设计模式之组合模式

GoF的设计模式是这么说的：

意图：将对象组合成树形结构以表示“部分-整体”的层次结构。Composite使得用户对单个对象和组合对象的使用具有一致性。
适用性：1. 你想表示对象的部分-整体层次结构。 2. 你希望用户忽略组合对象与单个对象的不同，用户将统一地使用组合结构中的所有对象。

以上文字虽然说得已经很明白了，但还是有点抽象。

举个栗子吧，我们都直到Java中的AWT与SWING中的那些组件，像Button，RadioButton，CheckBox等待，这些就相当于部件，也被称为树叶（对应下面代码的leaf），而Container是用在装载这些部件的，也叫做树枝。

最关键的部分就是树枝内部组合该接口，并且含有内部属性 List，里面放 Component。

首先创建Component接口：

package com.structural.composite;public interface Component {    public void sayHello();    public void sayGoodbye();}

然后上面的接口写一个实现：

package com.structural.composite;import java.util.ArrayList;import java.util.List;public class Composite implements Component {    List<Component> components = new ArrayList<Component>();    @Override    public void sayHello() {        for (Component component : components) {            component.sayHello();        }    }    @Override    public void sayGoodbye() {        for (Component component : components) {            component.sayGoodbye();        }    }    public void add(Component component) {        components.add(component);    }    public void remove(Component component) {        components.remove(component);    }    public List<Component> getComponents() {        return components;    }    public Component getComponent(int index) {        return components.get(index);    }}

然后呢，实现一下叶子类。

package com.structural.composite;public class Leaf implements Component {    String name;    public Leaf(String name) {        this.name = name;    }    @Override    public void sayHello() {        // TODO Auto-generated method stub        System.out.println(name + " leaf says hello");    }    @Override    public void sayGoodbye() {        // TODO Auto-generated method stub        System.out.println(name + " leaf says goodbye");    }}

package com.structural.composite;public class TestCompositePattern {    public static void main(String[] args) {        // TODO Auto-generated method stub        Leaf leaf1 = new Leaf("Bob");        Leaf leaf2 = new Leaf("Fred");        Leaf leaf3 = new Leaf("Sue");        Leaf leaf4 = new Leaf("Ellen");        Leaf leaf5 = new Leaf("Joe");        Composite composite1 = new Composite();        composite1.add(leaf1);        composite1.add(leaf2);        Composite composite2 = new Composite();        composite2.add(leaf3);        composite2.add(leaf4);        Composite composite3 = new Composite();        composite3.add(composite1);        composite3.add(composite2);        composite3.add(leaf5);        System.out.println("Calling 'sayHello' on leaf1");        leaf1.sayHello();        System.out.println("\nCalling 'sayHello' on composite1");        composite1.sayHello();        System.out.println("\nCalling 'sayHello' on composite2");        composite2.sayHello();        System.out.println("\nCalling 'sayGoodbye' on composite3");        composite3.sayGoodbye();    }}

输出：

Calling 'sayHello' on leaf1Bob leaf says helloCalling 'sayHello' on composite1Bob leaf says helloFred leaf says helloCalling 'sayHello' on composite2Sue leaf says helloEllen leaf says helloCalling 'sayGoodbye' on composite3Bob leaf says goodbyeFred leaf says goodbyeSue leaf says goodbyeEllen leaf says goodbyeJoe leaf says goodbye

最后还是来一张UML图

参考文献

[1]《设计模式——可复用面向对象软件的基础》，Erich Gramma，Richard Helm，Ralph Johnson，John Vlossides。机械工业出版社
[2] https://github.com/ncsbalaji/DesignPaterns
[3] http://www.runoob.com/design-pattern/composite-pattern.html