refresh方法中的obtainFreshBeanFactory方法
文章开始之前先啰嗦几句,写spring系列的文章的时候是想着每个星期更新一篇文章,但是上篇文章到现在这篇文章已经过了差不多两个星期,跟自己开始的预期偏离的有点远了,心里还是有点不是那么不得意的,所以趁着春节期间,我争取每天一篇将spring系列全部发完。希望各位看完能点点赞
回到正题,上回我们说到refresh的prepareRefresh方法,今天我们来说obtainFreshBeanFactory这个方法。先贴上refresh方法的代码:
@Override
public void refresh() throws BeansException, IllegalStateException {
synchronized (this.startupShutdownMonitor) {
// Prepare this context for refreshing.
prepareRefresh();
// Tell the subclass to refresh the internal bean factory.
ConfigurableListableBeanFactory beanFactory = obtainFreshBeanFactory();
// Prepare the bean factory for use in this context.
prepareBeanFactory(beanFactory);
try {
// Allows post-processing of the bean factory in context subclasses.
postProcessBeanFactory(beanFactory);
// Invoke factory processors registered as beans in the context.
invokeBeanFactoryPostProcessors(beanFactory);
// Register bean processors that intercept bean creation.
registerBeanPostProcessors(beanFactory);
// Initialize message source for this context.
initMessageSource();
// Initialize event multicaster for this context.
initApplicationEventMulticaster();
// Initialize other special beans in specific context subclasses.
onRefresh();
// Check for listener beans and register them.
registerListeners();
// Instantiate all remaining (non-lazy-init) singletons.
finishBeanFactoryInitialization(beanFactory);
// Last step: publish corresponding event.
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();
}
}
}
再提一嘴,可能博主用的spring的版本和你们的不同,代码跟你们的有些不是那么一致,但是大家需要明白的是,springIOC的基本流程和结构是不会变的,至少到目前为止,还没有大的变化,因此spring版本不同并不影响我们学习springIOC的核心原理。
其实从obtainFreshBeanFactory这个方法的名称就大概能知道这个方法是获取一个刷新了的bean工厂,进入obtainFreshBeanFactory方法:
protected ConfigurableListableBeanFactory obtainFreshBeanFactory() {
refreshBeanFactory();
ConfigurableListableBeanFactory beanFactory = getBeanFactory();
if (logger.isDebugEnabled()) {
logger.debug("Bean factory for " + getDisplayName() + ": " + beanFactory);
}
return beanFactory;
}
既然是获取一个刷新了的bean工厂,第一步调用refreshBeanFactory刷新bean工厂就显得那么顺理成章,此方法是一个抽象方法,需要子类去实现,最终调用的是AbstractRefreshableApplicationContext类中的方法,实现如下:
@Override
protected final void refreshBeanFactory() throws BeansException {
if (hasBeanFactory()) {
//如果已经存在,那么销毁之前的
destroyBeans();
closeBeanFactory();
}
try {
//创建了一个DefaultListableBeanFactory对象,这个需要多加注意,之后这个bean工厂出现的次数有点多
DefaultListableBeanFactory beanFactory = createBeanFactory();
beanFactory.setSerializationId(getId());
customizeBeanFactory(beanFactory);
loadBeanDefinitions(beanFactory);
synchronized (this.beanFactoryMonitor) {
this.beanFactory = beanFactory;
}
}
catch (IOException ex) {
throw new ApplicationContextException("I/O error parsing bean definition source for " + getDisplayName(), ex);
}
}
AbstractRefreshableApplicationContext.customizeBeanFactory方法用于给子类提供一个自由配置的机会,默认实现:
protected void customizeBeanFactory(DefaultListableBeanFactory beanFactory) {
if (this.allowBeanDefinitionOverriding != null) {
//默认false,不允许覆盖
beanFactory.setAllowBeanDefinitionOverriding(this.allowBeanDefinitionOverriding);
}
if (this.allowCircularReferences != null) {
//默认false,不允许循环引用
beanFactory.setAllowCircularReferences(this.allowCircularReferences);
}
}
AbstractXmlApplicationContext.loadBeanDefinitions,这个便是核心的bean加载了:
@Override
protected void loadBeanDefinitions(DefaultListableBeanFactory beanFactory) {
// Create a new XmlBeanDefinitionReader for the given BeanFactory.
XmlBeanDefinitionReader beanDefinitionReader = new XmlBeanDefinitionReader(beanFactory);
// Configure the bean definition reader with this context's
// resource loading environment.
beanDefinitionReader.setEnvironment(this.getEnvironment());
beanDefinitionReader.setResourceLoader(this);
beanDefinitionReader.setEntityResolver(new ResourceEntityResolver(this));
// Allow a subclass to provide custom initialization of the reader,
// then proceed with actually loading the bean definitions.
//默认空实现
initBeanDefinitionReader(beanDefinitionReader);
loadBeanDefinitions(beanDefinitionReader);
}
XmlBeanDefinitionReader、ResourceLoader、BeanDefinitionReader这几个词汇应该都不陌生了,在springIOC的容器结构的时候就做了一个详细的介绍,这里就不过多介绍了,我们来说一下EntityResolver,EntityResolver接口在org.xml.sax中定义。DelegatingEntityResolver用于schema和dtd的解析(schema和dtd是xml文件的约束,想详细了解的可以去问度娘)。 我们再来看看**loadBeanDefinitions(beanDefinitionReader);**方法:
protected void loadBeanDefinitions(XmlBeanDefinitionReader reader) {
Resource[] configResources = getConfigResources();
if (configResources != null) {
reader.loadBeanDefinitions(configResources);
}
String[] configLocations = getConfigLocations();
//here
if (configLocations != null) {
reader.loadBeanDefinitions(configLocations);
}
}
AbstractBeanDefinitionReader.loadBeanDefinitions:
@Override
public int loadBeanDefinitions(String... locations) throws BeanDefinitionStoreException {
Assert.notNull(locations, "Location array must not be null");
int counter = 0;
for (String location : locations) {
counter += loadBeanDefinitions(location);
}
return counter;
}
之后调用:
//第二个参数为空
public int loadBeanDefinitions(String location, Set<Resource> actualResources) {
ResourceLoader resourceLoader = getResourceLoader();
//参见ResourceLoader类图,ClassPathXmlApplicationContext实现了此接口
if (resourceLoader instanceof ResourcePatternResolver) {
// Resource pattern matching available.
try {
Resource[] resources = ((ResourcePatternResolver) resourceLoader).getResources(location);
int loadCount = loadBeanDefinitions(resources);
if (actualResources != null) {
for (Resource resource : resources) {
actualResources.add(resource);
}
}
return loadCount;
}
catch (IOException ex) {
throw new BeanDefinitionStoreException(
"Could not resolve bean definition resource pattern [" + location + "]", ex);
}
}
else {
// Can only load single resources by absolute URL.
Resource resource = resourceLoader.getResource(location);
int loadCount = loadBeanDefinitions(resource);
if (actualResources != null) {
actualResources.add(resource);
}
return loadCount;
}
}
getResource的实现在AbstractApplicationContext:
@Override
public Resource[] getResources(String locationPattern) throws IOException {
//构造器中初始化,PathMatchingResourcePatternResolver对象
return this.resourcePatternResolver.getResources(locationPattern);
}
PathMatchingResourcePatternResolver是ResourceLoader继承体系的一部分。
@Override
public Resource[] getResources(String locationPattern) throws IOException {
Assert.notNull(locationPattern, "Location pattern must not be null");
//classpath:
if (locationPattern.startsWith(CLASSPATH_ALL_URL_PREFIX)) {
// a class path resource (multiple resources for same name possible)
//matcher是一个AntPathMatcher对象
if (getPathMatcher().isPattern(locationPattern
.substring(CLASSPATH_ALL_URL_PREFIX.length()))) {
// a class path resource pattern
return findPathMatchingResources(locationPattern);
} else {
// all class path resources with the given name
return findAllClassPathResources(locationPattern
.substring(CLASSPATH_ALL_URL_PREFIX.length()));
}
} else {
// Only look for a pattern after a prefix here
// (to not get fooled by a pattern symbol in a strange prefix).
int prefixEnd = locationPattern.indexOf(":") + 1;
if (getPathMatcher().isPattern(locationPattern.substring(prefixEnd))) {
// a file pattern
return findPathMatchingResources(locationPattern);
}
else {
// a single resource with the given name
return new Resource[] {getResourceLoader().getResource(locationPattern)};
}
}
}
isPattern:
@Override
public boolean isPattern(String path) {
return (path.indexOf('*') != -1 || path.indexOf('?') != -1);
}
可以看出配置文件路径是支持ant风格的,也就是可以这么写:
new ClassPathXmlApplicationContext("con*.xml");
然后就是配置文件的加载:
//加载
Resource[] resources = ((ResourcePatternResolver) resourceLoader).getResources(location);
//解析
int loadCount = loadBeanDefinitions(resources);
最终逐个调用XmlBeanDefinitionReader的loadBeanDefinitions方法:
@Override
public int loadBeanDefinitions(Resource resource) {
return loadBeanDefinitions(new EncodedResource(resource));
}
EncodedResource扮演的其实是一个装饰器的模式,为InputStreamSource添加了字符编码(虽然默认为null)。这样为我们自定义xml配置文件的编码方式提供了机会。
之后关键的源码只有两行:
public int loadBeanDefinitions(EncodedResource encodedResource) throws BeanDefinitionStoreException {
InputStream inputStream = encodedResource.getResource().getInputStream();
InputSource inputSource = new InputSource(inputStream);
return doLoadBeanDefinitions(inputSource, encodedResource.getResource());
}
InputSource是org.xml.sax的类。 doLoadBeanDefinitions:
protected int doLoadBeanDefinitions(InputSource inputSource, Resource resource) {
Document doc = doLoadDocument(inputSource, resource);
return registerBeanDefinitions(doc, resource);
}
doLoadDocument:
protected Document doLoadDocument(InputSource inputSource, Resource resource) {
return this.documentLoader.loadDocument(inputSource, getEntityResolver(), this.errorHandler,
getValidationModeForResource(resource), isNamespaceAware());
}
documentLoader是一个DefaultDocumentLoader对象,此类是DocumentLoader接口的唯一实现。getEntityResolver方法返回ResourceEntityResolver,上面说过了。errorHandler是一个SimpleSaxErrorHandler对象。
校验模型其实就是确定xml文件使用xsd方式还是dtd方式来校验,忘了的话左转度娘。Spring会通过读取xml文件的方式判断应该采用哪种。
NamespaceAware默认false,因为默认配置了校验为true。
DefaultDocumentLoader.loadDocument:
@Override
public Document loadDocument(InputSource inputSource, EntityResolver entityResolver,
ErrorHandler errorHandler, int validationMode, boolean namespaceAware) {
//这里就是老套路了,可以看出,Spring还是使用了dom的方式解析,即一次全部load到内存
DocumentBuilderFactory factory = createDocumentBuilderFactory(validationMode, namespaceAware);
DocumentBuilder builder = createDocumentBuilder(factory, entityResolver, errorHandler);
return builder.parse(inputSource);
}
createDocumentBuilderFactory比较有意思:
protected DocumentBuilderFactory createDocumentBuilderFactory(int validationMode, boolean namespaceAware{
DocumentBuilderFactory factory = DocumentBuilderFactory.newInstance();
factory.setNamespaceAware(namespaceAware);
if (validationMode != XmlValidationModeDetector.VALIDATION_NONE) {
//此方法设为true仅对dtd有效,xsd(schema)无效
factory.setValidating(true);
if (validationMode == XmlValidationModeDetector.VALIDATION_XSD) {
// Enforce namespace aware for XSD...
//开启xsd(schema)支持
factory.setNamespaceAware(true);
//这个也是Java支持Schema的套路,可以问度娘
factory.setAttribute(SCHEMA_LANGUAGE_ATTRIBUTE, XSD_SCHEMA_LANGUAGE);
}
}
return factory;
}
XmlBeanDefinitionReader.registerBeanDefinitions:
public int registerBeanDefinitions(Document doc, Resource resource) {
BeanDefinitionDocumentReader documentReader = createBeanDefinitionDocumentReader();
int countBefore = getRegistry().getBeanDefinitionCount();
documentReader.registerBeanDefinitions(doc, createReaderContext(resource));
return getRegistry().getBeanDefinitionCount() - countBefore;
}
createBeanDefinitionDocumentReader:
protected BeanDefinitionDocumentReader createBeanDefinitionDocumentReader() {
return BeanDefinitionDocumentReader.class.cast
//反射
(BeanUtils.instantiateClass(this.documentReaderClass));
}
documentReaderClass默认是DefaultBeanDefinitionDocumentReader,这其实也是策略模式,通过setter方法可以更换其实现。
注意cast方法,代替了强转。
createReaderContext:
public XmlReaderContext createReaderContext(Resource resource) {
return new XmlReaderContext(resource, this.problemReporter, this.eventListener,
this.sourceExtractor, this, getNamespaceHandlerResolver());
}
problemReporter是一个FailFastProblemReporter对象。
eventListener是EmptyReaderEventListener对象,此类里的方法都是空实现。
sourceExtractor是NullSourceExtractor对象,直接返回空,也是空实现。
getNamespaceHandlerResolver默认返回DefaultNamespaceHandlerResolver对象,用来获取xsd对应的处理器。
XmlReaderContext的作用感觉就是这一堆参数的容器,糅合到一起传给DocumentReader,并美其名为Context。可以看出,Spring中到处都是策略模式,大量操作被抽象成接口。
DefaultBeanDefinitionDocumentReader.registerBeanDefinitions:
@Override
public void registerBeanDefinitions(Document doc, XmlReaderContext readerContext) {
this.readerContext = readerContext;
Element root = doc.getDocumentElement();
doRegisterBeanDefinitions(root);
}
doRegisterBeanDefinitions:
protected void doRegisterBeanDefinitions(Element root) {
BeanDefinitionParserDelegate parent = this.delegate;
this.delegate = createDelegate(getReaderContext(), root, parent);
//默认的命名空间即
//http://www.springframework.org/schema/beans
if (this.delegate.isDefaultNamespace(root)) {
//检查profile属性
String profileSpec = root.getAttribute(PROFILE_ATTRIBUTE);
if (StringUtils.hasText(profileSpec)) {
//profile属性可以以,分割
String[] specifiedProfiles = StringUtils.tokenizeToStringArray(
profileSpec, BeanDefinitionParserDelegate.MULTI_VALUE_ATTRIBUTE_DELIMITERS);
if (!getReaderContext().getEnvironment().acceptsProfiles(specifiedProfiles)) {
return;
}
}
}
preProcessXml(root);
parseBeanDefinitions(root, this.delegate);
postProcessXml(root);
this.delegate = parent;
}
delegate的作用在于处理beans标签的嵌套,其实Spring配置文件是可以写成这样的:
<?xml version="1.0" encoding="UTF-8"?>
<beans>
<bean class="base.SimpleBean"></bean>
<beans>
<bean class="java.lang.Object"></bean>
</beans>
</beans>
xml(schema)的命名空间其实类似于java的报名,命名空间采用URL,比如Spring的是这样:
<?xml version="1.0" encoding="UTF-8"?>
<beans xmlns="http://www.springframework.org/schema/beans"></beans>
注意一下profile的检查, AbstractEnvironment.acceptsProfiles:
@Override
public boolean acceptsProfiles(String... profiles) {
Assert.notEmpty(profiles, "Must specify at least one profile");
for (String profile : profiles) {
if (StringUtils.hasLength(profile) && profile.charAt(0) == '!') {
if (!isProfileActive(profile.substring(1))) {
return true;
}
} else if (isProfileActive(profile)) {
return true;
}
}
return false;
}
原理很简单,注意从源码可以看出,profile属性支持!取反。
preProcessXml方法是个空实现,供子类去覆盖,目的在于给子类一个把我们自定义的标签转为Spring标准标签的机会, 想的真周到。
DefaultBeanDefinitionDocumentReader.parseBeanDefinitions:
protected void parseBeanDefinitions(Element root, BeanDefinitionParserDelegate delegate) {
if (delegate.isDefaultNamespace(root)) {
NodeList nl = root.getChildNodes();
for (int i = 0; i < nl.getLength(); i++) {
Node node = nl.item(i);
if (node instanceof Element) {
Element ele = (Element) node;
if (delegate.isDefaultNamespace(ele)) {
parseDefaultElement(ele, delegate);
} else {
delegate.parseCustomElement(ele);
}
}
}
} else {
delegate.parseCustomElement(root);
}
}
可见,对于非默认命名空间的元素交由delegate处理。即import, alias, bean, 嵌套的beans四种元素。 parseDefaultElement:
private void parseDefaultElement(Element ele, BeanDefinitionParserDelegate delegate) {
//"import"
if (delegate.nodeNameEquals(ele, IMPORT_ELEMENT)) {
importBeanDefinitionResource(ele);
}
else if (delegate.nodeNameEquals(ele, ALIAS_ELEMENT)) {
processAliasRegistration(ele);
}
else if (delegate.nodeNameEquals(ele, BEAN_ELEMENT)) {
processBeanDefinition(ele, delegate);
}
else if (delegate.nodeNameEquals(ele, NESTED_BEANS_ELEMENT)) {
// recurse
doRegisterBeanDefinitions(ele);
}
}
写法示例:
<import resource="CTIContext.xml" />
<import resource="customerContext.xml" />
importBeanDefinitionResource套路和之前的配置文件加载完全一样,不过注意被import进来的文件是先于当前文件 被解析的。
加入有一个bean名为componentA-dataSource,但是另一个组件想以componentB-dataSource的名字使用,就可以这样定义:
<alias name="componentA-dataSource" alias="componentB-dataSource"/>
processAliasRegistration核心源码:
protected void processAliasRegistration(Element ele) {
String name = ele.getAttribute(NAME_ATTRIBUTE);
String alias = ele.getAttribute(ALIAS_ATTRIBUTE);
getReaderContext().getRegistry().registerAlias(name, alias);
getReaderContext().fireAliasRegistered(name, alias, extractSource(ele));
}
从前面的源码可以发现,registry其实就是DefaultListableBeanFactory,它实现了BeanDefinitionRegistry接口。registerAlias方法的实现在SimpleAliasRegistry:
@Override
public void registerAlias(String name, String alias) {
Assert.hasText(name, "'name' must not be empty");
Assert.hasText(alias, "'alias' must not be empty");
//名字和别名一样
if (alias.equals(name)) {
//ConcurrentHashMap
this.aliasMap.remove(alias);
} else {
String registeredName = this.aliasMap.get(alias);
if (registeredName != null) {
if (registeredName.equals(name)) {
// An existing alias - no need to re-register
return;
}
if (!allowAliasOverriding()) {
throw new IllegalStateException
("Cannot register alias '" + alias + "' for name '" +
name + "': It is already registered for name '" + registeredName + "'.");
}
}
checkForAliasCircle(name, alias);
this.aliasMap.put(alias, name);
}
}
所以别名关系的保存使用Map完成,key为别名,value为本来的名字。
bean节点是Spring最最常见的节点了。
DefaultBeanDefinitionDocumentReader.processBeanDefinition:
protected void processBeanDefinition(Element ele, BeanDefinitionParserDelegate delegate) {
BeanDefinitionHolder bdHolder = delegate.parseBeanDefinitionElement(ele);
if (bdHolder != null) {
bdHolder = delegate.decorateBeanDefinitionIfRequired(ele, bdHolder);
try {
// Register the final decorated instance.
BeanDefinitionReaderUtils.registerBeanDefinition
(bdHolder, getReaderContext().getRegistry());
}
catch (BeanDefinitionStoreException ex) {
getReaderContext().error("Failed to register bean definition with name '" +
bdHolder.getBeanName() + "'", ele, ex);
}
// Send registration event.
getReaderContext().fireComponentRegistered(new BeanComponentDefinition(bdHolder));
}
}
id & name处理 最终调用BeanDefinitionParserDelegate.parseBeanDefinitionElement(Element ele, BeanDefinition containingBean),源码较长,分部分说明。
首先获取到id和name属性,name属性支持配置多个,以逗号分隔,如果没有指定id,那么将以第一个name属性值代替。id必须是唯一的,name属性其实是alias的角色,可以和其它的bean重复,如果name也没有配置,那么其实什么也没做。
String id = ele.getAttribute(ID_ATTRIBUTE);
String nameAttr = ele.getAttribute(NAME_ATTRIBUTE);
List<String> aliases = new ArrayList<String>();
if (StringUtils.hasLength(nameAttr)) {
//按,分隔
String[] nameArr = StringUtils.tokenizeToStringArray
(nameAttr, MULTI_VALUE_ATTRIBUTE_DELIMITERS);
aliases.addAll(Arrays.asList(nameArr));
}
String beanName = id;
if (!StringUtils.hasText(beanName) && !aliases.isEmpty()) {
//name的第一个值作为id
beanName = aliases.remove(0);
}
//默认null
if (containingBean == null) {
//校验id是否已重复,如果重复直接抛异常
//校验是通过内部一个HashSet完成的,出现过的id都会保存进此Set
checkNameUniqueness(beanName, aliases, ele);
}
如果name和id属性都没有指定,那么Spring会自己生成一个, BeanDefinitionParserDelegate.parseBeanDefinitionElement:
beanName = this.readerContext.generateBeanName(beanDefinition);
String beanClassName = beanDefinition.getBeanClassName();
aliases.add(beanClassName);
可见,Spring同时会把类名作为其别名。
最终调用的是BeanDefinitionReaderUtils.generateBeanName:
public static String generateBeanName(
BeanDefinition definition, BeanDefinitionRegistry registry, boolean isInnerBean) {
String generatedBeanName = definition.getBeanClassName();
if (generatedBeanName == null) {
if (definition.getParentName() != null) {
generatedBeanName = definition.getParentName() + "$child";
//工厂方法产生的bean
} else if (definition.getFactoryBeanName() != null) {
generatedBeanName = definition.getFactoryBeanName() + "$created";
}
}
String id = generatedBeanName;
if (isInnerBean) {
// Inner bean: generate identity hashcode suffix.
id = generatedBeanName + GENERATED_BEAN_NAME_SEPARATOR +
ObjectUtils.getIdentityHexString(definition);
} else {
// Top-level bean: use plain class name.
// Increase counter until the id is unique.
int counter = -1;
//用类名#自增的数字命名
while (counter == -1 || registry.containsBeanDefinition(id)) {
counter++;
id = generatedBeanName + GENERATED_BEAN_NAME_SEPARATOR + counter;
}
}
return id;
}
还是分部分说明(parseBeanDefinitionElement) 首先获取到bean的class属性和parent属性,配置了parent之后,当前bean会继承父bean的属性。之后根据class和parent创建BeanDefinition对象
String className = null;
if (ele.hasAttribute(CLASS_ATTRIBUTE)) {
className = ele.getAttribute(CLASS_ATTRIBUTE).trim();
}
String parent = null;
if (ele.hasAttribute(PARENT_ATTRIBUTE)) {
parent = ele.getAttribute(PARENT_ATTRIBUTE);
}
AbstractBeanDefinition bd = createBeanDefinition(className, parent);
BeanDefinition的创建在BeanDefinitionReaderUtils.createBeanDefinition:
public static AbstractBeanDefinition createBeanDefinition(
String parentName, String className, ClassLoader classLoader) {
GenericBeanDefinition bd = new GenericBeanDefinition();
bd.setParentName(parentName);
if (className != null) {
if (classLoader != null) {
bd.setBeanClass(ClassUtils.forName(className, classLoader));
}
else {
bd.setBeanClassName(className);
}
}
return bd;
}
之后是解析bean的其它属性,其实就是读取其配置,调用相应的setter方法保存在BeanDefinition中:
parseBeanDefinitionAttributes(ele, beanName, containingBean, bd);
之后解析bean的decription子元素
<bean id="b" name="one, two" class="base.SimpleBean">
<description>SimpleBean</description>
</bean>
就仅仅是个描述。
然后是meta子元素的解析,meta元素在xml配置文件里是这样的:
<bean id="b" name="one, two" class="base.SimpleBean">
<meta key="name" value="skywalker"/>
</bean>
注释上说,这样可以将任意的元数据附到对应的bean definition上。解析过程源码:
public void parseMetaElements(Element ele, BeanMetadataAttributeAccessor attributeAccessor) {
NodeList nl = ele.getChildNodes();
for (int i = 0; i < nl.getLength(); i++) {
Node node = nl.item(i);
if (isCandidateElement(node) && nodeNameEquals(node, META_ELEMENT)) {
Element metaElement = (Element) node;
String key = metaElement.getAttribute(KEY_ATTRIBUTE);
String value = metaElement.getAttribute(VALUE_ATTRIBUTE);
//就是一个key, value的载体,无他
BeanMetadataAttribute attribute = new BeanMetadataAttribute(key, value);
//sourceExtractor默认是NullSourceExtractor,返回的是空
attribute.setSource(extractSource(metaElement));
attributeAccessor.addMetadataAttribute(attribute);
}
}
}
AbstractBeanDefinition继承自BeanMetadataAttributeAccessor类,底层使用了一个LinkedHashMap保存metadata。这个metadata具体是做什么暂时还不知道。
lookup-method解析:
此标签的作用在于当一个bean的某个方法被设置为lookup-method后,每次调用此方法时,都会返回一个新的指定bean的对象。用法示例:
<bean id="apple" class="cn.com.willchen.test.di.Apple" scope="prototype"/>
<!--水果盘-->
<bean id="fruitPlate" class="cn.com.willchen.test.di.FruitPlate">
<lookup-method name="getFruit" bean="apple"/>
</bean>
replace-mothod解析:
此标签用于替换bean里面的特定的方法实现,替换者必须实现Spring的MethodReplacer接口,有点像aop的意思。
配置文件示例:
<bean name="replacer" class="springroad.deomo.chap4.MethodReplace" />
<bean name="testBean" class="springroad.deomo.chap4.LookupMethodBean">
<replaced-method name="test" replacer="replacer">
<arg-type match="String" />
</replaced-method>
</bean>
解析之后将数据放在ReplaceOverride对象中,里面有一个LinkedList专门用于保存arg-type。
构造参数(constructor-arg)解析:
作用一目了然,使用示例:
<bean class="base.SimpleBean">
<constructor-arg>
<value type="java.lang.String">Cat</value>
</constructor-arg>
</bean>
type一般不需要指定,除了泛型集合那种。除此之外,constructor-arg还支持name, index, ref等属性,可以具体的指定参数的位置等。构造参数解析后保存在BeanDefinition内部一个ConstructorArgumentValues对象中。如果设置了index属性,那么以Map<Integer, ValueHolder>的形式保存,反之,以List的形式保存。
property解析:
非常常用的标签,用以为bean的属性赋值,支持value和ref两种形式,示例:
<bean class="base.SimpleBean">
<property name="name" value="skywalker" />
</bean>
value和ref属性不能同时出现,如果是ref,那么将其值保存在不可变的RuntimeBeanReference对象中,其实现了BeanReference接口,此接口只有一个getBeanName方法。如果是value,那么将其值保存在TypedStringValue对象中。最终将对象保存在BeanDefinition内部一个MutablePropertyValues对象中(内部以ArrayList实现)。
qualifier解析:
配置示例:
<bean class="base.Student">
<property name="name" value="skywalker"></property>
<property name="age" value="12"></property>
<qualifier type="org.springframework.beans.factory.annotation.Qualifier" value="student" />
</bean>
<bean class="base.Student">
<property name="name" value="seaswalker"></property>
<property name="age" value="15"></property>
<qualifier value="student_2"></qualifier>
</bean>
<bean class="base.SimpleBean" />
SimpleBean部分源码:
@Autowired
@Qualifier("student")
private Student student;
此标签和@Qualifier, @Autowired两个注解一起使用才有作用。@Autowired注解采用按类型查找的方式进行注入,如果找到多个需要类型的bean便会报错,有了@Qualifier标签就可以再按照此注解指定的名称查找。两者结合相当于实现了按类型+名称注入。type属性可以不指定,因为默认就是那个。qualifier标签可以有attribute子元素,比如:
<qualifier type="org.springframework.beans.factory.annotation.Qualifier" value="student">
<attribute key="id" value="1"/>
</qualifier>
貌似是用来在qualifier也区分不开的时候使用。attribute键值对保存在BeanMetadataAttribute对象中。整个qualifier保存在AutowireCandidateQualifier对象中。
再讲个bean的注册: BeanDefinitionReaderUtils.registerBeanDefinition:
public static void registerBeanDefinition(
BeanDefinitionHolder definitionHolder, BeanDefinitionRegistry registry) {
// Register bean definition under primary name.
String beanName = definitionHolder.getBeanName();
registry.registerBeanDefinition(beanName, definitionHolder.getBeanDefinition());
// Register aliases for bean name, if any.
String[] aliases = definitionHolder.getAliases();
if (aliases != null) {
for (String alias : aliases) {
registry.registerAlias(beanName, alias);
}
}
}
registry其实就是DefaultListableBeanFactory对象,registerBeanDefinition方法主要就干了这么两件事:
@Override
public void registerBeanDefinition(String beanName, BeanDefinition beanDefinition) {
this.beanDefinitionMap.put(beanName, beanDefinition);
this.beanDefinitionNames.add(beanName);
}
一个是Map,另一个是List,一目了然。registerAlias方法的实现在其父类SimpleAliasRegistry,就是把键值对放在了一个ConcurrentHashMap里。ComponentRegistered事件触发:默认是个空实现,前面说过了。
这篇文章的篇幅比较长,但是也是比较重要的一票希望大家看完都能有所收获,最后祝大家新年快乐!!!
