@ -1241,7 +1241,7 @@ The following example shows the data access objects `daos.xml` file:
@@ -1241,7 +1241,7 @@ The following example shows the data access objects `daos.xml` file:
<!-- additional collaborators and configuration for this bean go here -->
<!-- additional collaborators and configuration for this bean go here -->
</bean>
@ -1282,7 +1282,7 @@ to load bean definitions from another file or files. For example:
@@ -1282,7 +1282,7 @@ to load bean definitions from another file or files. For example:
</beans>
----
In the preceding example, external bean definitions are loaded from three files,
In the preceding example, external bean definitions are loaded from three files:
`services.xml`, `messageSource.xml`, and `themeSource.xml`. All location paths are
relative to the definition file doing the importing, so `services.xml` must be in the
same directory or classpath location as the file doing the importing, while
@ -1511,7 +1511,7 @@ You use the `Class` property in one of two ways:
@@ -1511,7 +1511,7 @@ You use the `Class` property in one of two ways:
equivalent to Java code using the `new` operator.
* To specify the actual class containing the `static` factory method that will be
invoked to create the object, in the less common case where the container invokes a
`static`, __factory__ method on a class to create the bean. The object type returned
`static` __factory__ method on a class to create the bean. The object type returned
from the invocation of the `static` factory method may be the same class or another
class entirely.
@ -2046,12 +2046,12 @@ part of a Spring XML configuration file specifies some bean definitions:
@@ -2046,12 +2046,12 @@ part of a Spring XML configuration file specifies some bean definitions:
<!-- setter injection using the nested <ref/> element -->
<!-- setter injection using the nested ref element -->
<property name="beanOne">
<ref bean="anotherExampleBean"/>
</property>
<!-- setter injection using the neater 'ref' attribute -->
<!-- setter injection using the neater ref attribute -->
<property name="beanTwo" ref="yetAnotherBean"/>
<property name="integerProperty" value="1"/>
</bean>
@ -2091,12 +2091,12 @@ in the XML file. The following example uses constructor-based DI:
@@ -2091,12 +2091,12 @@ in the XML file. The following example uses constructor-based DI:
<!-- constructor injection using the nested <ref/> element -->
<!-- constructor injection using the nested ref element -->
<constructor-arg>
<ref bean="anotherExampleBean"/>
</constructor-arg>
<!-- constructor injection using the neater 'ref' attribute -->
<!-- constructor injection using the neater ref attribute -->
<constructor-arg ref="yetAnotherBean"/>
<constructor-arg type="int" value="1"/>
@ -2297,18 +2297,12 @@ likely fatal results) when the `client` bean is actually instantiated. If the `c
@@ -2297,18 +2297,12 @@ likely fatal results) when the `client` bean is actually instantiated. If the `c
bean is a <<beans-factory-scopes,prototype>> bean, this typo and the resulting exception
may only be discovered long after the container is deployed.
Additionally, if the referenced bean is in the same XML unit, and the bean name is the
bean __id__, you can use the `local` attribute, which allows the XML parser itself to
validate the bean id earlier, at XML document parse time.
[source,xml,indent=0]
[subs="verbatim,quotes"]
----
<property name="targetName">
<!-- a bean with id theTargetBean must exist; otherwise an exception will be thrown -->
<idref bean="theTargetBean"/>
</property>
----
[NOTE]
====
The `local` attribute on the `idref` element is no longer supported in the 4.0 beans xsd
since it does not provide value over a regular `bean` reference anymore. Simply change
your existing `idref local` references to `idref bean` when upgrading to the 4.0 schema.
====
A common place (at least in versions earlier than Spring 2.0) where the `<idref/>` element
brings value is in the configuration of <<aop-pfb-1,AOP interceptors>> in a
@ -2360,7 +2354,7 @@ container with a proxy that will have the same name as the parent bean.
@@ -2360,7 +2354,7 @@ container with a proxy that will have the same name as the parent bean.
[subs="verbatim,quotes"]
----
<!-- in the child (descendant) context -->
<bean id="accountService" <-- bean name is the same as the parent bean -->
<bean id="accountService" <!-- bean name is the same as the parent bean -->
<ref parent="accountService"/> <!-- notice how we refer to the parent bean -->
@ -2586,7 +2580,14 @@ following XML-based configuration metadata snippet sets the email property to th
@@ -2586,7 +2580,14 @@ following XML-based configuration metadata snippet sets the email property to th
----
The preceding example is equivalent to the following Java code:
`exampleBean.setEmail("")`. The `<null/>` element handles `null` values. For example:
[source,java,indent=0]
[subs="verbatim,quotes"]
----
exampleBean.setEmail("")
----
The `<null/>` element handles `null` values. For example:
[source,xml,indent=0]
[subs="verbatim,quotes"]
@ -2599,7 +2600,12 @@ The preceding example is equivalent to the following Java code:
@@ -2599,7 +2600,12 @@ The preceding example is equivalent to the following Java code:
----
The above configuration is equivalent to the following Java code:
`exampleBean.setEmail(null)`.
[source,java,indent=0]
[subs="verbatim,quotes"]
----
exampleBean.setEmail(null)
----
[[beans-p-namespace]]
@ -3779,7 +3785,7 @@ of the scope. You can also do the `Scope` registration declaratively, using the
@@ -3779,7 +3785,7 @@ of the scope. You can also do the `Scope` registration declaratively, using the
[NOTE]
====
When you place <aop:scoped-proxy/> in a `FactoryBean` implementation, it is the factory
When you place `<aop:scoped-proxy/>` in a `FactoryBean` implementation, it is the factory
bean itself that is scoped, not the object returned from `getObject()`.
====
@ -4074,7 +4080,7 @@ lifecycle requirements (e.g. starts and stops some background process):
@@ -4074,7 +4080,7 @@ lifecycle requirements (e.g. starts and stops some background process):
----
Any Spring-managed object may implement that interface. Then, when the
ApplicationContext itself starts and stops, it will cascade those calls to all Lifecycle
`ApplicationContext` itself starts and stops, it will cascade those calls to all `Lifecycle`
implementations defined within that context. It does this by delegating to a
`LifecycleProcessor`:
@ -4126,7 +4132,7 @@ another option, namely the `getPhase()` method as defined on its super-interface
@@ -4126,7 +4132,7 @@ another option, namely the `getPhase()` method as defined on its super-interface
When starting, the objects with the lowest phase start first, and when stopping, the
reverse order is followed. Therefore, an object that implements `SmartLifecycle` and
whose getPhase() method returns `Integer.MIN_VALUE` would be among the first to start
whose `getPhase()` method returns `Integer.MIN_VALUE` would be among the first to start
and the last to stop. At the other end of the spectrum, a phase value of
`Integer.MAX_VALUE` would indicate that the object should be started last and stopped
first (likely because it depends on other processes to be running). When considering the
@ -4136,7 +4142,7 @@ negative phase value would indicate that an object should start before those sta
@@ -4136,7 +4142,7 @@ negative phase value would indicate that an object should start before those sta
components (and stop after them), and vice versa for any positive phase value.
As you can see the stop method defined by `SmartLifecycle` accepts a callback. Any
implementation __must__ invoke that callback's run() method after that implementation's
implementation __must__ invoke that callback's `run()` method after that implementation's
shutdown process is complete. That enables asynchronous shutdown where necessary since
the default implementation of the `LifecycleProcessor` interface,
`DefaultLifecycleProcessor`, will wait up to its timeout value for the group of objects
@ -4156,14 +4162,14 @@ defining the following would be sufficient:
@@ -4156,14 +4162,14 @@ defining the following would be sufficient:
As mentioned, the `LifecycleProcessor` interface defines callback methods for the
refreshing and closing of the context as well. The latter will simply drive the shutdown
process as if stop() had been called explicitly, but it will happen when the context is
process as if `stop()` had been called explicitly, but it will happen when the context is
closing. The 'refresh' callback on the other hand enables another feature of
`SmartLifecycle` beans. When the context is refreshed (after all objects have been
instantiated and initialized), that callback will be invoked, and at that point the
default lifecycle processor will check the boolean value returned by each
`SmartLifecycle` object's `isAutoStartup()` method. If "true", then that object will be
started at that point rather than waiting for an explicit invocation of the context's or
its own start() method (unlike the context refresh, the context start does not happen
its own `start()` method (unlike the context refresh, the context start does not happen
automatically for a standard context implementation). The "phase" value as well as any
"depends-on" relationships will determine the startup order in the same way as described
above.
@ -4216,8 +4222,8 @@ declared on the `AbstractApplicationContext` class:
@@ -4216,8 +4222,8 @@ declared on the `AbstractApplicationContext` class:
[[beans-factory-aware]]
==== ApplicationContextAware and BeanNameAware
When an `ApplicationContext` creates a class that implements the
`org.springframework.context.ApplicationContextAware` interface, the class is provided
When an `ApplicationContext` creates an object instance that implements the
`org.springframework.context.ApplicationContextAware` interface, the instance is provided
with a reference to that `ApplicationContext`.
[source,java,indent=0]
@ -4237,8 +4243,8 @@ additional functionality. One use would be the programmatic retrieval of other b
@@ -4237,8 +4243,8 @@ additional functionality. One use would be the programmatic retrieval of other b
Sometimes this capability is useful; however, in general you should avoid it, because it
couples the code to Spring and does not follow the Inversion of Control style, where
collaborators are provided to beans as properties. Other methods of the
ApplicationContext provide access to file resources, publishing application events, and
accessing a MessageSource. These additional features are described in
`ApplicationContext` provide access to file resources, publishing application events, and
accessing a `MessageSource`. These additional features are described in
<<context-introduction>>
As of Spring 2.5, autowiring is another alternative to obtain reference to the
@ -4252,7 +4258,7 @@ parameter that is expecting the `ApplicationContext` type if the field, construc
@@ -4252,7 +4258,7 @@ parameter that is expecting the `ApplicationContext` type if the field, construc
method in question carries the `@Autowired` annotation. For more information, see
<<beans-autowired-annotation>>.
When an ApplicationContext creates a class that implements the
When an `ApplicationContext` creates a class that implements the
`org.springframework.beans.factory.BeanNameAware` interface, the class is provided with
a reference to the name defined in its associated object definition.
Stephane Nicoll
11 years ago