@Documented @Inherited @Retention(value=RUNTIME) @Target(value=TYPE) public @interface ContextConfiguration
@ContextConfiguration
defines class-level metadata that is
used to determine how to load and configure an
ApplicationContext
for integration tests.
Prior to Spring 3.1, only path-based resource locations were supported.
As of Spring 3.1, context loaders may choose to support
either path-based or class-based resources (but not both). Consequently
@ContextConfiguration
can be used to declare either path-based
resource locations (via the locations()
or value()
attribute) or annotated classes (via the classes()
attribute).
The term annotated class can refer to any of the following.
@Configuration
@Component
,
@Service
,
@Repository
, etc.)javax.inject
annotations@Bean
-methodsConsult the Javadoc for
@Configuration
and
@Bean
for further information regarding the configuration and semantics of
annotated classes.
ContextHierarchy
,
ActiveProfiles
,
ContextLoader
,
SmartContextLoader
,
ContextConfigurationAttributes
,
MergedContextConfiguration
,
ApplicationContext
Modifier and Type | Optional Element and Description |
---|---|
Class<?>[] |
classes
The annotated classes to use for loading an
ApplicationContext . |
boolean |
inheritInitializers
Whether or not context initializers from test
superclasses should be inherited.
|
boolean |
inheritLocations
Whether or not
resource locations or annotated
classes from test superclasses should be inherited. |
Class<? extends ApplicationContextInitializer<? extends ConfigurableApplicationContext>>[] |
initializers
The application context initializer classes to use for initializing
a
ConfigurableApplicationContext . |
Class<? extends ContextLoader> |
loader
|
String[] |
locations
The resource locations to use for loading an
ApplicationContext . |
String |
name
The name of the context hierarchy level represented by this configuration.
|
String[] |
value
Alias for
locations() . |
public abstract String[] value
locations()
.
This attribute may not be used in conjunction
with locations()
or classes()
, but it may be used
instead of locations()
.
inheritLocations()
public abstract String[] locations
ApplicationContext
.
Check out the Javadoc for
AbstractContextLoader.modifyLocations()
for details on how a location
String will be interpreted at runtime, in particular in case of a relative
path. Also, check out the documentation on
AbstractContextLoader.generateDefaultLocations()
for details on the default
locations that are going to be used if none are specified.
Note that the above-mentioned default rules only apply for a standard
AbstractContextLoader
subclass such as
GenericXmlContextLoader
which is the effective default implementation
used at runtime if locations
are configured. See the
documentation for loader()
for further details regarding default
loaders.
This attribute may not be used in conjunction with
value()
or classes()
, but it may be used instead of
value()
.
inheritLocations()
public abstract Class<?>[] classes
ApplicationContext
.
Check out the Javadoc for
AnnotationConfigContextLoader.detectDefaultConfigurationClasses()
for details
on how default configuration classes will be detected if no
annotated classes are specified. See the documentation for
loader()
for further details regarding default loaders.
This attribute may not be used in conjunction with
locations()
or value()
.
Configuration
,
AnnotationConfigContextLoader
,
inheritLocations()
public abstract Class<? extends ApplicationContextInitializer<? extends ConfigurableApplicationContext>>[] initializers
ConfigurableApplicationContext
.
The concrete ConfigurableApplicationContext
type supported by each
declared initializer must be compatible with the type of ApplicationContext
created by the SmartContextLoader
in use.
SmartContextLoader
implementations typically detect whether
Spring's Ordered
interface has been
implemented or if the @Order
annotation is present and sort instances accordingly prior to invoking them.
ApplicationContextInitializer
,
ConfigurableApplicationContext
,
inheritInitializers()
,
loader()
public abstract boolean inheritLocations
resource locations
or annotated
classes from test superclasses should be inherited.
The default value is true
. This means that an annotated
class will inherit the resource locations or annotated classes
defined by test superclasses. Specifically, the resource locations or
annotated classes for a given test class will be appended to the list of
resource locations or annotated classes defined by test superclasses.
Thus, subclasses have the option of extending the list of resource
locations or annotated classes.
If inheritLocations
is set to false
, the
resource locations or annotated classes for the annotated class
will shadow and effectively replace any resource locations
or annotated classes defined by superclasses.
In the following example that uses path-based resource locations, the
ApplicationContext
for ExtendedTest
will be loaded from
"base-context.xml" and
"extended-context.xml", in that order. Beans defined in
"extended-context.xml" may therefore override those defined in
"base-context.xml".
@ContextConfiguration("base-context.xml") public class BaseTest { // ... } @ContextConfiguration("extended-context.xml") public class ExtendedTest extends BaseTest { // ... }
Similarly, in the following example that uses annotated
classes, the
ApplicationContext
for ExtendedTest
will be loaded from the
BaseConfig
and ExtendedConfig
configuration classes, in that order. Beans defined in
ExtendedConfig
may therefore override those defined in
BaseConfig
.
@ContextConfiguration(classes=BaseConfig.class) public class BaseTest { // ... } @ContextConfiguration(classes=ExtendedConfig.class) public class ExtendedTest extends BaseTest { // ... }
public abstract boolean inheritInitializers
The default value is true
. This means that an annotated
class will inherit the application context initializers defined
by test superclasses. Specifically, the initializers for a given test
class will be added to the set of initializers defined by test
superclasses. Thus, subclasses have the option of extending the
set of initializers.
If inheritInitializers
is set to false
, the
initializers for the annotated class will shadow and effectively
replace any initializers defined by superclasses.
In the following example, the
ApplicationContext
for ExtendedTest
will be initialized using
BaseInitializer
and ExtendedInitializer
.
Note, however, that the order in which the initializers are invoked
depends on whether they implement Ordered
or are annotated with @Order
.
@ContextConfiguration(initializers = BaseInitializer.class) public class BaseTest { // ... } @ContextConfiguration(initializers = ExtendedInitializer.class) public class ExtendedTest extends BaseTest { // ... }
public abstract Class<? extends ContextLoader> loader
SmartContextLoader
(or ContextLoader
) to use
for loading an ApplicationContext
.
If not specified, the loader will be inherited from the first superclass
that is annotated with @ContextConfiguration
and specifies an
explicit loader. If no class in the hierarchy specifies an explicit
loader, a default loader will be used instead.
The default concrete implementation chosen at runtime will be either
DelegatingSmartContextLoader
or
WebDelegatingSmartContextLoader
depending on the absence or presence of
@WebAppConfiguration
. For further details on the default behavior
of various concrete SmartContextLoaders
, check out the Javadoc for
AbstractContextLoader
,
GenericXmlContextLoader
,
AnnotationConfigContextLoader
,
GenericXmlWebContextLoader
, and
AnnotationConfigWebContextLoader
.
public abstract String name
If not specified the name will be inferred based on the numerical level within all declared contexts within the hierarchy.
This attribute is only applicable when used within a test class hierarchy
that is configured using @ContextHierarchy
, in which case the name
can be used for merging or overriding this configuration
with configuration of the same name in hierarchy levels defined in superclasses.
See the Javadoc for @ContextHierarchy
for details.