1、找准入口,使用ClassPathXmlApplicationContext的构造方法加载配置文件,用于加载classPath下的配置文件
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//第一行,执行完成之后就完成了spring配置文件的加载,刷新spring上下文 ClassPathXmlApplicationContext context= new ClassPathXmlApplicationContext( "classpath:spring-mvc.xml" ); //获取实例Bean Person person=context.getBean( "person" ,Person. class ); |
2、ClassPathXmlApplicationContext构造方法源码如下:
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public ClassPathXmlApplicationContext(String[] configLocations, boolean refresh, ApplicationContext parent) throws BeansException { //设置父级的ApplicationContext,null super (parent); //1.设置配置文件的路径, 2. 将路径中的占位符${placeholder}使用系统的变量替换 setConfigLocations(configLocations); if (refresh) { refresh(); } } |
3、主要方法为setConfigLocation(configLocation),这个方法调用其父类AbstractRefreshableConfigApplicationContext中的方法
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//locations : 配置文件路径 public void setConfigLocations(String[] locations) { if (locations != null ) { //断言 Assert.noNullElements(locations, "Config locations must not be null" ); //存储配置文件路径的数组,存储去掉占位符后的文件路径数组 this .configLocations = new String[locations.length]; //遍历locations,解析占位符 for ( int i = 0 ; i < locations.length; i++) { //调用resolvePath解析占位符 this .configLocations[i] = resolvePath(locations[i]).trim(); } } else { this .configLocations = null ; } } |
4、进入resovePath的源码,实际上执行的是AbstractPropertyResolver的doResolverPlaceholders方法
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/** * text : 需要解析的路径 * PropertyPlaceholderHelper : 这个是解析系统占位符的辅助类,主要用来将占位符替换成系统的环境变量 */ private String doResolvePlaceholders(String text, PropertyPlaceholderHelper helper) { //调用PropertyPlaceholderHelper类中的replacePlaceholders方法 return helper.replacePlaceholders(text, new PropertyPlaceholderHelper.PlaceholderResolver() { public String resolvePlaceholder(String placeholderName) { return getPropertyAsRawString(placeholderName); } }); } |
5、进入PropertyHelper的replacePlaceholder方法,实际上调用PropertyPlaceholderHelper的parseStringValue解析占位符
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public String replacePlaceholders(String value, PlaceholderResolver placeholderResolver) { Assert.notNull(value, "Argument 'value' must not be null." ); //调用的是parseStringValue方法 return parseStringValue(value, placeholderResolver, new HashSet<String>()); } /** * strVal : 需要解析的字符串,就是配置文件的路径 * placeholderResolver : 策略接口,占位符解析器 * visitedPlaceholders : 存储已经访问过的占位符 **/ protected String parseStringValue( String strVal, PlaceholderResolver placeholderResolver, Set<String> visitedPlaceholders) { //将strval转换成StringBuilder,便于后续到操作 StringBuilder buf = new StringBuilder(strVal); //this.placeholderPrefix这个是占位符的前缀 ${,在创建PropertyHelper的时候就已经指定了占位符的placeholderPrefix="${" ,placeholderSuffix="}",valueSeparator=":" //获取前缀在这个配置文件路径中的开始索引 int startIndex = strVal.indexOf( this .placeholderPrefix); while (startIndex != - 1 ) { //占位符前缀在路径中的结束索引 int endIndex = findPlaceholderEndIndex(buf, startIndex); //如果结束索引存在 if (endIndex != - 1 ) { //此时取出${plcaeholder}中的占位符内容placeholder String placeholder = buf.substring(startIndex + this .placeholderPrefix.length(), endIndex); //保存取出来的占位符内容placeholder String originalPlaceholder = placeholder; //如果占位符中的内容已经被访问过了,抛出出异常返回,递归结束的条件 if (!visitedPlaceholders.add(originalPlaceholder)) { throw new IllegalArgumentException( "Circular placeholder reference '" + originalPlaceholder + "' in property definitions" ); } //递归解析已经取出的占位符中的内容 palceholder placeholder = parseStringValue(placeholder, placeholderResolver, visitedPlaceholders); //这个最重要的一步,将解析占位符内容placeholder的值,比如将java.version转换成1.8.0_60 String propVal = placeholderResolver.resolvePlaceholder(placeholder); if (propVal == null && this .valueSeparator != null ) { int separatorIndex = placeholder.indexOf( this .valueSeparator); if (separatorIndex != - 1 ) { String actualPlaceholder = placeholder.substring( 0 , separatorIndex); String defaultValue = placeholder.substring(separatorIndex + this .valueSeparator.length()); propVal = placeholderResolver.resolvePlaceholder(actualPlaceholder); if (propVal == null ) { propVal = defaultValue; } } } //如果解析出来的占位符不为空,比如${java.version}将被解析成 1.8.0_60 if (propVal != null ) { //此时继续递归解析出1.8.0_60中的占位符 propVal = parseStringValue(propVal, placeholderResolver, visitedPlaceholders); //将路径中的占位符替换成系统变量的值,比如将${java.version} 替换成 1.8.0_60 buf.replace(startIndex, endIndex + this .placeholderSuffix.length(), propVal); if (logger.isTraceEnabled()) { logger.trace( "Resolved placeholder '" + placeholder + "'" ); } //继续在路径字符串中剩余的子串中查找占位符,如果有占位符,那么还会继续解析占位符 startIndex = buf.indexOf( this .placeholderPrefix, startIndex + propVal.length()); } else if ( this .ignoreUnresolvablePlaceholders) { // Proceed with unprocessed value. startIndex = buf.indexOf( this .placeholderPrefix, endIndex + this .placeholderSuffix.length()); } else { throw new IllegalArgumentException( "Could not resolve placeholder '" + placeholder + "'" + " in string value \"" + strVal + "\"" ); } //将已转换成功的占位符从以访问的集合中移除即可 visitedPlaceholders.remove(originalPlaceholder); } else { startIndex = - 1 ; } } return buf.toString(); //将解析完成之后的配置文件返回 } |
6、然后是ClassPathXmlApplicationContext中的refresh方法,实际上调用的是父类AbstractApplicationContext的方法
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//刷新spring上下文 public void refresh() throws BeansException, IllegalStateException { synchronized ( this .startupShutdownMonitor) { //在刷新之前设置一些参数,比如设置开始时间戳,上下文是否激活的标志,输出刷新上下文的信息,验证一些必要的属性 prepareRefresh(); //需要创建beanFactory,如果已经存在beanFactory,那么关闭,详细其请看 10 ConfigurableListableBeanFactory beanFactory = obtainFreshBeanFactory(); // 准备上下文工厂,详情见12 prepareBeanFactory(beanFactory); try { //允许子类向后置处理器添加组件 postProcessBeanFactory(beanFactory); // 调用BeanFactoryPostProcessor和BeanDefintionRegistoryPostProcessor这两个后置处理器 invokeBeanFactoryPostProcessors(beanFactory); // 注册BeanPostProcessor,用来拦截bean的创建,详情见 14 registerBeanPostProcessors(beanFactory); //初始化消息源 initMessageSource(); // 初始化应用程序事件广播器,用户可以自定义一个事件广播器,如果用户没有定义,那么使用默认的事件广播器SimpleApplicationEventMulticaster initApplicationEventMulticaster(); // 在其他子类中初始化bean onRefresh(); // 检测事件监听器 registerListeners(); //完成实例化剩余的单例(non-lazy-init) finishBeanFactoryInitialization(beanFactory); // 完成刷新,初始化生命周期处理器...... finishRefresh(); } catch (BeansException ex) { // Destroy already created singletons to avoid dangling resources. destroyBeans(); // Reset 'active' flag. cancelRefresh(ex); // Propagate exception to caller. throw ex; } } } |
7、进入obtainFreshBeanFactory方法
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//AbastractApplicationContext的方法 protected ConfigurableListableBeanFactory obtainFreshBeanFactory() { //实际刷新上下文的方法,这个方法就是实际的刷新上下文方法,其中会调用loadBeanDefinitions(beanFactory);加载配置文件中的内容到BeanDefiniton中 refreshBeanFactory(); ConfigurableListableBeanFactory beanFactory = getBeanFactory(); if (logger.isDebugEnabled()) { logger.debug( "Bean factory for " + getDisplayName() + ": " + beanFactory); } return beanFactory; } //org.springframework.context.support.AbstractRefreshableApplicationContext中的方法 //AbstractApplicationContext的子类中的方法 @Override protected final void refreshBeanFactory() throws BeansException { //如果其中有beanfactory,那么销毁 if (hasBeanFactory()) { destroyBeans(); closeBeanFactory(); } try { //重新创建一个beanFactory DefaultListableBeanFactory beanFactory = createBeanFactory(); //设置序列化id beanFactory.setSerializationId(getId()); //定制beanFactory,设置相关属性,包括是否允许覆盖名称的不同定义的对象及循环依赖以及 //设置@Autowired和@Qualifier,注解解析器QualifierAnnotationAutowireCandidateResolver customizeBeanFactory(beanFactory); //加载BeanDefine 详情见 11 loadBeanDefinitions(beanFactory); synchronized ( this .beanFactoryMonitor) { this .beanFactory = beanFactory; } } catch (IOException ex) { throw new ApplicationContextException( "I/O error parsing bean definition source for " + getDisplayName(), ex); } } |
8、进入loadBeanDefinitions(beanFactory)方法
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//这个是org.springframework.context.support.AbstractXmlApplicationContext类中的方法 protected void loadBeanDefinitions(DefaultListableBeanFactory beanFactory) throws BeansException, IOException { //创建要给beanDefinitionReader,用于读取BeanDefinition XmlBeanDefinitionReader beanDefinitionReader = new XmlBeanDefinitionReader(beanFactory); //配置XmlBeanDefinitionReader beanDefinitionReader.setEnvironment( this .getEnvironment()); beanDefinitionReader.setResourceLoader( this ); beanDefinitionReader.setEntityResolver( new ResourceEntityResolver( this )); initBeanDefinitionReader(beanDefinitionReader); //加载BeanDefiniton,主要的功能从配置文件中读取BeanDefiniton注册到注册表中 loadBeanDefinitions(beanDefinitionReader); } |
9、prepareBeanFactory:准备BeanFactory
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//准备BeanFactory,设置一些参数,比如后置处理器, protected void prepareBeanFactory(ConfigurableListableBeanFactory beanFactory) { //设置类加载器 beanFactory.setBeanClassLoader(getClassLoader()); //设置表达式解析器,用来解析BeanDefiniton中的带有表达式的值 beanFactory.setBeanExpressionResolver( new StandardBeanExpressionResolver(beanFactory.getBeanClassLoader())); beanFactory.addPropertyEditorRegistrar( new ResourceEditorRegistrar( this , getEnvironment())); // 配置后置处理器,主要的作用就是在spring实例化bean的前后做一些操作 beanFactory.addBeanPostProcessor( new ApplicationContextAwareProcessor( this )); //忽略自动装配的类,这些类都不能使用@Resource或者@Autowired自动装配获取对象 beanFactory.ignoreDependencyInterface(EnvironmentAware. class ); beanFactory.ignoreDependencyInterface(EmbeddedValueResolverAware. class ); beanFactory.ignoreDependencyInterface(ResourceLoaderAware. class ); beanFactory.ignoreDependencyInterface(ApplicationEventPublisherAware. class ); beanFactory.ignoreDependencyInterface(MessageSourceAware. class ); beanFactory.ignoreDependencyInterface(ApplicationContextAware. class ); //注册可解析的自动装配类 beanFactory.registerResolvableDependency(BeanFactory. class , beanFactory); beanFactory.registerResolvableDependency(ResourceLoader. class , this ); beanFactory.registerResolvableDependency(ApplicationEventPublisher. class , this ); beanFactory.registerResolvableDependency(ApplicationContext. class , this ); //在添加一个应用程序监听器 beanFactory.addBeanPostProcessor( new ApplicationListenerDetector( this )); //检查这些类是否被 if (beanFactory.containsBean(LOAD_TIME_WEAVER_BEAN_NAME)) { beanFactory.addBeanPostProcessor( new LoadTimeWeaverAwareProcessor(beanFactory)); beanFactory.setTempClassLoader( new ContextTypeMatchClassLoader(beanFactory.getBeanClassLoader())); } // 将下面这些类注册到容器中,使用registerSingleton方法注册,我们可以直接从容器中获取这些类的对象使用 if (!beanFactory.containsLocalBean(ENVIRONMENT_BEAN_NAME)) { beanFactory.registerSingleton(ENVIRONMENT_BEAN_NAME, getEnvironment()); } if (!beanFactory.containsLocalBean(SYSTEM_PROPERTIES_BEAN_NAME)) { beanFactory.registerSingleton(SYSTEM_PROPERTIES_BEAN_NAME, getEnvironment().getSystemProperties()); } if (!beanFactory.containsLocalBean(SYSTEM_ENVIRONMENT_BEAN_NAME)) { beanFactory.registerSingleton(SYSTEM_ENVIRONMENT_BEAN_NAME, getEnvironment().getSystemEnvironment()); } } |
10、调用BeanFactory的后置处理器,主要的功能就是调用注册在容器中的BeanFactoryPostProcessor和BeanDefinitionRegistoryPostProcessor
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//实例化和调用BeanFactory后置处理器,必须在单例实例化之前调用 protected void invokeBeanFactoryPostProcessors(ConfigurableListableBeanFactory beanFactory) { //调用后置处理器注册委托类的方法调用,getBeanFactoryPostProcessors用于获取注册的全部的BeanFactoryPostProcessor PostProcessorRegistrationDelegate.invokeBeanFactoryPostProcessors(beanFactory, getBeanFactoryPostProcessors()); } //实际的调用方法,PostProcessorRegistrationDelegate中的方法 public static void invokeBeanFactoryPostProcessors( ConfigurableListableBeanFactory beanFactory, List<BeanFactoryPostProcessor> beanFactoryPostProcessors) { // Invoke BeanDefinitionRegistryPostProcessors first, if any. Set<String> processedBeans = new HashSet<String>(); //如果beanFactory是BeanDefinitionRegistry的子类,BeanDefinitionRegistry使用来向注册表中注册Bean的元信息的(BeanDefintion) if (beanFactory instanceof BeanDefinitionRegistry) { BeanDefinitionRegistry registry = (BeanDefinitionRegistry) beanFactory; //存放BeanFactoryPostProcessor List<BeanFactoryPostProcessor> regularPostProcessors = new LinkedList<BeanFactoryPostProcessor>(); //存放BeanDefinitionRegistryPostProcessor List<BeanDefinitionRegistryPostProcessor> registryPostProcessors = new LinkedList<BeanDefinitionRegistryPostProcessor>(); //遍历。判断是否是BeanDefinitionRegistryPostProcessor实例 for (BeanFactoryPostProcessor postProcessor : beanFactoryPostProcessors) { if (postProcessor instanceof BeanDefinitionRegistryPostProcessor) { BeanDefinitionRegistryPostProcessor registryPostProcessor = (BeanDefinitionRegistryPostProcessor) postProcessor; //调用BeanDefinitionRegistryPostProcessor registryPostProcessor.postProcessBeanDefinitionRegistry(registry); //添加 registryPostProcessors.add(registryPostProcessor); } else { //表示这个是BeanFactoryPostProcessor实例,添加进集合 regularPostProcessors.add(postProcessor); } } //--- 根据类型类型获取beanFactory中注册的BeanDefinitionRegistryPostProcessor的bean的所有名称数组 String[] postProcessorNames = beanFactory.getBeanNamesForType(BeanDefinitionRegistryPostProcessor. class , true , false ); // ---- 首先调用的是BeanDefinitionRegistryPostProcessor类型的后置处理器 //存放实现PriorityOrdered这个接口的BeanDefinitionRegistryPostProcessor List<BeanDefinitionRegistryPostProcessor> priorityOrderedPostProcessors = new ArrayList<BeanDefinitionRegistryPostProcessor>(); //遍历,如果实现了PriorityOrdered这个接口就保存下来 for (String ppName : postProcessorNames) { if (beanFactory.isTypeMatch(ppName, PriorityOrdered. class )) { priorityOrderedPostProcessors.add(beanFactory.getBean(ppName, BeanDefinitionRegistryPostProcessor. class )); processedBeans.add(ppName); } } //按照优先级排序 OrderComparator.sort(priorityOrderedPostProcessors); //添加进入集合 registryPostProcessors.addAll(priorityOrderedPostProcessors); //首先调用实现PriorityOrdered这个接口的BeanDefinitionRegistryPostProcessor invokeBeanDefinitionRegistryPostProcessors(priorityOrderedPostProcessors, registry); // ---- 下面是调用实现Orderd这个接口的BeanDefinitionRegistryPostProcessor postProcessorNames = beanFactory.getBeanNamesForType(BeanDefinitionRegistryPostProcessor. class , true , false ); List<BeanDefinitionRegistryPostProcessor> orderedPostProcessors = new ArrayList<BeanDefinitionRegistryPostProcessor>(); for (String ppName : postProcessorNames) { if (!processedBeans.contains(ppName) && beanFactory.isTypeMatch(ppName, Ordered. class )) { orderedPostProcessors.add(beanFactory.getBean(ppName, BeanDefinitionRegistryPostProcessor. class )); processedBeans.add(ppName); } } OrderComparator.sort(orderedPostProcessors); registryPostProcessors.addAll(orderedPostProcessors); invokeBeanDefinitionRegistryPostProcessors(orderedPostProcessors, registry); // ---- 最终调用剩余全部的BeanDefinitionRegistryPostProcessor boolean reiterate = true ; while (reiterate) { reiterate = false ; postProcessorNames = beanFactory.getBeanNamesForType(BeanDefinitionRegistryPostProcessor. class , true , false ); for (String ppName : postProcessorNames) { if (!processedBeans.contains(ppName)) { BeanDefinitionRegistryPostProcessor pp = beanFactory.getBean(ppName, BeanDefinitionRegistryPostProcessor. class ); registryPostProcessors.add(pp); processedBeans.add(ppName); pp.postProcessBeanDefinitionRegistry(registry); reiterate = true ; } } } // 调用BeanFactoryPostProcessor接口中的方法,因为BeanDefitionRegistory继承了这个接口 invokeBeanFactoryPostProcessors(registryPostProcessors, beanFactory); invokeBeanFactoryPostProcessors(regularPostProcessors, beanFactory); } else { // Invoke factory processors registered with the context instance. invokeBeanFactoryPostProcessors(beanFactoryPostProcessors, beanFactory); } //--- 下面是调用实现BeanFactoryPostProcessor接口的类,和上面的流程一样 String[] postProcessorNames = beanFactory.getBeanNamesForType(BeanFactoryPostProcessor. class , true , false ); // Separate between BeanFactoryPostProcessors that implement PriorityOrdered, // Ordered, and the rest. List<BeanFactoryPostProcessor> priorityOrderedPostProcessors = new ArrayList<BeanFactoryPostProcessor>(); List<String> orderedPostProcessorNames = new ArrayList<String>(); List<String> nonOrderedPostProcessorNames = new ArrayList<String>(); 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. OrderComparator.sort(priorityOrderedPostProcessors); invokeBeanFactoryPostProcessors(priorityOrderedPostProcessors, beanFactory); // Next, invoke the BeanFactoryPostProcessors that implement Ordered. List<BeanFactoryPostProcessor> orderedPostProcessors = new ArrayList<BeanFactoryPostProcessor>(); for (String postProcessorName : orderedPostProcessorNames) { orderedPostProcessors.add(beanFactory.getBean(postProcessorName, BeanFactoryPostProcessor. class )); } OrderComparator.sort(orderedPostProcessors); invokeBeanFactoryPostProcessors(orderedPostProcessors, beanFactory); // Finally, invoke all other BeanFactoryPostProcessors. List<BeanFactoryPostProcessor> nonOrderedPostProcessors = new ArrayList<BeanFactoryPostProcessor>(); for (String postProcessorName : nonOrderedPostProcessorNames) { nonOrderedPostProcessors.add(beanFactory.getBean(postProcessorName, BeanFactoryPostProcessor. class )); } invokeBeanFactoryPostProcessors(nonOrderedPostProcessors, beanFactory); } |
11、注册BeanPostProcessor,用来拦截Bean的创建,这个接口可以实现在Bean初始化和初始化之后执行相关的操作
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//依然这里依然调用的PostProcessorRegistrationDelegate,其中包含了注册后置处理器和调用后置处理器的方法,相当于一个代理人 protected void registerBeanPostProcessors(ConfigurableListableBeanFactory beanFactory) { PostProcessorRegistrationDelegate.registerBeanPostProcessors(beanFactory, this ); } //PostProcessorRegistrationDelegate中的注册BeanPostProcessors的方法 //其中beanFactory这个新创建的beanFactory,其中的BeanPostProcessor都没有注册,applicationContext这个是之前创建的,其中的处理器已经注册过了 public static void registerBeanPostProcessors( ConfigurableListableBeanFactory beanFactory, AbstractApplicationContext applicationContext) { //根据类型新加载全部的BeanFactoryProcessor的类, String[] postProcessorNames = beanFactory.getBeanNamesForType(BeanPostProcessor. class , true , false ); //创建BeanPostProcessor检测器 int beanProcessorTargetCount = beanFactory.getBeanPostProcessorCount() + 1 + postProcessorNames.length; beanFactory.addBeanPostProcessor( new BeanPostProcessorChecker(beanFactory, beanProcessorTargetCount)); // Separate between BeanPostProcessors that implement PriorityOrdered, // Ordered, and the rest. List<BeanPostProcessor> priorityOrderedPostProcessors = new ArrayList<BeanPostProcessor>(); List<BeanPostProcessor> internalPostProcessors = new ArrayList<BeanPostProcessor>(); List<String> orderedPostProcessorNames = new ArrayList<String>(); List<String> nonOrderedPostProcessorNames = new ArrayList<String>(); for (String ppName : postProcessorNames) { 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. OrderComparator.sort(priorityOrderedPostProcessors); registerBeanPostProcessors(beanFactory, priorityOrderedPostProcessors); // Next, register the BeanPostProcessors that implement Ordered. List<BeanPostProcessor> orderedPostProcessors = new ArrayList<BeanPostProcessor>(); for (String ppName : orderedPostProcessorNames) { BeanPostProcessor pp = beanFactory.getBean(ppName, BeanPostProcessor. class ); orderedPostProcessors.add(pp); if (pp instanceof MergedBeanDefinitionPostProcessor) { internalPostProcessors.add(pp); } } OrderComparator.sort(orderedPostProcessors); registerBeanPostProcessors(beanFactory, orderedPostProcessors); // Now, register all regular BeanPostProcessors. List<BeanPostProcessor> nonOrderedPostProcessors = new ArrayList<BeanPostProcessor>(); 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. OrderComparator.sort(internalPostProcessors); registerBeanPostProcessors(beanFactory, internalPostProcessors); beanFactory.addBeanPostProcessor( new ApplicationListenerDetector(applicationContext)); } |
以上就是详解Spring ApplicationContext加载过程的详细内容,更多关于Spring ApplicationContext加载过程的资料请关注服务器之家其它相关文章!
原文链接:https://segmentfault.com/a/1190000039680860