AOP
AOPAOP简介
什么是AOP?
AOP为Aspect Oriented Programming的缩写,意为:面向切面编程,通过预编译方式和运行期间动态代理实现程序功能的统一维护的一种技术。利用AOP可以对业务逻辑的各个部分进行隔离,从而使得业务逻辑各部分之间的耦合度降低,提高程序的可重用性,同时提高了开发的效率。
AOP的作用及其优势
[*]作用:在程序运行期间,在不修改源码的情况下对方法进行功能增强
[*]优势:减少重复代码,提高开发效率,并且便于维护
AOP的底层实现
实际上AOP的底层通过Spring的动态代理技术实现的。在运行期间,spring通过动态代理技术动态生成代理对象,代理方法执行时进行增强功能的介入,在去调用目标对象的方法,从而完成功能的增强
https://img2023.cnblogs.com/blog/2844064/202307/2844064-20230725093840757-84056415.png
JDK的动态代理
public class Test {
public static void main(String[] args) {
// target是目标对象类
<bean id="target" ></bean>
<bean id="myAspect" ></bean>final Target target = new Target();
// <bean id="target" ></bean>
<bean id="myAspect" ></bean>获得增强对象--advice是增强类
<bean id="target" ></bean>
<bean id="myAspect" ></bean>final Advice advice = new Advice();
// <bean id="target" ></bean>
<bean id="myAspect" ></bean>返回值是动态生成的代理对象
<bean id="target" ></bean>
<bean id="myAspect" ></bean>TargetInterface proxy = (TargetInterface) Proxy.newProxyInstance(
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>target.getClass().getClassLoader(), //目标对象类加载器
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>target.getClass().getInterfaces(), //目标对象相同的接口组件名对象数组
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>new InvocationHandler() {
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> //调用代理对象的任何方法,实质执行的都是这个invoke方法
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> @Override
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
// <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>前置增强
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>advice.before();
// <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>执行目标方法
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>Object invoke = method.invoke(target, args);
// <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>后置增强
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>advice.after();
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>return invoke;
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> }
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>}
<bean id="target" ></bean>
<bean id="myAspect" ></bean>);
// <bean id="target" ></bean>
<bean id="myAspect" ></bean>调用代理对象的方法
<bean id="target" ></bean>
<bean id="myAspect" ></bean>proxy.save();
}
}cglib的动态代理
导入了spring-context就可以用了
public class Test {
public static void main(final String[] args) {
<bean id="target" ></bean>
<bean id="myAspect" ></bean>final Target target = new Target();
// <bean id="target" ></bean>
<bean id="myAspect" ></bean>获得增强对象
<bean id="target" ></bean>
<bean id="myAspect" ></bean>final Advice advice = new Advice();
// <bean id="target" ></bean>
<bean id="myAspect" ></bean>返回值是动态生成的代理对象
// <bean id="target" ></bean>
<bean id="myAspect" ></bean>需要参加增强器
<bean id="target" ></bean>
<bean id="myAspect" ></bean>Enhancer enhancer = new Enhancer();
// <bean id="target" ></bean>
<bean id="myAspect" ></bean>设置父类(目标)
<bean id="target" ></bean>
<bean id="myAspect" ></bean>enhancer.setSuperclass(Target.class);
// <bean id="target" ></bean>
<bean id="myAspect" ></bean>设置回调
<bean id="target" ></bean>
<bean id="myAspect" ></bean>enhancer.setCallback(new MethodInterceptor() {
<bean id="target" ></bean>
<bean id="myAspect" ></bean> @Override
<bean id="target" ></bean>
<bean id="myAspect" ></bean> public Object intercept(Object o, Method method, Object[] objects, MethodProxy methodProxy) throws Throwable {
// <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>执行前置
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>advice.before();
// <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>执行目标
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>Object invoke = method.invoke(target, args);
// <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>执行后置
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>advice.after();
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>return invoke;
<bean id="target" ></bean>
<bean id="myAspect" ></bean> }
<bean id="target" ></bean>
<bean id="myAspect" ></bean>});
// <bean id="target" ></bean>
<bean id="myAspect" ></bean>创建代理对象
<bean id="target" ></bean>
<bean id="myAspect" ></bean>Target proxy = (Target) enhancer.create();
<bean id="target" ></bean>
<bean id="myAspect" ></bean>proxy.save();
}AOP的相关概念
[*]Target(目标对象):代理的目标对象(需要增强的目标方法)
[*]Proxy(代理):一个类被AOP加入增强后,就产生一个结果代理类‘
[*]Joinpoint(连接点):被拦截的点(sping只支持方法类型的连接点 ),可以被增强的方法
[*]PointCut(切入点):我们进行拦截的那一部分的Joinpoint,被增强的连接点
[*]Advice(通知/增强):拦截到joinpoint之后要做的事情
[*]Aspect(切面):切入点和通知的结合
[*]Weaving(织入):把增强应用到目标对象来创建新的代理对象的过程。spring采用动态代理织入
AOP开发明确的事项
[*]需要编写的内容
[*]核心业务代码(目标类的目标方法)
[*]编写切面类,切面类中有通知
[*]在配置文件中,配置织入关系,即将哪些通知与哪些连接点进行结合
[*]AOP技术实现的内容
https://img2023.cnblogs.com/blog/2844064/202307/2844064-20230725093905164-111302131.png
https://img2023.cnblogs.com/blog/2844064/202307/2844064-20230725093919463-1238496278.png
AOP的实现
基于xml的AOP实现
快速入门
[*]导入AOP坐标(常量sping-context外)
<dependency> <groupId>org.apache.geronimo.bundles</groupId>
<artifactId>aspectjweaver</artifactId>
<version>1.6.8_2</version>
</dependency>
[*]创建目标接口和目标类(内部有切点)
https://img2023.cnblogs.com/blog/2844064/202307/2844064-20230725093947440-1615036637.png
[*]创建切面类(内部有增强方法)
https://img2023.cnblogs.com/blog/2844064/202307/2844064-20230725094006625-584975849.png
[*]将目标类和切面类的对象创建权交给spring
在spring的配置文件中:
<bean id="target" ></bean>
<bean id="myAspect" ></bean>
[*]在applicationContext.xml中配置织入关系
<bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean> <bean id="target" ></bean>
<bean id="myAspect" ></bean>
[*]测试:用了spring-test
package com.myspring.JDK;import org.junit.Test;import org.junit.runner.RunWith;import org.springframework.beans.factory.annotation.Autowired;import org.springframework.test.context.ContextConfiguration;import org.springframework.test.context.junit4.SpringJUnit4ClassRunner;@RunWith(SpringJUnit4ClassRunner.class)@ContextConfiguration("classpath:applicationContext.xml")public class test { @Autowired private TargetInterface target; @Test public void test1(){ <bean id="target" ></bean>
<bean id="myAspect" ></bean>target.save(); }}
配置切面表达式的写法
https://img2023.cnblogs.com/blog/2844064/202307/2844064-20230725094034811-1022225736.png
配置通知的类型
https://img2023.cnblogs.com/blog/2844064/202307/2844064-20230725094052636-691937911.png
环绕方法:
https://img2023.cnblogs.com/blog/2844064/202307/2844064-20230725094112406-604531153.png
切点表达式的抽取:
https://img2023.cnblogs.com/blog/2844064/202307/2844064-20230725094126617-1655793157.png
基于注解的AOP开发
快速入门
[*]创建目标接口和目标类(内部有切点)
[*]创建切面类(内部有增强方法)
上面两步和前面写的类似
[*]将目标类和切面类的对象创建权交给spring
@Component("myAspect")
@Component("aspect")
//在两个类分别加入这两者的注解例如:
@Component("target")public class Target implements TargetInterface { public void save(){ <bean id="target" ></bean>
<bean id="myAspect" ></bean>System.out.println("hello world"); }}
[*]在切面类中使用注解配置织入关系
@Aspect//标注当前MyAspect是一个切面类@Component("myAspect")@Aspect//标注当前MyAspect是一个切面类public class MyAspect {// 前置增强和增强的切点 @Before(value = "execution(* com.myspring.JDK.Target.save())") public voidbefore(){ <bean id="target" ></bean>
<bean id="myAspect" ></bean>System.out.println("前置增强"); }}
[*]在配置文件中开启组件扫描和AOP自动代理
applicationContext-anno.xml:
<bean id="target" ></bean>
<bean id="myAspect" ></bean>
[*]测试
注解配置详解
通知类型:
https://img2023.cnblogs.com/blog/2844064/202307/2844064-20230725094145844-1926263886.png
切点表达式的抽取:
@Component("myAspect")@Aspect//标注当前MyAspect是一个切面类public class MyAspect {// 前置增强和增强的切点 @Before(value = "pointCut()") public voidbefore(){ <bean id="target" ></bean>
<bean id="myAspect" ></bean>System.out.println("前置增强"); } @After("MyAspect.pointCut()") public void after(){ <bean id="target" ></bean>
<bean id="myAspect" ></bean>System.out.println("后置增强"); }// 定义切点表达式 @Pointcut("execution(* com.myspring.JDK.Target.save())") publicvoidpointCut(){}}
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