For the latest stable version, please use Spring Framework 6.2.0! |
Fine-tuning Annotation-based Autowiring with Qualifiers
@Primary
is an effective way to use autowiring by type with several instances when one
primary candidate can be determined. When you need more control over the selection process,
you can use Spring’s @Qualifier
annotation. You can associate qualifier values
with specific arguments, narrowing the set of type matches so that a specific bean is
chosen for each argument. In the simplest case, this can be a plain descriptive value, as
shown in the following example:
-
Java
-
Kotlin
public class MovieRecommender {
@Autowired
@Qualifier("main")
private MovieCatalog movieCatalog;
// ...
}
class MovieRecommender {
@Autowired
@Qualifier("main")
private lateinit var movieCatalog: MovieCatalog
// ...
}
You can also specify the @Qualifier
annotation on individual constructor arguments or
method parameters, as shown in the following example:
-
Java
-
Kotlin
public class MovieRecommender {
private final MovieCatalog movieCatalog;
private final CustomerPreferenceDao customerPreferenceDao;
@Autowired
public void prepare(@Qualifier("main") MovieCatalog movieCatalog,
CustomerPreferenceDao customerPreferenceDao) {
this.movieCatalog = movieCatalog;
this.customerPreferenceDao = customerPreferenceDao;
}
// ...
}
class MovieRecommender {
private lateinit var movieCatalog: MovieCatalog
private lateinit var customerPreferenceDao: CustomerPreferenceDao
@Autowired
fun prepare(@Qualifier("main") movieCatalog: MovieCatalog,
customerPreferenceDao: CustomerPreferenceDao) {
this.movieCatalog = movieCatalog
this.customerPreferenceDao = customerPreferenceDao
}
// ...
}
The following example shows corresponding bean definitions.
<?xml version="1.0" encoding="UTF-8"?>
<beans xmlns="http://www.springframework.org/schema/beans"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns:context="http://www.springframework.org/schema/context"
xsi:schemaLocation="http://www.springframework.org/schema/beans
https://www.springframework.org/schema/beans/spring-beans.xsd
http://www.springframework.org/schema/context
https://www.springframework.org/schema/context/spring-context.xsd">
<context:annotation-config/>
<bean class="example.SimpleMovieCatalog">
<qualifier value="main"/> (1)
<!-- inject any dependencies required by this bean -->
</bean>
<bean class="example.SimpleMovieCatalog">
<qualifier value="action"/> (2)
<!-- inject any dependencies required by this bean -->
</bean>
<bean id="movieRecommender" class="example.MovieRecommender"/>
</beans>
1 | The bean with the main qualifier value is wired with the constructor argument that
is qualified with the same value. |
2 | The bean with the action qualifier value is wired with the constructor argument that
is qualified with the same value. |
For a fallback match, the bean name is considered a default qualifier value. Thus, you
can define the bean with an id
of main
instead of the nested qualifier element, leading
to the same matching result. However, although you can use this convention to refer to
specific beans by name, @Autowired
is fundamentally about type-driven injection with
optional semantic qualifiers. This means that qualifier values, even with the bean name
fallback, always have narrowing semantics within the set of type matches. They do not
semantically express a reference to a unique bean id
. Good qualifier values are main
or EMEA
or persistent
, expressing characteristics of a specific component that are
independent from the bean id
, which may be auto-generated in case of an anonymous bean
definition such as the one in the preceding example.
Qualifiers also apply to typed collections, as discussed earlier — for example, to
Set<MovieCatalog>
. In this case, all matching beans, according to the declared
qualifiers, are injected as a collection. This implies that qualifiers do not have to be
unique. Rather, they constitute filtering criteria. For example, you can define
multiple MovieCatalog
beans with the same qualifier value “action”, all of which are
injected into a Set<MovieCatalog>
annotated with @Qualifier("action")
.
Letting qualifier values select against target bean names, within the type-matching
candidates, does not require a Since version 6.1, this requires the |
As an alternative for injection by name, consider the JSR-250 @Resource
annotation
which is semantically defined to identify a specific target component by its unique name,
with the declared type being irrelevant for the matching process. @Autowired
has rather
different semantics: After selecting candidate beans by type, the specified String
qualifier value is considered within those type-selected candidates only (for example,
matching an account
qualifier against beans marked with the same qualifier label).
For beans that are themselves defined as a collection, Map
, or array type, @Resource
is a fine solution, referring to the specific collection or array bean by unique name.
That said, as of 4.3, you can match collection, Map
, and array types through Spring’s
@Autowired
type matching algorithm as well, as long as the element type information
is preserved in @Bean
return type signatures or collection inheritance hierarchies.
In this case, you can use qualifier values to select among same-typed collections,
as outlined in the previous paragraph.
As of 4.3, @Autowired
also considers self references for injection (that is, references
back to the bean that is currently injected). Note that self injection is a fallback.
Regular dependencies on other components always have precedence. In that sense, self
references do not participate in regular candidate selection and are therefore in
particular never primary. On the contrary, they always end up as lowest precedence.
In practice, you should use self references as a last resort only (for example, for
calling other methods on the same instance through the bean’s transactional proxy).
Consider factoring out the affected methods to a separate delegate bean in such a scenario.
Alternatively, you can use @Resource
, which may obtain a proxy back to the current bean
by its unique name.
Trying to inject the results from |
@Autowired
applies to fields, constructors, and multi-argument methods, allowing for
narrowing through qualifier annotations at the parameter level. In contrast, @Resource
is supported only for fields and bean property setter methods with a single argument.
As a consequence, you should stick with qualifiers if your injection target is a
constructor or a multi-argument method.
You can create your own custom qualifier annotations. To do so, define an annotation and
provide the @Qualifier
annotation within your definition, as the following example shows:
-
Java
-
Kotlin
@Target({ElementType.FIELD, ElementType.PARAMETER})
@Retention(RetentionPolicy.RUNTIME)
@Qualifier
public @interface Genre {
String value();
}
@Target(AnnotationTarget.FIELD, AnnotationTarget.VALUE_PARAMETER)
@Retention(AnnotationRetention.RUNTIME)
@Qualifier
annotation class Genre(val value: String)
Then you can provide the custom qualifier on autowired fields and parameters, as the following example shows:
-
Java
-
Kotlin
public class MovieRecommender {
@Autowired
@Genre("Action")
private MovieCatalog actionCatalog;
private MovieCatalog comedyCatalog;
@Autowired
public void setComedyCatalog(@Genre("Comedy") MovieCatalog comedyCatalog) {
this.comedyCatalog = comedyCatalog;
}
// ...
}
class MovieRecommender {
@Autowired
@Genre("Action")
private lateinit var actionCatalog: MovieCatalog
private lateinit var comedyCatalog: MovieCatalog
@Autowired
fun setComedyCatalog(@Genre("Comedy") comedyCatalog: MovieCatalog) {
this.comedyCatalog = comedyCatalog
}
// ...
}
Next, you can provide the information for the candidate bean definitions. You can add
<qualifier/>
tags as sub-elements of the <bean/>
tag and then specify the type
and
value
to match your custom qualifier annotations. The type is matched against the
fully-qualified class name of the annotation. Alternately, as a convenience if no risk of
conflicting names exists, you can use the short class name. The following example
demonstrates both approaches:
<?xml version="1.0" encoding="UTF-8"?>
<beans xmlns="http://www.springframework.org/schema/beans"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns:context="http://www.springframework.org/schema/context"
xsi:schemaLocation="http://www.springframework.org/schema/beans
https://www.springframework.org/schema/beans/spring-beans.xsd
http://www.springframework.org/schema/context
https://www.springframework.org/schema/context/spring-context.xsd">
<context:annotation-config/>
<bean class="example.SimpleMovieCatalog">
<qualifier type="Genre" value="Action"/>
<!-- inject any dependencies required by this bean -->
</bean>
<bean class="example.SimpleMovieCatalog">
<qualifier type="example.Genre" value="Comedy"/>
<!-- inject any dependencies required by this bean -->
</bean>
<bean id="movieRecommender" class="example.MovieRecommender"/>
</beans>
In Classpath Scanning and Managed Components, you can see an annotation-based alternative to providing the qualifier metadata in XML. Specifically, see Providing Qualifier Metadata with Annotations.
In some cases, using an annotation without a value may suffice. This can be useful when the annotation serves a more generic purpose and can be applied across several different types of dependencies. For example, you may provide an offline catalog that can be searched when no Internet connection is available. First, define the simple annotation, as the following example shows:
-
Java
-
Kotlin
@Target({ElementType.FIELD, ElementType.PARAMETER})
@Retention(RetentionPolicy.RUNTIME)
@Qualifier
public @interface Offline {
}
@Target(AnnotationTarget.FIELD, AnnotationTarget.VALUE_PARAMETER)
@Retention(AnnotationRetention.RUNTIME)
@Qualifier
annotation class Offline
Then add the annotation to the field or property to be autowired, as shown in the following example:
-
Java
-
Kotlin
public class MovieRecommender {
@Autowired
@Offline (1)
private MovieCatalog offlineCatalog;
// ...
}
1 | This line adds the @Offline annotation. |
class MovieRecommender {
@Autowired
@Offline (1)
private lateinit var offlineCatalog: MovieCatalog
// ...
}
1 | This line adds the @Offline annotation. |
Now the bean definition only needs a qualifier type
, as shown in the following example:
<bean class="example.SimpleMovieCatalog">
<qualifier type="Offline"/> (1)
<!-- inject any dependencies required by this bean -->
</bean>
1 | This element specifies the qualifier. |
You can also define custom qualifier annotations that accept named attributes in
addition to or instead of the simple value
attribute. If multiple attribute values are
then specified on a field or parameter to be autowired, a bean definition must match
all such attribute values to be considered an autowire candidate. As an example,
consider the following annotation definition:
-
Java
-
Kotlin
@Target({ElementType.FIELD, ElementType.PARAMETER})
@Retention(RetentionPolicy.RUNTIME)
@Qualifier
public @interface MovieQualifier {
String genre();
Format format();
}
@Target(AnnotationTarget.FIELD, AnnotationTarget.VALUE_PARAMETER)
@Retention(AnnotationRetention.RUNTIME)
@Qualifier
annotation class MovieQualifier(val genre: String, val format: Format)
In this case Format
is an enum, defined as follows:
-
Java
-
Kotlin
public enum Format {
VHS, DVD, BLURAY
}
enum class Format {
VHS, DVD, BLURAY
}
The fields to be autowired are annotated with the custom qualifier and include values
for both attributes: genre
and format
, as the following example shows:
-
Java
-
Kotlin
public class MovieRecommender {
@Autowired
@MovieQualifier(format=Format.VHS, genre="Action")
private MovieCatalog actionVhsCatalog;
@Autowired
@MovieQualifier(format=Format.VHS, genre="Comedy")
private MovieCatalog comedyVhsCatalog;
@Autowired
@MovieQualifier(format=Format.DVD, genre="Action")
private MovieCatalog actionDvdCatalog;
@Autowired
@MovieQualifier(format=Format.BLURAY, genre="Comedy")
private MovieCatalog comedyBluRayCatalog;
// ...
}
class MovieRecommender {
@Autowired
@MovieQualifier(format = Format.VHS, genre = "Action")
private lateinit var actionVhsCatalog: MovieCatalog
@Autowired
@MovieQualifier(format = Format.VHS, genre = "Comedy")
private lateinit var comedyVhsCatalog: MovieCatalog
@Autowired
@MovieQualifier(format = Format.DVD, genre = "Action")
private lateinit var actionDvdCatalog: MovieCatalog
@Autowired
@MovieQualifier(format = Format.BLURAY, genre = "Comedy")
private lateinit var comedyBluRayCatalog: MovieCatalog
// ...
}
Finally, the bean definitions should contain matching qualifier values. This example
also demonstrates that you can use bean meta attributes instead of the
<qualifier/>
elements. If available, the <qualifier/>
element and its attributes take
precedence, but the autowiring mechanism falls back on the values provided within the
<meta/>
tags if no such qualifier is present, as in the last two bean definitions in
the following example:
<?xml version="1.0" encoding="UTF-8"?>
<beans xmlns="http://www.springframework.org/schema/beans"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns:context="http://www.springframework.org/schema/context"
xsi:schemaLocation="http://www.springframework.org/schema/beans
https://www.springframework.org/schema/beans/spring-beans.xsd
http://www.springframework.org/schema/context
https://www.springframework.org/schema/context/spring-context.xsd">
<context:annotation-config/>
<bean class="example.SimpleMovieCatalog">
<qualifier type="MovieQualifier">
<attribute key="format" value="VHS"/>
<attribute key="genre" value="Action"/>
</qualifier>
<!-- inject any dependencies required by this bean -->
</bean>
<bean class="example.SimpleMovieCatalog">
<qualifier type="MovieQualifier">
<attribute key="format" value="VHS"/>
<attribute key="genre" value="Comedy"/>
</qualifier>
<!-- inject any dependencies required by this bean -->
</bean>
<bean class="example.SimpleMovieCatalog">
<meta key="format" value="DVD"/>
<meta key="genre" value="Action"/>
<!-- inject any dependencies required by this bean -->
</bean>
<bean class="example.SimpleMovieCatalog">
<meta key="format" value="BLURAY"/>
<meta key="genre" value="Comedy"/>
<!-- inject any dependencies required by this bean -->
</bean>
</beans>