Annotation Interface Configuration
@Bean methods and
may be processed by the Spring container to generate bean definitions and
service requests for those beans at runtime, for example:
@Configuration
public class AppConfig {
@Bean
public MyBean myBean() {
// instantiate, configure and return bean ...
}
}
Bootstrapping @Configuration classes
Via AnnotationConfigApplicationContext
@Configuration classes are typically bootstrapped using either
AnnotationConfigApplicationContext or its web-capable variant,
AnnotationConfigWebApplicationContext. A simple example with the former follows:
AnnotationConfigApplicationContext ctx = new AnnotationConfigApplicationContext(); ctx.register(AppConfig.class); ctx.refresh(); MyBean myBean = ctx.getBean(MyBean.class); // use myBean ...
See the AnnotationConfigApplicationContext javadocs for further details, and see
AnnotationConfigWebApplicationContext for web configuration instructions in a
Servlet container.
Via Spring <beans> XML
As an alternative to registering @Configuration classes directly against an
AnnotationConfigApplicationContext, @Configuration classes may be
declared as normal <bean> definitions within Spring XML files:
<beans>
<context:annotation-config/>
<bean class="com.acme.AppConfig"/>
</beans>
In the example above, <context:annotation-config/> is required in order to
enable ConfigurationClassPostProcessor and other annotation-related
post processors that facilitate handling @Configuration classes.
Via component scanning
Since @Configuration is meta-annotated with @Component,
@Configuration classes are candidates for component scanning —
for example, using @ComponentScan or Spring XML's
<context:component-scan/> element — and therefore may also take
advantage of @Autowired/@Inject
like any regular @Component. In particular, if a single constructor is
present, autowiring semantics will be applied transparently for that constructor:
@Configuration
public class AppConfig {
private final SomeBean someBean;
public AppConfig(SomeBean someBean) {
this.someBean = someBean;
}
// @Bean definition using "SomeBean"
}
@Configuration classes may not only be bootstrapped using component
scanning, but may also themselves configure component scanning using
the @ComponentScan annotation:
@Configuration
@ComponentScan("com.acme.app.services")
public class AppConfig {
// various @Bean definitions ...
}
See the @ComponentScan javadocs for details.
Working with externalized values
Using the Environment API
Externalized values may be looked up by injecting the Spring
Environment into a @Configuration
class — for example, using the @Autowired annotation:
@Configuration
public class AppConfig {
@Autowired Environment env;
@Bean
public MyBean myBean() {
MyBean myBean = new MyBean();
myBean.setName(env.getProperty("bean.name"));
return myBean;
}
}
Properties resolved through the Environment reside in one or more "property
source" objects, and @Configuration classes may contribute property sources to
the Environment object using the @PropertySource
annotation:
@Configuration
@PropertySource("classpath:/com/acme/app.properties")
public class AppConfig {
@Inject Environment env;
@Bean
public MyBean myBean() {
return new MyBean(env.getProperty("bean.name"));
}
}
See the Environment
and @PropertySource javadocs for further details.
Using the @Value annotation
Externalized values may be injected into @Configuration classes using
the @Value annotation:
@Configuration
@PropertySource("classpath:/com/acme/app.properties")
public class AppConfig {
@Value("${bean.name}") String beanName;
@Bean
public MyBean myBean() {
return new MyBean(beanName);
}
}
This approach is often used in conjunction with Spring's
PropertySourcesPlaceholderConfigurer that can be enabled automatically
in XML configuration via <context:property-placeholder/> or explicitly
in a @Configuration class via a dedicated static @Bean method
(see "a note on BeanFactoryPostProcessor-returning @Bean methods" of
@Bean's javadocs for details). Note, however, that explicit registration
of a PropertySourcesPlaceholderConfigurer via a static @Bean
method is typically only required if you need to customize configuration such as the
placeholder syntax, etc. Specifically, if no bean post-processor (such as a
PropertySourcesPlaceholderConfigurer) has registered an embedded value
resolver for the ApplicationContext, Spring will register a default
embedded value resolver which resolves placeholders against property sources
registered in the Environment. See the section below on composing
@Configuration classes with Spring XML using @ImportResource; see
the @Value javadocs; and see the @Bean javadocs for details
on working with BeanFactoryPostProcessor types such as
PropertySourcesPlaceholderConfigurer.
Composing @Configuration classes
With the @Import annotation
@Configuration classes may be composed using the @Import annotation,
similar to the way that <import> works in Spring XML. Because
@Configuration objects are managed as Spring beans within the container,
imported configurations may be injected — for example, via constructor injection:
@Configuration
public class DatabaseConfig {
@Bean
public DataSource dataSource() {
// instantiate, configure and return DataSource
}
}
@Configuration
@Import(DatabaseConfig.class)
public class AppConfig {
private final DatabaseConfig dataConfig;
public AppConfig(DatabaseConfig dataConfig) {
this.dataConfig = dataConfig;
}
@Bean
public MyBean myBean() {
// reference the dataSource() bean method
return new MyBean(dataConfig.dataSource());
}
}
Now both AppConfig and the imported DatabaseConfig can be bootstrapped
by registering only AppConfig against the Spring context:
new AnnotationConfigApplicationContext(AppConfig.class);
With the @Profile annotation
@Configuration classes may be marked with the @Profile annotation to
indicate they should be processed only if a given profile or profiles are active:
@Profile("development")
@Configuration
public class EmbeddedDatabaseConfig {
@Bean
public DataSource dataSource() {
// instantiate, configure and return embedded DataSource
}
}
@Profile("production")
@Configuration
public class ProductionDatabaseConfig {
@Bean
public DataSource dataSource() {
// instantiate, configure and return production DataSource
}
}
Alternatively, you may also declare profile conditions at the @Bean method level
— for example, for alternative bean variants within the same configuration class:
@Configuration
public class ProfileDatabaseConfig {
@Bean("dataSource")
@Profile("development")
public DataSource embeddedDatabase() { ... }
@Bean("dataSource")
@Profile("production")
public DataSource productionDatabase() { ... }
}
See the @Profile and Environment
javadocs for further details.
With Spring XML using the @ImportResource annotation
As mentioned above, @Configuration classes may be declared as regular Spring
<bean> definitions within Spring XML files. It is also possible to
import Spring XML configuration files into @Configuration classes using
the @ImportResource annotation. Bean definitions imported from
XML can be injected — for example, using the @Inject annotation:
@Configuration
@ImportResource("classpath:/com/acme/database-config.xml")
public class AppConfig {
@Inject DataSource dataSource; // from XML
@Bean
public MyBean myBean() {
// inject the XML-defined dataSource bean
return new MyBean(this.dataSource);
}
}
With nested @Configuration classes
@Configuration classes may be nested within one another as follows:
@Configuration
public class AppConfig {
@Inject DataSource dataSource;
@Bean
public MyBean myBean() {
return new MyBean(dataSource);
}
@Configuration
static class DatabaseConfig {
@Bean
DataSource dataSource() {
return new EmbeddedDatabaseBuilder().build();
}
}
}
When bootstrapping such an arrangement, only AppConfig need be registered
against the application context. By virtue of being a nested @Configuration
class, DatabaseConfig will be registered automatically. This avoids
the need to use an @Import annotation when the relationship between
AppConfig and DatabaseConfig is already implicitly clear.
Note also that nested @Configuration classes can be used to good effect
with the @Profile annotation to provide two options of the same bean to the
enclosing @Configuration class.
Configuring lazy initialization
By default, @Bean methods will be eagerly instantiated at container
bootstrap time. To avoid this, @Configuration may be used in conjunction with
the @Lazy annotation to indicate that all @Bean methods declared
within the class are by default lazily initialized. Note that @Lazy may be used
on individual @Bean methods as well.
Testing support for @Configuration classes
The Spring TestContext framework available in the spring-test module
provides the @ContextConfiguration annotation which can accept an array of
component class references — typically @Configuration or
@Component classes.
@ExtendWith(SpringExtension.class)
@ContextConfiguration(classes = {AppConfig.class, DatabaseConfig.class})
class MyTests {
@Autowired MyBean myBean;
@Autowired DataSource dataSource;
@Test
void test() {
// assertions against myBean ...
}
}
See the TestContext framework reference documentation for details.
Enabling built-in Spring features using @Enable annotations
Spring features such as asynchronous method execution, scheduled task execution,
annotation driven transaction management, and even Spring MVC can be enabled and
configured from @Configuration classes using their respective "@Enable"
annotations. See
@EnableAsync,
@EnableScheduling,
@EnableTransactionManagement,
@EnableAspectJAutoProxy,
and @EnableWebMvc
for details.
Constraints when authoring @Configuration classes
- Configuration classes must be provided as classes (i.e. not as instances returned from factory methods), allowing for runtime enhancements through a generated subclass.
- Configuration classes must be non-final (allowing for subclasses at runtime),
unless the
proxyBeanMethodsflag is set tofalsein which case no runtime-generated subclass is necessary. - Configuration classes must be non-local (i.e. may not be declared within a method).
- Any nested configuration classes must be declared as
static. @Beanmethods may not in turn create further configuration classes (any such instances will be treated as regular beans, with their configuration annotations remaining undetected).
- Since:
- 3.0
- Author:
- Rod Johnson, Chris Beams, Juergen Hoeller
- See Also:
-
Optional Element Summary
Optional ElementsModifier and TypeOptional ElementDescriptionbooleanSpecify whether@Beanmethods need to have unique method names, raising an exception otherwise in order to prevent accidental overloading.booleanSpecify whether@Beanmethods should get proxied in order to enforce bean lifecycle behavior, e.g.Explicitly specify the name of the Spring bean definition associated with the@Configurationclass.
-
Element Details
-
value
Explicitly specify the name of the Spring bean definition associated with the@Configurationclass. If left unspecified (the common case), a bean name will be automatically generated.The custom name applies only if the
@Configurationclass is picked up via component scanning or supplied directly to anAnnotationConfigApplicationContext. If the@Configurationclass is registered as a traditional XML bean definition, the name/id of the bean element will take precedence.Alias for
Component.value().- Returns:
- the explicit component name, if any (or empty String otherwise)
- See Also:
- Default:
- ""
-
proxyBeanMethods
boolean proxyBeanMethodsSpecify whether@Beanmethods should get proxied in order to enforce bean lifecycle behavior, e.g. to return shared singleton bean instances even in case of direct@Beanmethod calls in user code. This feature requires method interception, implemented through a runtime-generated CGLIB subclass which comes with limitations such as the configuration class and its methods not being allowed to declarefinal.The default is
true, allowing for 'inter-bean references' via direct method calls within the configuration class as well as for external calls to this configuration's@Beanmethods, e.g. from another configuration class. If this is not needed since each of this particular configuration's@Beanmethods is self-contained and designed as a plain factory method for container use, switch this flag tofalsein order to avoid CGLIB subclass processing.Turning off bean method interception effectively processes
@Beanmethods individually like when declared on non-@Configurationclasses, a.k.a. "@Bean Lite Mode" (see@Bean's javadoc). It is therefore behaviorally equivalent to removing the@Configurationstereotype.- Since:
- 5.2
- Default:
- true
-
enforceUniqueMethods
boolean enforceUniqueMethodsSpecify whether@Beanmethods need to have unique method names, raising an exception otherwise in order to prevent accidental overloading.The default is
true, preventing accidental method overloads which get interpreted as overloaded factory methods for the same bean definition (as opposed to separate bean definitions with individual conditions etc). Switch this flag tofalsein order to allow for method overloading according to those semantics, accepting the risk for accidental overlaps.- Since:
- 6.0
- Default:
- true
-