Commit Graph

1223 Commits

Author SHA1 Message Date
Juergen Hoeller
679e122326 LoadTimeWeaverAware beans are consistently being created early for JPA weaving to work reliably
Includes a change for factory methods that declare their return type as FactoryBean: When asked for a specific type match (e.g. LoadTimeWeaverAware), we do check early singleton instances as well (reusing the instances that we create for getObjectType checks). This is necessary in order to make @Bean method introspection as capable as XML bean definition introspection, even in case of the @Bean method using a generic FactoryBean declaration for its return type (instead of the FactoryBean impl class).

Issue: SPR-9857
2012-10-12 16:22:11 +02:00
Juergen Hoeller
9862fbfc01 BeanWrapper does not fall back to String constructor if ConversionService attempt failed before
Issue: SPR-9865
2012-10-11 19:42:58 +02:00
Juergen Hoeller
b2fce2f254 Backported "Register environment in all bean factories in a hierarchy"
Issue: SPR-9756
Issue: SPR-9764
2012-10-10 23:33:50 +02:00
Juergen Hoeller
c81543e1a4 ResourceBundleMessageSource supports "defaultEncoding", "fallbackToSystemLocale", "cacheSeconds"
These features require Java 6 or higher due to their dependency on the ResourceBundle.Control class. To some degree, ResourceBundleMessageSource catches up with ReloadableResourceBundleMessageSource now. However, as noted in the javadoc, there are still severe limitations in the standard ResourceBundle class that justify an ongoing investment in our own ReloadableResourceBundleMessageSource (based on the Spring resource abstraction, with manual parsing of properties files).

Issue: SPR-7392
2012-09-26 16:46:25 +02:00
Juergen Hoeller
437ce9bb0e Calling cancel on a Future returned by a TaskScheduler works reliably now
Issue: SPR-9821
2012-09-25 13:54:33 +02:00
Juergen Hoeller
0f522cfe6a Calling cancel on a Future returned by a TaskScheduler works reliably now
Issue: SPR-9821
2012-09-25 12:07:06 +02:00
Juergen Hoeller
69f2496cd7 ImportAwareBeanPostProcessor registered with ROLE_INFRASTRUCTURE 2012-09-24 11:27:40 +02:00
Juergen Hoeller
c25cbe5522 @Import'ed configuration classes get properly registered in case of same class name (second try)
Issue: SPR-9243
2012-09-10 22:13:32 +02:00
Juergen Hoeller
bec5463640 @Import'ed configuration classes get properly registered in case of same class name
Issue: SPR-9243
2012-09-10 15:43:20 +02:00
Juergen Hoeller
a0d0b37d10 polishing 2012-09-06 19:00:01 +02:00
Juergen Hoeller
5a149e4600 @Import'ed configuration classes get properly registered in case of same class name
Issue: SPR-9243
2012-09-06 18:59:45 +02:00
Juergen Hoeller
19718700cf @Resource processing properly works with scoped beans and prototypes again
Issue: SPR-9627
2012-08-31 11:49:32 +02:00
Juergen Hoeller
a3bfa754fd MessageSourceSupport uses locale-specific MessageFormat cache for default messages
Issue: SPR-9607
2012-08-30 16:30:08 +02:00
Spring Buildmaster
671f97721f Increment version to 3.1.3.BUILD-SNAPSHOT 2012-07-07 20:05:06 +02:00
Spring Buildmaster
49f728eae8 Release version 3.1.2.RELEASE 2012-07-07 17:13:55 +02:00
Chris Beams
45f1438ef8 Add hamcrest to spring-aspects Eclipse classpath
Also remove spring project nature from spring-context to avoid error in
STS.
2012-07-06 15:52:00 +02:00
Chris Beams
a387d13d5f Reflect 3.2=>3.1.2 backports in @since tags etc
Issue: SPR-9443, SPR-6847, SPR-9446, SPR-9444, SPR-9439, SPR-9302,
       SPR-9507, SPR-9238, SPR-9397, SPR-9406, SPR-9502
2012-06-27 23:09:14 +02:00
Dridi Boukelmoune
eed090e5f5 Fix scoped-proxy memory leak w/ @Resource injection
Prior to this change, request-scoped components having
@Resource-injected dependencies caused a memory leak in
DefaultListableBeanFactory#dependenciesForBeanMap.

Consider the following example:

    @Component
    @Scope(value="request", proxyMode=ScopedProxyMode.TARGET_CLASS)
    public class MyComponent {

        @Resource
        private HttpServletRequest request;

        // ...
    }

The bean name for "MyComponent" will end up being
'scopedTarget.myComponent', which will become a key in
the #dependenciesForBeanMap structure.

On the first request, the injected HttpServletRequest bean will be a
proxy and will internally have a bean name of the form
"$Proxy10@1a3a2a52". This name will be added to the Set value associated
with the 'scopedTarget.myComponent' entry in #dependenciesForBeanMap.

On the second request, the process will repeat, but the injected
HttpServletRequest will be a different proxy instance, thus having a
different identity hex string, e.g. "$Proxy10@5eba06ff". This name will
also be added to the Set value associated with the
'scopedTarget.myComponent' entry in #dependenciesForBeanMap, and this
is the source of the leak: a new entry is added to the set on each
request but should be added only once.

This commit fixes the leak by introducing caching to
CommonAnnotationBeanPostProcessor#ResourceElement similar to that already
present in AutowiredAnnotationBeanPostProcessor#AutowiredFieldElement
and #AutowiredMethodElement. Essentially, each ResourceElement instance
now tracks whether it has been created, caches the ultimate value to be
injected and returns it eagerly if necessary. Besides solving the memory
leak, this has the side effect of avoiding unnecessary proxy creation.

This fix also explains clearly why injection into request-scoped
components using @Autowired never suffered this memory leak: because the
correct caching was already in place. Because @Resource is considerably
less-frequently used than @Autowired, and given that this particular
injection arrangement is relatively infrequent, it becomes
understandable how this bug has been present without being reported
since the introduction of @Resource support in Spring 2.5: developers
were unlikely to encounter it in the first place; and if they did, the
leak was minor enough (adding strings to a Set), that it could
potentially go unnoticed indefinitely depending on request volumes and
available memory.

Issue: SPR-9363
Backport-Issue: SPR-9176
Backport-Commit: f779c199ea
2012-06-27 23:09:13 +02:00
Chris Beams
a76c7ca299 Test meta-@Async executor qualification
Prove that Async#value is respected even when using @Async as a meta
annotation.

Issue: SPR-9443
Backport-Issue: SPR-6847
Backport-Commit: 37e024c6eb
2012-06-27 23:06:54 +02:00
Chris Beams
8bab873107 Support executor qualification with @Async#value
Prior to this change, Spring's @Async annotation support was tied to a
single AsyncTaskExecutor bean, meaning that all methods marked with
@Async were forced to use the same executor. This is an undesirable
limitation, given that certain methods may have different priorities,
etc. This leads to the need to (optionally) qualify which executor
should handle each method.

This is similar to the way that Spring's @Transactional annotation was
originally tied to a single PlatformTransactionManager, but in Spring
3.0 was enhanced to allow for a qualifier via the #value attribute, e.g.

  @Transactional(ptm1)
  public void m() { ... }

where ptm1 is either the name of a PlatformTransactionManager bean or
a qualifier value associated with a PlatformTransactionManager bean,
e.g. via the <qualifier> element in XML or the @Qualifier annotation.

This commit introduces the same approach to @Async and its relationship
to underlying executor beans. As always, the following syntax remains
supported

  @Async
  public void m() { ... }

indicating that calls to #m will be delegated to the default executor,
i.e. the executor provided to

  <task:annotation-driven executor=.../>

or the executor specified when authoring a @Configuration class that
implements AsyncConfigurer and its #getAsyncExecutor method.

However, it now also possible to qualify which executor should be used
on a method-by-method basis, e.g.

  @Async(e1)
  public void m() { ... }

indicating that calls to #m will be delegated to the executor bean
named or otherwise qualified as e1. Unlike the default executor
which is specified up front at configuration time as described above,
the e1 executor bean is looked up within the container on the first
execution of #m and then cached in association with that method for the
lifetime of the container.

Class-level use of Async#value behaves as expected, indicating that all
methods within the annotated class should be executed with the named
executor. In the case of both method- and class-level annotations, any
method-level #value overrides any class level #value.

This commit introduces the following major changes:

 - Add @Async#value attribute for executor qualification

 - Introduce AsyncExecutionAspectSupport as a common base class for
   both MethodInterceptor- and AspectJ-based async aspects. This base
   class provides common structure for specifying the default executor
   (#setExecutor) as well as logic for determining (and caching) which
   executor should execute a given method (#determineAsyncExecutor) and
   an abstract method to allow subclasses to provide specific strategies
   for executor qualification (#getExecutorQualifier).

 - Introduce AnnotationAsyncExecutionInterceptor as a specialization of
   the existing AsyncExecutionInterceptor to allow for introspection of
   the @Async annotation and its #value attribute for a given method.
   Note that this new subclass was necessary for packaging reasons -
   the original AsyncExecutionInterceptor lives in
   org.springframework.aop and therefore does not have visibility to
   the @Async annotation in org.springframework.scheduling.annotation.
   This new subclass replaces usage of AsyncExecutionInterceptor
   throughout the framework, though the latter remains usable and
   undeprecated for compatibility with any existing third-party
   extensions.

 - Add documentation to spring-task-3.2.xsd and reference manual
   explaining @Async executor qualification

 - Add tests covering all new functionality

Note that the public API of all affected components remains backward-
compatible.

Issue: SPR-9443
Backport-Issue: SPR-6847
Backport-Commit: ed0576c181
2012-06-27 23:06:54 +02:00
Chris Beams
e8006bdf78 Polish async method execution infrastructure
In anticipation of substantive changes required to implement @Async
executor qualification, the following updates have been made to the
components and infrastructure supporting @Async functionality:

 - Fix trailing whitespace and indentation errors
 - Fix generics warnings
 - Add Javadoc where missing, update to use {@code} tags, etc.
 - Avoid NPE in AopUtils#canApply
 - Organize imports to follow conventions
 - Remove System.out.println statements from tests
 - Correct various punctuation and grammar problems

Issue: SPR-9443
Backport-Issue: SPR-6847
Backport-Commit: 3fb11870d9
2012-06-27 23:06:05 +02:00
Chris Beams
20f87ab98d Introduce ConfigurableEnvironment#merge
Prior to this change, AbstractApplicationContext#setParent replaced the
child context's Environment with the parent's Environment if available.
This has the negative effect of potentially changing the type of the
child context's Environment, and in any case causes property sources
added directly against the child environment to be ignored. This
situation could easily occur if a WebApplicationContext child had a
non-web ApplicationContext set as its parent. In this case the parent
Environment type would (likely) be StandardEnvironment, while the child
Environment type would (likely) be StandardServletEnvironment. By
directly inheriting the parent environment, critical property sources
such as ServletContextPropertySource are lost entirely.

This commit introduces the concept of merging an environment through
the new ConfigurableEnvironment#merge method. Instead of replacing the
child's environment with the parent's,
AbstractApplicationContext#setParent now merges property sources as
well as active and default profile names from the parent into the
child. In this way, distinct environment objects are maintained with
specific types and property sources preserved. See #merge Javadoc for
additional details.

Issue: SPR-9446
Backport-Issue: SPR-9444, SPR-9439
Backport-Commit: 9fcfd7e827
2012-06-27 23:06:04 +02:00
Juergen Hoeller
5875695d99 polishing 2012-05-28 00:11:55 +02:00
Juergen Hoeller
dcb44264ad EhCacheFactoryBean applies listeners and enabled/disabled flags to existing cache regions as well (SPR-9392) 2012-05-28 00:11:19 +02:00
Chris Beams
1380d053c4 Clarify @EnableScheduling javadoc
It is now advised that destroyMethod="shutdown" should be used
on @Bean methods returning an ExecutorService.

Backport-Issue: SPR-9280
Backport-Commit: 6da03a61b22696283c2c5c79f8f88b5c36480560
2012-05-15 22:10:54 +03:00
Juergen Hoeller
9d3cfcd8e6 fixed OSGi metadata for optional "javax.inject" package import (SPR-9173) 2012-03-14 16:03:49 +01:00
Chris Beams
e30d6104f3 Fix regression in @PropertySource placeholder resolution
Changes in commit 41ade68b50 introduced
a regression causing all but the first location in the
@PropertySource#value array to be ignored during ${...} placeholder
resolution. This change ensures that all locations are processed and
replaced as expected.

Issue: SPR-9133
Backport-Issue: SPR-9127
Backport-Commit: 4df2a14b13
2012-02-20 15:27:09 +01:00
Spring Buildmaster
b32a365f14 Increment version to 3.1.2.BUILD-SNAPSHOT 2012-02-16 15:38:16 -08:00
Spring Buildmaster
79c9ca1a26 Release version 3.1.1.RELEASE 2012-02-16 15:33:27 -08:00
Chris Beams
80dd32e95c Disallow empty @PropertySource(value = {})
Previously, a user could specify an empty array of resource locations
to the @PropertySource annotation, which amounts to a meaningless no-op.

ConfigurationClassParser now throws IllegalArgumentException upon
encountering any such misconfiguration.
2012-02-16 18:25:53 +01:00
Chris Beams
41ade68b50 Fix @PropertySource bug with multiple values
Prior to this commit, specifying a named @PropertySource with multiple
values would not work as expected. e.g.:

  @PropertySource(
      name = "ps",
      value = { "classpath:a.properties", "classpath:b.properties" })

In this scenario, the implementation would register a.properties with
the name "ps", and subsequently register b.properties with the name
"ps", overwriting the entry for a.properties.

To fix this behavior, a CompositePropertySource type has been introduced
which accepts a single name and a set of PropertySource objects to
iterate over. ConfigurationClassParser's @PropertySource parsing routine
has been updated to use this composite approach when necessary, i.e.
when both an explicit name and more than one location have been
specified.

Note that if no explicit name is specified, the generated property
source names are enough to distinguish the instances and avoid
overwriting each other; this is why the composite wrapper is not used
in these cases.

Issue: SPR-9127
2012-02-16 18:25:03 +01:00
Chris Beams
1c2b1d2c85 Demonstrate use of @Configuration as meta-annotation
Issue: SPR-9090
2012-02-15 22:01:35 +01:00
Chris Beams
fc416bcb0b Apply @Configuration BeanNameGenerator consistently
Since the introduction of the AnnotationConfig(Web)ApplicationContext
types in Spring 3.0, it has been possible to specify a custom
bean name generation strategy via the #setBeanNameGenerator methods
available on each of these classes.

If specified, that BeanNameGenerator was delegated to the underlying
AnnotatedBeanDefinitionReader and ClassPathBeanDefinitionScanner. This
meant that any @Configuration classes registered or scanned directly
from the application context, e.g. via #register or #scan methods would
respect the custom name generation strategy as intended.

However, for @Configuration classes picked up via @Import or implicitly
registered due to being nested classes would not be aware of this
strategy, and would rather fall back to a hard-coded default
AnnotationBeanNameGenerator.

This change ensures consistent application of custom BeanNameGenerator
strategies in the following ways:

 - Introduction of AnnotationConfigUtils#CONFIGURATION_BEAN_NAME_GENERATOR
   singleton

   If a custom BeanNameGenerator is specified via #setBeanNameGenerator
   the AnnotationConfig* application contexts will, in addition to
   delegating this object to the underlying reader and scanner, register
   it as a singleton bean within the enclosing bean factory having the
   constant name mentioned above.

   ConfigurationClassPostProcessor now checks for the presence of this
   singleton, falling back to a default AnnotationBeanNameGenerator if
   not present. This singleton-based approach is necessary because it is
   otherwise impossible to parameterize CCPP, given that it is
   registered as a BeanDefinitionRegistryPostProcessor bean definition
   in AnnotationConfigUtils#registerAnnotationConfigProcessors

 - Introduction of ConfigurationClassPostProcessor#setBeanNameGenerator

   As detailed in the Javadoc for this new method, this allows for
   customizing the BeanNameGenerator via XML by dropping down to direct
   registration of CCPP as a <bean> instead of using
   <context:annotation-config> to enable  @Configuration class
   processing.

 - Smarter defaulting for @ComponentScan#beanNameGenerator

   Previously, @ComponentScan's #beanNameGenerator attribute had a
   default value of AnnotationBeanNameGenerator. The value is now the
   BeanNameGenerator interface itself, indicating that the scanner
   dedicated to processing each @ComponentScan should fall back to an
   inherited generator, i.e. the one originally specified against the
   application context, or the original default provided by
   ConfigurationClassPostProcessor. This means that name generation
   strategies will be consistent with a single point of configuration,
   but that individual @ComponentScan declarations may still customize
   the strategy for the beans that are picked up by that particular
   scanning.

Issue: SPR-9124
2012-02-15 15:33:35 +01:00
Chris Beams
e81df2ef3e Improve @Configuration bean name discovery
Prior to this commit, and based on earlier changes supporting SPR-9023,
ConfigurationClassBeanDefinitionReader employed a simplistic strategy
for extracting the 'value' attribute (if any) from @Configuration in
order to determine the bean name for imported and nested configuration
classes. An example case follows:

  @Configuration("myConfig")
  public class AppConfig { ... }

This approach is too simplistic however, given that it is possible in
'configuration lite' mode to specify a @Component-annotated class with
@Bean methods, e.g.

  @Component("myConfig")
  public class AppConfig {
      @Bean
      public Foo foo() { ... }
  }

In this case, it's the 'value' attribute of @Component, not
@Configuration, that should be consulted for the bean name. Or indeed if
it were any other stereotype annotation meta-annotated with @Component,
the value attribute should respected.

This kind of sophisticated discovery is exactly what
AnnotationBeanNameGenerator was designed to do, and
ConfigurationClassBeanDefinitionReader now uses it in favor of the
custom approach described above.

To enable this refactoring, nested and imported configuration classes
are no longer registered as GenericBeanDefinition, but rather as
AnnotatedGenericBeanDefinition given that AnnotationBeanNameGenerator
falls back to a generic strategy unless the bean definition in question
is assignable to AnnotatedBeanDefinition.

A new constructor accepting AnnotationMetadata
has been added to AnnotatedGenericBeanDefinition in order to support
the ASM-based approach in use by configuration class processing. Javadoc
has been updated for both AnnotatedGenericBeanDefinition and its now
very similar cousin ScannedGenericBeanDefinition to make clear the
semantics and intention of these two variants.

Issue: SPR-9023
2012-02-15 15:33:35 +01:00
Chris Beams
08e2669b84 Fix infinite recursion bug in nested @Configuration
Prior to this commit, an infinite recursion would occur if a
@Configuration class were nested within its superclass, e.g.

  abstract class Parent {
      @Configuration
      static class Child extends Parent { ... }
  }

This is because the processing of the nested class automatically
checks the superclass hierarchy for certain reasons, and each
superclass is in turn checked for nested @Configuration classes.

The ConfigurationClassParser implementation now prevents this by
keeping track of known superclasses, i.e. once a superclass has been
processed, it is never again checked for nested classes, etc.

Issue: SPR-8955
2012-02-15 15:33:35 +01:00
Chris Beams
f3651c9998 Polish static imports 2012-02-15 15:33:35 +01:00
Chris Beams
8e0b1c3a5f Compensate for Eclipse vs Sun compiler discrepancy
Eclipse allows autoboxing on type inference; Sun javac does not. This
means that variables assigned from calls to
AnnotationAttributes#getNumber should consistently use object wrappers
as opposed to number primitives. There was only one such instance
anyway, and has now been updated accordingly.
2012-02-13 15:37:19 +01:00
Chris Beams
e25f1cbca9 Infer AnnotationAttributes method return types
- Drop 'expectedType' parameter from #getClass and #getEnum methods and
   rely on compiler inference based on type of assigned variable, e.g.

     public @interface Example {
         Color color();
         Class<? extends UserType> userType();
         int order() default 0;
     }

     AnnotationAttributes example =
        AnnotationUtils.getAnnotationAttributes(Example.class, true, true);

     Color color = example.getEnum("color");
     Class<? extends UserType> userType = example.getClass("userType");

   or in cases where there is no variable assignment (and thus no
   inference possible), use explicit generic type, e.g.

     bean.setColor(example.<Color>getEnum("color"));

 - Rename #get{Int=>Number} and update return type from int to
   <N extends Number>, allowing invocations such as:

     int order = example.getNumber("order");

These changes reduce the overall number of methods exposed by
AnnotationAttributes, while at the same time providing comprehensive
access to all possible annotation attribute types -- that is, instead of
requiring explicit #getInt, #getFloat, #getDouble methods, the
single #getNumber method is capabable of handling them all, and without
any casting required. And the obvious additional benefit is more concise
invocation as no redundant 'expectedType' parameters are required.
2012-02-13 15:01:05 +01:00
Juergen Hoeller
9470323724 "setBasenames" uses varargs now (for programmatic setup; SPR-9106) 2012-02-11 19:15:40 +01:00
Juergen Hoeller
b17d545bb7 @ActiveProfiles mechanism works with @ImportResource as well (SPR-8992) 2012-02-11 19:15:39 +01:00
Juergen Hoeller
9a61f36d3d removed optional javax.validation.spi dependency (SPR-8973) 2012-02-08 12:52:51 +01:00
Juergen Hoeller
95e3f486b5 fixed SpringValidatorAdapter regression to return correct error codes for class-level constraints (SPR-8958) 2012-02-08 12:46:05 +01:00
Juergen Hoeller
efd2783dd1 restored JBossLoadTimeWeaver compability with JBoss AS 5.1 (SPR-9065) 2012-02-08 12:14:58 +01:00
Chris Beams
bf541db5b0 Refactor to consistent use of AnnotationAttributes
Uses of AnnotationMetadata#getAnnotationAttributes throughout the
framework have been updated to use the new AnnotationAttributes API in
order to take advantage of the more concise, expressive and type-safe
methods there.

All changes are binary compatible to the 3.1.0 public API, save
the exception below.

A minor binary compatibility issue has been introduced in
AbstractCachingConfiguration, AbstractAsyncConfiguration and
AbstractTransactionManagementConfiguration when updating their
protected Map<String, Object> fields representing annotation attributes
to use the new AnnotationAttributes API. This is a negligible breakage,
however, as the likelilhood of users subclassing these types is very
low, the classes have only been in existence for a short time (further
reducing the likelihood), and it is a source-compatible change given
that AnnotationAttributes is assignable to Map<String, Object>.
2012-02-07 21:57:49 +01:00
Chris Beams
d9f7fdd120 Support reading nested annotations via ASM
Background

  Spring 3.1 introduced the @ComponentScan annotation, which can accept
  an optional array of include and/or exclude @Filter annotations, e.g.

     @ComponentScan(
         basePackages = "com.acme.app",
         includeFilters = { @Filter(MyStereotype.class), ... }
     )
     @Configuration
     public class AppConfig { ... }

  @ComponentScan and other annotations related to @Configuration class
  processing such as @Import, @ImportResource and the @Enable*
  annotations are parsed using reflection in certain code paths, e.g.
  when registered directly against AnnotationConfigApplicationContext,
  and via ASM in other code paths, e.g. when a @Configuration class is
  discovered via an XML bean definition or when included via the
  @Import annotation.

  The ASM-based approach is designed to avoid premature classloading of
  user types and is instrumental in providing tooling support (STS, etc).

  Prior to this commit, the ASM-based routines for reading annotation
  attributes were unable to recurse into nested annotations, such as in
  the @Filter example above. Prior to Spring 3.1 this was not a problem,
  because prior to @ComponentScan, there were no cases of nested
  annotations in the framework.

  This limitation manifested itself in cases where users encounter
  the ASM-based annotation parsing code paths AND declare
  @ComponentScan annotations with explicit nested @Filter annotations.
  In these cases, the 'includeFilters' and 'excludeFilters' attributes
  are simply empty where they should be populated, causing the framework
  to ignore the filter directives and provide incorrect results from
  component scanning.

  The purpose of this change then, is to introduce the capability on the
  ASM side to recurse into nested annotations and annotation arrays. The
  challenge in doing so is that the nested annotations themselves cannot
  be realized as annotation instances, so must be represented as a
  nested Map (or, as described below, the new AnnotationAttributes type).

  Furthermore, the reflection-based annotation parsing must also be
  updated to treat nested annotations in a similar fashion; even though
  the reflection-based approach has no problem accessing nested
  annotations (it just works out of the box), for substitutability
  against the AnnotationMetadata SPI, both ASM- and reflection-based
  implementations should return the same results in any case. Therefore,
  the reflection-based StandardAnnotationMetadata has also been updated
  with an optional 'nestedAnnotationsAsMap' constructor argument that is
  false by default to preserve compatibility in the rare case that
  StandardAnnotationMetadata is being used outside the core framework.
  Within the framework, all uses of StandardAnnotationMetadata have been
  updated to set this new flag to true, meaning that nested annotation
  results will be consistent regardless the parsing approach used.

  Spr9031Tests corners this bug and demonstrates that nested @Filter
  annotations can be parsed and read in both the ASM- and
  reflection-based paths.

Major changes

 - AnnotationAttributes has been introduced as a concrete
   LinkedHashMap<String, Object> to be used anywhere annotation
   attributes are accessed, providing error reporting on attribute
   lookup and convenient type-safe access to common annotation types
   such as String, String[], boolean, int, and nested annotation and
   annotation arrays, with the latter two also returned as
   AnnotationAttributes instances.

 - AnnotationUtils#getAnnotationAttributes methods now return
   AnnotationAttributes instances, even though for binary compatibility
   the signatures of these methods have been preserved as returning
   Map<String, Object>.

 - AnnotationAttributes#forMap provides a convenient mechanism for
   adapting any Map<String, Object> into an AnnotationAttributes
   instance. In the case that the Map is already actually of
   type AnnotationAttributes, it is simply casted and returned.
   Otherwise, the map is supplied to the AnnotationAttributes(Map)
   constructor and wrapped in common collections style.

 - The protected MetadataUtils#attributesFor(Metadata, Class) provides
   further convenience in the many locations throughout the
   .context.annotation packagage that depend on annotation attribute
   introspection.

 - ASM-based core.type.classreading package reworked

   Specifically, AnnotationAttributesReadingVisitor has been enhanced to
   support recursive reading of annotations and annotation arrays, for
   example in @ComponentScan's nested array of @Filter annotations,
   ensuring that nested AnnotationAttributes objects are populated as
   described above.

   AnnotationAttributesReadingVisitor has also been refactored for
   clarity, being broken up into several additional ASM
   AnnotationVisitor implementations. Given that all types are
   package-private here, these changes represent no risk to binary
   compatibility.

 - Reflection-based StandardAnnotationMetadata updated

   As described above, the 'nestedAnnotationsAsMap' constructor argument
   has been added, and all framework-internal uses of this class have
   been updated to set this flag to true.

Issue: SPR-7979, SPR-8719, SPR-9031
2012-02-07 21:57:49 +01:00
Juergen Hoeller
afa4bb3f1b fixed javadoc link (SPR-9089) 2012-02-07 15:54:17 +01:00
Chris Beams
81e25b91c2 Respect @Configuration(value) for @Imported classes
Prior to this commit, @Configuration classes included via @Import (or
via automatic registration of nested configuration classes) would
always be registered with a generated bean name, regardless of whether
the user had specified a 'value' indicating a customized bean name, e.g.

    @Configuration("myConfig")
    public class AppConfig { ... }

Now this bean name is propagated as intended in all cases, meaning that
in the example above, the resulting bean definition of type AppConfig
will be named "myConfig" regardless how it was registered with the
container -- directly against the application context, via component
scanning, via @Import, or via automatic registration of nested
configuration classes.

Issue: SPR-9023
2012-02-03 17:54:03 +01:00
Chris Beams
87a021d5c9 Add <license> section to 3.1.x Maven poms
Issue: SPR-8927
2012-01-31 15:18:05 +01:00
Costin Leau
66d4e45b58 add getCacheManager() for access to native class 2012-01-06 18:23:07 -05:00
Juergen Hoeller
86bef9030f correctly handle ParseException from Formatter for String->String case (SPR-8944) 2011-12-22 15:54:17 +01:00