BeanFactory是访问bean容器的根接口,它是一个bean容器的基本客户端视图。
先让我们看看beanfactory的前生后世吧!
(来源eclipse) (来自http://www.myexception.cn/software-architecture-design/925888.html)
beanFactory有四个重要的子接口:
SimpleJndiBeanFactory是spring beanFactory接口的基于jndi的简单实现。不支持枚举bean定义,故不需要实现ListableBeanFactory接口。这个bean工厂可以解析制定名称的jndi名称,在J2EE应用中,jndi名称的命名空间为"java:/comp/env/".
这个bean工厂主要和spring的CommonAnnotationBeanPostProcessor 联合使用。
The main intent of this factory is usage in combination with Spring‘s CommonAnnotationBeanPostProcessor, configured as "resourceFactory" for resolving @Resource annotations as JNDI objects without intermediate bean definitions. It may be used for similar lookup scenarios as well, of course, in particular if BeanFactory-style type checking is required.
ListableBeanFactory是beanFactory接口的扩展接口,它可以枚举所有的bean实例,而不是客户端通过名称一个一个的查询得出所有的实例。要预加载所有的bean定义的beanfactory可以实现这个接口来。该 接口定义了访问容器中Bean基本信息的若干方法,如查看Bean的个数、获取某一类型Bean的配置名、查看容器中是否包括某一Bean等方法;
/**
* Check if this bean factory contains a bean definition with the given name.
* <p>Does not consider any hierarchy this factory may participate in,
* and ignores any singleton beans that have been registered by
* other means than bean definitions.
* @param beanName the name of the bean to look for
* @return if this bean factory contains a bean definition with the given name
* @see #containsBean
*/
boolean containsBeanDefinition(String beanName);
/**
* Return the number of beans defined in the factory.
* <p>Does not consider any hierarchy this factory may participate in,
* and ignores any singleton beans that have been registered by
* other means than bean definitions.
* @return the number of beans defined in the factory
*/
int getBeanDefinitionCount();
/**
* Return the names of all beans defined in this factory.
* <p>Does not consider any hierarchy this factory may participate in,
* and ignores any singleton beans that have been registered by
* other means than bean definitions.
* @return the names of all beans defined in this factory,
* or an empty array if none defined
*/
String[] getBeanDefinitionNames();
/**
* Return the names of beans matching the given type (including subclasses),
* judging from either bean definitions or the value of {@code getObjectType}
* in the case of FactoryBeans.
* <p><b>NOTE: This method introspects top-level beans only.</b> It does <i>not</i>
* check nested beans which might match the specified type as well.
* <p>Does consider objects created by FactoryBeans, which means that FactoryBeans
* will get initialized. If the object created by the FactoryBean doesn‘t match,
* the raw FactoryBean itself will be matched against the type.
* <p>Does not consider any hierarchy this factory may participate in.
* Use BeanFactoryUtils‘ {@code beanNamesForTypeIncludingAncestors}
* to include beans in ancestor factories too.
* <p>Note: Does <i>not</i> ignore singleton beans that have been registered
* by other means than bean definitions.
* <p>This version of {@code getBeanNamesForType} matches all kinds of beans,
* be it singletons, prototypes, or FactoryBeans. In most implementations, the
* result will be the same as for {@code getBeanNamesOfType(type, true, true)}.
* <p>Bean names returned by this method should always return bean names <i>in the
* order of definition</i> in the backend configuration, as far as possible.
* @param type the class or interface to match, or {@code null} for all bean names
* @return the names of beans (or objects created by FactoryBeans) matching
* the given object type (including subclasses), or an empty array if none
* @see FactoryBean#getObjectType
* @see BeanFactoryUtils#beanNamesForTypeIncludingAncestors(ListableBeanFactory, Class)
*/
String[] getBeanNamesForType(Class<?> type);
/**
* Return the names of beans matching the given type (including subclasses),
* judging from either bean definitions or the value of {@code getObjectType}
* in the case of FactoryBeans.
* <p><b>NOTE: This method introspects top-level beans only.</b> It does <i>not</i>
* check nested beans which might match the specified type as well.
* <p>Does consider objects created by FactoryBeans if the "allowEagerInit" flag is set,
* which means that FactoryBeans will get initialized. If the object created by the
* FactoryBean doesn‘t match, the raw FactoryBean itself will be matched against the
* type. If "allowEagerInit" is not set, only raw FactoryBeans will be checked
* (which doesn‘t require initialization of each FactoryBean).
* <p>Does not consider any hierarchy this factory may participate in.
* Use BeanFactoryUtils‘ {@code beanNamesForTypeIncludingAncestors}
* to include beans in ancestor factories too.
* <p>Note: Does <i>not</i> ignore singleton beans that have been registered
* by other means than bean definitions.
* <p>Bean names returned by this method should always return bean names <i>in the
* order of definition</i> in the backend configuration, as far as possible.
* @param type the class or interface to match, or {@code null} for all bean names
* @param includeNonSingletons whether to include prototype or scoped beans too
* or just singletons (also applies to FactoryBeans)
* @param allowEagerInit whether to initialize <i>lazy-init singletons</i> and
* <i>objects created by FactoryBeans</i> (or by factory methods with a
* "factory-bean" reference) for the type check. Note that FactoryBeans need to be
* eagerly initialized to determine their type: So be aware that passing in "true"
* for this flag will initialize FactoryBeans and "factory-bean" references.
* @return the names of beans (or objects created by FactoryBeans) matching
* the given object type (including subclasses), or an empty array if none
* @see FactoryBean#getObjectType
* @see BeanFactoryUtils#beanNamesForTypeIncludingAncestors(ListableBeanFactory, Class, boolean, boolean)
*/
String[] getBeanNamesForType(Class<?> type, boolean includeNonSingletons, boolean allowEagerInit);
/**
* Return the bean instances that match the given object type (including
* subclasses), judging from either bean definitions or the value of
* {@code getObjectType} in the case of FactoryBeans.
* <p><b>NOTE: This method introspects top-level beans only.</b> It does <i>not</i>
* check nested beans which might match the specified type as well.
* <p>Does consider objects created by FactoryBeans, which means that FactoryBeans
* will get initialized. If the object created by the FactoryBean doesn‘t match,
* the raw FactoryBean itself will be matched against the type.
* <p>Does not consider any hierarchy this factory may participate in.
* Use BeanFactoryUtils‘ {@code beansOfTypeIncludingAncestors}
* to include beans in ancestor factories too.
* <p>Note: Does <i>not</i> ignore singleton beans that have been registered
* by other means than bean definitions.
* <p>This version of getBeansOfType matches all kinds of beans, be it
* singletons, prototypes, or FactoryBeans. In most implementations, the
* result will be the same as for {@code getBeansOfType(type, true, true)}.
* <p>The Map returned by this method should always return bean names and
* corresponding bean instances <i>in the order of definition</i> in the
* backend configuration, as far as possible.
* @param type the class or interface to match, or {@code null} for all concrete beans
* @return a Map with the matching beans, containing the bean names as
* keys and the corresponding bean instances as values
* @throws BeansException if a bean could not be created
* @since 1.1.2
* @see FactoryBean#getObjectType
* @see BeanFactoryUtils#beansOfTypeIncludingAncestors(ListableBeanFactory, Class)
*/
<T> Map<String, T> getBeansOfType(Class<T> type) throws BeansException;
/**
* Return the bean instances that match the given object type (including
* subclasses), judging from either bean definitions or the value of
* {@code getObjectType} in the case of FactoryBeans.
* <p><b>NOTE: This method introspects top-level beans only.</b> It does <i>not</i>
* check nested beans which might match the specified type as well.
* <p>Does consider objects created by FactoryBeans if the "allowEagerInit" flag is set,
* which means that FactoryBeans will get initialized. If the object created by the
* FactoryBean doesn‘t match, the raw FactoryBean itself will be matched against the
* type. If "allowEagerInit" is not set, only raw FactoryBeans will be checked
* (which doesn‘t require initialization of each FactoryBean).
* <p>Does not consider any hierarchy this factory may participate in.
* Use BeanFactoryUtils‘ {@code beansOfTypeIncludingAncestors}
* to include beans in ancestor factories too.
* <p>Note: Does <i>not</i> ignore singleton beans that have been registered
* by other means than bean definitions.
* <p>The Map returned by this method should always return bean names and
* corresponding bean instances <i>in the order of definition</i> in the
* backend configuration, as far as possible.
* @param type the class or interface to match, or {@code null} for all concrete beans
* @param includeNonSingletons whether to include prototype or scoped beans too
* or just singletons (also applies to FactoryBeans)
* @param allowEagerInit whether to initialize <i>lazy-init singletons</i> and
* <i>objects created by FactoryBeans</i> (or by factory methods with a
* "factory-bean" reference) for the type check. Note that FactoryBeans need to be
* eagerly initialized to determine their type: So be aware that passing in "true"
* for this flag will initialize FactoryBeans and "factory-bean" references.
* @return a Map with the matching beans, containing the bean names as
* keys and the corresponding bean instances as values
* @throws BeansException if a bean could not be created
* @see FactoryBean#getObjectType
* @see BeanFactoryUtils#beansOfTypeIncludingAncestors(ListableBeanFactory, Class, boolean, boolean)
*/
<T> Map<String, T> getBeansOfType(Class<T> type, boolean includeNonSingletons, boolean allowEagerInit)
throws BeansException;
/**
* Find all names of beans whose {@code Class} has the supplied {@link Annotation}
* type, without creating any bean instances yet.
* @param annotationType the type of annotation to look for
* @return the names of all matching beans
* @since 4.0
*/
String[] getBeanNamesForAnnotation(Class<? extends Annotation> annotationType);
/**
* Find all beans whose {@code Class} has the supplied {@link Annotation} type,
* returning a Map of bean names with corresponding bean instances.
* @param annotationType the type of annotation to look for
* @return a Map with the matching beans, containing the bean names as
* keys and the corresponding bean instances as values
* @throws BeansException if a bean could not be created
* @since 3.0
*/
Map<String, Object> getBeansWithAnnotation(Class<? extends Annotation> annotationType) throws BeansException;
/**
* Find an {@link Annotation} of {@code annotationType} on the specified
* bean, traversing its interfaces and super classes if no annotation can be
* found on the given class itself.
* @param beanName the name of the bean to look for annotations on
* @param annotationType the annotation class to look for
* @return the annotation of the given type if found, or {@code null}
* @throws NoSuchBeanDefinitionException if there is no bean with the given name
* @since 3.0
*/
<A extends Annotation> A findAnnotationOnBean(String beanName, Class<A> annotationType)
throws NoSuchBeanDefinitionException;
HierarchicalBeanFactory 是一个bean factory 子接口实现,可以作为层次结构的一部分。相对应的bean Factory方法setParentBeanFactory允许在一个可配置beanfactory中设置它们的父bean factory。
/**
* Return the parent bean factory, or {@code null} if there is none.
*/
BeanFactory getParentBeanFactory();
/**
* Return whether the local bean factory contains a bean of the given name,
* ignoring beans defined in ancestor contexts.
* <p>This is an alternative to {@code containsBean}, ignoring a bean
* of the given name from an ancestor bean factory.
* @param name the name of the bean to query
* @return whether a bean with the given name is defined in the local factory
* @see BeanFactory#containsBean
*/
boolean containsLocalBean(String name);
AutowireCapableBeanFactory:beanFactory接口的扩展实现,假如它们想要对已经存在的bean暴露它的功能,实现它就能实现自动装配功能。
定义了将容器中的Bean按某种规则(如按名字匹配、按类型匹配等)进行自动装配的方法;
/**
* Constant that indicates no externally defined autowiring. Note that
* BeanFactoryAware etc and annotation-driven injection will still be applied.
* @see #createBean
* @see #autowire
* @see #autowireBeanProperties
*/
int AUTOWIRE_NO = 0;
/**
* Constant that indicates autowiring bean properties by name
* (applying to all bean property setters).
* @see #createBean
* @see #autowire
* @see #autowireBeanProperties
*/
int AUTOWIRE_BY_NAME = 1;
/**
* Constant that indicates autowiring bean properties by type
* (applying to all bean property setters).
* @see #createBean
* @see #autowire
* @see #autowireBeanProperties
*/
int AUTOWIRE_BY_TYPE = 2;
/**
* Constant that indicates autowiring the greediest constructor that
* can be satisfied (involves resolving the appropriate constructor).
* @see #createBean
* @see #autowire
*/
int AUTOWIRE_CONSTRUCTOR = 3;
/**
* Constant that indicates determining an appropriate autowire strategy
* through introspection of the bean class.
* @see #createBean
* @see #autowire
* @deprecated as of Spring 3.0: If you are using mixed autowiring strategies,
* prefer annotation-based autowiring for clearer demarcation of autowiring needs.
*/
@Deprecated
int AUTOWIRE_AUTODETECT = 4;
//-------------------------------------------------------------------------
// Typical methods for creating and populating external bean instances
//-------------------------------------------------------------------------
/**
* Fully create a new bean instance of the given class.
* <p>Performs full initialization of the bean, including all applicable
* {@link BeanPostProcessor BeanPostProcessors}.
* <p>Note: This is intended for creating a fresh instance, populating annotated
* fields and methods as well as applying all standard bean initialiation callbacks.
* It does <i>not</> imply traditional by-name or by-type autowiring of properties;
* use {@link #createBean(Class, int, boolean)} for that purposes.
* @param beanClass the class of the bean to create
* @return the new bean instance
* @throws BeansException if instantiation or wiring failed
*/
<T> T createBean(Class<T> beanClass) throws BeansException;
/**
* Populate the given bean instance through applying after-instantiation callbacks
* and bean property post-processing (e.g. for annotation-driven injection).
* <p>Note: This is essentially intended for (re-)populating annotated fields and
* methods, either for new instances or for deserialized instances. It does
* <i>not</i> imply traditional by-name or by-type autowiring of properties;
* use {@link #autowireBeanProperties} for that purposes.
* @param existingBean the existing bean instance
* @throws BeansException if wiring failed
*/
void autowireBean(Object existingBean) throws BeansException;
/**
* Configure the given raw bean: autowiring bean properties, applying
* bean property values, applying factory callbacks such as {@code setBeanName}
* and {@code setBeanFactory}, and also applying all bean post processors
* (including ones which might wrap the given raw bean).
* <p>This is effectively a superset of what {@link #initializeBean} provides,
* fully applying the configuration specified by the corresponding bean definition.
* <b>Note: This method requires a bean definition for the given name!</b>
* @param existingBean the existing bean instance
* @param beanName the name of the bean, to be passed to it if necessary
* (a bean definition of that name has to be available)
* @return the bean instance to use, either the original or a wrapped one
* @throws org.springframework.beans.factory.NoSuchBeanDefinitionException
* if there is no bean definition with the given name
* @throws BeansException if the initialization failed
* @see #initializeBean
*/
Object configureBean(Object existingBean, String beanName) throws BeansException;
/**
* Resolve the specified dependency against the beans defined in this factory.
* @param descriptor the descriptor for the dependency
* @param beanName the name of the bean which declares the present dependency
* @return the resolved object, or {@code null} if none found
* @throws BeansException in dependency resolution failed
*/
Object resolveDependency(DependencyDescriptor descriptor, String beanName) throws BeansException;
//-------------------------------------------------------------------------
// Specialized methods for fine-grained control over the bean lifecycle
//-------------------------------------------------------------------------
/**
* Fully create a new bean instance of the given class with the specified
* autowire strategy. All constants defined in this interface are supported here.
* <p>Performs full initialization of the bean, including all applicable
* {@link BeanPostProcessor BeanPostProcessors}. This is effectively a superset
* of what {@link #autowire} provides, adding {@link #initializeBean} behavior.
* @param beanClass the class of the bean to create
* @param autowireMode by name or type, using the constants in this interface
* @param dependencyCheck whether to perform a dependency check for objects
* (not applicable to autowiring a constructor, thus ignored there)
* @return the new bean instance
* @throws BeansException if instantiation or wiring failed
* @see #AUTOWIRE_NO
* @see #AUTOWIRE_BY_NAME
* @see #AUTOWIRE_BY_TYPE
* @see #AUTOWIRE_CONSTRUCTOR
*/
Object createBean(Class<?> beanClass, int autowireMode, boolean dependencyCheck) throws BeansException;
/**
* Instantiate a new bean instance of the given class with the specified autowire
* strategy. All constants defined in this interface are supported here.
* Can also be invoked with {@code AUTOWIRE_NO} in order to just apply
* before-instantiation callbacks (e.g. for annotation-driven injection).
* <p>Does <i>not</i> apply standard {@link BeanPostProcessor BeanPostProcessors}
* callbacks or perform any further initialization of the bean. This interface
* offers distinct, fine-grained operations for those purposes, for example
* {@link #initializeBean}. However, {@link InstantiationAwareBeanPostProcessor}
* callbacks are applied, if applicable to the construction of the instance.
* @param beanClass the class of the bean to instantiate
* @param autowireMode by name or type, using the constants in this interface
* @param dependencyCheck whether to perform a dependency check for object
* references in the bean instance (not applicable to autowiring a constructor,
* thus ignored there)
* @return the new bean instance
* @throws BeansException if instantiation or wiring failed
* @see #AUTOWIRE_NO
* @see #AUTOWIRE_BY_NAME
* @see #AUTOWIRE_BY_TYPE
* @see #AUTOWIRE_CONSTRUCTOR
* @see #AUTOWIRE_AUTODETECT
* @see #initializeBean
* @see #applyBeanPostProcessorsBeforeInitialization
* @see #applyBeanPostProcessorsAfterInitialization
*/
Object autowire(Class<?> beanClass, int autowireMode, boolean dependencyCheck) throws BeansException;
/**
* Autowire the bean properties of the given bean instance by name or type.
* Can also be invoked with {@code AUTOWIRE_NO} in order to just apply
* after-instantiation callbacks (e.g. for annotation-driven injection).
* <p>Does <i>not</i> apply standard {@link BeanPostProcessor BeanPostProcessors}
* callbacks or perform any further initialization of the bean. This interface
* offers distinct, fine-grained operations for those purposes, for example
* {@link #initializeBean}. However, {@link InstantiationAwareBeanPostProcessor}
* callbacks are applied, if applicable to the configuration of the instance.
* @param existingBean the existing bean instance
* @param autowireMode by name or type, using the constants in this interface
* @param dependencyCheck whether to perform a dependency check for object
* references in the bean instance
* @throws BeansException if wiring failed
* @see #AUTOWIRE_BY_NAME
* @see #AUTOWIRE_BY_TYPE
* @see #AUTOWIRE_NO
*/
void autowireBeanProperties(Object existingBean, int autowireMode, boolean dependencyCheck)
throws BeansException;
/**
* Apply the property values of the bean definition with the given name to
* the given bean instance. The bean definition can either define a fully
* self-contained bean, reusing its property values, or just property values
* meant to be used for existing bean instances.
* <p>This method does <i>not</i> autowire bean properties; it just applies
* explicitly defined property values. Use the {@link #autowireBeanProperties}
* method to autowire an existing bean instance.
* <b>Note: This method requires a bean definition for the given name!</b>
* <p>Does <i>not</i> apply standard {@link BeanPostProcessor BeanPostProcessors}
* callbacks or perform any further initialization of the bean. This interface
* offers distinct, fine-grained operations for those purposes, for example
* {@link #initializeBean}. However, {@link InstantiationAwareBeanPostProcessor}
* callbacks are applied, if applicable to the configuration of the instance.
* @param existingBean the existing bean instance
* @param beanName the name of the bean definition in the bean factory
* (a bean definition of that name has to be available)
* @throws org.springframework.beans.factory.NoSuchBeanDefinitionException
* if there is no bean definition with the given name
* @throws BeansException if applying the property values failed
* @see #autowireBeanProperties
*/
void applyBeanPropertyValues(Object existingBean, String beanName) throws BeansException;
/**
* Initialize the given raw bean, applying factory callbacks
* such as {@code setBeanName} and {@code setBeanFactory},
* also applying all bean post processors (including ones which
* might wrap the given raw bean).
* <p>Note that no bean definition of the given name has to exist
* in the bean factory. The passed-in bean name will simply be used
* for callbacks but not checked against the registered bean definitions.
* @param existingBean the existing bean instance
* @param beanName the name of the bean, to be passed to it if necessary
* (only passed to {@link BeanPostProcessor BeanPostProcessors})
* @return the bean instance to use, either the original or a wrapped one
* @throws BeansException if the initialization failed
*/
Object initializeBean(Object existingBean, String beanName) throws BeansException;
/**
* Apply {@link BeanPostProcessor BeanPostProcessors} to the given existing bean
* instance, invoking their {@code postProcessBeforeInitialization} methods.
* The returned bean instance may be a wrapper around the original.
* @param existingBean the new bean instance
* @param beanName the name of the bean
* @return the bean instance to use, either the original or a wrapped one
* @throws BeansException if any post-processing failed
* @see BeanPostProcessor#postProcessBeforeInitialization
*/
Object applyBeanPostProcessorsBeforeInitialization(Object existingBean, String beanName)
throws BeansException;
/**
* Apply {@link BeanPostProcessor BeanPostProcessors} to the given existing bean
* instance, invoking their {@code postProcessAfterInitialization} methods.
* The returned bean instance may be a wrapper around the original.
* @param existingBean the new bean instance
* @param beanName the name of the bean
* @return the bean instance to use, either the original or a wrapped one
* @throws BeansException if any post-processing failed
* @see BeanPostProcessor#postProcessAfterInitialization
*/
Object applyBeanPostProcessorsAfterInitialization(Object existingBean, String beanName)
throws BeansException;
/**
* Destroy the given bean instance (typically coming from {@link #createBean}),
* applying the {@link org.springframework.beans.factory.DisposableBean} contract as well as
* registered {@link DestructionAwareBeanPostProcessor DestructionAwareBeanPostProcessors}.
* <p>Any exception that arises during destruction should be caught
* and logged instead of propagated to the caller of this method.
* @param existingBean the bean instance to destroy
*/
void destroyBean(Object existingBean);
/**
* Resolve the specified dependency against the beans defined in this factory.
* @param descriptor the descriptor for the dependency
* @param beanName the name of the bean which declares the present dependency
* @param autowiredBeanNames a Set that all names of autowired beans (used for
* resolving the present dependency) are supposed to be added to
* @param typeConverter the TypeConverter to use for populating arrays and
* collections
* @return the resolved object, or {@code null} if none found
* @throws BeansException in dependency resolution failed
*/
Object resolveDependency(DependencyDescriptor descriptor, String beanName,
Set<String> autowiredBeanNames, TypeConverter typeConverter) throws BeansException;
其中:
HierarchicalBeanFactory的子接口
ConfigurableBeanFactory是一个配置接口,大部分beanFactory实现了这个接口。这个接口提供了对一个beanfactory进行配置的便利方法,加上beanFactory接口的客户端方法。增强了IoC容器的可定制性,它定义了设置类装载器、属性编辑器、容器初始化后置处理器等方法;
SingletonBeanRegistry:定义了允许在运行期间向容器注册单实例Bean的方法;
BeanDefinitionRegistry:Spring配置文件中每一个<bean>节点元素在Spring容器里都通过一个BeanDefinition对象表示,它描述了Bean的配置信息。而BeanDefinition Registry接口提供了向容器手工注册BeanDefinition对象的方法。
时间: 2024-08-26 06:24:14