package org.pdf4j.saxon.evpull;
import org.pdf4j.saxon.event.PipelineConfiguration;
import org.pdf4j.saxon.om.Axis;
import org.pdf4j.saxon.om.AxisIterator;
import org.pdf4j.saxon.om.NodeInfo;
import org.pdf4j.saxon.om.SequenceIterator;
import org.pdf4j.saxon.tinytree.TinyNodeImpl;
import org.pdf4j.saxon.tinytree.TinyTreeEventIterator;
import org.pdf4j.saxon.trans.XPathException;
import org.pdf4j.saxon.type.Type;
/**
* This class takes a sequence of pull events and turns it into fully-decomposed form, that is, it
* takes and document and element nodes in the sequence and turns them into a subsequence consisting of a
* start element|document event, a content sequence, and an end element|document event, recursively.
*
* <p>The resulting sequence is decomposed, but not flat (it will contain nested EventIterators). To flatten
* it, use {@link EventStackIterator#flatten(EventIterator)} </p>
*/
public class Decomposer implements EventIterator {
private EventIterator base;
private PipelineConfiguration pipe;
/**
* Create a Decomposer, which turns an event sequence into fully decomposed form
* @param base the base sequence, which may be fully composed, fully decomposed, or
* anything in between
* @param pipe the Saxon pipeline configuration
*/
public Decomposer(EventIterator base, PipelineConfiguration pipe) {
this.pipe = pipe;
this.base = EventStackIterator.flatten(base);
}
/**
* Create a Decomposer which returns the sequence of events corresponding to
* a particular node
* @param node the node to be decomposed
* @param pipe the Saxon pipeline configuration
*/
public Decomposer(NodeInfo node, PipelineConfiguration pipe) {
this.pipe = pipe;
base = new SingletonEventIterator(node);
}
/**
* Get the next event in the sequence
*
* @return the next event, or null when the sequence is exhausted. Note that since an EventIterator is
* itself a PullEvent, this method may return a nested iterator.
* @throws org.pdf4j.saxon.trans.XPathException
* if a dynamic evaluation error occurs
*/
public PullEvent next() throws XPathException {
PullEvent pe = base.next();
if (pe instanceof NodeInfo) {
NodeInfo node = (NodeInfo)pe;
switch (node.getNodeKind()) {
case Type.DOCUMENT: {
if (node instanceof TinyNodeImpl) {
return new TinyTreeEventIterator(((TinyNodeImpl)node), pipe);
} else {
SequenceIterator content = node.iterateAxis(Axis.CHILD);
EventIterator contentEvents = new EventIteratorOverSequence(content);
return new BracketedDocumentIterator(
new Decomposer(contentEvents, pipe));
}
}
case Type.ELEMENT: {
if (node instanceof TinyNodeImpl) {
return new TinyTreeEventIterator(((TinyNodeImpl)node), pipe);
} else {
SequenceIterator content = node.iterateAxis(Axis.CHILD);
EventIterator contentEvents = new EventIteratorOverSequence(content);
StartElementEvent see = new StartElementEvent(pipe);
see.setNameCode(node.getNameCode());
see.setTypeCode(node.getTypeAnnotation());
see.setLocalNamespaces(node.getDeclaredNamespaces(null));
AxisIterator atts = node.iterateAxis(Axis.ATTRIBUTE);
while (true) {
NodeInfo att = (NodeInfo)atts.next();
if (att == null) {
break;
}
see.addAttribute(att);
}
return new BracketedElementIterator(
see,
new Decomposer(contentEvents, pipe),
EndElementEvent.getInstance());
}
}
default:
return node;
}
} else {
return pe;
}
}
/**
* Determine whether the EventIterator returns a flat sequence of events, or whether it can return
* nested event iterators
*
* @return true if the next() method is guaranteed never to return an EventIterator
*/
public boolean isFlatSequence() {
return false;
}
}
//
// The contents of this file are subject to the Mozilla Public License Version 1.0 (the "License");
// you may not use this file except in compliance with the License. You may obtain a copy of the
// License at http://www.mozilla.org/MPL/
//
// Software distributed under the License is distributed on an "AS IS" basis,
// WITHOUT WARRANTY OF ANY KIND, either express or implied.
// See the License for the specific language governing rights and limitations under the License.
//
// The Original Code is: all this file
//
// The Initial Developer of the Original Code is Michael H. Kay.
//
// Contributor(s):
//