/*
* Copyright 2002-2008 the original author or authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.springframework.beans.factory.config;
import java.beans.PropertyEditor;
import org.springframework.beans.PropertyEditorRegistrar;
import org.springframework.beans.PropertyEditorRegistry;
import org.springframework.beans.TypeConverter;
import org.springframework.beans.factory.BeanDefinitionStoreException;
import org.springframework.beans.factory.BeanFactory;
import org.springframework.beans.factory.HierarchicalBeanFactory;
import org.springframework.beans.factory.NoSuchBeanDefinitionException;
import org.springframework.util.StringValueResolver;
/**
* Configuration interface to be implemented by most bean factories. Provides
* facilities to configure a bean factory, in addition to the bean factory
* client methods in the {@link org.springframework.beans.factory.BeanFactory}
* interface.
*
* <p>This bean factory interface is not meant to be used in normal application
* code: Stick to {@link org.springframework.beans.factory.BeanFactory} or
* {@link org.springframework.beans.factory.ListableBeanFactory} for typical
* needs. This extended interface is just meant to allow for framework-internal
* plug'n'play and for special access to bean factory configuration methods.
*
* @author Juergen Hoeller
* @since 03.11.2003
* @see org.springframework.beans.factory.BeanFactory
* @see org.springframework.beans.factory.ListableBeanFactory
* @see ConfigurableListableBeanFactory
*/
public interface ConfigurableBeanFactory extends HierarchicalBeanFactory, SingletonBeanRegistry {
/**
* Scope identifier for the standard singleton scope: "singleton".
* Custom scopes can be added via <code>registerScope</code>.
* @see #registerScope
*/
String SCOPE_SINGLETON = "singleton";
/**
* Scope identifier for the standard prototype scope: "prototype".
* Custom scopes can be added via <code>registerScope</code>.
* @see #registerScope
*/
String SCOPE_PROTOTYPE = "prototype";
/**
* Set the parent of this bean factory.
* <p>Note that the parent cannot be changed: It should only be set outside
* a constructor if it isn't available at the time of factory instantiation.
* @param parentBeanFactory the parent BeanFactory
* @throws IllegalStateException if this factory is already associated with
* a parent BeanFactory
* @see #getParentBeanFactory()
*/
void setParentBeanFactory(BeanFactory parentBeanFactory) throws IllegalStateException;
/**
* Set the class loader to use for loading bean classes.
* Default is the thread context class loader.
* <p>Note that this class loader will only apply to bean definitions
* that do not carry a resolved bean class yet. This is the case as of
* Spring 2.0 by default: Bean definitions only carry bean class names,
* to be resolved once the factory processes the bean definition.
* @param beanClassLoader the class loader to use,
* or <code>null</code> to suggest the default class loader
*/
void setBeanClassLoader(ClassLoader beanClassLoader);
/**
* Return this factory's class loader for loading bean classes.
*/
ClassLoader getBeanClassLoader();
/**
* Specify a temporary ClassLoader to use for type matching purposes.
* Default is none, simply using the standard bean ClassLoader.
* <p>A temporary ClassLoader is usually just specified if
* <i>load-time weaving</i> is involved, to make sure that actual bean
* classes are loaded as lazily as possible. The temporary loader is
* then removed once the BeanFactory completes its bootstrap phase.
*/
void setTempClassLoader(ClassLoader tempClassLoader);
/**
* Return the temporary ClassLoader to use for type matching purposes,
* if any.
*/
ClassLoader getTempClassLoader();
/**
* Set whether to cache bean metadata such as given bean definitions
* (in merged fashion) and resolved bean classes. Default is on.
* <p>Turn this flag off to enable hot-refreshing of bean definition objects
* and in particular bean classes. If this flag is off, any creation of a bean
* instance will re-query the bean class loader for newly resolved classes.
*/
void setCacheBeanMetadata(boolean cacheBeanMetadata);
/**
* Return whether to cache bean metadata such as given bean definitions
* (in merged fashion) and resolved bean classes.
*/
boolean isCacheBeanMetadata();
/**
* Add a PropertyEditorRegistrar to be applied to all bean creation processes.
* <p>Such a registrar creates new PropertyEditor instances and registers them
* on the given registry, fresh for each bean creation attempt. This avoids
* the need for synchronization on custom editors; hence, it is generally
* preferable to use this method instead of {@link #registerCustomEditor}.
* @param registrar the PropertyEditorRegistrar to register
*/
void addPropertyEditorRegistrar(PropertyEditorRegistrar registrar);
/**
* Register the given custom property editor for all properties of the
* given type. To be invoked during factory configuration.
* <p>Note that this method will register a shared custom editor instance;
* access to that instance will be synchronized for thread-safety. It is
* generally preferable to use {@link #addPropertyEditorRegistrar} instead
* of this method, to avoid for the need for synchronization on custom editors.
* @param requiredType type of the property
* @param propertyEditorClass the {@link PropertyEditor} class to register
*/
void registerCustomEditor(Class requiredType, Class propertyEditorClass);
/**
* Register the given custom property editor for all properties of the
* given type. To be invoked during factory configuration.
* <p>Note that this method will register a shared custom editor instance;
* access to that instance will be synchronized for thread-safety. It is
* generally preferable to use {@link #addPropertyEditorRegistrar} instead
* of this method, to avoid for the need for synchronization on custom editors.
* @param requiredType type of the property
* @param propertyEditor editor to register
* @deprecated as of Spring 2.0.7, in favor of {@link #addPropertyEditorRegistrar}
* and {@link #registerCustomEditor(Class, Class)}
*/
void registerCustomEditor(Class requiredType, PropertyEditor propertyEditor);
/**
* Initialize the given PropertyEditorRegistry with the custom editors
* that have been registered with this BeanFactory.
* @param registry the PropertyEditorRegistry to initialize
*/
void copyRegisteredEditorsTo(PropertyEditorRegistry registry);
/**
* Set a custom type converter that this BeanFactory should use for converting
* bean property values, constructor argument values, etc.
* <p>This will override the default PropertyEditor mechanism and hence make
* any custom editors or custom editor registrars irrelevant.
* @see #addPropertyEditorRegistrar
* @see #registerCustomEditor
*/
void setTypeConverter(TypeConverter typeConverter);
/**
* Obtain a type converter as used by this BeanFactory. This may be a fresh
* instance for each call, since TypeConverters are usually <i>not</i> thread-safe.
* <p>If the default PropertyEditor mechanism is active, the returned
* TypeConverter will be aware of all custom editors that have been registered.
*/
TypeConverter getTypeConverter();
/**
* Add a new BeanPostProcessor that will get applied to beans created
* by this factory. To be invoked during factory configuration.
* <p>Note: Post-processors submitted here will be applied in the order of
* registration; any ordering semantics expressed through implementing the
* {@link org.springframework.core.Ordered} interface will be ignored. Note
* that autodetected post-processors (e.g. as beans in an ApplicationContext)
* will always be applied after programmatically registered ones.
* @param beanPostProcessor the post-processor to register
*/
void addBeanPostProcessor(BeanPostProcessor beanPostProcessor);
/**
* Return the current number of registered BeanPostProcessors, if any.
*/
int getBeanPostProcessorCount();
/**
* Register the given scope, backed by the given Scope implementation.
* @param scopeName the scope identifier
* @param scope the backing Scope implementation
*/
void registerScope(String scopeName, Scope scope);
/**
* Return the names of all currently registered scopes.
* <p>This will only return the names of explicitly registered scopes.
* Built-in scopes such as "singleton" and "prototype" won't be exposed.
* @return the array of scope names, or an empty array if none
* @see #registerScope
*/
String[] getRegisteredScopeNames();
/**
* Return the Scope implementation for the given scope name, if any.
* <p>This will only return explicitly registered scopes.
* Built-in scopes such as "singleton" and "prototype" won't be exposed.
* @param scopeName the name of the scope
* @return the registered Scope implementation, or <code>null</code> if none
* @see #registerScope
*/
Scope getRegisteredScope(String scopeName);
/**
* Copy all relevant configuration from the given other factory.
* <p>Should include all standard configuration settings as well as
* BeanPostProcessors, Scopes, and factory-specific internal settings.
* Should not include any metadata of actual bean definitions,
* such as BeanDefinition objects and bean name aliases.
* @param otherFactory the other BeanFactory to copy from
*/
void copyConfigurationFrom(ConfigurableBeanFactory otherFactory);
/**
* Given a bean name, create an alias. We typically use this method to
* support names that are illegal within XML ids (used for bean names).
* <p>Typically invoked during factory configuration, but can also be
* used for runtime registration of aliases. Therefore, a factory
* implementation should synchronize alias access.
* @param beanName the canonical name of the target bean
* @param alias the alias to be registered for the bean
* @throws BeanDefinitionStoreException if the alias is already in use
*/
void registerAlias(String beanName, String alias) throws BeanDefinitionStoreException;
/**
* Resolve all alias target names and aliases registered in this
* factory, applying the given StringValueResolver to them.
* <p>The value resolver may for example resolve placeholders
* in target bean names and even in alias names.
* @param valueResolver the StringValueResolver to apply
*/
void resolveAliases(StringValueResolver valueResolver);
/**
* Return a merged BeanDefinition for the given bean name,
* merging a child bean definition with its parent if necessary.
* Considers bean definitions in ancestor factories as well.
* @param beanName the name of the bean to retrieve the merged definition for
* @return a (potentially merged) BeanDefinition for the given bean
* @throws NoSuchBeanDefinitionException if there is no bean definition with the given name
*/
BeanDefinition getMergedBeanDefinition(String beanName) throws NoSuchBeanDefinitionException;
/**
* Determine whether the bean with the given name is a FactoryBean.
* @param name the name of the bean to check
* @return whether the bean is a FactoryBean
* (<code>false</code> means the bean exists but is not a FactoryBean)
* @throws NoSuchBeanDefinitionException if there is no bean with the given name
*/
boolean isFactoryBean(String name) throws NoSuchBeanDefinitionException;
/**
* Determine whether the specified bean is currently in creation.
* @param beanName the name of the bean
* @return whether the bean is currently in creation
*/
boolean isCurrentlyInCreation(String beanName);
/**
* Register a dependent bean for the given bean,
* to be destroyed before the given bean is destroyed.
* @param beanName the name of the bean
* @param dependentBeanName the name of the dependent bean
*/
void registerDependentBean(String beanName, String dependentBeanName);
/**
* Return the names of all beans which depend on the specified bean, if any.
* @param beanName the name of the bean
* @return the array of dependent bean names, or an empty array if none
*/
String[] getDependentBeans(String beanName);
/**
* Return the names of all beans that the specified bean depends on, if any.
* @param beanName the name of the bean
* @return the array of names of beans which the bean depends on,
* or an empty array if none
*/
String[] getDependenciesForBean(String beanName);
/**
* Destroy the given bean instance (usually a prototype instance
* obtained from this factory) according to its bean definition.
* <p>Any exception that arises during destruction should be caught
* and logged instead of propagated to the caller of this method.
* @param beanName the name of the bean definition
* @param beanInstance the bean instance to destroy
*/
void destroyBean(String beanName, Object beanInstance);
/**
* Destroy the specified scoped bean in the current target scope, if any.
* <p>Any exception that arises during destruction should be caught
* and logged instead of propagated to the caller of this method.
* @param beanName the name of the scoped bean
*/
void destroyScopedBean(String beanName);
/**
* Destroy all singleton beans in this factory, including inner beans that have
* been registered as disposable. To be called on shutdown of a factory.
* <p>Any exception that arises during destruction should be caught
* and logged instead of propagated to the caller of this method.
*/
void destroySingletons();
}