/* * Copyright 2001-2004 The Apache Software Foundation. * * Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * $Id: StepIterator.java,v 1.15 2004/02/16 22:54:59 minchau Exp $ */ package com.sun.org.apache.xalan.internal.xsltc.dom; import com.sun.org.apache.xalan.internal.xsltc.runtime.BasisLibrary; import com.sun.org.apache.xml.internal.dtm.DTMAxisIterator; import com.sun.org.apache.xml.internal.dtm.ref.DTMAxisIteratorBase; /** * A step iterator is used to evaluate expressions like "BOOK/TITLE". * A better name for this iterator would have been ParentIterator since * both "BOOK" and "TITLE" are steps in XPath lingo. Step iterators are * constructed from two other iterators which we are going to refer to * as "outer" and "inner". Every node from the outer iterator (the one * for BOOK in our example) is used to initialize the inner iterator. * After this initialization, every node from the inner iterator is * returned (in essence, implementing a "nested loop"). * @author Jacek Ambroziak * @author Santiago Pericas-Geertsen * @author Erwin Bolwidt * @author Morten Jorgensen */ public class StepIterator extends DTMAxisIteratorBase { /** * A reference to the "outer" iterator. */ protected DTMAxisIterator _source; /** * A reference to the "inner" iterator. */ protected DTMAxisIterator _iterator; /** * Temp variable to store a marked position. */ private int _pos = -1; public StepIterator(DTMAxisIterator source, DTMAxisIterator iterator) { _source = source; _iterator = iterator; // System.out.println("SI source = " + source + " this = " + this); // System.out.println("SI iterator = " + iterator + " this = " + this); } public void setRestartable(boolean isRestartable) { _isRestartable = isRestartable; _source.setRestartable(isRestartable); _iterator.setRestartable(true); // must be restartable } public DTMAxisIterator cloneIterator() { _isRestartable = false; try { final StepIterator clone = (StepIterator) super.clone(); clone._source = _source.cloneIterator(); clone._iterator = _iterator.cloneIterator(); clone._iterator.setRestartable(true); // must be restartable clone._isRestartable = false; return clone.reset(); } catch (CloneNotSupportedException e) { BasisLibrary.runTimeError(BasisLibrary.ITERATOR_CLONE_ERR, e.toString()); return null; } } public DTMAxisIterator setStartNode(int node) { if (_isRestartable) { // Set start node for left-hand iterator... _source.setStartNode(_startNode = node); // ... and get start node for right-hand iterator from left-hand, // with special case for //* path - see ParentLocationPath _iterator.setStartNode(_includeSelf ? _startNode : _source.next()); return resetPosition(); } return this; } public DTMAxisIterator reset() { _source.reset(); // Special case for //* path - see ParentLocationPath _iterator.setStartNode(_includeSelf ? _startNode : _source.next()); return resetPosition(); } public int next() { for (int node;;) { // Try to get another node from the right-hand iterator if ((node = _iterator.next()) != END) { return returnNode(node); } // If not, get the next starting point from left-hand iterator... else if ((node = _source.next()) == END) { return END; } // ...and pass it on to the right-hand iterator else { _iterator.setStartNode(node); } } } public void setMark() { _source.setMark(); _iterator.setMark(); //_pos = _position; } public void gotoMark() { _source.gotoMark(); _iterator.gotoMark(); //_position = _pos; } }