/* * Copyright 2002-2004 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. */ package org.apache.axis.utils.bytecode; import java.io.IOException; import java.lang.reflect.Constructor; import java.lang.reflect.Method; import java.util.*; /** * Description: In ParamReader class, user can not get inherited method parameter * from the class they passed in. This is done because of performance. This class * is intended to setup the inheritant chain. If the method could not be found in * the derived class, it will try to search it from super class, if not in the * immedidate super class it will search super class's super class, until it reaches * the root which is java.lang.Object. This is not an eager load since it only * start searching the super class when it is asked to * User: pengyu * Date: Sep 6, 2003 * Time: 11:43:24 PM * */ public class ChainedParamReader { private List chain = new ArrayList(); private List clsChain = new ArrayList(); private Map methodToParamMap = new HashMap(); /** * Process a given class's parameter names * @param cls the class which user wants to get parameter info from * @throws IOException */ public ChainedParamReader(Class cls) throws IOException { ParamReader reader = new ParamReader(cls); chain.add(reader); clsChain.add(cls); } //now I need to create deligate methods /** * return the names of the declared parameters for the given constructor. * If we cannot determine the names, return null. The returned array will * have one name per parameter. The length of the array will be the same * as the length of the Class[] array returned by Constructor.getParameterTypes(). * @param ctor * @return array of names, one per parameter, or null */ public String[] getParameterNames(Constructor ctor) { //there is no need for the constructor chaining. return ((ParamReader) chain.get(0)).getParameterNames(ctor); } /** * return the names of the declared parameters for the given method. * If we cannot determine the names in the current class, we will try * to search its parent class until we reach java.lang.Object. If we * still can not find the method we will return null. The returned array * will have one name per parameter. The length of the array will be the same * as the length of the Class[] array returned by Method.getParameterTypes(). * @param method * @return String[] array of names, one per parameter, or null **/ public String[] getParameterNames(Method method) { //go find the one from the cache first if (methodToParamMap.containsKey(method)) { return (String[]) methodToParamMap.get(method); } String[] ret = null; for (Iterator it = chain.iterator(); it.hasNext();) { ParamReader reader = (ParamReader) it.next(); ret = reader.getParameterNames(method); if (ret != null) { methodToParamMap.put(method, ret); return ret; } } //if we here, it means we need to create new chain. Class cls = (Class) clsChain.get(chain.size() - 1); while (cls.getSuperclass() != null) { Class superClass = cls.getSuperclass(); try { ParamReader _reader = new ParamReader(superClass); chain.add(_reader); clsChain.add(cls); ret = _reader.getParameterNames(method); if (ret != null) { //we found it so just return it. methodToParamMap.put(method, ret); return ret; } } catch (IOException e) { //can not find the super class in the class path, abort here return null; } } methodToParamMap.put(method, ret); return null; } }