;
}
;
}
} else if (requireDOM) {
if (item instanceof NodeInfo) {
nodes.add(NodeOverNodeInfo.wrap((NodeInfo) item));
} else {
DynamicError err =
new DynamicError(
"Extension function required class "
+ target.getName()
+ "; supplied value of class "
+ item.getClass().getName()
+ " could not be converted");
throw err;
}
} else {
return null; // DOM Nodes are not actually required; let someone else try the conversion
}
}
if (nodes.size() == 0 && !requireDOM) {
return null; // empty sequence supplied - try a different mapping
}
if (Node.class.isAssignableFrom(target)) {
if (nodes.size() != 1) {
DynamicError err =
new DynamicError(
"Extension function requires a single DOM Node"
+ "; supplied value contains "
+ nodes.size()
+ " nodes");
throw err;
}
return nodes.get(0);
// could fail if the node is of the wrong kind
} else if (target == NodeList.class) {
return new DOMNodeList(nodes);
} else if (target.isArray() && target.getComponentType() == Node.class) {
Node[] array = new Node[nodes.size()];
nodes.toArray(array);
return array;
} else if (target.isAssignableFrom(ArrayList.class)) {
return nodes;
} else if (target.isAssignableFrom(HashSet.class)) {
return new HashSet(nodes);
} else {
// after all this work, give up
return null;
}
}
/** Remove named attribute (DOM NamedNodeMap method: always fails) */
public Node removeNamedItemNS(String uri, String localName) throws DOMException {
NodeOverNodeInfo.disallowUpdate();
return null;
}
/** Set named attribute (DOM NamedNodeMap method: always fails) */
public Node setNamedItemNS(Node arg) throws DOMException {
NodeOverNodeInfo.disallowUpdate();
return null;
}