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/*
 * Copyright 2003,2004 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 com.github.drinkjava2.cglib.reflect;

import java.lang.reflect.Method;
import java.security.ProtectionDomain;

import com.github.drinkjava2.asm.ClassVisitor;
import com.github.drinkjava2.asm.Type;
import com.github.drinkjava2.cglib.core.AbstractClassGenerator;
import com.github.drinkjava2.cglib.core.ClassEmitter;
import com.github.drinkjava2.cglib.core.CodeEmitter;
import com.github.drinkjava2.cglib.core.Constants;
import com.github.drinkjava2.cglib.core.EmitUtils;
import com.github.drinkjava2.cglib.core.KeyFactory;
import com.github.drinkjava2.cglib.core.MethodInfo;
import com.github.drinkjava2.cglib.core.ReflectUtils;
import com.github.drinkjava2.cglib.core.Signature;
import com.github.drinkjava2.cglib.core.TypeUtils;

// TODO: don't require exact match for return type

/**
 * DOCUMENTATION FROM APACHE AVALON DELEGATE CLASS
 *
 * 

* Delegates are a typesafe pointer to another method. Since Java does not * have language support for such a construct, this utility will construct * a proxy that forwards method calls to any method with the same signature. * This utility is inspired in part by the C# delegate mechanism. We * implemented it in a Java-centric manner. *

* *

Delegate

*

* Any interface with one method can become the interface for a delegate. * Consider the example below: *

* *
 *   public interface MainDelegate {
 *       int main(String[] args);
 *   }
 * 
* *

* The interface above is an example of an interface that can become a * delegate. It has only one method, and the interface is public. In * order to create a delegate for that method, all we have to do is * call MethodDelegate.create(this, "alternateMain", MainDelegate.class). * The following program will show how to use it: *

* *
 *   public class Main {
 *       public static int main( String[] args ) {
 *           Main newMain = new Main();
 *           MainDelegate start = (MainDelegate)
 *               MethodDelegate.create(newMain, "alternateMain", MainDelegate.class);
 *           return start.main( args );
 *       }
 *
 *       public int alternateMain( String[] args ) {
 *           for (int i = 0; i < args.length; i++) {
 *               System.out.println( args[i] );
 *           }
 *           return args.length;
 *       }
 *   }
 * 
* *

* By themselves, delegates don't do much. Their true power lies in the fact that * they can be treated like objects, and passed to other methods. In fact that is * one of the key building blocks of building Intelligent Agents which in tern are * the foundation of artificial intelligence. In the above program, we could have * easily created the delegate to match the static main method by * substituting the delegate creation call with this: * MethodDelegate.createStatic(getClass(), "main", MainDelegate.class). *

*

* Another key use for Delegates is to register event listeners. It is much easier * to have all the code for your events separated out into methods instead of individual * classes. One of the ways Java gets around that is to create anonymous classes. * They are particularly troublesome because many Debuggers do not know what to do * with them. Anonymous classes tend to duplicate alot of code as well. We can * use any interface with one declared method to forward events to any method that * matches the signature (although the method name can be different). *

* *

Equality

* The criteria that we use to test if two delegates are equal are: *
    *
  • * They both refer to the same instance. That is, the instance * parameter passed to the newDelegate method was the same for both. The * instances are compared with the identity equality operator, ==. *
  • *
  • They refer to the same method as resolved by Method.equals.
  • *
* * @version $Id: MethodDelegate.java,v 1.25 2006/03/05 02:43:19 herbyderby Exp $ */ @SuppressWarnings({"rawtypes","unchecked" }) abstract public class MethodDelegate { private static final MethodDelegateKey KEY_FACTORY = (MethodDelegateKey)KeyFactory.create(MethodDelegateKey.class, KeyFactory.CLASS_BY_NAME); protected Object target; protected String eqMethod; interface MethodDelegateKey { Object newInstance(Class delegateClass, String methodName, Class iface); } public static MethodDelegate createStatic(Class targetClass, String methodName, Class iface) { Generator gen = new Generator(); gen.setTargetClass(targetClass); gen.setMethodName(methodName); gen.setInterface(iface); return gen.create(); } public static MethodDelegate create(Object target, String methodName, Class iface) { Generator gen = new Generator(); gen.setTarget(target); gen.setMethodName(methodName); gen.setInterface(iface); return gen.create(); } public boolean equals(Object obj) { MethodDelegate other = (MethodDelegate)obj; return target == other.target && eqMethod.equals(other.eqMethod); } public int hashCode() { return target.hashCode() ^ eqMethod.hashCode(); } public Object getTarget() { return target; } abstract public MethodDelegate newInstance(Object target); public static class Generator extends AbstractClassGenerator { private static final Source SOURCE = new Source(MethodDelegate.class.getName()); private static final Type METHOD_DELEGATE = TypeUtils.parseType("com.github.drinkjava2.cglib.reflect.MethodDelegate"); private static final Signature NEW_INSTANCE = new Signature("newInstance", METHOD_DELEGATE, new Type[]{ Constants.TYPE_OBJECT }); private Object target; private Class targetClass; private String methodName; private Class iface; public Generator() { super(SOURCE); } public void setTarget(Object target) { this.target = target; this.targetClass = target.getClass(); } public void setTargetClass(Class targetClass) { this.targetClass = targetClass; } public void setMethodName(String methodName) { this.methodName = methodName; } public void setInterface(Class iface) { this.iface = iface; } protected ClassLoader getDefaultClassLoader() { return targetClass.getClassLoader(); } protected ProtectionDomain getProtectionDomain() { return ReflectUtils.getProtectionDomain(targetClass); } public MethodDelegate create() { setNamePrefix(targetClass.getName()); Object key = KEY_FACTORY.newInstance(targetClass, methodName, iface); return (MethodDelegate)super.create(key); } protected Object firstInstance(Class type) { return ((MethodDelegate)ReflectUtils.newInstance(type)).newInstance(target); } protected Object nextInstance(Object instance) { return ((MethodDelegate)instance).newInstance(target); } public void generateClass(ClassVisitor v) throws NoSuchMethodException { Method proxy = ReflectUtils.findInterfaceMethod(iface); final Method method = targetClass.getMethod(methodName, proxy.getParameterTypes()); if (!proxy.getReturnType().isAssignableFrom(method.getReturnType())) { throw new IllegalArgumentException("incompatible return types"); } MethodInfo methodInfo = ReflectUtils.getMethodInfo(method); boolean isStatic = TypeUtils.isStatic(methodInfo.getModifiers()); if ((target == null) ^ isStatic) { throw new IllegalArgumentException("Static method " + (isStatic ? "not " : "") + "expected"); } ClassEmitter ce = new ClassEmitter(v); CodeEmitter e; ce.begin_class(Constants.V1_2, Constants.ACC_PUBLIC, getClassName(), METHOD_DELEGATE, new Type[]{ Type.getType(iface) }, Constants.SOURCE_FILE); ce.declare_field(Constants.PRIVATE_FINAL_STATIC, "eqMethod", Constants.TYPE_STRING, null); EmitUtils.null_constructor(ce); // generate proxied method MethodInfo proxied = ReflectUtils.getMethodInfo(iface.getDeclaredMethods()[0]); int modifiers = Constants.ACC_PUBLIC; if ((proxied.getModifiers() & Constants.ACC_VARARGS) == Constants.ACC_VARARGS) { modifiers |= Constants.ACC_VARARGS; } e = EmitUtils.begin_method(ce, proxied, modifiers); e.load_this(); e.super_getfield("target", Constants.TYPE_OBJECT); e.checkcast(methodInfo.getClassInfo().getType()); e.load_args(); e.invoke(methodInfo); e.return_value(); e.end_method(); // newInstance e = ce.begin_method(Constants.ACC_PUBLIC, NEW_INSTANCE, null); e.new_instance_this(); e.dup(); e.dup2(); e.invoke_constructor_this(); e.getfield("eqMethod"); e.super_putfield("eqMethod", Constants.TYPE_STRING); e.load_arg(0); e.super_putfield("target", Constants.TYPE_OBJECT); e.return_value(); e.end_method(); // static initializer e = ce.begin_static(); e.push(methodInfo.getSignature().toString()); e.putfield("eqMethod"); e.return_value(); e.end_method(); ce.end_class(); } } }




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