Spring IOC源代码具体解释之容器依赖注入
上一篇博客中介绍了IOC容器的初始化。通过源代码分析大致了解了IOC容器初始化的一些知识。先简单回想下上篇的内容
加载bean定义文件的过程。这个过程是通过BeanDefinitionReader来完毕的。当中通过 loadBeanDefinition()来对定义文件进行解析和依据Spring定义的bean规则进行处理 - 其实和Spring定义的bean规则相关的处理是在BeanDefinitionParserDelegate中完毕的,完毕这个处理须要得到用户定义的bean定义信息,这是在前面已经通过解析已经完毕了的。这个处理过程的结果就是得到了一系列的BeanDefinition,这里不但包括了对 bean定义信息解析后的表示。同一时候还把和这个bean相关的依赖信息也保存了下来。把这些BeanDefinition都放到一个HashMap - beanDefinitionMap里面
接下来主要介绍IOC容器的注入,
基本知识
Spring把loadBean和依赖注入分成两个主要的过程,一个是在启动容器的时候完毕,建立起一系列 BeanDefinition,这些定义里面同一时候都包括了对bean依赖关系的描写叙述,只是这里并没有对bean进行实例化,真正实例化的时候是在客户通过容器使用这些bean的时候 - 也就是getbean的时候。这个时候IOC容器依据须要会建立起一系列bean的实例和完毕依赖注入。
BeanFactory接口定义了Spring IoC容器的基本功能规范,是Spring IoC容器所应遵守的最底层和最主要的编程规范。BeanFactory接口中定义了几个getBean方法,就是用户向IoC容器索取管理的Bean的方法。
通过分析其子类的详细实现。理解Spring IoC容器在用户索取Bean时怎样完毕依赖注入。再次查看类图
选择AbstractBeanFactory,作为子类,找到getbean方法
@Override
public Object getBean(String name) throws BeansException {
return doGetBean(name, null, null, false);
}
@Override
public <T> T getBean(String name, Class<T> requiredType) throws BeansException {
return doGetBean(name, requiredType, null, false);
}
@Override
public Object getBean(String name, Object... args) throws BeansException {
return doGetBean(name, null, args, false);
}
public <T> T getBean(String name, Class<T> requiredType, Object... args) throws BeansException {
return doGetBean(name, requiredType, args, false);
}
继续进入
//真正实现向IoC容器获取Bean 的 功 能。也是触发依赖注入功能的地方
@SuppressWarnings("unchecked")
protected <T> T doGetBean(
final String name, final Class<T> requiredType, final Object[] args, boolean typeCheckOnly)
throws BeansException {
//依据指定的名称获取被管理Bean的名称。剥离指定名称中对容器的相关依赖
//假设指定的是别名。将别名转换为规范的Bean名称
final String beanName = transformedBeanName(name);
Object bean;
//先从缓存中取是否已经有被创建过的单态类型的Bean。对于单态模式的Bean整
//个IoC容器中仅仅创建一次。不须要反复创建
Object sharedInstance = getSingleton(beanName);
//IoC容器创建单态模式Bean实例对象
if (sharedInstance != null && args == null) {
if (logger.isDebugEnabled()) {
//假设指定名称的Bean在容器中已有单态模式的Bean被创建,直接返回
//已经创建的Bean
if (isSingletonCurrentlyInCreation(beanName)) {
logger.debug("Returning eagerly cached instance of singleton bean '" + beanName +
"' that is not fully initialized yet - a consequence of a circular reference");
}
else {
logger.debug("Returning cached instance of singleton bean '" + beanName + "'");
}
}
//获取给定Bean的实例对象,主要是完毕FactoryBean的相关处理
//注意:BeanFactory是管理容器中Bean的工厂,而FactoryBean是
//创建创建对象的工厂Bean。两者之间有差别
bean = getObjectForBeanInstance(sharedInstance, name, beanName, null);
}
else {//缓存没有正在创建的单态模式Bean
//缓存中已经有已经创建的原型模式Bean。可是因为循环引用的问题导致实
//例化对象失败
if (isPrototypeCurrentlyInCreation(beanName)) {
throw new BeanCurrentlyInCreationException(beanName);
}
//对IoC容器中是否存在指定名称的BeanDefinition进行检查,首先检查是否
//能在当前的BeanFactory中获取的所须要的Bean。假设不能则托付当前容器
//的父级容器去查找,假设还是找不到则沿着容器的继承体系向父级容器查找
BeanFactory parentBeanFactory = getParentBeanFactory();
//当前容器的父级容器存在,且当前容器中不存在指定名称的Bean
if (parentBeanFactory != null && !containsBeanDefinition(beanName)) {
//解析指定Bean名称的原始名称
String nameToLookup = originalBeanName(name);
if (args != null) {
//委派父级容器依据指定名称和显式的參数查找
return (T) parentBeanFactory.getBean(nameToLookup, args);
}
else {
//委派父级容器依据指定名称和类型查找
return parentBeanFactory.getBean(nameToLookup, requiredType);
}
}
//创建的Bean是否须要进行类型验证。一般不须要
if (!typeCheckOnly) {
//向容器标记指定的Bean已经被创建
markBeanAsCreated(beanName);
}
//依据指定Bean名称获取其父级的Bean定义。主要解决Bean继承时子类
//合并父类公共属性问题
final RootBeanDefinition mbd = getMergedLocalBeanDefinition(beanName);
checkMergedBeanDefinition(mbd, beanName, args);
//获取当前Bean全部依赖Bean的名称
String[] dependsOn = mbd.getDependsOn();
//假设当前Bean有依赖Bean
if (dependsOn != null) {
for (String dependsOnBean : dependsOn) {
//递归调用getBean方法,获取当前Bean的依赖Bean
getBean(dependsOnBean);
//把被依赖Bean注冊给当前依赖的Bean
registerDependentBean(dependsOnBean, beanName);
}
}
//创建单态模式Bean的实例对象
if (mbd.isSingleton()) {
//这里使用了一个匿名内部类,创建Bean实例对象。而且注冊给所依赖的对象
sharedInstance = getSingleton(beanName, new ObjectFactory() {
public Object getObject() throws BeansException {
try {
//创建一个指定Bean实例对象。假设有父级继承。则合并子//类和父类的定义
return createBean(beanName, mbd, args);
}
catch (BeansException ex) {
//显式地从容器单态模式Bean缓存中清除实例对象
destroySingleton(beanName);
throw ex;
}
}
});
//获取给定Bean的实例对象
bean = getObjectForBeanInstance(sharedInstance, name, beanName, mbd);
}
//IoC容器创建原型模式Bean实例对象
else if (mbd.isPrototype()) {
//原型模式(Prototype)是每次都会创建一个新的对象
Object prototypeInstance = null;
try {
//回调beforePrototypeCreation方法。默认的功能是注冊当前创//建的原型对象
beforePrototypeCreation(beanName);
//创建指定Bean对象实例
prototypeInstance = createBean(beanName, mbd, args);
}
finally {
//回调afterPrototypeCreation方法,默认的功能告诉IoC容器指//定Bean的原型对象不再创建了
afterPrototypeCreation(beanName);
}
//获取给定Bean的实例对象
bean = getObjectForBeanInstance(prototypeInstance, name, beanName, mbd);
}
//要创建的Bean既不是单态模式。也不是原型模式,则依据Bean定义资源中
//配置的生命周期范围,选择实例化Bean的合适方法。这样的在Web应用程序中
//比較经常使用。如:request、session、application等生命周期
else {
String scopeName = mbd.getScope();
final Scope scope = this.scopes.get(scopeName);
//Bean定义资源中没有配置生命周期范围,则Bean定义不合法
if (scope == null) {
throw new IllegalStateException("No Scope registered for scope '" + scopeName + "'");
}
try {
//这里又使用了一个匿名内部类,获取一个指定生命周期范围的实例
Object scopedInstance = scope.get(beanName, new ObjectFactory() {
public Object getObject() throws BeansException {
beforePrototypeCreation(beanName);
try {
return createBean(beanName, mbd, args);
}
finally {
afterPrototypeCreation(beanName);
}
}
});
//获取给定Bean的实例对象
bean = getObjectForBeanInstance(scopedInstance, name, beanName, mbd);
}
catch (IllegalStateException ex) {
throw new BeanCreationException(beanName,
"Scope '" + scopeName + "' is not active for the current thread; " +
"consider defining a scoped proxy for this bean if you intend to refer to it from a singleton",
ex);
}
}
}
//对创建的Bean实例对象进行类型检查
if (requiredType != null && bean != null && !requiredType.isAssignableFrom(bean.getClass())) {
throw new BeanNotOfRequiredTypeException(name, requiredType, bean.getClass());
}
return (T) bean;
}
上面,我们能够清楚的看见在创建实例是做了推断
-
假设Bean定义的单态模式(Singleton),则容器在创建之前先从缓存中查找。以确保整个容器中仅仅存在一个实例对象
-
假设Bean定义的是原型模式(Prototype),则容器每次都会创建一个新的实例对象。
-
两者都不是,则依据Bean定义资源中配置的生命周期范围,选择实例化Bean的合适方法,这样的在Web应用程序中 比較经常使用。如:request、session、application等生命周期
上面的源代码仅仅是定义了依据Bean定义的模式,採取的不同创建Bean实例对象的策略。详细的Bean实例对象的创建过程由实现了ObejctFactory接口的匿名内部类的createBean方法完毕。ObejctFactory使用委派模式。详细的Bean实例创建过程交由事实上现类AbstractAutowireCapableBeanFactory完毕,我们继续分析AbstractAutowireCapableBeanFactory的createBean方法的源代码,理解其创建Bean实例的详细实现过程
匿名内部类
sharedInstance = getSingleton(beanName, new ObjectFactory<Object>() {
@Override
public Object getObject() throws BeansException {
try {
return createBean(beanName, mbd, args);
}
catch (BeansException ex) {
destroySingleton(beanName);
throw ex;
}
}
});
AbstractAutowireCapableBeanFactory的createBean,这里之所以进入AbstractAutowireCapableBeanFactory,是由于AbstractAutowireCapableBeanFactory继承了AbstractBeanFactory
//创建Bean实 例对象
protected Object createBean(final String beanName, final RootBeanDefinition mbd, final Object[] args)
throws BeanCreationException {
if (logger.isDebugEnabled()) {
logger.debug("Creating instance of bean '" + beanName + "'");
}
//推断须要创建的Bean能否够实例化,即能否够通过当前的类载入器载入
resolveBeanClass(mbd, beanName);
//校验和准备Bean中的方法覆盖
try {
mbd.prepareMethodOverrides();
}
catch (BeanDefinitionValidationException ex) {
throw new BeanDefinitionStoreException(mbd.getResourceDescription(),
beanName, "Validation of method overrides failed", ex);
}
try {
//假设Bean配置了初始化前和初始化后的处理器,则试图返回一个须要创建//Bean的代理对象
Object bean = resolveBeforeInstantiation(beanName, mbd);
if (bean != null) {
return bean;
}
}
catch (Throwable ex) {
throw new BeanCreationException(mbd.getResourceDescription(), beanName,
"BeanPostProcessor before instantiation of bean failed", ex);
}
//创建Bean的入口
Object beanInstance = doCreateBean(beanName, mbd, args);
if (logger.isDebugEnabled()) {
logger.debug("Finished creating instance of bean '" + beanName + "'");
}
return beanInstance;
}
//真正创建Bea n 的方法
protected Object doCreateBean(final String beanName, final RootBeanDefinition mbd, final Object[] args) {
//封装被创建的Bean对象
BeanWrapper instanceWrapper = null;
if (mbd.isSingleton()){//单态模式的Bean,先从容器中缓存中获取同名Bean
instanceWrapper = this.factoryBeanInstanceCache.remove(beanName);
}
if (instanceWrapper == null) {
//创建实例对象
instanceWrapper = createBeanInstance(beanName, mbd, args);
}
final Object bean = (instanceWrapper != null ? instanceWrapper.getWrappedInstance() : null);
//获取实例化对象的类型
Class beanType = (instanceWrapper != null ? instanceWrapper.getWrappedClass() : null);
//调用PostProcessor后置处理器
synchronized (mbd.postProcessingLock) {
if (!mbd.postProcessed) {
applyMergedBeanDefinitionPostProcessors(mbd, beanType, beanName);
mbd.postProcessed = true;
}
}
// Eagerly cache singletons to be able to resolve circular references
//向容器中缓存单态模式的Bean对象,以防循环引用
boolean earlySingletonExposure = (mbd.isSingleton() && this.allowCircularReferences &&
isSingletonCurrentlyInCreation(beanName));
if (earlySingletonExposure) {
if (logger.isDebugEnabled()) {
logger.debug("Eagerly caching bean '" + beanName +
"' to allow for resolving potential circular references");
}
//这里是一个匿名内部类。为了防止循环引用,尽早持有对象的引用
addSingletonFactory(beanName, new ObjectFactory() {
public Object getObject() throws BeansException {
return getEarlyBeanReference(beanName, mbd, bean);
}
});
}
//Bean对象的初始化,依赖注入在此触发
//这个exposedObject在初始化完毕之后返回作为依赖注入完毕后的Bean
Object exposedObject = bean;
try {
//将Bean实例对象封装,而且Bean定义中配置的属性值赋值给实例对象
populateBean(beanName, mbd, instanceWrapper);
if (exposedObject != null) {
//初始化Bean对象
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) {
//获取指定名称的已注冊的单态模式Bean对象
Object earlySingletonReference = getSingleton(beanName, false);
if (earlySingletonReference != null) {
//依据名称获取的以注冊的Bean和正在实例化的Bean是同一个
if (exposedObject == bean) {
//当前实例化的Bean初始化完毕
exposedObject = earlySingletonReference;
}
//当前Bean依赖其它Bean,而且当发生循环引用时不同意新创建实例对象
else if (!this.allowRawInjectionDespiteWrapping && hasDependentBean(beanName)) {
String[] dependentBeans = getDependentBeans(beanName);
Set<String> actualDependentBeans = new LinkedHashSet<String>(dependentBeans.length);
//获取当前Bean所依赖的其它Bean
for (String dependentBean : dependentBeans) {
//对依赖Bean进行类型检查
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 " +
"'getBeanNamesOfType' with the 'allowEagerInit' flag turned off, for example.");
}
}
}
}
//注冊完毕依赖注入的Bean
try {
registerDisposableBeanIfNecessary(beanName, bean, mbd);
}
catch (BeanDefinitionValidationException ex) {
throw new BeanCreationException(mbd.getResourceDescription(), beanName, "Invalid destruction signature", ex);
}
return exposedObject;
}
主要实如今下面两个方法中:
-
createBeanInstance:生成Bean所包括的java对象实例。
-
populateBean :对Bean属性的依赖注入进行处理。
createBeanInstance:生成Bean所包括的java对象实例。
在Docreate中找到这句:
instanceWrapper = createBeanInstance(beanName, mbd, args);
在createBeanInstance方法中,依据指定的初始化策略,使用静态工厂、工厂方法或者容器的自己主动装配特性生成java实例对象
//创建Bean的实例对象
protected BeanWrapper createBeanInstance(String beanName, RootBeanDefinition mbd, Object[] args) {
//检查确认Bean是可实例化的
Class beanClass = resolveBeanClass(mbd, beanName);
//使用工厂方法对Bean进行实例化
if (beanClass != null && !Modifier.isPublic(beanClass.getModifiers()) && !mbd.isNonPublicAccessAllowed()) {
throw new BeanCreationException(mbd.getResourceDescription(), beanName,
"Bean class isn't public, and non-public access not allowed: " + beanClass.getName());
}
if (mbd.getFactoryMethodName() != null) {
//调用工厂方法实例化
return instantiateUsingFactoryMethod(beanName, mbd, args);
}
//使用容器的自己主动装配方法进行实例化
boolean resolved = false;
boolean autowireNecessary = false;
if (args == null) {
synchronized (mbd.constructorArgumentLock) {
if (mbd.resolvedConstructorOrFactoryMethod != null) {
resolved = true;
autowireNecessary = mbd.constructorArgumentsResolved;
}
}
}
if (resolved) {
if (autowireNecessary) {
//配置了自己主动装配属性,使用容器的自己主动装配实例化
//容器的自己主动装配是依据參数类型匹配Bean的构造方法
return autowireConstructor(beanName, mbd, null, null);
}
else {
//使用默认的无參构造方法实例化
return instantiateBean(beanName, mbd);
}
}
//使用Bean的构造方法进行实例化
Constructor[] ctors = determineConstructorsFromBeanPostProcessors(beanClass, beanName);
if (ctors != null ||
mbd.getResolvedAutowireMode() == RootBeanDefinition.AUTOWIRE_CONSTRUCTOR ||
mbd.hasConstructorArgumentValues() || !ObjectUtils.isEmpty(args)) {
//使用容器的自己主动装配特性,调用匹配的构造方法实例化
return autowireConstructor(beanName, mbd, ctors, args);
}
//使用默认的无參构造方法实例化
return instantiateBean(beanName, mbd);
}
继续进入instantiateBean
//使用默认的无參构造方法实例化Bean对象
protected BeanWrapper instantiateBean(final String beanName, final RootBeanDefinition mbd) {
try {
Object beanInstance;
final BeanFactory parent = this;
//获取系统的安全管理接口,JDK标准的安全管理API
if (System.getSecurityManager() != null) {
//这里是一个匿名内置类。依据实例化策略创建实例对象
beanInstance = AccessController.doPrivileged(new PrivilegedAction<Object>() {
public Object run() {
return getInstantiationStrategy().instantiate(mbd, beanName, parent);
}
}, getAccessControlContext());
}
else {
//将实例化的对象封装起来
beanInstance = getInstantiationStrategy().instantiate(mbd, beanName, parent);
}
BeanWrapper bw = new BeanWrapperImpl(beanInstance);
initBeanWrapper(bw);
return bw;
}
catch (Throwable ex) {
throw new BeanCreationException(mbd.getResourceDescription(), beanName, "Instantiation of bean failed", ex);
}
}
我们看到createBeanInstance方法和instantiateBean的返回值是 BeanWrapper,那这个BeanWrapper究竟是什么?
:org.springframework.beans.BeanWrapper是Spring框架中重要的组件类。BeanWrapper相当于一个代理器,Spring通过BeanWrapper完毕Bean属性的填充工作。在Bean实例被InstantiationStrategy创建出来之后。容器主控程序将Bean实例通过BeanWrapper包装起来。
BeanWrapper还有两个顶级类接口,各自是PropertyAccessor和PropertyEditorRegistry。PropertyAccessor接口定义了各种訪问Bean属性的方法。如setPropertyValue(String,Object),setPropertyValues(PropertyValues pvs)等,而PropertyEditorRegistry是属性编辑器的注冊表。
所以BeanWrapper实现类BeanWrapperImpl具有了三重身份:
- 1)Bean包裹器。
- 2)属性訪问器;
- 3)属性编辑器注冊表。
在注入过程中:
createBean開始调用populateBean方法.首先进行自己主动装配模式的处理,也就是说对BeanDefiniton中定义自己主动装配模式的属性进行调整.比方定义了AUTOWIRE_BY_NAME的属性会对应找到匹配该命名的bean.而且将该被检索到的bean实例值给property,当然这里也肯定通过getBean方法来获取这个须要自己主动装配的bean实例,而且在BeanWrapper中包装
populateBean :对Bean属性的依赖注入进行处理
Bean属性怎样注入到实体对象中的
分为两部分
-
属性值解析
-
注入
//将Bean属性设置到生成的实例对象上
protected void populateBean(String beanName, AbstractBeanDefinition mbd, BeanWrapper bw) {
//获取容器在解析Bean定义资源时为BeanDefiniton中设置的属性值
PropertyValues pvs = mbd.getPropertyValues();
//实例对象为null
if (bw == null) {
//属性值不为空
if (!pvs.isEmpty()) {
throw new BeanCreationException(
mbd.getResourceDescription(), beanName, "Cannot apply property values to null instance");
}
else {
//实例对象为null,属性值也为空,不须要设置属性值,直接返回
return;
}
}
//在设置属性之前调用Bean的PostProcessor后置处理器
boolean continueWithPropertyPopulation = true;
if (!mbd.isSynthetic() && hasInstantiationAwareBeanPostProcessors()) {
for (BeanPostProcessor bp : getBeanPostProcessors()) {
if (bp instanceof InstantiationAwareBeanPostProcessor) {
InstantiationAwareBeanPostProcessor ibp = (InstantiationAwareBeanPostProcessor) bp;
if (!ibp.postProcessAfterInstantiation(bw.getWrappedInstance(), beanName)) {
continueWithPropertyPopulation = false;
break;
}
}
}
}
if (!continueWithPropertyPopulation) {
return;
}
//依赖注入開始。首先处理autowire自己主动装配的注入
if (mbd.getResolvedAutowireMode() == RootBeanDefinition.AUTOWIRE_BY_NAME ||
mbd.getResolvedAutowireMode() == RootBeanDefinition.AUTOWIRE_BY_TYPE) {
MutablePropertyValues newPvs = new MutablePropertyValues(pvs);
//对autowire自己主动装配的处理。依据Bean名称自己主动装配注入
if (mbd.getResolvedAutowireMode() == RootBeanDefinition.AUTOWIRE_BY_NAME) {
autowireByName(beanName, mbd, bw, newPvs);
}
//依据Bean类型自己主动装配注入
if (mbd.getResolvedAutowireMode() == RootBeanDefinition.AUTOWIRE_BY_TYPE) {
autowireByType(beanName, mbd, bw, newPvs);
}
pvs = newPvs;
}
//检查容器是否持实用于处理单态模式Bean关闭时的后置处理器
boolean hasInstAwareBpps = hasInstantiationAwareBeanPostProcessors();
//Bean实例对象没有依赖,即没有继承基类
boolean needsDepCheck = (mbd.getDependencyCheck() != RootBeanDefinition.DEPENDENCY_CHECK_NONE);
if (hasInstAwareBpps || needsDepCheck) {
//从实例对象中提取属性描写叙述符
PropertyDescriptor[] filteredPds = filterPropertyDescriptorsForDependencyCheck(bw);
if (hasInstAwareBpps) {
for (BeanPostProcessor bp : getBeanPostProcessors()) {
if (bp instanceof InstantiationAwareBeanPostProcessor) {
InstantiationAwareBeanPostProcessor ibp = (InstantiationAwareBeanPostProcessor) bp;
//使用BeanPostProcessor处理器处理属性值
pvs = ibp.postProcessPropertyValues(pvs, filteredPds, bw.getWrappedInstance(), beanName);
if (pvs == null) {
return;
}
}
}
}
if (needsDepCheck) {
//为要设置的属性进行依赖检查
checkDependencies(beanName, mbd, filteredPds, pvs);
}
}
//对属性进行注入
applyPropertyValues(beanName, mbd, bw, pvs);
}
继续applyPropertyValues
//解析并注入依赖属性的过程
protected void applyPropertyValues(String beanName, BeanDefinition mbd, BeanWrapper bw, PropertyValues pvs) {
if (pvs == null || pvs.isEmpty()) {
return;
}
//封装属性值
MutablePropertyValues mpvs = null;
List<PropertyValue> original;
if (System.getSecurityManager()!= null) {
if (bw instanceof BeanWrapperImpl) {
//设置安全上下文。JDK安全机制
((BeanWrapperImpl) bw).setSecurityContext(getAccessControlContext());
}
}
if (pvs instanceof MutablePropertyValues) {
mpvs = (MutablePropertyValues) pvs;
//属性值已经转换
if (mpvs.isConverted()) {
try {
//为实例化对象设置属性值
bw.setPropertyValues(mpvs);
return;
}
catch (BeansException ex) {
throw new BeanCreationException(
mbd.getResourceDescription(), beanName, "Error setting property values", ex);
}
}
//获取属性值对象的原始类型值
original = mpvs.getPropertyValueList();
}
else {
original = Arrays.asList(pvs.getPropertyValues());
}
//获取用户自己定义的类型转换
TypeConverter converter = getCustomTypeConverter();
if (converter == null) {
converter = bw;
}
//创建一个Bean定义属性值解析器,将Bean定义中的属性值解析为Bean实例对象
//的实际值
BeanDefinitionValueResolver valueResolver = new BeanDefinitionValueResolver(this, beanName, mbd, converter);
//为属性的解析值创建一个拷贝,将拷贝的数据注入到实例对象中
List<PropertyValue> deepCopy = new ArrayList<PropertyValue>(original.size());
boolean resolveNecessary = false;
for (PropertyValue pv : original) {
//属性值不须要转换
if (pv.isConverted()) {
deepCopy.add(pv);
}
//属性值须要转换
else {
String propertyName = pv.getName();
//原始的属性值,即转换之前的属性值
Object originalValue = pv.getValue();
//转换属性值,比如将引用转换为IoC容器中实例化对象引用
Object resolvedValue = valueResolver.resolveValueIfNecessary(pv, originalValue);
//转换之后的属性值
Object convertedValue = resolvedValue;
//属性值能否够转换
boolean convertible = bw.isWritableProperty(propertyName) &&
!PropertyAccessorUtils.isNestedOrIndexedProperty(propertyName);
if (convertible) {
//使用用户自己定义的类型转换器转换属性值
convertedValue = convertForProperty(resolvedValue, propertyName, bw, converter);
}
//存储转换后的属性值,避免每次属性注入时的转换工作
if (resolvedValue == originalValue) {
if (convertible) {
//设置属性转换之后的值
pv.setConvertedValue(convertedValue);
}
deepCopy.add(pv);
}
//属性是可转换的,且属性原始值是字符串类型,且属性的原始类型值不是
//动态生成的字符串。且属性的原始值不是集合或者数组类型
else if (convertible && originalValue instanceof TypedStringValue &&
!((TypedStringValue) originalValue).isDynamic() &&
!(convertedValue instanceof Collection || ObjectUtils.isArray(convertedValue))) {
pv.setConvertedValue(convertedValue);
deepCopy.add(pv);
}
else {
resolveNecessary = true;
//又一次封装属性的值
deepCopy.add(new PropertyValue(pv, convertedValue));
}
}
}
if (mpvs != null && !resolveNecessary) {
//标记属性值已经转换过
mpvs.setConverted();
}
//进行属性依赖注入
try {
bw.setPropertyValues(new MutablePropertyValues(deepCopy));
}
catch (BeansException ex) {
throw new BeanCreationException(
mbd.getResourceDescription(), beanName, "Error setting property values", ex);
}
}
从上面代码能够看出属性转换分为了两种情况
-
属性值类型不须要转换时,不须要解析属性值,直接准备进行依赖注入。
-
属性值须要进行类型转换时,如对其它对象的引用等,首先须要解析属性值,然后对解析后的属性值进行依赖注入。
对属性值的解析是在BeanDefinitionValueResolver类中的resolveValueIfNecessary方法中进行的,对属性值的依赖注入是通过bw.setPropertyValues方法实现的
resolveValueIfNecessary对属性值的解析
属性转换在在BeanDefinitionValueResolver的resolveValueIfNecessary方法完毕
当容器在对属性进行依赖注入时,假设发现属性值须要进行类型转换,如属性值是容器中还有一个Bean实例对象的引用,则容器首先须要依据属性值解析出所引用的对象。然后才干将该引用对象注入到目标实例对象的属性上去,对属性进行解析的由resolveValueIfNecessary方法实现。
可知:创建与注入是个递归的过程
//解析属性值。对注入类型进行转换
public Object resolveValueIfNecessary(Object argName, Object value) {
//对引用类型的属性进行解析
if (value instanceof RuntimeBeanReference) {
RuntimeBeanReference ref = (RuntimeBeanReference) value;
//调用引用类型属性的解析方法
return resolveReference(argName, ref);
}
//对属性值是引用容器中还有一个Bean名称的解析
else if (value instanceof RuntimeBeanNameReference) {
String refName = ((RuntimeBeanNameReference) value).getBeanName();
refName = String.valueOf(evaluate(refName));
//从容器中获取指定名称的Bean
if (!this.beanFactory.containsBean(refName)) {
throw new BeanDefinitionStoreException(
"Invalid bean name '" + refName + "' in bean reference for " + argName);
}
return refName;
}
//对Bean类型属性的解析,主要是Bean中的内部类
else if (value instanceof BeanDefinitionHolder) {
BeanDefinitionHolder bdHolder = (BeanDefinitionHolder) value;
return resolveInnerBean(argName, bdHolder.getBeanName(), bdHolder.getBeanDefinition());
}
else if (value instanceof BeanDefinition) {
BeanDefinition bd = (BeanDefinition) value;
return resolveInnerBean(argName, "(inner bean)", bd);
}
//对集合数组类型的属性解析
else if (value instanceof ManagedArray) {
ManagedArray array = (ManagedArray) value;
//获取数组的类型
Class elementType = array.resolvedElementType;
if (elementType == null) {
//获取数组元素的类型
String elementTypeName = array.getElementTypeName();
if (StringUtils.hasText(elementTypeName)) {
try {
//使用反射机制创建指定类型的对象
elementType = ClassUtils.forName(elementTypeName, this.beanFactory.getBeanClassLoader());
array.resolvedElementType = elementType;
}
catch (Throwable ex) {
throw new BeanCreationException(
this.beanDefinition.getResourceDescription(), this.beanName,
"Error resolving array type for " + argName, ex);
}
}
//没有获取到数组的类型,也没有获取到数组元素的类型,则直接设置数
//组的类型为Object
else {
elementType = Object.class;
}
}
//创建指定类型的数组
return resolveManagedArray(argName, (List<?>) value, elementType);
}
//解析list类型的属性值
else if (value instanceof ManagedList) {
return resolveManagedList(argName, (List<?>) value);
}
//解析set类型的属性值
else if (value instanceof ManagedSet) {
return resolveManagedSet(argName, (Set<?>) value);
}
//解析map类型的属性值
else if (value instanceof ManagedMap) {
return resolveManagedMap(argName, (Map<?, ?>) value);
}
//解析props类型的属性值。props事实上就是key和value均为字符串的map
else if (value instanceof ManagedProperties) {
Properties original = (Properties) value;
//创建一个拷贝,用于作为解析后的返回值
Properties copy = new Properties();
for (Map.Entry propEntry : original.entrySet()) {
Object propKey = propEntry.getKey();
Object propValue = propEntry.getValue();
if (propKey instanceof TypedStringValue) {
propKey = evaluate((TypedStringValue) propKey);
}
if (propValue instanceof TypedStringValue) {
propValue = evaluate((TypedStringValue) propValue);
}
copy.put(propKey, propValue);
}
return copy;
}
//解析字符串类型的属性值
else if (value instanceof TypedStringValue) {
TypedStringValue typedStringValue = (TypedStringValue) value;
Object valueObject = evaluate(typedStringValue);
try {
//获取属性的目标类型
Class<?
> resolvedTargetType = resolveTargetType(typedStringValue);
if (resolvedTargetType != null) {
//对目标类型的属性进行解析,递归调用
return this.typeConverter.convertIfNecessary(valueObject, resolvedTargetType);
}
//没有获取到属性的目标对象。则按Object类型返回
else {
return valueObject;
}
}
catch (Throwable ex) {
throw new BeanCreationException(
this.beanDefinition.getResourceDescription(), this.beanName,
"Error converting typed String value for " + argName, ex);
}
}
else {
return evaluate(value);
}
}
假设是引用类型。则进入resolveReference
//解析引用类型的属性值
private Object resolveReference(Object argName, RuntimeBeanReference ref) {
try {
//获取引用的Bean名称
String refName = ref.getBeanName();
refName = String.valueOf(evaluate(refName));
//假设引用的对象在父类容器中,则从父类容器中获取指定的引用对象
if (ref.isToParent()) {
if (this.beanFactory.getParentBeanFactory() == null) {
throw new BeanCreationException(
this.beanDefinition.getResourceDescription(), this.beanName,
"Can't resolve reference to bean '" + refName +
"' in parent factory: no parent factory available");
}
return this.beanFactory.getParentBeanFactory().getBean(refName);
}
//从当前的容器中获取指定的引用Bean对象。假设指定的Bean没有被实例化
//则会递归触发引用Bean的初始化和依赖注入
else {
Object bean = this.beanFactory.getBean(refName);
//将当前实例化对象的依赖引用对象
this.beanFactory.registerDependentBean(refName, this.beanName);
return bean;
}
}
catch (BeansException ex) {
throw new BeanCreationException(
this.beanDefinition.getResourceDescription(), this.beanName,
"Cannot resolve reference to bean '" + ref.getBeanName() + "' while setting " + argName, ex);
}
}
setPropertyValues方法实现对属性值的依赖注入
依赖注入是通过bw.setPropertyValues方法实现的,该方法也使用了托付模式,在BeanWrapper接口中至少定义了方法声明,依赖注入的详细实现交由事实上现类BeanWrapperImpl来完毕
BeanWrapperImpl类主要是对容器中完毕初始化的Bean实例对象进行属性的依赖注入。即把Bean对象设置到它所依赖的还有一个Bean的属性中去
进入BeanWrapperImpl
public class BeanWrapperImpl extends AbstractNestablePropertyAccessor implements BeanWrapper
BeanWrapperImpl继承了AbstractNestablePropertyAccessor。相应的setPropertyValues方法也在AbstractNestablePropertyAccessor中,进入AbstractNestablePropertyAccessor
里面有三个setPropertyValues方法,前两个都指向了最后一个:
//实现属性依赖注入功能
private void setPropertyValue(PropertyTokenHolder tokens, PropertyValue pv) throws BeansException {
//PropertyTokenHolder主要保存属性的名称、路径,以及集合的size等信息
String propertyName = tokens.canonicalName;
String actualName = tokens.actualName;
//keys是用来保存集合类型属性的size
if (tokens.keys != null) {
//将属性信息拷贝
PropertyTokenHolder getterTokens = new PropertyTokenHolder();
getterTokens.canonicalName = tokens.canonicalName;
getterTokens.actualName = tokens.actualName;
getterTokens.keys = new String[tokens.keys.length - 1];
System.arraycopy(tokens.keys, 0, getterTokens.keys, 0, tokens.keys.length - 1);
Object propValue;
try {
//获取属性值,该方法内部使用JDK的内省( Introspector)机制,调用属性//的getter(readerMethod)方法。获取属性的值
propValue = getPropertyValue(getterTokens);
}
catch (NotReadablePropertyException ex) {
throw new NotWritablePropertyException(getRootClass(), this.nestedPath + propertyName,
"Cannot access indexed value in property referenced " +
"in indexed property path '" + propertyName + "'", ex);
}
//获取集合类型属性的长度
String key = tokens.keys[tokens.keys.length - 1];
if (propValue == null) {
throw new NullValueInNestedPathException(getRootClass(), this.nestedPath + propertyName,
"Cannot access indexed value in property referenced " +
"in indexed property path '" + propertyName + "': returned null");
}
//注入array类型的属性值
else if (propValue.getClass().isArray()) {
//获取属性的描写叙述符
PropertyDescriptor pd = getCachedIntrospectionResults().getPropertyDescriptor(actualName);
//获取数组的类型
Class requiredType = propValue.getClass().getComponentType();
//获取数组的长度
int arrayIndex = Integer.parseInt(key);
Object oldValue = null;
try {
//获取数组曾经初始化的值
if (isExtractOldValueForEditor()) {
oldValue = Array.get(propValue, arrayIndex);
}
//将属性的值赋值给数组中的元素
Object convertedValue = convertIfNecessary(propertyName, oldValue, pv.getValue(), requiredType,
new PropertyTypeDescriptor(pd, new MethodParameter(pd.getReadMethod(), -1), requiredType));
Array.set(propValue, arrayIndex, convertedValue);
}
catch (IndexOutOfBoundsException ex) {
throw new InvalidPropertyException(getRootClass(), this.nestedPath + propertyName,
"Invalid array index in property path '" + propertyName + "'", ex);
}
}
//注入list类型的属性值
else if (propValue instanceof List) {
PropertyDescriptor pd = getCachedIntrospectionResults().getPropertyDescriptor(actualName);
//获取list集合的类型
Class requiredType = GenericCollectionTypeResolver.getCollectionReturnType(
pd.getReadMethod(), tokens.keys.length);
List list = (List) propValue;
//获取list集合的size
int index = Integer.parseInt(key);
Object oldValue = null;
if (isExtractOldValueForEditor() && index < list.size()) {
oldValue = list.get(index);
}
//获取list解析后的属性值
Object convertedValue = convertIfNecessary(propertyName, oldValue, pv.getValue(), requiredType,
new PropertyTypeDescriptor(pd, new MethodParameter(pd.getReadMethod(), -1), requiredType));
if (index < list.size()) {
//为list属性赋值
list.set(index, convertedValue);
}
//假设list的长度大于属性值的长度,则多余的元素赋值为null
else if (index >= list.size()) {
for (int i = list.size(); i < index; i++) {
try {
list.add(null);
}
catch (NullPointerException ex) {
throw new InvalidPropertyException(getRootClass(), this.nestedPath + propertyName,
"Cannot set element with index " + index + " in List of size " +
list.size() + ", accessed using property path '" + propertyName +
"': List does not support filling up gaps with null elements");
}
}
list.add(convertedValue);
}
}
//注入map类型的属性值
else if (propValue instanceof Map) {
PropertyDescriptor pd = getCachedIntrospectionResults().getPropertyDescriptor(actualName);
//获取map集合key的类型
Class mapKeyType = GenericCollectionTypeResolver.getMapKeyReturnType(
pd.getReadMethod(), tokens.keys.length);
//获取map集合value的类型
Class mapValueType = GenericCollectionTypeResolver.getMapValueReturnType(
pd.getReadMethod(), tokens.keys.length);
Map map = (Map) propValue;
//解析map类型属性key值
Object convertedMapKey = convertIfNecessary(null, null, key, mapKeyType,
new PropertyTypeDescriptor(pd, new MethodParameter(pd.getReadMethod(), -1), mapKeyType));
Object oldValue = null;
if (isExtractOldValueForEditor()) {
oldValue = map.get(convertedMapKey);
}
//解析map类型属性value值
Object convertedMapValue = convertIfNecessary(
propertyName, oldValue, pv.getValue(), mapValueType,
new TypeDescriptor(new MethodParameter(pd.getReadMethod(), -1, tokens.keys.length + 1)));
//将解析后的key和value值赋值给map集合属性
map.put(convertedMapKey, convertedMapValue);
}
else {
throw new InvalidPropertyException(getRootClass(), this.nestedPath + propertyName,
"Property referenced in indexed property path '" + propertyName +
"' is neither an array nor a List nor a Map; returned value was [" + pv.getValue() + "]");
}
}
//对非集合类型的属性注入
else {
PropertyDescriptor pd = pv.resolvedDescriptor;
if (pd == null || !pd.getWriteMethod().getDeclaringClass().isInstance(this.object)) {
pd = getCachedIntrospectionResults().getPropertyDescriptor(actualName);
//无法获取到属性名或者属性没有提供setter(写方法)方法
if (pd == null || pd.getWriteMethod() == null) {
//假设属性值是可选的,即不是必须的。则忽略该属性值
if (pv.isOptional()) {
logger.debug("Ignoring optional value for property '" + actualName +
"' - property not found on bean class [" + getRootClass().getName() + "]");
return;
}
//假设属性值是必须的,则抛出无法给属性赋值,由于每天提供setter方法异常
else {
PropertyMatches matches = PropertyMatches.forProperty(propertyName, getRootClass());
throw new NotWritablePropertyException(
getRootClass(), this.nestedPath + propertyName,
matches.buildErrorMessage(), matches.getPossibleMatches());
}
}
pv.getOriginalPropertyValue().resolvedDescriptor = pd;
}
Object oldValue = null;
try {
Object originalValue = pv.getValue();
Object valueToApply = originalValue;
if (!Boolean.FALSE.equals(pv.conversionNecessary)) {
if (pv.isConverted()) {
valueToApply = pv.getConvertedValue();
}
else {
if (isExtractOldValueForEditor() && pd.getReadMethod() != null) {
//获取属性的getter方法(读方法),JDK内省机制
final Method readMethod = pd.getReadMethod();
//假设属性的getter方法不是public訪问控制权限的,即訪问控制权限比較严格。
//则使用JDK的反射机制强行訪问非public的方法(暴力读取属性值)
if (!Modifier.isPublic(readMethod.getDeclaringClass().getModifiers()) &&
!readMethod.isAccessible()) {
if (System.getSecurityManager()!= null) {
//匿名内部类,依据权限改动属性的读取控制限制
AccessController.doPrivileged(new PrivilegedAction<Object>() {
public Object run() {
readMethod.setAccessible(true);
return null;
}
});
}
else {
readMethod.setAccessible(true);
}
}
try {
//属性没有提供getter方法时。调用潜在的读取属性值//的方法,获取属性值
if (System.getSecurityManager() != null) {
oldValue = AccessController.doPrivileged(new PrivilegedExceptionAction<Object>() {
public Object run() throws Exception {
return readMethod.invoke(object);
}
}, acc);
}
else {
oldValue = readMethod.invoke(object);
}
}
catch (Exception ex) {
if (ex instanceof PrivilegedActionException) {
ex = ((PrivilegedActionException) ex).getException();
}
if (logger.isDebugEnabled()) {
logger.debug("Could not read previous value of property '" +
this.nestedPath + propertyName + "'", ex);
}
}
}
//设置属性的注入值
valueToApply = convertForProperty(propertyName, oldValue, originalValue, pd);
}
pv.getOriginalPropertyValue().conversionNecessary = (valueToApply != originalValue);
}
//依据JDK的内省机制,获取属性的setter(写方法)方法
final Method writeMethod = (pd instanceof GenericTypeAwarePropertyDescriptor ?
((GenericTypeAwarePropertyDescriptor) pd).getWriteMethodForActualAccess() :
pd.getWriteMethod());
//假设属性的setter方法是非public,即訪问控制权限比較严格,则使用JDK的反射机制,
//强行设置setter方法可訪问(暴力为属性赋值)
if (!Modifier.isPublic(writeMethod.getDeclaringClass().getModifiers()) && !writeMethod.isAccessible()) {
//假设使用了JDK的安全机制,则须要权限验证
if (System.getSecurityManager()!= null) {
AccessController.doPrivileged(new PrivilegedAction<Object>() {
public Object run() {
writeMethod.setAccessible(true);
return null;
}
});
}
else {
writeMethod.setAccessible(true);
}
}
final Object value = valueToApply;
if (System.getSecurityManager() != null) {
try {
//将属性值设置到属性上去
AccessController.doPrivileged(new PrivilegedExceptionAction<Object>() {
public Object run() throws Exception {
writeMethod.invoke(object, value);
return null;
}
}, acc);
}
catch (PrivilegedActionException ex) {
throw ex.getException();
}
}
else {
writeMethod.invoke(this.object, value);
}
}
catch (TypeMismatchException ex) {
throw ex;
}
catch (InvocationTargetException ex) {
PropertyChangeEvent propertyChangeEvent =
new PropertyChangeEvent(this.rootObject, this.nestedPath + propertyName, oldValue, pv.getValue());
if (ex.getTargetException() instanceof ClassCastException) {
throw new TypeMismatchException(propertyChangeEvent, pd.getPropertyType(), ex.getTargetException());
}
else {
throw new MethodInvocationException(propertyChangeEvent, ex.getTargetException());
}
}
catch (Exception ex) {
PropertyChangeEvent pce =
new PropertyChangeEvent(this.rootObject, this.nestedPath + propertyName, oldValue, pv.getValue());
throw new MethodInvocationException(pce, ex);
}
}
}
有上面分析,Spring IoC容器将属性的值注入到Bean实例对象中大致例如以下
-
对于集合类型的属性,将其属性值解析为目标类型的集合后直接赋值给属性
-
对于非集合类型的属性,大量使用了JDK的反射和内省机制,通过属性的getter方法(reader method)获取指定属性注入曾经的值,同一时候调用属性的setter方法(writer method)为属性设置注入后的值。
至此,SpringIOC依赖注入就基本到这里了