/**
* Create a {@link KeyIndexIterator} that iterates over the nodes that result from a reference to
* the XSLT <code>key</code> function or XPath <code>id</code> function.
*
* @param keyValue A string or iterator representing the key values or id references
* @param isKeyCall A <code>boolean</code> indicating whether the iterator is being created for a
* reference <code>key</code> or <code>id</code>
*/
public KeyIndexIterator getKeyIndexIterator(Object keyValue, boolean isKeyCall) {
if (keyValue instanceof DTMAxisIterator) {
return getKeyIndexIterator((DTMAxisIterator) keyValue, isKeyCall);
} else {
return getKeyIndexIterator(BasisLibrary.stringF(keyValue, _dom), isKeyCall);
}
}
/**
* Evaluate the reference to the <code>key</code> or <code>id</code> function with the context
* specified by {@link #setStartNode(int)} and set up this iterator to iterate over the DTM
* nodes that are to be returned.
*/
protected void init() {
super.init();
_position = 0;
// All nodes retrieved are in the same document
int rootHandle = _dom.getAxisIterator(Axis.ROOT).setStartNode(_startNode).next();
// Is the argument not a node set?
if (_keyValueIterator == null) {
// Look up nodes returned for the single string argument
_nodes = lookupNodes(rootHandle, _keyValue);
if (_nodes == null) {
_nodes = EMPTY_NODES;
}
} else {
DTMAxisIterator keyValues = _keyValueIterator.reset();
int retrievedKeyValueIdx = 0;
boolean foundNodes = false;
_nodes = null;
// For each node in the node set argument, get the string value
// and look up the nodes returned by key or id for that string
// value. If at most one string value has nodes associated,
// the nodes will be stored in _nodes; otherwise, the nodes
// will be placed in a heap.
for (int keyValueNode = keyValues.next();
keyValueNode != DTMAxisIterator.END;
keyValueNode = keyValues.next()) {
String keyValue = BasisLibrary.stringF(keyValueNode, _dom);
IntegerArray nodes = lookupNodes(rootHandle, keyValue);
if (nodes != null) {
if (!foundNodes) {
_nodes = nodes;
foundNodes = true;
} else {
if (_nodes != null) {
addHeapNode(new KeyIndexHeapNode(_nodes));
_nodes = null;
}
addHeapNode(new KeyIndexHeapNode(nodes));
}
}
}
if (!foundNodes) {
_nodes = EMPTY_NODES;
}
}
}
public DTMAxisIterator cloneIterator() {
try {
final FilterIterator clone = (FilterIterator) super.clone();
clone._source = _source.cloneIterator();
clone._isRestartable = false;
return clone.reset();
} catch (CloneNotSupportedException e) {
BasisLibrary.runTimeError(BasisLibrary.ITERATOR_CLONE_ERR, e.toString());
return null;
}
}
public DTMAxisIterator cloneIterator() {
try {
final CurrentNodeListIterator clone = (CurrentNodeListIterator) super.clone();
clone._nodes = (IntegerArray) _nodes.clone();
clone._source = _source.cloneIterator();
clone._isRestartable = false;
return clone.reset();
} catch (CloneNotSupportedException e) {
BasisLibrary.runTimeError(BasisLibrary.ITERATOR_CLONE_ERR, e.toString());
return null;
}
}