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在有大量对象时,有可能会造成内存溢出,我们把其中共同的部分抽象出来,如果有相同的业务请求,直接返回在内存中已有的对象,避免重新创建。
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本文作者:Coding-Naga
发表日期: 2016年4月25日
本文链接:http://blog.csdn.net/lemon_tree12138/article/details/51241598
来源:CSDN
更多内容:分类 >> 设计模式
享元模式是一种结构型模式,运用共享技术有效地支持大量细粒度的对象。
在享元模式中,就其定义我们可以构建出单纯的享元模式。下图是单纯享元模式的类图:
在单纯的享元模式中,需要给出一个抽象接口,以规定出所有具体享元角色需要实现的方法。实现如下:
Flyweight.java
public interface Flyweight {
public void operation(String state);
}
对于享元部分,ConcreteFlyweight 必须是可共享的,它保存的任何状态都必须是内部(intrinsic),ConcreteFlyweight 必须和它的应用环境场合无关。比如字符串 “Hello” 就无需关心使用它的场合,它是一个不可变的对象。
ConcreteFlyweight.java
public class ConcreteFlyweight implements Flyweight {
private String intrinsicState = null;
/**
* 构造函数 内蕴状态作为参数传入
*/
public ConcreteFlyweight(String _intrinsicState) {
this.intrinsicState = _intrinsicState;
}
/**
* 外蕴状态作为参数传入方法中 改变方法的行为 但是并不改变对象的内蕴状态
*/
@Override
public void operation(String extrinsicState) {
System.out.println("内蕴状态:" + intrinsicState);
System.out.println("外蕴状态:" + extrinsicState);
}
}
在享元模式中,有一个至关重要的模块就是工厂模块了。在 Flyweight Factory 里维护了一个 Flyweight 池(存放内部状态),Flyweight Factory 就是通过这个 Flyweight 池对整个享元模式进行控制。
FlyweightFactory.java
public class FlyweightFactory {
private Map<Integer, Flyweight> labels = new HashMap<Integer, Flyweight>();
public Flyweight factory(String intrinsicState) {
int hashCode = intrinsicState.hashCode();
Flyweight fly = labels.get(hashCode);
if (fly == null) {
fly = new ConcreteFlyweight(intrinsicState);
labels.put(hashCode, fly);
}
return fly;
}
}
在上面的工厂模块中可以看到,FlyweightFactory 实际上是起到了一个过滤筛选的功能,过滤重复的对象,缓存新对象。
与共享的享元对象相对的就是不共享的享元对象。关于不共享的享元对象,可能你会有一些疑问,既然不共享,为何还要包含到享元模式中来呢?这可能是出于完整性的考虑,或是要某些场景下既要使用共享的享元,又要使用不共享的享元吧。关于这一点本人也还没有完全理解,也有可能根本不需要这一个不共享的享元对象吧。下面是不共享的享元类图:
不共享的享元实现与 ConcreteFlyweight 无异。如下:
UnsharedConcreteFlyweight.java
public class UnsharedConcreteFlyweight implements Flyweight {
private String intrinsicState = null;
public UnsharedConcreteFlyweight(String _intrinsicState) {
this.intrinsicState = _intrinsicState;
}
@Override
public void operation(String extrinsicState) {
System.out.println("内蕴状态:" + intrinsicState);
System.out.println("外蕴状态:" + extrinsicState);
}
}
下面是对单纯的享元与不共享的享元进行测试的代码。
Client.java
public class Client {
public static void main(String[] args) {
FlyweightFactory factory = new FlyweightFactory();
Flyweight fly1 = factory.factory("Hello");
fly1.operation("ExtrinsicState-1");
Flyweight fly2 = factory.factory("DesignPattern");
fly2.operation("ExtrinsicState-2");
Flyweight fly3 = factory.factory("Flyweight");
fly3.operation("ExtrinsicState-3");
Flyweight fly4 = factory.factory("Hello");
fly4.operation("ExtrinsicState-4");
System.out.println("fly1 == fly2 ? " + (fly1 == fly2));
System.out.println("fly1 == fly3 ? " + (fly1 == fly3));
System.out.println("fly1 == fly4 ? " + (fly1 == fly4));
Flyweight fly5 = new UnsharedConcreteFlyweight("Unshared");
fly5.operation("ExtrinsicState-5");
}
}
内蕴状态:Hello
外蕴状态:ExtrinsicState-1
内蕴状态:DesignPattern
外蕴状态:ExtrinsicState-2
内蕴状态:Flyweight
外蕴状态:ExtrinsicState-3
内蕴状态:Hello
外蕴状态:ExtrinsicState-4
fly1 == fly2 ? false
fly1 == fly3 ? false
fly1 == fly4 ? true
内蕴状态:Unshared
外蕴状态:ExtrinsicState-5
在上面的单纯享元中,所有的享元可以说是在同一个分组里。有时候这样的大集合可能并不能发挥出很好的应用功能,所以引入了复合式的享元模式。下面是复合式享元模式类图:
复合式享元相当于多个单纯享元的集合。也就是说复合享元相当于对单纯享元进行了一个再分组,在复合享元的每个分组里又是一个独立的单纯享元模式。相关关键代码如下:
ConcreteCompositeFlyweight.java
public class ConcreteCompositeFlyweight implements Flyweight {
private Map<Integer, Flyweight> labels = new HashMap<Integer, Flyweight>();
public void add(int key, Flyweight flyweight) {
labels.put(key, flyweight);
}
@Override
public void operation(String extrinsicState) {
Flyweight flyweight = null;
for (Object key : labels.keySet()) {
flyweight = labels.get(key);
flyweight.operation(extrinsicState);
}
}
}
对于其构建工厂也需要进行重新设计,如下:
FlyweightFactory.java
public class FlyweightFactory {
private Map<Integer, Flyweight> labels = new HashMap<Integer, Flyweight>();
/**
* 单纯享元工厂
*/
public Flyweight factory(String intrinsicState) {
... ...
return fly;
}
/**
* 复合享元工厂
*/
public Flyweight compositeFactory(List<String> intrinsicStates) {
ConcreteCompositeFlyweight flyweight = new ConcreteCompositeFlyweight();
for (String intrinsicState : intrinsicStates) {
flyweight.add(intrinsicState.hashCode(), factory(intrinsicState));
}
return flyweight;
}
}
测试类
Client.java
public void compositeFlyweight() {
List<String> intrinsicStates = new ArrayList<String>();
intrinsicStates.add("Hello");
intrinsicStates.add("Java");
intrinsicStates.add("DesignPattern");
intrinsicStates.add("Flyweight");
FlyweightFactory factory = new FlyweightFactory();
Flyweight flyweight1 = factory.compositeFactory(intrinsicStates);
Flyweight flyweight2 = factory.compositeFactory(intrinsicStates);
System.out.println("flyweight1 == flyweight2 ? " + (flyweight1 == flyweight2));
flyweight1.operation("复合享元-1");
flyweight2.operation("复合享元-2");
}
flyweight1 == flyweight2 ? false
内蕴状态:Java
外蕴状态:复合享元-1
内蕴状态:Flyweight
外蕴状态:复合享元-1
内蕴状态:Hello
外蕴状态:复合享元-1
内蕴状态:DesignPattern
外蕴状态:复合享元-1
内蕴状态:Java
外蕴状态:复合享元-2
内蕴状态:Flyweight
外蕴状态:复合享元-2
内蕴状态:Hello
外蕴状态:复合享元-2
内蕴状态:DesignPattern
外蕴状态:复合享元-2
在 JDK 的设计里,也有很享元模式。比如一些常量池的设计(String 常量池、Integer 常量池等等);
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原文地址:http://blog.csdn.net/lemon_tree12138/article/details/51241598