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浅谈java中内置的观察者模式与动态代理的实现
一.关于观察者模式
1.将观察者与被观察者分离开来,当被观察者发生变化时,将通知所有观察者,观察者会根据这些变化做出对应的处理。
2.jdk里已经提供对应的Observer接口(观察者接口)与Observable(被观察者类)用于实现观察者模式
3.关于Observer接口,该接口只有一个update方法,当被观察者发生相关变化时,会通知所有的观察者,观察者接受到通知时,调用update方法进行处理。贴出源代码:
1 /* 2 * Copyright (c) 1994, 1998, Oracle and/or its affiliates. All rights reserved. 3 * ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. 4 * 5 * 6 * 7 * 8 * 9 * 10 * 11 * 12 * 13 * 14 * 15 * 16 * 17 * 18 * 19 * 20 * 21 * 22 * 23 * 24 */ 25 package java.util; 26 27 /** 28 * A class can implement the <code>Observer</code> interface when it 29 * wants to be informed of changes in observable objects. 30 * 31 * @author Chris Warth 32 * @see java.util.Observable 33 * @since JDK1.0 34 */ 35 public interface Observer { 36 /** 37 * This method is called whenever the observed object is changed. An 38 * application calls an <tt>Observable</tt> object‘s 39 * <code>notifyObservers</code> method to have all the object‘s 40 * observers notified of the change. 41 * 42 * @param o the observable object. 43 * @param arg an argument passed to the <code>notifyObservers</code> 44 * method. 45 */ 46 void update(Observable o, Object arg); 47 }
4:关于被观察者Observable的常用方法:
1. public synchronized void addObserver(Observer o);//添加观察者对象
2. public void notifyObservers();//通知所有观察者
3. protected synchronized void setChanged();//设置观察项已经做出改变,此方法很重要
贴出源代码,注意内部实现:
1 /* 2 * Copyright (c) 1994, 2012, Oracle and/or its affiliates. All rights reserved. 3 * ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. 4 * 5 * 6 * 7 * 8 * 9 * 10 * 11 * 12 * 13 * 14 * 15 * 16 * 17 * 18 * 19 * 20 * 21 * 22 * 23 * 24 */ 25 26 package java.util; 27 28 /** 29 * This class represents an observable object, or "data" 30 * in the model-view paradigm. It can be subclassed to represent an 31 * object that the application wants to have observed. 32 * <p> 33 * An observable object can have one or more observers. An observer 34 * may be any object that implements interface <tt>Observer</tt>. After an 35 * observable instance changes, an application calling the 36 * <code>Observable</code>‘s <code>notifyObservers</code> method 37 * causes all of its observers to be notified of the change by a call 38 * to their <code>update</code> method. 39 * <p> 40 * The order in which notifications will be delivered is unspecified. 41 * The default implementation provided in the Observable class will 42 * notify Observers in the order in which they registered interest, but 43 * subclasses may change this order, use no guaranteed order, deliver 44 * notifications on separate threads, or may guarantee that their 45 * subclass follows this order, as they choose. 46 * <p> 47 * Note that this notification mechanism has nothing to do with threads 48 * and is completely separate from the <tt>wait</tt> and <tt>notify</tt> 49 * mechanism of class <tt>Object</tt>. 50 * <p> 51 * When an observable object is newly created, its set of observers is 52 * empty. Two observers are considered the same if and only if the 53 * <tt>equals</tt> method returns true for them. 54 * 55 * @author Chris Warth 56 * @see java.util.Observable#notifyObservers() 57 * @see java.util.Observable#notifyObservers(java.lang.Object) 58 * @see java.util.Observer 59 * @see java.util.Observer#update(java.util.Observable, java.lang.Object) 60 * @since JDK1.0 61 */ 62 public class Observable { 63 private boolean changed = false; 64 private Vector<Observer> obs; 65 66 /** Construct an Observable with zero Observers. */ 67 68 public Observable() { 69 obs = new Vector<>(); 70 } 71 72 /** 73 * Adds an observer to the set of observers for this object, provided 74 * that it is not the same as some observer already in the set. 75 * The order in which notifications will be delivered to multiple 76 * observers is not specified. See the class comment. 77 * 78 * @param o an observer to be added. 79 * @throws NullPointerException if the parameter o is null. 80 */ 81 public synchronized void addObserver(Observer o) { 82 if (o == null) 83 throw new NullPointerException(); 84 if (!obs.contains(o)) { 85 obs.addElement(o); 86 } 87 } 88 89 /** 90 * Deletes an observer from the set of observers of this object. 91 * Passing <CODE>null</CODE> to this method will have no effect. 92 * @param o the observer to be deleted. 93 */ 94 public synchronized void deleteObserver(Observer o) { 95 obs.removeElement(o); 96 } 97 98 /** 99 * If this object has changed, as indicated by the 100 * <code>hasChanged</code> method, then notify all of its observers 101 * and then call the <code>clearChanged</code> method to 102 * indicate that this object has no longer changed. 103 * <p> 104 * Each observer has its <code>update</code> method called with two 105 * arguments: this observable object and <code>null</code>. In other 106 * words, this method is equivalent to: 107 * <blockquote><tt> 108 * notifyObservers(null)</tt></blockquote> 109 * 110 * @see java.util.Observable#clearChanged() 111 * @see java.util.Observable#hasChanged() 112 * @see java.util.Observer#update(java.util.Observable, java.lang.Object) 113 */ 114 public void notifyObservers() { 115 notifyObservers(null); 116 } 117 118 /** 119 * If this object has changed, as indicated by the 120 * <code>hasChanged</code> method, then notify all of its observers 121 * and then call the <code>clearChanged</code> method to indicate 122 * that this object has no longer changed. 123 * <p> 124 * Each observer has its <code>update</code> method called with two 125 * arguments: this observable object and the <code>arg</code> argument. 126 * 127 * @param arg any object. 128 * @see java.util.Observable#clearChanged() 129 * @see java.util.Observable#hasChanged() 130 * @see java.util.Observer#update(java.util.Observable, java.lang.Object) 131 */ 132 public void notifyObservers(Object arg) { 133 /* 134 * a temporary array buffer, used as a snapshot of the state of 135 * current Observers. 136 */ 137 Object[] arrLocal; 138 139 synchronized (this) { 140 /* We don‘t want the Observer doing callbacks into 141 * arbitrary code while holding its own Monitor. 142 * The code where we extract each Observable from 143 * the Vector and store the state of the Observer 144 * needs synchronization, but notifying observers 145 * does not (should not). The worst result of any 146 * potential race-condition here is that: 147 * 1) a newly-added Observer will miss a 148 * notification in progress 149 * 2) a recently unregistered Observer will be 150 * wrongly notified when it doesn‘t care 151 */ 152 if (!changed) 153 return; 154 arrLocal = obs.toArray(); 155 clearChanged(); 156 } 157 158 for (int i = arrLocal.length-1; i>=0; i--) 159 ((Observer)arrLocal[i]).update(this, arg); 160 } 161 162 /** 163 * Clears the observer list so that this object no longer has any observers. 164 */ 165 public synchronized void deleteObservers() { 166 obs.removeAllElements(); 167 } 168 169 /** 170 * Marks this <tt>Observable</tt> object as having been changed; the 171 * <tt>hasChanged</tt> method will now return <tt>true</tt>. 172 */ 173 protected synchronized void setChanged() { 174 changed = true; 175 } 176 177 /** 178 * Indicates that this object has no longer changed, or that it has 179 * already notified all of its observers of its most recent change, 180 * so that the <tt>hasChanged</tt> method will now return <tt>false</tt>. 181 * This method is called automatically by the 182 * <code>notifyObservers</code> methods. 183 * 184 * @see java.util.Observable#notifyObservers() 185 * @see java.util.Observable#notifyObservers(java.lang.Object) 186 */ 187 protected synchronized void clearChanged() { 188 changed = false; 189 } 190 191 /** 192 * Tests if this object has changed. 193 * 194 * @return <code>true</code> if and only if the <code>setChanged</code> 195 * method has been called more recently than the 196 * <code>clearChanged</code> method on this object; 197 * <code>false</code> otherwise. 198 * @see java.util.Observable#clearChanged() 199 * @see java.util.Observable#setChanged() 200 */ 201 public synchronized boolean hasChanged() { 202 return changed; 203 } 204 205 /** 206 * Returns the number of observers of this <tt>Observable</tt> object. 207 * 208 * @return the number of observers of this object. 209 */ 210 public synchronized int countObservers() { 211 return obs.size(); 212 } 213 }
5.举一个例子吧:当婴儿哭泣时,则通知家人来哄宝宝,那么这里很明显婴儿是一个被观察者,当婴儿哭泣时,立刻通知家人(观察者)
package com.bdqn.s2.javaoop.study.proxy; import java.lang.reflect.Proxy; import java.util.Observable; import java.util.Observer; /** * 婴儿类,被观察者 */ public class Baby extends Observable { private int hungry; private String name; public String getName() { return name; } public Baby(String name, int hungry) { this.hungry = hungry; this.name = name; addObserver(new Parents());//添加观察者对象,需要家长监管 } /** * 婴儿开始哭泣 */ public void cry() { if (hungry < 100) { System.out.printf("baby%s饿了,开始哭泣...%n", name); setChanged();//饥饿值过低,触发变化,此方法必须被调用 notifyObservers();//通知观察者 } } } /** * 家长,观察者 */ class Parents implements Observer { @Override public void update(Observable o, Object arg) { if (o instanceof Baby) { Baby baby = (Baby) o; System.out.println(baby.getName()+"开始哭泣,赶紧哄宝宝啦"); } } } public class Main { public static void main(String[] args) { Baby baby = new Baby("豆豆",9); baby.cry(); } } /* 输出结果 baby豆豆饿了,开始哭泣... 豆豆开始哭泣,赶紧哄宝宝啦 */
二 关于动态代理模式
1)代理模式是设计模式中非常常见的一种模式,这种模式可以实现对原有方法的扩展,举个例子经纪人可以替明星们办理一些事情,那么此时经纪人可以视为明星的代理。
2)代理模式可以分为静态代理和动态代理,在这里我们只对JDK提供的动态代理进行讨论。
3)JDK提供的代理模式一定是针对接口进行的代理,针对类的代理可以自行参考cglib框架
4)InvocationHandler:是代理实例的调用处理程序 实现的接口。 每个代理实例都具有一个关联的调用处理程序。对代理实例调用方法时,将对方法调用进行编码并将其指派到它的调用处理程序的 invoke
方法。
//proxy:代理类,method:代理执行的方法 args:方法参数 public Object invoke(Object proxy, Method method, Object[] args);
5)Proxy:该类主要是获取或者新创建动态代理对象
//该方法主要用于获取代理对象,注意一定是针对接口进行代理 public static Object newProxyInstance(ClassLoader loader, Class<?>[] interfaces, InvocationHandler h) throws IllegalArgumentException
6)针对上述例子进行改造:添加保姆类并改造Baby类的构造方法:
package com.bdqn.s2.javaoop.study.proxy; import java.lang.reflect.InvocationHandler; import java.lang.reflect.Method; import java.util.Observer; /** * 保姆类 */ public class Nanny implements InvocationHandler { private Observer parents; public Nanny(){ parents = new Parents(); } @Override public Object invoke(Object proxy, Method method, Object[] args) throws Throwable { System.out.println("保姆开始照顾孩子"); Object object = method.invoke(parents, args); return object; } }
Baby类构造函数改造:
public Baby(String name, int hungry) { this.hungry = hungry; this.name = name; addObserver((Observer) Proxy.newProxyInstance(Baby.class.getClassLoader(),new Class[]{Observer.class},new Nanny())); }
输出结果:
baby豆豆饿了,开始哭泣...
保姆开始照顾孩子
豆豆开始哭泣,赶紧哄宝宝啦
浅谈java中内置的观察者模式与动态代理的实现