静态代理模式
package com.cl.demo01;
//静态代理模式
public class StaticProxy {
public static void main(String[] args) {
WeddingCompany weddingCompany = new WeddingCompany(new You());
weddingCompany.HappyMarry();
}
}
interface Marry{
void HappyMarry();
}
//真实角色
class You implements Marry{
@Override
public void HappyMarry() {
System.out.println("king king king");
}
}
//代理角色
class WeddingCompany implements Marry{
private Marry target;
public WeddingCompany(Marry target) {
this.target = target;
}
@Override
public void HappyMarry() {
before();
this.target.HappyMarry();
after();
}
private void after() {
System.out.println("结婚之后,收尾款");
}
private void before() {
System.out.println("结婚之前!");
}
}
/*
总结:
1.真实对象和代理对象都要事先同一个接口
2.代理对象要代理真实角色
好处:
1.代理对象可以做很多真实对象做不了的事情
2.真实对象专注做自己的事情
* */
编导lambda表达式
package com.cl.lambda;
//编导lambda表达式
public class TestLambda {
//3.静态内部类
static class Like2 implements ILike{
@Override
public void lambda() {
System.out.println("I like lambda2");
}
}
public static void main(String[] args) {
ILike like = new Like();
like.lambda();
like = new Like2();
like.lambda();
//4.局部内部类
class Like3 implements ILike{
@Override
public void lambda() {
System.out.println("I like lambda3");
}
}
like=new Like3();
like.lambda();
//5.匿名内部类
like=new Like() {
@Override
public void lambda() {
System.out.println("I like lambda4");
}
};
like.lambda();
//6.用lambda简化
like=()->{
System.out.println("I like lambda5");
};
like.lambda();
}
}
//1.定义一个函数式接口
interface ILike{
void lambda();
}
//2.实现类
class Like implements ILike{
@Override
public void lambda() {
System.out.println("I like lambda");
}
}
/*
总结;
为什么要使用lambda表达式
1.避免匿名内部类定义过多
2.代码简洁
3.去掉没有意义的代码,只留下核心逻辑
*/
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