JavaScript版数据结构与算法 轻松解决前端算法面试

download:JavaScript版数据结构与算法 轻松解决前端算法面试 Spring5源码5-Bean生命周期后置处理器
主要说明三种生命周期增强器:
BeanFactoryPostProcessor:BeanFactory 后置处理器
BeanDefinitionRegistryPostProcessor:bean定义注册后置处理器
BeanFactoryPostProcessor
BeanPostProcessor:Bean后置处理器
BeanPostProcessor
MergedBeanDefinitionPostProcessor
SmartInstantiationAwareBeanPostProcessor
InstantiationAwareBeanPostProcessor
InitializingBean
DisposableBean (销毁的方案我们暂时不做说明)
1.1 什么是 BeanPostProcessor
BeanPostProcessor 是 Spring提供给我们的一个非常重要的扩展接口,并且Spring内部的很多功能也是通过 BeanPostProcessor 来完成的(目前看到最典型的就是 AnnotationAwareAspectJAutoProxyCreator 的 注入)。
1.2 BeanPostProcessor 的种类
BeanPostProcessor 在Spring 中的子类非常多(idea 显是有46个),比如
InstantiationAwareBeanPostProcessorAdapter : 在Spring 的bean加载过程中起了非常重要的作用
AnnotationAwareAspectJAutoProxyCreator : bean 创建过程中的 属性注入时起作用
AspectJAwareAdvisorAutoProxyCreator : Aspect 的 AOP 功能实现也全仰仗BeanPostProcessor 的特性。
1.3 创建时机
BeanFactoryPostProcessor:在 Spring 启动时对BeanDefinition 的创建 进行干预处理。
BeanPostProcessor:一是Bean对应的BeanDefinition 的创建。二是Bean 实例的创建。因为在 Spring容器中,Bean的创建并非仅仅通过反射创建就结束了,在创建过程中,需要考虑到Bean针对Spring容器中的一些属性,所以BeanDefinition 中不仅仅包含了 Bean Class 文件信息,还包含了 当前Bean在Spring容器中的一些属性,比如在容器中的作用域、是否懒加载、别名等信息。当Bean 进行实例化创建时需要依赖于对应的BeanDefinition 提供对应的信息。。
而由于 BeanPostProcessor 是参与了 Bean 创建过程。所以其创建一定在普通 Bean 之前。实际上 BeanPostProcessor 的创建时在 Spring 启动时容器刷新的时候。
BeanPostProcessor 的 BeanDefinition 创建时机和普通 Bean没有区别,都是在Spring 启动时的BeanFactoryPostProcessor 中完成(确切的说是 ConfigurationClassPostProcessor 中完成)。
而BeanPostProcessor 的实例创建要优先于普通bean创建,Spring启动过程中会调用AbstractApplicationContext#registerBeanPostProcessors 方法。 在这个方法中,Spring 会从容器中获取到所有BeanPostProcessor 类型的beanName, 通过 beanFactory.getBean 方法获取到对应实例,进行排序后注册到 BeanFactory.beanPostProcessors 属性中.当容器需要执行 BeanPostProcessor 方法时可以直接从 beanPostProcessors 中获取即可。

  1. 案例
    分别定义几个测试类,实现bean的后置处理器:
BeanDefinitionRegistryPostProcessor:
/**
  • BeanFactory的后置处理器 , PriorityOrdered, Ordered
    */
@Component
public class MyBeanDefinitionRegistryPostProcessor implements BeanDefinitionRegistryPostProcessor {
public MyBeanDefinitionRegistryPostProcessor(){
System.out.println("MyBeanDefinitionRegistryPostProcessor");

}
@Override //紧接着执行
public void postProcessBeanFactory(ConfigurableListableBeanFactory beanFactory) throws BeansException {
System.out.println("MyBeanDefinitionRegistryPostProcessor....postProcessBeanFactory...");

}
@Override //先执行的
public void postProcessBeanDefinitionRegistry(BeanDefinitionRegistry registry) throws BeansException {
System.out.println("MyBeanDefinitionRegistryPostProcessor...postProcessBeanDefinitionRegistry..."); //增强bean定义信息的注册中心,比如自己注册组件

}
}
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BeanFactoryPostProcessor:
/**
  • BeanFactory的后置处理器
    */
@Component
public class MyBeanFactoryPostProcessor implements BeanFactoryPostProcessor {
public MyBeanFactoryPostProcessor(){
System.out.println("MyBeanFactoryPostProcessor...");

}
@Override
public void postProcessBeanFactory(ConfigurableListableBeanFactory beanFactory) throws BeansException {
System.out.println("BeanFactoryPostProcessor....postProcessBeanFactory==>"+beanFactory);

}
}
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BeanPostProcessor:
/**
  • Bean组件的 PostProcessor;
    */
@Component
public class MyBeanPostProcessor implements BeanPostProcessor {
public MyBeanPostProcessor(){
System.out.println("MyBeanPostProcessor...");

}
public Object postProcessAfterInitialization(Object bean, String beanName) throws BeansException {
System.out.println("MyBeanPostProcessor...postProcessAfterInitialization..."+bean+"==>"+beanName); return bean;

}
public Object postProcessBeforeInitialization(Object bean, String beanName) throws BeansException {
System.out.println("MyBeanPostProcessor...postProcessBeforeInitialization..."+bean+"==>"+beanName); return bean; // new Object();

}
}
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InstantiationAwareBeanPostProcessor:
@Component
public class MyInstantiationAwareBeanPostProcessor implements InstantiationAwareBeanPostProcessor {
public MyInstantiationAwareBeanPostProcessor(){
System.out.println("MyInstantiationAwareBeanPostProcessor...");

}
//初始化之前进行后置处理,Spring留给我们给这个组件创建对象的回调。
public Object postProcessBeforeInstantiation(Class beanClass, String beanName) throws BeansException {
System.out.println("MyInstantiationAwareBeanPostProcessor...postProcessBeforeInstantiation=>"+beanClass+"--"+beanName); //if(class.isAssFrom(Cat.class)){return new Dog()} //如果我们自己创建了对象返回。Spring则不会帮我们创建对象,用我们自己创建的对象? 我们创建的这个对象,Spring会保存单实例?还是每次getBean都调到我们这里创建一个新的? return null;

}
// 是否让剩下的后置处理器对bean继续进行处理
public boolean postProcessAfterInstantiation(Object bean, String beanName) throws BeansException {
//提前改变一些Spring不管的bean里面的属性 System.out.println("MyInstantiationAwareBeanPostProcessor...postProcessAfterInstantiation=>"+bean+"--"+beanName); return true; //返回false则bean的赋值全部结束

}
//解析自定义注解进行属性值注入;pvs 封装了所有的属性信息。
public PropertyValues postProcessProperties(PropertyValues pvs, Object bean, String beanName)
throws BeansException { //@GuiguValue(); redis System.out.println("MyInstantiationAwareBeanPostProcessor...postProcessProperties=>"+bean+"--"+beanName); return null;

}
【JavaScript版数据结构与算法 轻松解决前端算法面试】// public PropertyValues postProcessPropertyValues(
// PropertyValues pvs, PropertyDescriptor[] pds, Object bean, String beanName) throws BeansException {
// System.out.println("MyInstantiationAwareBeanPostProcessor...postProcessProperties");
// return pvs;
// }
}
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MergedBeanDefinitionPostProcessor:
@Component
public class MyMergedBeanDefinitionPostProcessor implements MergedBeanDefinitionPostProcessor {
public MyMergedBeanDefinitionPostProcessor(){
System.out.println("MyMergedBeanDefinitionPostProcessor...");

}
@Override
public Object postProcessBeforeInitialization(Object bean, String beanName) throws BeansException {
System.out.println("MyMergedBeanDefinitionPostProcessor...postProcessBeforeInitialization...=>"+bean+"--"+beanName); return bean; //null

}
@Override
public Object postProcessAfterInitialization(Object bean, String beanName) throws BeansException {
System.out.println("MyMergedBeanDefinitionPostProcessor...postProcessAfterInitialization..=>"+bean+"--"+beanName); return null;

}
@Override
public void postProcessMergedBeanDefinition(RootBeanDefinition beanDefinition, Class beanType, String beanName) {
System.out.println("MyMergedBeanDefinitionPostProcessor...postProcessMergedBeanDefinition..=>"+beanName+"--"+beanType+"---"+beanDefinition);

}
@Override
public void resetBeanDefinition(String beanName) {
System.out.println("MyMergedBeanDefinitionPostProcessor...resetBeanDefinition.."+beanName);

}
}
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SmartInstantiationAwareBeanPostProcessor:
@Component //bean进行代理增强期间进行使用
public class MySmartInstantiationAwareBeanPostProcessor implements SmartInstantiationAwareBeanPostProcessor {
public MySmartInstantiationAwareBeanPostProcessor(){
System.out.println("MySmartInstantiationAwareBeanPostProcessor...");

}
//预测bean的类型,最后一次改变组件类型。
public Class predictBeanType(Class beanClass, String beanName) throws BeansException {
System.out.println("MySmartInstantiationAwareBeanPostProcessor...predictBeanType=>"+beanClass+"--"+beanName); return null;

}
//返回我们要使用的构造器候选列表

public Constructor[] determineCandidateConstructors(Class beanClass, String beanName) throws BeansException {
System.out.println("MySmartInstantiationAwareBeanPostProcessor...determineCandidateConstructors=>"+beanClass+"--"+beanName); //返回一个我们指定的构造器 return null;

}
//返回早期的bean引用,定义三级缓存中的bean信息

public Object getEarlyBeanReference(Object bean, String beanName) throws BeansException {
System.out.println("MySmartInstantiationAwareBeanPostProcessor...getEarlyBeanReference=>"+bean+"--"+beanName); return bean; //

}
}
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InitializingBean:
@Component
public class CatInitializingBean implements InitializingBean {
public CatInitializingBean(){
System.out.println("cat被创建了...");

}
private String name;
@Value("${JAVA_HOME}") //自动赋值功能
public void setName(String name) {
System.out.println("cat....setName正在赋值调用...."); this.name = name;

}
//注解怎么定义这个是初始化方法?
public String getName() {
return name;

}
@Override
public void afterPropertiesSet() throws Exception {
System.out.println("CatInitializingBean..afterPropertiesSet...");

}
@Autowired
private void init() {
System.out.println("CatInitializingBean init....");

}
}
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debug打点:在每个构造器和方法上都打上 断点,主要看看每个方法的执行时机是什么时候?
  1. 源码分析
    入口还是: org.springframework.context.support.AbstractApplicationContext#refresh:
// 容器刷新的十二大步骤
@Override
public void refresh() throws BeansException, IllegalStateException {
synchronized (this.startupShutdownMonitor) {
// 容器启动的状态 StartupStep contextRefresh = this.applicationStartup.start("spring.context.refresh"); // Prepare this context for refreshing. // 1.准备上下文环境 prepareRefresh(); // Tell the subclass to refresh the internal bean factory. /** 1、创建BeanFactory对象 *2、xml解析 *传统标签解析:bean、import等 *自定义标签解析 如: *自定义标签解析流程: *a、根据当前解析标签的头信息找到对应的namespaceUri *b、加载spring所以jar中的spring.handlers文件。并建立映射关系 *c、根据namespaceUri从映射关系中找到对应的实现了NamespaceHandler接口的类 *d、调用类的init方法,init方法是注册了各种自定义标签的解析类 *e、根据namespaceUri找到对应的解析类,然后调用paser方法完成标签解析 * 3、把解析出来的xml标签封装成BeanDefinition对象 */ // 2. 工厂创建:BeanFactory 第一次开始创建的时候,有xml解析逻辑 ConfigurableListableBeanFactory beanFactory = obtainFreshBeanFactory(); // Prepare the bean factory for use in this context. // 3. 预准备工厂,给容器中注册了环境信息作为单实例Bean方便后续自动装配 // 并且放了一些后置处理器(监听、xxxAware功能) prepareBeanFactory(beanFactory); try { //Allows post-processing of the bean factory in context subclasses. // 留给子类的模板方法,允许子类继续对工厂执行一些处理 postProcessBeanFactory(beanFactory); StartupStep beanPostProcess = this.applicationStartup.start("spring.context.beans.post-process"); // Invoke factory processors registered as beans in the context. // 5. 【大核心】工厂增强:执行所有的BeanFactory 后置增强器 利用BeanFactory后置增强器对工厂进行修改或增强 // 配置类也会在这个解析 // BeanDefinitionRegistryPostProcessor BeanFactoryPostProcessor 完成对这两个接口的调用 invokeBeanFactoryPostProcessors(beanFactory); // Register bean processors that intercept bean creation. // 6. 【核心】注册 所有的Bean的后置处理器 registerBeanPostProcessors(beanFactory); beanPostProcess.end(); // Initialize message source for this context. // 7. 初始化国际化组件 initMessageSource(); // Initialize event multicaster for this context. // 8. 初始化事件派发 功能 initApplicationEventMulticaster(); // Initialize other special beans in specific context subclasses. // 9. 留给子类继续增强处理逻辑 // 这个方法着重理解模板设计模式,因为在springboot中,这个方法是用来做内嵌tomcat启动的 onRefresh(); // Check for listener beans and register them. // 10. 注册事件监听器,从容器中获取所有的ApplicationListener registerListeners(); // Instantiate all remaining (non-lazy-init) singletons. // 11. 【大核心】bean创建:完成BeanFactory 初始化(工厂里面所有的组件都好了) /* * 这个方法一定要理解要具体看 * 1、bean实例化过程 * 2、ioc * 3、注解支持 * 4、BeanPostProcessor的执行 * 5、Aop的入口 */ finishBeanFactoryInitialization(beanFactory); // Last step: publish corresponding event. // 12. 发布事件 finishRefresh(); }catch (BeansException ex) { if (logger.isWarnEnabled()) { logger.warn("Exception encountered during context initialization - " + "cancelling refresh attempt: " + ex); }// Destroy already created singletons to avoid dangling resources. destroyBeans(); // Reset 'active' flag. cancelRefresh(ex); // Propagate exception to caller. throw ex; }finally { // Reset common introspection caches in Spring's core, since we // might not ever need metadata for singleton beans anymore... resetCommonCaches(); contextRefresh.end(); }

}
}
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我们主要分析几个方法:
3.1 invokeBeanFactoryPostProcessors(beanFactory)
BeanDefinitionRegistryPostProcessor 和 BeanFactoryPostProcessor 方法处理都是在这个步骤中。
直接看 PostProcessorRegistrationDelegate#invokeBeanFactoryPostProcessors():
public static void invokeBeanFactoryPostProcessors(
ConfigurableListableBeanFactory beanFactory, List beanFactoryPostProcessors) {

// WARNING: Although it may appear that the body of this method can be easily
// refactored to avoid the use of multiple loops and multiple lists, the use
// of multiple lists and multiple passes over the names of processors is
// intentional. We must ensure that we honor the contracts for PriorityOrdered
// and Ordered processors. Specifically, we must NOT cause processors to be
// instantiated (via getBean() invocations) or registered in the ApplicationContext
// in the wrong order.
//
// Before submitting a pull request (PR) to change this method, please review the
// list of all declined PRs involving changes to PostProcessorRegistrationDelegate
// to ensure that your proposal does not result in a breaking change:
// https://github.com/spring-pro...
// Invoke BeanDefinitionRegistryPostProcessors first, if any.
Set processedBeans = new HashSet<>();
// 先拿到底层默认有的BeanFactoryPostProcessor,容器会注入ConfigurationClassPostProcessor,配置类的后置处理
if (beanFactory instanceof BeanDefinitionRegistry) {
BeanDefinitionRegistry registry = (BeanDefinitionRegistry) beanFactory; List regularPostProcessors = new ArrayList<>(); List registryProcessors = new ArrayList<>(); for (BeanFactoryPostProcessor postProcessor : beanFactoryPostProcessors) { if (postProcessor instanceof BeanDefinitionRegistryPostProcessor) { BeanDefinitionRegistryPostProcessor registryProcessor = (BeanDefinitionRegistryPostProcessor) postProcessor; registryProcessor.postProcessBeanDefinitionRegistry(registry); registryProcessors.add(registryProcessor); } else { regularPostProcessors.add(postProcessor); } }// Do not initialize FactoryBeans here: We need to leave all regular beans // uninitialized to let the bean factory post-processors apply to them! // Separate between BeanDefinitionRegistryPostProcessors that implement // PriorityOrdered, Ordered, and the rest. List currentRegistryProcessors = new ArrayList<>(); // First, invoke the BeanDefinitionRegistryPostProcessors that implement PriorityOrdered. // 首先,从工厂中获取所有的BeanDefinitionRegistryPostProcessor String[] postProcessorNames = beanFactory.getBeanNamesForType(BeanDefinitionRegistryPostProcessor.class, true, false); // 获取所有实现PriorityOrdered 接口的的BeanDefinitionRegistryPostProcessor for (String ppName : postProcessorNames) { if (beanFactory.isTypeMatch(ppName, PriorityOrdered.class)) { // 从工厂中获取这个组件(getBean组件的创建)并放到这个集合中 currentRegistryProcessors.add(beanFactory.getBean(ppName, BeanDefinitionRegistryPostProcessor.class)); processedBeans.add(ppName); } } // 利用优先级排序 sortPostProcessors(currentRegistryProcessors, beanFactory); registryProcessors.addAll(currentRegistryProcessors); // todo 执行这些BeanDefinitionRegistryPostProcessor invokeBeanDefinitionRegistryPostProcessors(currentRegistryProcessors, registry, beanFactory.getApplicationStartup()); currentRegistryProcessors.clear(); // Next, invoke the BeanDefinitionRegistryPostProcessors that implement Ordered. postProcessorNames = beanFactory.getBeanNamesForType(BeanDefinitionRegistryPostProcessor.class, true, false); // 接下来,获取所有实现了Ordered接口的BeanDefinitionRegistryPostProcessor for (String ppName : postProcessorNames) { // 即使实现了Ordered 和PriorityOrdered接口,以PriorityOrdered接口为准 if (!processedBeans.contains(ppName) && beanFactory.isTypeMatch(ppName, Ordered.class)) { currentRegistryProcessors.add(beanFactory.getBean(ppName, BeanDefinitionRegistryPostProcessor.class)); processedBeans.add(ppName); } } // 排序 sortPostProcessors(currentRegistryProcessors, beanFactory); registryProcessors.addAll(currentRegistryProcessors); invokeBeanDefinitionRegistryPostProcessors(currentRegistryProcessors, registry, beanFactory.getApplicationStartup()); currentRegistryProcessors.clear(); // Finally, invoke all other BeanDefinitionRegistryPostProcessors until no further ones appear. // 最后,我们自定义和没有实现 优先级接口的 boolean reiterate = true; while (reiterate) { reiterate = false; postProcessorNames = beanFactory.getBeanNamesForType(BeanDefinitionRegistryPostProcessor.class, true, false); for (String ppName : postProcessorNames) { if (!processedBeans.contains(ppName)) { currentRegistryProcessors.add(beanFactory.getBean(ppName, BeanDefinitionRegistryPostProcessor.class)); processedBeans.add(ppName); reiterate = true; } } // 排序,根据类名大小写进行排序 sortPostProcessors(currentRegistryProcessors, beanFactory); registryProcessors.addAll(currentRegistryProcessors); // todo 执行BeanDefinitionRegistryPostProcessor.postProcessBeanDefinitionRegistry 方法 invokeBeanDefinitionRegistryPostProcessors(currentRegistryProcessors, registry, beanFactory.getApplicationStartup()); // 防止重复 currentRegistryProcessors.clear(); }// Now, invoke the postProcessBeanFactory callback of all processors handled so far. // todo 接下来,执行BeanDefinitionRegistryPostProcessor.postProcessBeanFactory 的方法 invokeBeanFactoryPostProcessors(registryProcessors, beanFactory); invokeBeanFactoryPostProcessors(regularPostProcessors, beanFactory);

}
else {
// Invoke factory processors registered with the context instance. invokeBeanFactoryPostProcessors(beanFactoryPostProcessors, beanFactory);

}
// todo 上面是执行 BeanDefinitionRegistryPostProcessor,下面是执行 BeanFactoryPostProcessor
// Do not initialize FactoryBeans here: We need to leave all regular beans
// uninitialized to let the bean factory post-processors apply to them!
String[] postProcessorNames =
beanFactory.getBeanNamesForType(BeanFactoryPostProcessor.class, true, false);

// Separate between BeanFactoryPostProcessors that implement PriorityOrdered,
// Ordered, and the rest.
List priorityOrderedPostProcessors = new ArrayList<>();
List orderedPostProcessorNames = new ArrayList<>();
List nonOrderedPostProcessorNames = new ArrayList<>();
for (String ppName : postProcessorNames) {
if (processedBeans.contains(ppName)) { // skip - already processed in first phase above } else if (beanFactory.isTypeMatch(ppName, PriorityOrdered.class)) { priorityOrderedPostProcessors.add(beanFactory.getBean(ppName, BeanFactoryPostProcessor.class)); } else if (beanFactory.isTypeMatch(ppName, Ordered.class)) { orderedPostProcessorNames.add(ppName); } else { nonOrderedPostProcessorNames.add(ppName); }

}
// First, invoke the BeanFactoryPostProcessors that implement PriorityOrdered.
// 首先,执行实现PriorityOrdered接口的BeanFactoryPostProcessors
sortPostProcessors(priorityOrderedPostProcessors, beanFactory);
invokeBeanFactoryPostProcessors(priorityOrderedPostProcessors, beanFactory);
// Next, invoke the BeanFactoryPostProcessors that implement Ordered.
// 接下来,执行实现Ordered接口的BeanFactoryPostProcessors
List orderedPostProcessors = new ArrayList<>(orderedPostProcessorNames.size());
for (String postProcessorName : orderedPostProcessorNames) {
orderedPostProcessors.add(beanFactory.getBean(postProcessorName, BeanFactoryPostProcessor.class));

}
sortPostProcessors(orderedPostProcessors, beanFactory);
invokeBeanFactoryPostProcessors(orderedPostProcessors, beanFactory);
// Finally, invoke all other BeanFactoryPostProcessors.
// 最后,执行 没有实现优先级和排序 接口的BeanFactoryPostProcessors
List nonOrderedPostProcessors = new ArrayList<>(nonOrderedPostProcessorNames.size());
for (String postProcessorName : nonOrderedPostProcessorNames) {
nonOrderedPostProcessors.add(beanFactory.getBean(postProcessorName, BeanFactoryPostProcessor.class));

}
// todo 执行BeanFactoryPostProcessor.postProcessBeanFactory()方法
invokeBeanFactoryPostProcessors(nonOrderedPostProcessors, beanFactory);
// Clear cached merged bean definitions since the post-processors might have
// modified the original metadata, e.g. replacing placeholders in values...
beanFactory.clearMetadataCache();
}
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获取到所有BeanDefinitionRegistryPostProcessor并创建对象,首先,执行PriorityOrdered接口,其次,执行Ordered接口, 最后,执行没有实现优先级 接口,都会执行invokeBeanDefinitionRegistryPostProcessors()方法和invokeBeanFactoryPostProcessors()方法。
3.1.1 invokeBeanDefinitionRegistryPostProcessors()
private static void invokeBeanDefinitionRegistryPostProcessors(
Collection postProcessors, BeanDefinitionRegistry registry, ApplicationStartup applicationStartup) {

for (BeanDefinitionRegistryPostProcessor postProcessor : postProcessors) {
StartupStep postProcessBeanDefRegistry = applicationStartup.start("spring.context.beandef-registry.post-process") .tag("postProcessor", postProcessor::toString); // todo 核心,配置类的后置处理器在此解析配置类 postProcessor.postProcessBeanDefinitionRegistry(registry); postProcessBeanDefRegistry.end();

}
}
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在这里会执行BeanDefinitionRegistryPostProcessor.postProcessBeanDefinitionRegistry方法。
3.1.2 invokeBeanFactoryPostProcessors()
invokeBeanFactoryPostProcessors(registryProcessors, beanFactory);
private static void invokeBeanFactoryPostProcessors(
Collection postProcessors, ConfigurableListableBeanFactory beanFactory) {

for (BeanFactoryPostProcessor postProcessor : postProcessors) {
StartupStep postProcessBeanFactory = beanFactory.getApplicationStartup().start("spring.context.bean-factory.post-process") .tag("postProcessor", postProcessor::toString); // todo postProcessor.postProcessBeanFactory(beanFactory); postProcessBeanFactory.end();

}
}
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在这里,入参都是BeanDefinitionRegistryPostProcessor 类型的,所以会执行 BeanDefinitionRegistryPostProcessor.postProcessBeanFactory方法。
3.1.3
接下来,获取到所有BeanFactoryPostProcessor并创建对象,首先,执行PriorityOrdered接口,其次,执行Ordered接口, 最后,执行没有实现优先级 接口,都会执行invokeBeanFactoryPostProcessors()方法。
本次入参是BeanFactoryPostProcessor对象,所以会执行 BeanFactoryPostProcessor.postProcessBeanFactory()方法。
3.1.4 beanFactory.getBeanNamesForType()
spring中如何根据类型获取所有的组件?
DefaultListableBeanFactory#getBeanNamesForType():
@Override
public String[] getBeanNamesForType(@Nullable Class type, boolean includeNonSingletons, boolean allowEagerInit) {
if (!isConfigurationFrozen() || type == null || !allowEagerInit) {
// todo return doGetBeanNamesForType(ResolvableType.forRawClass(type), includeNonSingletons, allowEagerInit);

}
...
}
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// 获取某一个组件 在容器中的名字
private String[] doGetBeanNamesForType(ResolvableType type, boolean includeNonSingletons, boolean allowEagerInit) {
List result = new ArrayList<>();
// Check all bean definitions.
// 因为Spring没有class-bean的对应信息,只能遍历所有的beanName 拿出他们所有的beanName的定义信息,再看是否指定的类型
// 只有在这里bean实例还未创建的时候,才能使用后置处理器干预 bean的类型
for (String beanName : this.beanDefinitionNames) {
// Only consider bean as eligible if the bean name is not defined as alias for some other bean. if (!isAlias(beanName)) { try { RootBeanDefinition mbd = getMergedLocalBeanDefinition(beanName); // Only check bean definition if it is complete. if (!mbd.isAbstract() && (allowEagerInit || (mbd.hasBeanClass() || !mbd.isLazyInit() || isAllowEagerClassLoading()) && !requiresEagerInitForType(mbd.getFactoryBeanName()))) { boolean isFactoryBean = isFactoryBean(beanName, mbd); BeanDefinitionHolder dbd = mbd.getDecoratedDefinition(); boolean matchFound = false; // containsSingleton(beanName) 是否已经创建单例对象 boolean allowFactoryBeanInit = (allowEagerInit || containsSingleton(beanName)); boolean isNonLazyDecorated = (dbd != null && !mbd.isLazyInit()); if (!isFactoryBean) { if (includeNonSingletons || isSingleton(beanName, mbd, dbd)) { // 是否类型匹配 matchFound = isTypeMatch(beanName, type, allowFactoryBeanInit); } } else { if (includeNonSingletons || isNonLazyDecorated || (allowFactoryBeanInit && isSingleton(beanName, mbd, dbd))) { // 是否类型匹配 matchFound = isTypeMatch(beanName, type, allowFactoryBeanInit); } if (!matchFound) { // In case of FactoryBean, try to match FactoryBean instance itself next. beanName = FACTORY_BEAN_PREFIX + beanName; if (includeNonSingletons || isSingleton(beanName, mbd, dbd)) { matchFound = isTypeMatch(beanName, type, allowFactoryBeanInit); } } } if (matchFound) { result.add(beanName); } } } catch (CannotLoadBeanClassException | BeanDefinitionStoreException ex) { if (allowEagerInit) { throw ex; } // Probably a placeholder: let's ignore it for type matching purposes. LogMessage message = (ex instanceof CannotLoadBeanClassException ? LogMessage.format("Ignoring bean class loading failure for bean '%s'", beanName) : LogMessage.format("Ignoring unresolvable metadata in bean definition '%s'", beanName)); logger.trace(message, ex); // Register exception, in case the bean was accidentally unresolvable. onSuppressedException(ex); } catch (NoSuchBeanDefinitionException ex) { // Bean definition got removed while we were iterating -> ignore. } }

}
// Check manually registered singletons too.
for (String beanName : this.manualSingletonNames) {
try { // In case of FactoryBean, match object created by FactoryBean. if (isFactoryBean(beanName)) { if ((includeNonSingletons || isSingleton(beanName)) && isTypeMatch(beanName, type)) { result.add(beanName); // Match found for this bean: do not match FactoryBean itself anymore. continue; } // In case of FactoryBean, try to match FactoryBean itself next. beanName = FACTORY_BEAN_PREFIX + beanName; } // Match raw bean instance (might be raw FactoryBean). if (isTypeMatch(beanName, type)) { result.add(beanName); } } catch (NoSuchBeanDefinitionException ex) { // Shouldn't happen - probably a result of circular reference resolution... logger.trace(LogMessage.format( "Failed to check manually registered singleton with name '%s'", beanName), ex); }

}
return StringUtils.toStringArray(result);
}
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主要步骤:
拿到所有组件的名字,beanDefinitionNames
遍历每一个组件名字
再去BeanDefinitionMap中找bean的定义信息
从定义信息中获取组件的类型
看这个类型是否匹配
3.2 registerBeanPostProcessors(beanFactory)
注册所有bean的后置处理器, PostProcessorRegistrationDelegate#registerBeanPostProcessors():
public static void registerBeanPostProcessors(
ConfigurableListableBeanFactory beanFactory, AbstractApplicationContext applicationContext) {

// WARNING: Although it may appear that the body of this method can be easily
// refactored to avoid the use of multiple loops and multiple lists, the use
// of multiple lists and multiple passes over the names of processors is
// intentional. We must ensure that we honor the contracts for PriorityOrdered
// and Ordered processors. Specifically, we must NOT cause processors to be
// instantiated (via getBean() invocations) or registered in the ApplicationContext
// in the wrong order.
//
// Before submitting a pull request (PR) to change this method, please review the
// list of all declined PRs involving changes to PostProcessorRegistrationDelegate
// to ensure that your proposal does not result in a breaking change:
// https://github.com/spring-pro...
// 获取到容器中所有的BeanPostProcessor, Bean的后置处理器
String[] postProcessorNames = beanFactory.getBeanNamesForType(BeanPostProcessor.class, true, false);
// Register BeanPostProcessorChecker that logs an info message when
// a bean is created during BeanPostProcessor instantiation, i.e. when
// a bean is not eligible for getting processed by all BeanPostProcessors.
int beanProcessorTargetCount = beanFactory.getBeanPostProcessorCount() + 1 + postProcessorNames.length;
beanFactory.addBeanPostProcessor(new BeanPostProcessorChecker(beanFactory, beanProcessorTargetCount));
// Separate between BeanPostProcessors that implement PriorityOrdered,
// Ordered, and the rest.
List priorityOrderedPostProcessors = new ArrayList<>();
List internalPostProcessors = new ArrayList<>();
List orderedPostProcessorNames = new ArrayList<>();
List nonOrderedPostProcessorNames = new ArrayList<>();
for (String ppName : postProcessorNames) {
// 获取所有实现了PriorityOrdered接口 if (beanFactory.isTypeMatch(ppName, PriorityOrdered.class)) { BeanPostProcessor pp = beanFactory.getBean(ppName, BeanPostProcessor.class); priorityOrderedPostProcessors.add(pp); if (pp instanceof MergedBeanDefinitionPostProcessor) { internalPostProcessors.add(pp); } } else if (beanFactory.isTypeMatch(ppName, Ordered.class)) { orderedPostProcessorNames.add(ppName); } else { nonOrderedPostProcessorNames.add(ppName); }

}
// First, register the BeanPostProcessors that implement PriorityOrdered.
// 首先,注册实现了PriorityOrdered 接口的 BeanPostProcessor
sortPostProcessors(priorityOrderedPostProcessors, beanFactory);
registerBeanPostProcessors(beanFactory, priorityOrderedPostProcessors);
// Next, register the BeanPostProcessors that implement Ordered.
// 接下来,注册实现了Ordered 接口的 BeanPostProcessor
List orderedPostProcessors = new ArrayList<>(orderedPostProcessorNames.size());
for (String ppName : orderedPostProcessorNames) {
BeanPostProcessor pp = beanFactory.getBean(ppName, BeanPostProcessor.class); orderedPostProcessors.add(pp); if (pp instanceof MergedBeanDefinitionPostProcessor) { internalPostProcessors.add(pp); }

}
sortPostProcessors(orderedPostProcessors, beanFactory);
registerBeanPostProcessors(beanFactory, orderedPostProcessors);
// Now, register all regular BeanPostProcessors.
// 最后,注册了普通的BeanPostProcessor
List nonOrderedPostProcessors = new ArrayList<>(nonOrderedPostProcessorNames.size());
for (String ppName : nonOrderedPostProcessorNames) {
BeanPostProcessor pp = beanFactory.getBean(ppName, BeanPostProcessor.class); nonOrderedPostProcessors.add(pp); if (pp instanceof MergedBeanDefinitionPostProcessor) { internalPostProcessors.add(pp); }

}
registerBeanPostProcessors(beanFactory, nonOrderedPostProcessors);
// Finally, re-register all internal BeanPostProcessors.
// 最后,注册所有内部的BeanPostProcessors
sortPostProcessors(internalPostProcessors, beanFactory);
registerBeanPostProcessors(beanFactory, internalPostProcessors);
// Re-register post-processor for detecting inner beans as ApplicationListeners,
// moving it to the end of the processor chain (for picking up proxies etc).
// 重新注册一下 ApplicationListenerDetector 这个后置处理器
// 把 它放到后置处理器的最后一个位置
beanFactory.addBeanPostProcessor(new ApplicationListenerDetector(applicationContext));
}
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这个步骤,将bean的后置处理器BeanPostProcessor、MergedBeanDefinitionPostProcessor、SmartInstantiationAwareBeanPostProcessor、InstantiationAwareBeanPostProcessor都注册并初始话实例。
3.3 registerListeners()
这个核心是注册监听器事件,这个我们后面再说,今天主要说明SmartInstantiationAwareBeanPostProcessor.predictBeanType()干预bean的类型。
/**
  • Add beans that implement ApplicationListener as listeners.
  • Doesn't affect other listeners, which can be added without being beans.
  • 多播器 和监听器 是观察者模式,里面包含了所有的监听器
    */
protected void registerListeners() {
...
// 获取ApplicationListener 在ioc容器中注册的bean的名字
String[] listenerBeanNames = getBeanNamesForType(ApplicationListener.class, true, false);
for (String listenerBeanName : listenerBeanNames) {
// 获取所有的监听器,并保存他们的名字在 getApplicationEventMulticaster().addApplicationListenerBean(listenerBeanName);

}
...
}
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也会执行getBeanNamesForType()方法,前面我们简单分析过,我们直接来到:AbstractAutowireCapableBeanFactory#predictBeanType方法:
@Override
@Nullable
protected Class predictBeanType(String beanName, RootBeanDefinition mbd, Class... typesToMatch) {
Class targetType = determineTargetType(beanName, mbd, typesToMatch);
// Apply SmartInstantiationAwareBeanPostProcessors to predict the
// eventual type after a before-instantiation shortcut.
if (targetType != null && !mbd.isSynthetic() && hasInstantiationAwareBeanPostProcessors()) {
boolean matchingOnlyFactoryBean = typesToMatch.length == 1 && typesToMatch[0] == FactoryBean.class; // todo 执行SmartInstantiationAwareBeanPostProcessor.predictBeanType方法 for (SmartInstantiationAwareBeanPostProcessor bp : getBeanPostProcessorCache().smartInstantiationAware) { Class predicted = bp.predictBeanType(targetType, beanName); if (predicted != null && (!matchingOnlyFactoryBean || FactoryBean.class.isAssignableFrom(predicted))) { return predicted; } }

}
return targetType;
}
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在3.1节中 执行Bean工厂的后置处理器的时候,hasInstantiationAwareBeanPostProcessors()为false,所以进入不了这个方法,原因是因为在invokeBeanFactoryPostProcessors()方法的时候,BeanPostProcessor在容器中还没有,所以不会执行。
但是,registerListeners()在registerBeanPostProcessors()方法之后,所以可以执行这个方法,也就是SmartInstantiationAwareBeanPostProcessor.predictBeanType()干预bean的组件类型。
3.4 finishBeanFactoryInitialization()
完成BeanFactory 初始化(工厂里面所有的组件都好了)。 beanFactory.preInstantiateSingletons()-> getBean(beanName)->doGetBean->createBean
protected Object createBean(String beanName, RootBeanDefinition mbd, @Nullable Object[] args)
throws BeanCreationException {

...
try {
// Give BeanPostProcessors a chance to return a proxy instead of the target bean instance. // todo 提前给我们一个机会,去返回组件的代理对象 Object bean = resolveBeforeInstantiation(beanName, mbdToUse); if (bean != null) { return bean; }

}
...
try {
// todo 创建对象 Object beanInstance = doCreateBean(beanName, mbdToUse, args); if (logger.isTraceEnabled()) { logger.trace("Finished creating instance of bean '" + beanName + "'"); } return beanInstance;

}
...
}
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3.4.1 resolveBeforeInstantiation(beanName, mbdToUse)
protected Object resolveBeforeInstantiation(String beanName, RootBeanDefinition mbd) {
Object bean = null;
if (!Boolean.FALSE.equals(mbd.beforeInstantiationResolved)) {
// Make sure bean class is actually resolved at this point. if (!mbd.isSynthetic() && hasInstantiationAwareBeanPostProcessors()) { Class targetType = determineTargetType(beanName, mbd); if (targetType != null) { // todo InstantiationAwareBeanPostProcessor.postProcessBeforeInstantiation()方法 bean = applyBeanPostProcessorsBeforeInstantiation(targetType, beanName); if (bean != null) { bean = applyBeanPostProcessorsAfterInitialization(bean, beanName); } } } mbd.beforeInstantiationResolved = (bean != null);

}
return bean;
}
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protected Object applyBeanPostProcessorsBeforeInstantiation(Class beanClass, String beanName) {
for (InstantiationAwareBeanPostProcessor bp : getBeanPostProcessorCache().instantiationAware) {
// todo执行 Object result = bp.postProcessBeforeInstantiation(beanClass, beanName); if (result != null) { return result; }

}
return null;
}
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在这里执行 InstantiationAwareBeanPostProcessor.postProcessBeforeInstantiation()方法。如果该方法返回true,则直接执行applyBeanPostProcessorsAfterInitialization()方法:
public Object applyBeanPostProcessorsAfterInitialization(Object existingBean, String beanName)
throws BeansException {

Object result = existingBean;
// todo 执行所有BeanPostProcessor.postProcessAfterInitialization()方法
// 所有的BeanPostProcessor类型
for (BeanPostProcessor processor : getBeanPostProcessors()) {
Object current = processor.postProcessAfterInitialization(result, beanName); if (current == null) { return result; } result = current;

}
return result;
}
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在这里执行所有BeanPostProcessor.postProcessAfterInitialization()方法。
接下来,我们看一下doCreateBean方法。
3.4.2 doCreaeBean
protected Object doCreateBean(String beanName, RootBeanDefinition mbd, @Nullable Object[] args)
throws BeanCreationException {

// Instantiate the bean.
BeanWrapper instanceWrapper = null;
// 是否单例
if (mbd.isSingleton()) {
instanceWrapper = this.factoryBeanInstanceCache.remove(beanName);

}
if (instanceWrapper == null) {
// todo 创建Bean实例 ,默认使用无参构造器创建的对象,组件的实例就创建了 instanceWrapper = createBeanInstance(beanName, mbd, args);

}
Object bean = instanceWrapper.getWrappedInstance();
Class beanType = instanceWrapper.getWrappedClass();
if (beanType != NullBean.class) {
mbd.resolvedTargetType = beanType;

}
// Allow post-processors to modify the merged bean definition.
// MergedBeanDefinitionPostProcessor 后置处理器再来修改下BeanDefinition 信息
synchronized (mbd.postProcessingLock) {
if (!mbd.postProcessed) { try { // todo 执行MergedBeanDefinitionPostProcessor.postProcessMergedBeanDefinition()方法 applyMergedBeanDefinitionPostProcessors(mbd, beanType, beanName); } catch (Throwable ex) { throw new BeanCreationException(mbd.getResourceDescription(), beanName, "Post-processing of merged bean definition failed", ex); } mbd.postProcessed = true; }

}
// Eagerly cache singletons to be able to resolve circular references
// even when triggered by lifecycle interfaces like BeanFactoryAware.
// 提前暴露 单实例bean 专门来解决循坏引用的问题
boolean earlySingletonExposure = (mbd.isSingleton() && this.allowCircularReferences &&
isSingletonCurrentlyInCreation(beanName));

if (earlySingletonExposure) {
if (logger.isTraceEnabled()) { logger.trace("Eagerly caching bean '" + beanName + "' to allow for resolving potential circular references"); } // 添加 // 三级缓存中Bean也会被后置处理来增强 addSingletonFactory(beanName, () -> getEarlyBeanReference(beanName, mbd, bean));

}
// Initialize the bean instance.
Object exposedObject = bean;
try {
// todo 对象中的每个属性赋值 populateBean(beanName, mbd, instanceWrapper); // todo 初始化Bean exposedObject = initializeBean(beanName, exposedObject, mbd);

}
...
return exposedObject;
}
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3.4.2.1 createBeanInstance(beanName, mbd, args)
创建bean实例,默认使用无参构造器。
protected BeanWrapper createBeanInstance(String beanName, RootBeanDefinition mbd, @Nullable Object[] args) {
// Make sure bean class is actually resolved at this point.
// 创建bean的类型
Class beanClass = resolveBeanClass(mbd, beanName);
...
// Candidate constructors for autowiring?
// todo 候选的构造器 SmartInstantiationAwareBeanPostProcessor.determineCandidateConstructors()
// 后置处理器有机会在这个决定当前bean使用哪个构造器
Constructor[] ctors = determineConstructorsFromBeanPostProcessors(beanClass, beanName);
if (ctors != null || mbd.getResolvedAutowireMode() == AUTOWIRE_CONSTRUCTOR ||
mbd.hasConstructorArgumentValues() || !ObjectUtils.isEmpty(args)) { // 构造器的方式自动注入与对象创建 return autowireConstructor(beanName, mbd, ctors, args);

}
// Preferred constructors for default construction?
// 使用默认的自己设置的高优先级的构造器
ctors = mbd.getPreferredConstructors();
if (ctors != null) {
return autowireConstructor(beanName, mbd, ctors, null);

}
// No special handling: simply use no-arg constructor.
// 默认使用无参构造器为当前组件创建对象
return instantiateBean(beanName, mbd);
}
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在determineConstructorsFromBeanPostProcessors方法中可以决定使用构造器。
protected Constructor[] determineConstructorsFromBeanPostProcessors(@Nullable Class beanClass, String beanName)
throws BeansException {

if (beanClass != null && hasInstantiationAwareBeanPostProcessors()) {
for (SmartInstantiationAwareBeanPostProcessor bp : getBeanPostProcessorCache().smartInstantiationAware) { // todo 执行SmartInstantiationAwareBeanPostProcessor.determineCandidateConstructors()方法 Constructor[] ctors = bp.determineCandidateConstructors(beanClass, beanName); if (ctors != null) { return ctors; } }

}
return null;
}
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在这里执行SmartInstantiationAwareBeanPostProcessor.determineCandidateConstructors()方法。
3.4.2.2 applyMergedBeanDefinitionPostProcessors(mbd, beanType, beanName)
protected void applyMergedBeanDefinitionPostProcessors(RootBeanDefinition mbd, Class beanType, String beanName) {
// todo 执行MergedBeanDefinitionPostProcessor.postProcessMergedBeanDefinition()方法
for (MergedBeanDefinitionPostProcessor processor : getBeanPostProcessorCache().mergedDefinition) {
processor.postProcessMergedBeanDefinition(mbd, beanType, beanName);

}
}
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在这里执行MergedBeanDefinitionPostProcessor.postProcessMergedBeanDefinition()方法。
3.4.2.3 populateBean(beanName, mbd, instanceWrapper)
对每个属性进行赋值操作。
protected void populateBean(String beanName, RootBeanDefinition mbd, @Nullable BeanWrapper bw) {
...
// 属性赋值之前,后置处理器可以提前准备些东西
// @AutoWired 赋值也在这里 AutowiredAnnotationBeanPostProcessor(直接返回true 没有其他的处理),可以中断初始化行为
//
if (!mbd.isSynthetic() && hasInstantiationAwareBeanPostProcessors()) {
for (InstantiationAwareBeanPostProcessor bp : getBeanPostProcessorCache().instantiationAware) { // todo 执行InstantiationAwareBeanPostProcessor.postProcessAfterInstantiation() 方法 if (!bp.postProcessAfterInstantiation(bw.getWrappedInstance(), beanName)) { return; } }

} // 以上的后置处理器可以中断下面的初始化行为
...
boolean hasInstAwareBpps = hasInstantiationAwareBeanPostProcessors();
boolean needsDepCheck = (mbd.getDependencyCheck() != AbstractBeanDefinition.DEPENDENCY_CHECK_NONE);
PropertyDescriptor[] filteredPds = null;
if (hasInstAwareBpps) {
if (pvs == null) { // xml中property标签指定的 pvs = mbd.getPropertyValues(); } // 注解版的属性赋值 后置处理器处理属性(真正的自动装配) for (InstantiationAwareBeanPostProcessor bp : getBeanPostProcessorCache().instantiationAware) { // todo 执行InstantiationAwareBeanPostProcessor.postProcessProperties() 方法 PropertyValues pvsToUse = bp.postProcessProperties(pvs, bw.getWrappedInstance(), beanName); if (pvsToUse == null) { if (filteredPds == null) { filteredPds = filterPropertyDescriptorsForDependencyCheck(bw, mbd.allowCaching); } pvsToUse = bp.postProcessPropertyValues(pvs, filteredPds, bw.getWrappedInstance(), beanName); if (pvsToUse == null) { return; } } pvs = pvsToUse; //封装了当前bean的所有属性名和值,可以由后置处理器处理得到 }

}
...
if (pvs != null) { // 把以前处理好的PropertyValues 给bean里面设置一下,主要是上面步骤没有给bean里面设置的属性
// xml版 的所有配置会来到这里 给属性赋值 applyPropertyValues(beanName, mbd, bw, pvs);

}
}
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这里,会执行2个后置处理器的方法:
执行InstantiationAwareBeanPostProcessor.postProcessAfterInstantiation() 方法
执行InstantiationAwareBeanPostProcessor.postProcessProperties() 方法
3.4.2.4 initializeBean(beanName, exposedObject, mbd)
对bean进行初始化操作。
protected Object initializeBean(String beanName, Object bean, @Nullable RootBeanDefinition mbd) {
if (System.getSecurityManager() != null) {
AccessController.doPrivileged((PrivilegedAction) () -> { invokeAwareMethods(beanName, bean); return null; }, getAccessControlContext());
}
else {
// 组件有Aware接口,先Aware; BeanNameAware BeanClassLoaderAware BeanFactoryAware invokeAwareMethods(beanName, bean);

}
Object wrappedBean = bean;
if (mbd == null || !mbd.isSynthetic()) {
// todo 执行后置处理器的 BeforeInitialization,可以改变之前创建的bean实例 wrappedBean = applyBeanPostProcessorsBeforeInitialization(wrappedBean, beanName);

}
try {
// todo 执行初始化方法 实现InitializingBean 的接口 invokeInitMethods(beanName, wrappedBean, mbd);

}
catch (Throwable ex) {
throw new BeanCreationException( (mbd != null ? mbd.getResourceDescription() : null), beanName, "Invocation of init method failed", ex);

}
if (mbd == null || !mbd.isSynthetic()) {
// todo 执行后置处理器的postProcessAfterInitialization wrappedBean = applyBeanPostProcessorsAfterInitialization(wrappedBean, beanName);

}
return wrappedBean;
}
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在这里,执行三个后置处理器的方法:
执行所有BeanPostProcessor.postProcessBeforeInitialization()方法
实现InitializingBean 的接口,执行初始化方法实现InitializingBean.afterPropertiesSet() 方法
执行所有BeanPostProcessor.postProcessAfterInitialization()方法
到此,bean生命周期的所有后置处理器方法的执行时机已经全部展示出来

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