一、Bean的实例化概述
前一篇分析了BeanDefinition的封装过程,最终将beanName与BeanDefinition以一对一映射关系放到beanDefinitionMap容器中,这一篇重点分析如何利用bean的定义信息BeanDefinition实例化bean。
二、流程概览
其实bean的实例化过程比较复杂,中间细节很多,为了抓住重点,先将核心流程梳理出来,主要包含以下几个流程:
-
step1
: 通过反射创建实例; -
step2
:给实例属性赋初始值; -
step3
:如果Bean类实现BeanNameAware接口,则将通过传递Bean的名称来调用setBeanName()方法;如果Bean类实现BeanClassLoaderAware接口,则将通过传递加载此Bean的ClassLoader对象的实例来调用setBeanClassLoader()方法;如果Bean类实现BeanFactoryAware接口,则将通过传递BeanFactory对象的实例来调用setBeanFactory()方法; -
step4
: 如果有类实现BeanPostProcessors接口,则将在初始化之前调用postProcessBeforeInitialization()方法; -
step5
:如果Bean类实现了InitializingBean接口,将调用afterPropertiesSet()方法,如果配置文件中的Bean定义包含init-method属性,则该属性的值将解析为Bean类中的方法名称,并将调用该方法; -
step6
: 如果有类实现BeanPostProcessors接口,则将在初始化之后调用postProcessAfterInitialization()方法; -
step7
:如果Bean类实现DisposableBean接口,则当Application不再需要Bean引用时,将调用destroy()方法;如果配置文件中的Bean定义包含destroy-method属性,那么将调用Bean类中的相应方法定义。
三、源码分析
进入AbstractApplicationContext中的fresh()方法,找到finishBeanFactoryInitialization(beanFactory)方法,该类是bean的实例化的入口,具体的实例化由preInstantiateSingletons()方法触发,见如下代码:
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public void preInstantiateSingletons() throws BeansException
if (logger.isTraceEnabled()) {
logger.trace( "Pre-instantiating singletons in " + this );
}
// Iterate over a copy to allow for init methods which in turn register new bean definitions.
// While this may not be part of the regular factory bootstrap, it does otherwise work fine.
//xml解析时,把所有beanName都缓存到beanDefinitionNames了
List<String> beanNames = new ArrayList<>( this .beanDefinitionNames);
// Trigger initialization of all non-lazy singleton beans...
for (String beanName : beanNames) {
//把父BeanDefinition里面的属性拿到子BeanDefinition中
RootBeanDefinition bd = getMergedLocalBeanDefinition(beanName);
//如果不是抽象的,单例的,非懒加载的就实例化
if (!bd.isAbstract() && bd.isSingleton() && !bd.isLazyInit()) {
//判断bean是否实现了FactoryBean接口
if (isFactoryBean(beanName)) {
Object bean = getBean(FACTORY_BEAN_PREFIX + beanName);
if (bean instanceof FactoryBean) {
FactoryBean<?> factory = (FactoryBean<?>) bean;
boolean isEagerInit;
if (System.getSecurityManager() != null && factory instanceof SmartFactoryBean) {
isEagerInit = AccessController.doPrivileged(
(PrivilegedAction<Boolean>) ((SmartFactoryBean<?>) factory)::isEagerInit,
getAccessControlContext());
}
else {
isEagerInit = (factory instanceof SmartFactoryBean &&
((SmartFactoryBean<?>) factory).isEagerInit());
}
if (isEagerInit) {
getBean(beanName);
}
}
}
else {
// 实例化过程
getBean(beanName);
}
}
}
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上述代码主要看getBean
方法,随后进入doGetBean
方法:
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protected <T> T doGetBean(
String name, @Nullable Class<T> requiredType, @Nullable Object[] args, boolean typeCheckOnly)
throws BeansException {
String beanName = transformedBeanName(name);
Object bean;
// 从缓存中获取bean.
Object sharedInstance = getSingleton(beanName);
if (sharedInstance != null && args == null ) {
if (logger.isTraceEnabled()) {
if (isSingletonCurrentlyInCreation(beanName)) {
logger.trace( "Returning eagerly cached instance of singleton bean '" + beanName +
"' that is not fully initialized yet - a consequence of a circular reference" );
}
else {
logger.trace( "Returning cached instance of singleton bean '" + beanName + "'" );
}
}
bean = getObjectForBeanInstance(sharedInstance, name, beanName, null );
}
else {
// Fail if we're already creating this bean instance:
// We're assumably within a circular reference.
if (isPrototypeCurrentlyInCreation(beanName)) {
throw new BeanCurrentlyInCreationException(beanName);
}
// Check if bean definition exists in this factory.
BeanFactory parentBeanFactory = getParentBeanFactory();
if (parentBeanFactory != null && !containsBeanDefinition(beanName)) {
// Not found -> check parent.
String nameToLookup = originalBeanName(name);
if (parentBeanFactory instanceof AbstractBeanFactory) {
return ((AbstractBeanFactory) parentBeanFactory).doGetBean(
nameToLookup, requiredType, args, typeCheckOnly);
}
else if (args != null ) {
// Delegation to parent with explicit args.
return (T) parentBeanFactory.getBean(nameToLookup, args);
}
else if (requiredType != null ) {
// No args -> delegate to standard getBean method.
return parentBeanFactory.getBean(nameToLookup, requiredType);
}
else {
return (T) parentBeanFactory.getBean(nameToLookup);
}
}
if (!typeCheckOnly) {
markBeanAsCreated(beanName);
}
try {
RootBeanDefinition mbd = getMergedLocalBeanDefinition(beanName);
checkMergedBeanDefinition(mbd, beanName, args);
// Guarantee initialization of beans that the current bean depends on.
String[] dependsOn = mbd.getDependsOn();
if (dependsOn != null ) {
for (String dep : dependsOn) {
if (isDependent(beanName, dep)) {
throw new BeanCreationException(mbd.getResourceDescription(), beanName,
"Circular depends-on relationship between '" + beanName + "' and '" + dep + "'" );
}
registerDependentBean(dep, beanName);
try {
getBean(dep);
}
catch (NoSuchBeanDefinitionException ex) {
throw new BeanCreationException(mbd.getResourceDescription(), beanName,
"'" + beanName + "' depends on missing bean '" + dep + "'" , ex);
}
}
}
// Create bean instance
// 创建bean实例
if (mbd.isSingleton()) {
sharedInstance = getSingleton(beanName, () -> {
try {
return createBean(beanName, mbd, args);
}
catch (BeansException ex) {
// Explicitly remove instance from singleton cache: It might have been put there
// eagerly by the creation process, to allow for circular reference resolution.
// Also remove any beans that received a temporary reference to the bean.
destroySingleton(beanName);
throw ex;
}
});
bean = getObjectForBeanInstance(sharedInstance, name, beanName, mbd);
}
...
}
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由上述代码可知,先从缓存中获取bean,如果没有,则创建bean,最重要的方法就是getSingleton,该方法第二个参数是个函数式接口,进入getSingleton方法,当调用singletonObject = singletonFactory.getObject()
时,会触发函数式接口中的createBean方法,随后一路进入doCreateBean,这个方法里面完成了所有实例化所需的步骤:
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protected Object doCreateBean(String beanName, RootBeanDefinition mbd, @Nullable Object[] args)
throws BeanCreationException {
// Instantiate the bean.
// 真正开始创建bean的实例.
BeanWrapper instanceWrapper = null ;
if (mbd.isSingleton()) {
instanceWrapper = this .factoryBeanInstanceCache.remove(beanName);
}
if (instanceWrapper == null ) {
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.
synchronized (mbd.postProcessingLock) {
if (!mbd.postProcessed) {
try {
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.
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" );
}
addSingletonFactory(beanName, () -> getEarlyBeanReference(beanName, mbd, bean));
}
// Initialize the bean instance.
Object exposedObject = bean;
try {
// 属性赋值
populateBean(beanName, mbd, instanceWrapper);
// 初始化bean
exposedObject = initializeBean(beanName, exposedObject, mbd);
}
catch (Throwable ex) {
if (ex instanceof BeanCreationException && beanName.equals(((BeanCreationException) ex).getBeanName())) {
throw (BeanCreationException) ex;
}
else {
throw new BeanCreationException(
mbd.getResourceDescription(), beanName, "Initialization of bean failed" , ex);
}
}
if (earlySingletonExposure) {
Object earlySingletonReference = getSingleton(beanName, false );
if (earlySingletonReference != null ) {
if (exposedObject == bean) {
exposedObject = earlySingletonReference;
}
else if (! this .allowRawInjectionDespiteWrapping && hasDependentBean(beanName)) {
String[] dependentBeans = getDependentBeans(beanName);
Set<String> actualDependentBeans = new LinkedHashSet<>(dependentBeans.length);
for (String dependentBean : dependentBeans) {
if (!removeSingletonIfCreatedForTypeCheckOnly(dependentBean)) {
actualDependentBeans.add(dependentBean);
}
}
if (!actualDependentBeans.isEmpty()) {
throw new BeanCurrentlyInCreationException(beanName,
"Bean with name '" + beanName + "' has been injected into other beans [" +
StringUtils.collectionToCommaDelimitedString(actualDependentBeans) +
"] in its raw version as part of a circular reference, but has eventually been " +
"wrapped. This means that said other beans do not use the final version of the " +
"bean. This is often the result of over-eager type matching - consider using " +
"'getBeanNamesForType' with the 'allowEagerInit' flag turned off, for example." );
}
}
}
}
// Register bean as disposable.
// 有必要时,注册bean的销毁
try {
registerDisposableBeanIfNecessary(beanName, bean, mbd);
}
catch (BeanDefinitionValidationException ex) {
throw new BeanCreationException(
mbd.getResourceDescription(), beanName, "Invalid destruction signature" , ex);
}
return exposedObject;
}
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从上述源码中看出bean的实例化主要分为以下三步:
-
step1
:bean的创建; -
step2
:给bean的属性赋值; -
step3
:bean的初始化;
接着得到exposedObject这个已经完全实例化后的bean返回,其中当有必要时,注册bean的销毁,后面再详细看,先抓住主要流程。其中step3也是比较重要的方法,进入该方法:
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protected Object initializeBean(String beanName, Object bean, @Nullable RootBeanDefinition mbd) {
if (System.getSecurityManager() != null ) {
AccessController.doPrivileged((PrivilegedAction<Object>) () -> {
invokeAwareMethods(beanName, bean);
return null ;
}, getAccessControlContext());
}
else {
// 激活aware接口
invokeAwareMethods(beanName, bean);
}
Object wrappedBean = bean;
if (mbd == null || !mbd.isSynthetic()) {
// 初始化前处理的beanPostProcessor
wrappedBean = applyBeanPostProcessorsBeforeInitialization(wrappedBean, beanName);
}
try {
// 激活 init-method方法
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()) {
// 初始化后处理的beanPostProcessor
wrappedBean = applyBeanPostProcessorsAfterInitialization(wrappedBean, beanName);
}
return wrappedBean;
}
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从上面源码可知,梳理出主要的四个步骤:
-
step1
:激活aware接口,完成aware接口的相关操作; -
step2
:初始化前处理的beanPostProcessor; -
step3
:完成init-method方法; -
step4
:初始化后处理的beanPostProcessor;
BeanPostProcessor作用是对初始化后的bean进行增强处理,在该阶段 BeanPostProcessor 会处理当前容器内所有符合条件的实例化后的 bean 对象。它主要是对 Spring 容器提供的 bean 实例对象进行有效的扩展,允许Spring在初始化 bean 阶段对其进行定制化修改,如处理标记接口或者为其提供代理实现。
四、演示
定义一个MyBeanPostProcessor实现BeanPostProcessor接口
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public class MyBeanPostProcessor implements BeanPostProcessor {
@Override
public Object postProcessBeforeInitialization(Object bean, String beanName) throws BeansException {
System.out.println( "post Process Before Initialization 被调用..." );
return bean;
}
@Override
public Object postProcessAfterInitialization(Object bean, String beanName) throws BeansException {
System.out.println( "post Process after Initialization 被调用..." );
return bean;
}
}
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定义一个LifeCycleBean类,实现如下接口:
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public class LifeCycleBean implements BeanNameAware, BeanFactoryAware, BeanClassLoaderAware,
InitializingBean, DisposableBean {
private String property;
public String getProperty() {
return property;
}
public void setProperty(String property) {
System.out.println( "属性注入...." );
this .property = property;
}
public LifeCycleBean(){
System.out.println( "构造函数调用..." );
}
@Override
public void setBeanClassLoader(ClassLoader classLoader) {
System.out.println( "BeanClassLoaderAware 被调用..." );
}
@Override
public void setBeanFactory(BeanFactory beanFactory) throws BeansException {
System.out.println( "BeanFactoryAware 被调用..." );
}
@Override
public void setBeanName(String name) {
System.out.println( "BeanNameAware 被调用..." );
}
@Override
public void destroy() throws Exception {
System.out.println( "DisposableBean destroy 被调用..." );
}
@Override
public void afterPropertiesSet() throws Exception {
System.out.println( "InitializingBean afterPropertiesSet 被调用..." );
}
public void initMethod(){
System.out.println( "init-method 被调用..." );
}
public void destroyMethod(){
System.out.println( "destroy-method 被调用..." );
}
public void display(){
System.out.println( "方法调用..." );
}
}
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指定配置文件spring.xml,配置init-method
与destroy-method
方法
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<bean id= "lifeCycle" class = "com.wzj.bean.LifeCycleBean"
init-method= "initMethod" destroy-method= "destroyMethod" >
<property name= "property" value= "property" />
</bean>
<bean id= "myBeanPostProcessor" class = "com.wzj.bean.MyBeanPostProcessor" >
</bean>
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测试类如下:
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@RunWith (SpringJUnit4ClassRunner. class )
@ContextConfiguration (locations = { "classpath:spring.xml" })
public class TestSpring {
@Test
public void testLifeCycleBean() {
ClassPathXmlApplicationContext context = new ClassPathXmlApplicationContext( "spring.xml" );
}
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执行结果:
构造函数调用...
属性注入....
BeanNameAware 被调用...
BeanClassLoaderAware 被调用...
BeanFactoryAware 被调用...
post Process Before Initialization 被调用...
InitializingBean afterPropertiesSet 被调用...
init-method 被调用...
post Process after Initialization 被调用...
DisposableBean destroy 被调用...
destroy-method 被调用...
五、总结
本篇从一个初学者的角度概览了bean的整个生命周期,并描述了其中的主要流程,阅读源码的初始阶段,优先抓住主要流程,别陷入细节,并通过跑案例、写注解、画流程图等方式加深理解,后续将继续分析bean实例化中的核心流程、设计思想等。
到此这篇关于Spring源码解析之Bean的生命周期的文章就介绍到这了,更多相关Bean的生命周期内容请搜索服务器之家以前的文章或继续浏览下面的相关文章希望大家以后多多支持服务器之家!
原文链接:https://www.cnblogs.com/father-of-little-pig/p/14927428.html