/* * Copyright 1999-2004 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: DTMAxisTraverser.java,v 1.4 2004/02/16 23:03:44 minchau Exp $ */ package com.sun.org.apache.xml.internal.dtm; /** * A class that implements traverses DTMAxisTraverser interface can traverse * a set of nodes, usually as defined by an XPath axis. It is different from * an iterator, because it does not need to hold state, and, in fact, must not * hold any iteration-based state. It is meant to be implemented as an inner * class of a DTM, and returned by the getAxisTraverser(final int axis) * function. * *

A DTMAxisTraverser can probably not traverse a reverse axis in * document order.

* *

Typical usage:

* 

 * for(int nodeHandle=myTraverser.first(myContext);
 *     nodeHandle!=DTM.NULL;
 *     nodeHandle=myTraverser.next(myContext,nodeHandle))
 * { ... processing for node indicated by nodeHandle goes here ... }
 *
* * @author Scott Boag */ public abstract class DTMAxisTraverser { /** * By the nature of the stateless traversal, the context node can not be * returned or the iteration will go into an infinate loop. So to traverse * an axis, the first function must be used to get the first node. * *

This method needs to be overloaded only by those axis that process * the self node. <\p> * * @param context The context node of this traversal. This is the point * that the traversal starts from. * @return the first node in the traversal. */ public int first(int context) { return next(context, context); } /** * By the nature of the stateless traversal, the context node can not be * returned or the iteration will go into an infinate loop. So to traverse * an axis, the first function must be used to get the first node. * *

This method needs to be overloaded only by those axis that process * the self node. <\p> * * @param context The context node of this traversal. This is the point * of origin for the traversal -- its "root node" or starting point. * @param extendedTypeID The extended type ID that must match. * * @return the first node in the traversal. */ public int first(int context, int extendedTypeID) { return next(context, context, extendedTypeID); } /** * Traverse to the next node after the current node. * * @param context The context node of this traversal. This is the point * of origin for the traversal -- its "root node" or starting point. * @param current The current node of the traversal. This is the last known * location in the traversal, typically the node-handle returned by the * previous traversal step. For the first traversal step, context * should be set equal to current. Note that in order to test whether * context is in the set, you must use the first() method instead. * * @return the next node in the iteration, or DTM.NULL. * @see first(int) */ public abstract int next(int context, int current); /** * Traverse to the next node after the current node that is matched * by the extended type ID. * * @param context The context node of this traversal. This is the point * of origin for the traversal -- its "root node" or starting point. * @param current The current node of the traversal. This is the last known * location in the traversal, typically the node-handle returned by the * previous traversal step. For the first traversal step, context * should be set equal to current. Note that in order to test whether * context is in the set, you must use the first() method instead. * @param extendedTypeID The extended type ID that must match. * * @return the next node in the iteration, or DTM.NULL. * @see first(int,int) */ public abstract int next(int context, int current, int extendedTypeID); }