org.springframework.core.annotation.AnnotationUtils Maven / Gradle / Ivy
/*
* Copyright 2002-2019 the original author or authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* https://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.springframework.core.annotation;
import java.lang.annotation.Annotation;
import java.lang.reflect.AnnotatedElement;
import java.lang.reflect.Array;
import java.lang.reflect.InvocationHandler;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.lang.reflect.Proxy;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.springframework.core.BridgeMethodResolver;
import org.springframework.util.Assert;
import org.springframework.util.ConcurrentReferenceHashMap;
import org.springframework.util.ObjectUtils;
import org.springframework.util.ReflectionUtils;
import org.springframework.util.StringUtils;
/**
* General utility methods for working with annotations, handling meta-annotations,
* bridge methods (which the compiler generates for generic declarations) as well
* as super methods (for optional annotation inheritance).
*
* Note that most of the features of this class are not provided by the
* JDK's introspection facilities themselves.
*
*
As a general rule for runtime-retained application annotations (e.g. for
* transaction control, authorization, or service exposure), always use the
* lookup methods on this class (e.g. {@link #findAnnotation(Method, Class)} or
* {@link #getAnnotation(Method, Class)}) instead of the plain annotation lookup
* methods in the JDK. You can still explicitly choose between a get
* lookup on the given class level only ({@link #getAnnotation(Method, Class)})
* and a find lookup in the entire inheritance hierarchy of the given
* method ({@link #findAnnotation(Method, Class)}).
*
*
Terminology
* The terms directly present, indirectly present, and
* present have the same meanings as defined in the class-level
* javadoc for {@link AnnotatedElement} (in Java 8).
*
* An annotation is meta-present on an element if the annotation
* is declared as a meta-annotation on some other annotation which is
* present on the element. Annotation {@code A} is meta-present
* on another annotation if {@code A} is either directly present or
* meta-present on the other annotation.
*
*
Meta-annotation Support
* Most {@code find*()} methods and some {@code get*()} methods in this class
* provide support for finding annotations used as meta-annotations. Consult the
* javadoc for each method in this class for details. For fine-grained support for
* meta-annotations with attribute overrides in composed annotations,
* consider using {@link AnnotatedElementUtils}'s more specific methods instead.
*
*
Attribute Aliases
* All public methods in this class that return annotations, arrays of
* annotations, or {@link AnnotationAttributes} transparently support attribute
* aliases configured via {@link AliasFor @AliasFor}. Consult the various
* {@code synthesizeAnnotation*(..)} methods for details.
*
*
Search Scope
* The search algorithms used by methods in this class stop searching for
* an annotation once the first annotation of the specified type has been
* found. As a consequence, additional annotations of the specified type will
* be silently ignored.
*
* @author Rob Harrop
* @author Juergen Hoeller
* @author Sam Brannen
* @author Mark Fisher
* @author Chris Beams
* @author Phillip Webb
* @since 2.0
* @see AliasFor
* @see AnnotationAttributes
* @see AnnotatedElementUtils
* @see BridgeMethodResolver
* @see java.lang.reflect.AnnotatedElement#getAnnotations()
* @see java.lang.reflect.AnnotatedElement#getAnnotation(Class)
* @see java.lang.reflect.AnnotatedElement#getDeclaredAnnotations()
*/
public abstract class AnnotationUtils {
/**
* The attribute name for annotations with a single element.
*/
public static final String VALUE = "value";
private static final String REPEATABLE_CLASS_NAME = "java.lang.annotation.Repeatable";
private static final Map findAnnotationCache =
new ConcurrentReferenceHashMap(256);
private static final Map metaPresentCache =
new ConcurrentReferenceHashMap(256);
private static final Map, Boolean> annotatedInterfaceCache =
new ConcurrentReferenceHashMap, Boolean>(256);
private static final Map, Boolean> synthesizableCache =
new ConcurrentReferenceHashMap, Boolean>(256);
private static final Map, Map>> attributeAliasesCache =
new ConcurrentReferenceHashMap, Map>>(256);
private static final Map, List> attributeMethodsCache =
new ConcurrentReferenceHashMap, List>(256);
private static final Map aliasDescriptorCache =
new ConcurrentReferenceHashMap(256);
private static transient Log logger;
/**
* Get a single {@link Annotation} of {@code annotationType} from the supplied
* annotation: either the given annotation itself or a direct meta-annotation
* thereof.
* Note that this method supports only a single level of meta-annotations.
* For support for arbitrary levels of meta-annotations, use one of the
* {@code find*()} methods instead.
* @param annotation the Annotation to check
* @param annotationType the annotation type to look for, both locally and as a meta-annotation
* @return the first matching annotation, or {@code null} if not found
* @since 4.0
*/
@SuppressWarnings("unchecked")
public static A getAnnotation(Annotation annotation, Class annotationType) {
if (annotationType.isInstance(annotation)) {
return synthesizeAnnotation((A) annotation);
}
Class annotatedElement = annotation.annotationType();
try {
return synthesizeAnnotation(annotatedElement.getAnnotation(annotationType), annotatedElement);
}
catch (Throwable ex) {
handleIntrospectionFailure(annotatedElement, ex);
return null;
}
}
/**
* Get a single {@link Annotation} of {@code annotationType} from the supplied
* {@link AnnotatedElement}, where the annotation is either present or
* meta-present on the {@code AnnotatedElement}.
* Note that this method supports only a single level of meta-annotations.
* For support for arbitrary levels of meta-annotations, use
* {@link #findAnnotation(AnnotatedElement, Class)} instead.
* @param annotatedElement the {@code AnnotatedElement} from which to get the annotation
* @param annotationType the annotation type to look for, both locally and as a meta-annotation
* @return the first matching annotation, or {@code null} if not found
* @since 3.1
*/
public static A getAnnotation(AnnotatedElement annotatedElement, Class annotationType) {
try {
A annotation = annotatedElement.getAnnotation(annotationType);
if (annotation == null) {
for (Annotation metaAnn : annotatedElement.getAnnotations()) {
annotation = metaAnn.annotationType().getAnnotation(annotationType);
if (annotation != null) {
break;
}
}
}
return synthesizeAnnotation(annotation, annotatedElement);
}
catch (Throwable ex) {
handleIntrospectionFailure(annotatedElement, ex);
return null;
}
}
/**
* Get a single {@link Annotation} of {@code annotationType} from the
* supplied {@link Method}, where the annotation is either present
* or meta-present on the method.
* Correctly handles bridge {@link Method Methods} generated by the compiler.
*
Note that this method supports only a single level of meta-annotations.
* For support for arbitrary levels of meta-annotations, use
* {@link #findAnnotation(Method, Class)} instead.
* @param method the method to look for annotations on
* @param annotationType the annotation type to look for
* @return the first matching annotation, or {@code null} if not found
* @see org.springframework.core.BridgeMethodResolver#findBridgedMethod(Method)
* @see #getAnnotation(AnnotatedElement, Class)
*/
public static A getAnnotation(Method method, Class annotationType) {
Method resolvedMethod = BridgeMethodResolver.findBridgedMethod(method);
return getAnnotation((AnnotatedElement) resolvedMethod, annotationType);
}
/**
* Get all {@link Annotation Annotations} that are present on the
* supplied {@link AnnotatedElement}.
* Meta-annotations will not be searched.
* @param annotatedElement the Method, Constructor or Field to retrieve annotations from
* @return the annotations found, an empty array, or {@code null} if not
* resolvable (e.g. because nested Class values in annotation attributes
* failed to resolve at runtime)
* @since 4.0.8
* @see AnnotatedElement#getAnnotations()
*/
public static Annotation[] getAnnotations(AnnotatedElement annotatedElement) {
try {
return synthesizeAnnotationArray(annotatedElement.getAnnotations(), annotatedElement);
}
catch (Throwable ex) {
handleIntrospectionFailure(annotatedElement, ex);
return null;
}
}
/**
* Get all {@link Annotation Annotations} that are present on the
* supplied {@link Method}.
*
Correctly handles bridge {@link Method Methods} generated by the compiler.
*
Meta-annotations will not be searched.
* @param method the Method to retrieve annotations from
* @return the annotations found, an empty array, or {@code null} if not
* resolvable (e.g. because nested Class values in annotation attributes
* failed to resolve at runtime)
* @see org.springframework.core.BridgeMethodResolver#findBridgedMethod(Method)
* @see AnnotatedElement#getAnnotations()
*/
public static Annotation[] getAnnotations(Method method) {
try {
return synthesizeAnnotationArray(BridgeMethodResolver.findBridgedMethod(method).getAnnotations(), method);
}
catch (Throwable ex) {
handleIntrospectionFailure(method, ex);
return null;
}
}
/**
* Delegates to {@link #getRepeatableAnnotations(AnnotatedElement, Class, Class)}.
* @since 4.0
* @see #getRepeatableAnnotations(AnnotatedElement, Class, Class)
* @see #getDeclaredRepeatableAnnotations(AnnotatedElement, Class, Class)
* @deprecated As of Spring Framework 4.2, use {@code getRepeatableAnnotations()}
* or {@code getDeclaredRepeatableAnnotations()} instead.
*/
@Deprecated
public static Set getRepeatableAnnotation(Method method,
Class containerAnnotationType, Class annotationType) {
return getRepeatableAnnotations(method, annotationType, containerAnnotationType);
}
/**
* Delegates to {@link #getRepeatableAnnotations(AnnotatedElement, Class, Class)}.
* @since 4.0
* @see #getRepeatableAnnotations(AnnotatedElement, Class, Class)
* @see #getDeclaredRepeatableAnnotations(AnnotatedElement, Class, Class)
* @deprecated As of Spring Framework 4.2, use {@code getRepeatableAnnotations()}
* or {@code getDeclaredRepeatableAnnotations()} instead.
*/
@Deprecated
public static Set getRepeatableAnnotation(AnnotatedElement annotatedElement,
Class containerAnnotationType, Class annotationType) {
return getRepeatableAnnotations(annotatedElement, annotationType, containerAnnotationType);
}
/**
* Get the repeatable {@linkplain Annotation annotations} of
* {@code annotationType} from the supplied {@link AnnotatedElement}, where
* such annotations are either present, indirectly present,
* or meta-present on the element.
* This method mimics the functionality of Java 8's
* {@link java.lang.reflect.AnnotatedElement#getAnnotationsByType(Class)}
* with support for automatic detection of a container annotation
* declared via @{@link java.lang.annotation.Repeatable} (when running on
* Java 8 or higher) and with additional support for meta-annotations.
*
Handles both single annotations and annotations nested within a
* container annotation.
*
Correctly handles bridge methods generated by the
* compiler if the supplied element is a {@link Method}.
*
Meta-annotations will be searched if the annotation is not
* present on the supplied element.
* @param annotatedElement the element to look for annotations on
* @param annotationType the annotation type to look for
* @return the annotations found or an empty set (never {@code null})
* @since 4.2
* @see #getRepeatableAnnotations(AnnotatedElement, Class, Class)
* @see #getDeclaredRepeatableAnnotations(AnnotatedElement, Class, Class)
* @see AnnotatedElementUtils#getMergedRepeatableAnnotations(AnnotatedElement, Class)
* @see org.springframework.core.BridgeMethodResolver#findBridgedMethod
* @see java.lang.annotation.Repeatable
* @see java.lang.reflect.AnnotatedElement#getAnnotationsByType
*/
public static Set getRepeatableAnnotations(AnnotatedElement annotatedElement,
Class annotationType) {
return getRepeatableAnnotations(annotatedElement, annotationType, null);
}
/**
* Get the repeatable {@linkplain Annotation annotations} of
* {@code annotationType} from the supplied {@link AnnotatedElement}, where
* such annotations are either present, indirectly present,
* or meta-present on the element.
* This method mimics the functionality of Java 8's
* {@link java.lang.reflect.AnnotatedElement#getAnnotationsByType(Class)}
* with additional support for meta-annotations.
*
Handles both single annotations and annotations nested within a
* container annotation.
*
Correctly handles bridge methods generated by the
* compiler if the supplied element is a {@link Method}.
*
Meta-annotations will be searched if the annotation is not
* present on the supplied element.
* @param annotatedElement the element to look for annotations on
* @param annotationType the annotation type to look for
* @param containerAnnotationType the type of the container that holds
* the annotations; may be {@code null} if a container is not supported
* or if it should be looked up via @{@link java.lang.annotation.Repeatable}
* when running on Java 8 or higher
* @return the annotations found or an empty set (never {@code null})
* @since 4.2
* @see #getRepeatableAnnotations(AnnotatedElement, Class)
* @see #getDeclaredRepeatableAnnotations(AnnotatedElement, Class)
* @see #getDeclaredRepeatableAnnotations(AnnotatedElement, Class, Class)
* @see AnnotatedElementUtils#getMergedRepeatableAnnotations(AnnotatedElement, Class, Class)
* @see org.springframework.core.BridgeMethodResolver#findBridgedMethod
* @see java.lang.annotation.Repeatable
* @see java.lang.reflect.AnnotatedElement#getAnnotationsByType
*/
public static Set getRepeatableAnnotations(AnnotatedElement annotatedElement,
Class annotationType, Class containerAnnotationType) {
Set annotations = getDeclaredRepeatableAnnotations(annotatedElement, annotationType, containerAnnotationType);
if (!annotations.isEmpty()) {
return annotations;
}
if (annotatedElement instanceof Class) {
Class superclass = ((Class) annotatedElement).getSuperclass();
if (superclass != null && Object.class != superclass) {
return getRepeatableAnnotations(superclass, annotationType, containerAnnotationType);
}
}
return getRepeatableAnnotations(annotatedElement, annotationType, containerAnnotationType, false);
}
/**
* Get the declared repeatable {@linkplain Annotation annotations}
* of {@code annotationType} from the supplied {@link AnnotatedElement},
* where such annotations are either directly present,
* indirectly present, or meta-present on the element.
* This method mimics the functionality of Java 8's
* {@link java.lang.reflect.AnnotatedElement#getDeclaredAnnotationsByType(Class)}
* with support for automatic detection of a container annotation
* declared via @{@link java.lang.annotation.Repeatable} (when running on
* Java 8 or higher) and with additional support for meta-annotations.
*
Handles both single annotations and annotations nested within a
* container annotation.
*
Correctly handles bridge methods generated by the
* compiler if the supplied element is a {@link Method}.
*
Meta-annotations will be searched if the annotation is not
* present on the supplied element.
* @param annotatedElement the element to look for annotations on
* @param annotationType the annotation type to look for
* @return the annotations found or an empty set (never {@code null})
* @since 4.2
* @see #getRepeatableAnnotations(AnnotatedElement, Class)
* @see #getRepeatableAnnotations(AnnotatedElement, Class, Class)
* @see #getDeclaredRepeatableAnnotations(AnnotatedElement, Class, Class)
* @see AnnotatedElementUtils#getMergedRepeatableAnnotations(AnnotatedElement, Class)
* @see org.springframework.core.BridgeMethodResolver#findBridgedMethod
* @see java.lang.annotation.Repeatable
* @see java.lang.reflect.AnnotatedElement#getDeclaredAnnotationsByType
*/
public static Set getDeclaredRepeatableAnnotations(AnnotatedElement annotatedElement,
Class annotationType) {
return getDeclaredRepeatableAnnotations(annotatedElement, annotationType, null);
}
/**
* Get the declared repeatable {@linkplain Annotation annotations}
* of {@code annotationType} from the supplied {@link AnnotatedElement},
* where such annotations are either directly present,
* indirectly present, or meta-present on the element.
* This method mimics the functionality of Java 8's
* {@link java.lang.reflect.AnnotatedElement#getDeclaredAnnotationsByType(Class)}
* with additional support for meta-annotations.
*
Handles both single annotations and annotations nested within a
* container annotation.
*
Correctly handles bridge methods generated by the
* compiler if the supplied element is a {@link Method}.
*
Meta-annotations will be searched if the annotation is not
* present on the supplied element.
* @param annotatedElement the element to look for annotations on
* @param annotationType the annotation type to look for
* @param containerAnnotationType the type of the container that holds
* the annotations; may be {@code null} if a container is not supported
* or if it should be looked up via @{@link java.lang.annotation.Repeatable}
* when running on Java 8 or higher
* @return the annotations found or an empty set (never {@code null})
* @since 4.2
* @see #getRepeatableAnnotations(AnnotatedElement, Class)
* @see #getRepeatableAnnotations(AnnotatedElement, Class, Class)
* @see #getDeclaredRepeatableAnnotations(AnnotatedElement, Class)
* @see AnnotatedElementUtils#getMergedRepeatableAnnotations(AnnotatedElement, Class, Class)
* @see org.springframework.core.BridgeMethodResolver#findBridgedMethod
* @see java.lang.annotation.Repeatable
* @see java.lang.reflect.AnnotatedElement#getDeclaredAnnotationsByType
*/
public static Set getDeclaredRepeatableAnnotations(AnnotatedElement annotatedElement,
Class annotationType, Class containerAnnotationType) {
return getRepeatableAnnotations(annotatedElement, annotationType, containerAnnotationType, true);
}
/**
* Perform the actual work for {@link #getRepeatableAnnotations(AnnotatedElement, Class, Class)}
* and {@link #getDeclaredRepeatableAnnotations(AnnotatedElement, Class, Class)}.
* Correctly handles bridge methods generated by the
* compiler if the supplied element is a {@link Method}.
*
Meta-annotations will be searched if the annotation is not
* present on the supplied element.
* @param annotatedElement the element to look for annotations on
* @param annotationType the annotation type to look for
* @param containerAnnotationType the type of the container that holds
* the annotations; may be {@code null} if a container is not supported
* or if it should be looked up via @{@link java.lang.annotation.Repeatable}
* when running on Java 8 or higher
* @param declaredMode {@code true} if only declared annotations (i.e.,
* directly or indirectly present) should be considered
* @return the annotations found or an empty set (never {@code null})
* @since 4.2
* @see org.springframework.core.BridgeMethodResolver#findBridgedMethod
* @see java.lang.annotation.Repeatable
*/
private static Set getRepeatableAnnotations(AnnotatedElement annotatedElement,
Class annotationType, Class containerAnnotationType, boolean declaredMode) {
Assert.notNull(annotatedElement, "AnnotatedElement must not be null");
Assert.notNull(annotationType, "Annotation type must not be null");
try {
if (annotatedElement instanceof Method) {
annotatedElement = BridgeMethodResolver.findBridgedMethod((Method) annotatedElement);
}
return new AnnotationCollector(annotationType, containerAnnotationType, declaredMode).getResult(annotatedElement);
}
catch (Throwable ex) {
handleIntrospectionFailure(annotatedElement, ex);
return Collections.emptySet();
}
}
/**
* Find a single {@link Annotation} of {@code annotationType} on the
* supplied {@link AnnotatedElement}.
* Meta-annotations will be searched if the annotation is not
* directly present on the supplied element.
*
Warning: this method operates generically on
* annotated elements. In other words, this method does not execute
* specialized search algorithms for classes or methods. If you require
* the more specific semantics of {@link #findAnnotation(Class, Class)}
* or {@link #findAnnotation(Method, Class)}, invoke one of those methods
* instead.
* @param annotatedElement the {@code AnnotatedElement} on which to find the annotation
* @param annotationType the annotation type to look for, both locally and as a meta-annotation
* @return the first matching annotation, or {@code null} if not found
* @since 4.2
*/
public static A findAnnotation(AnnotatedElement annotatedElement, Class annotationType) {
Assert.notNull(annotatedElement, "AnnotatedElement must not be null");
if (annotationType == null) {
return null;
}
// Do NOT store result in the findAnnotationCache since doing so could break
// findAnnotation(Class, Class) and findAnnotation(Method, Class).
A ann = findAnnotation(annotatedElement, annotationType, new HashSet());
return synthesizeAnnotation(ann, annotatedElement);
}
/**
* Perform the search algorithm for {@link #findAnnotation(AnnotatedElement, Class)}
* avoiding endless recursion by tracking which annotations have already
* been visited.
* @param annotatedElement the {@code AnnotatedElement} on which to find the annotation
* @param annotationType the annotation type to look for, both locally and as a meta-annotation
* @param visited the set of annotations that have already been visited
* @return the first matching annotation, or {@code null} if not found
* @since 4.2
*/
@SuppressWarnings("unchecked")
private static A findAnnotation(
AnnotatedElement annotatedElement, Class annotationType, Set visited) {
try {
Annotation[] anns = annotatedElement.getDeclaredAnnotations();
for (Annotation ann : anns) {
if (ann.annotationType() == annotationType) {
return (A) ann;
}
}
for (Annotation ann : anns) {
if (!isInJavaLangAnnotationPackage(ann) && visited.add(ann)) {
A annotation = findAnnotation((AnnotatedElement) ann.annotationType(), annotationType, visited);
if (annotation != null) {
return annotation;
}
}
}
}
catch (Throwable ex) {
handleIntrospectionFailure(annotatedElement, ex);
}
return null;
}
/**
* Find a single {@link Annotation} of {@code annotationType} on the supplied
* {@link Method}, traversing its super methods (i.e. from superclasses and
* interfaces) if the annotation is not directly present on the given
* method itself.
* Correctly handles bridge {@link Method Methods} generated by the compiler.
*
Meta-annotations will be searched if the annotation is not
* directly present on the method.
*
Annotations on methods are not inherited by default, so we need to handle
* this explicitly.
* @param method the method to look for annotations on
* @param annotationType the annotation type to look for
* @return the first matching annotation, or {@code null} if not found
* @see #getAnnotation(Method, Class)
*/
@SuppressWarnings("unchecked")
public static A findAnnotation(Method method, Class annotationType) {
Assert.notNull(method, "Method must not be null");
if (annotationType == null) {
return null;
}
AnnotationCacheKey cacheKey = new AnnotationCacheKey(method, annotationType);
A result = (A) findAnnotationCache.get(cacheKey);
if (result == null) {
Method resolvedMethod = BridgeMethodResolver.findBridgedMethod(method);
result = findAnnotation((AnnotatedElement) resolvedMethod, annotationType);
if (result == null) {
result = searchOnInterfaces(method, annotationType, method.getDeclaringClass().getInterfaces());
}
Class clazz = method.getDeclaringClass();
while (result == null) {
clazz = clazz.getSuperclass();
if (clazz == null || Object.class == clazz) {
break;
}
try {
Method equivalentMethod = clazz.getDeclaredMethod(method.getName(), method.getParameterTypes());
Method resolvedEquivalentMethod = BridgeMethodResolver.findBridgedMethod(equivalentMethod);
result = findAnnotation((AnnotatedElement) resolvedEquivalentMethod, annotationType);
}
catch (NoSuchMethodException ex) {
// No equivalent method found
}
if (result == null) {
result = searchOnInterfaces(method, annotationType, clazz.getInterfaces());
}
}
if (result != null) {
result = synthesizeAnnotation(result, method);
findAnnotationCache.put(cacheKey, result);
}
}
return result;
}
private static A searchOnInterfaces(Method method, Class annotationType, Class... ifcs) {
A annotation = null;
for (Class ifc : ifcs) {
if (isInterfaceWithAnnotatedMethods(ifc)) {
try {
Method equivalentMethod = ifc.getMethod(method.getName(), method.getParameterTypes());
annotation = getAnnotation(equivalentMethod, annotationType);
}
catch (NoSuchMethodException ex) {
// Skip this interface - it doesn't have the method...
}
if (annotation != null) {
break;
}
}
}
return annotation;
}
static boolean isInterfaceWithAnnotatedMethods(Class ifc) {
Boolean found = annotatedInterfaceCache.get(ifc);
if (found != null) {
return found;
}
found = Boolean.FALSE;
for (Method ifcMethod : ifc.getMethods()) {
try {
if (ifcMethod.getAnnotations().length > 0) {
found = Boolean.TRUE;
break;
}
}
catch (Throwable ex) {
handleIntrospectionFailure(ifcMethod, ex);
}
}
annotatedInterfaceCache.put(ifc, found);
return found;
}
/**
* Find a single {@link Annotation} of {@code annotationType} on the
* supplied {@link Class}, traversing its interfaces, annotations, and
* superclasses if the annotation is not directly present on
* the given class itself.
* This method explicitly handles class-level annotations which are not
* declared as {@link java.lang.annotation.Inherited inherited} as well
* as meta-annotations and annotations on interfaces.
*
The algorithm operates as follows:
*
* - Search for the annotation on the given class and return it if found.
*
- Recursively search through all annotations that the given class declares.
*
- Recursively search through all interfaces that the given class declares.
*
- Recursively search through the superclass hierarchy of the given class.
*
* Note: in this context, the term recursively means that the search
* process continues by returning to step #1 with the current interface,
* annotation, or superclass as the class to look for annotations on.
* @param clazz the class to look for annotations on
* @param annotationType the type of annotation to look for
* @return the first matching annotation, or {@code null} if not found
*/
public static A findAnnotation(Class clazz, Class annotationType) {
return findAnnotation(clazz, annotationType, true);
}
/**
* Perform the actual work for {@link #findAnnotation(AnnotatedElement, Class)},
* honoring the {@code synthesize} flag.
* @param clazz the class to look for annotations on
* @param annotationType the type of annotation to look for
* @param synthesize {@code true} if the result should be
* {@linkplain #synthesizeAnnotation(Annotation) synthesized}
* @return the first matching annotation, or {@code null} if not found
* @since 4.2.1
*/
@SuppressWarnings("unchecked")
private static A findAnnotation(Class clazz, Class annotationType, boolean synthesize) {
Assert.notNull(clazz, "Class must not be null");
if (annotationType == null) {
return null;
}
AnnotationCacheKey cacheKey = new AnnotationCacheKey(clazz, annotationType);
A result = (A) findAnnotationCache.get(cacheKey);
if (result == null) {
result = findAnnotation(clazz, annotationType, new HashSet());
if (result != null && synthesize) {
result = synthesizeAnnotation(result, clazz);
findAnnotationCache.put(cacheKey, result);
}
}
return result;
}
/**
* Perform the search algorithm for {@link #findAnnotation(Class, Class)},
* avoiding endless recursion by tracking which annotations have already
* been visited.
* @param clazz the class to look for annotations on
* @param annotationType the type of annotation to look for
* @param visited the set of annotations that have already been visited
* @return the first matching annotation, or {@code null} if not found
*/
@SuppressWarnings("unchecked")
private static A findAnnotation(Class clazz, Class annotationType, Set visited) {
try {
Annotation[] anns = clazz.getDeclaredAnnotations();
for (Annotation ann : anns) {
if (ann.annotationType() == annotationType) {
return (A) ann;
}
}
for (Annotation ann : anns) {
if (!isInJavaLangAnnotationPackage(ann) && visited.add(ann)) {
A annotation = findAnnotation(ann.annotationType(), annotationType, visited);
if (annotation != null) {
return annotation;
}
}
}
}
catch (Throwable ex) {
handleIntrospectionFailure(clazz, ex);
return null;
}
for (Class ifc : clazz.getInterfaces()) {
A annotation = findAnnotation(ifc, annotationType, visited);
if (annotation != null) {
return annotation;
}
}
Class superclass = clazz.getSuperclass();
if (superclass == null || Object.class == superclass) {
return null;
}
return findAnnotation(superclass, annotationType, visited);
}
/**
* Find the first {@link Class} in the inheritance hierarchy of the
* specified {@code clazz} (including the specified {@code clazz} itself)
* on which an annotation of the specified {@code annotationType} is
* directly present.
* If the supplied {@code clazz} is an interface, only the interface
* itself will be checked; the inheritance hierarchy for interfaces will
* not be traversed.
*
Meta-annotations will not be searched.
*
The standard {@link Class} API does not provide a mechanism for
* determining which class in an inheritance hierarchy actually declares
* an {@link Annotation}, so we need to handle this explicitly.
* @param annotationType the annotation type to look for
* @param clazz the class to check for the annotation on (may be {@code null})
* @return the first {@link Class} in the inheritance hierarchy that
* declares an annotation of the specified {@code annotationType}, or
* {@code null} if not found
* @see Class#isAnnotationPresent(Class)
* @see Class#getDeclaredAnnotations()
* @see #findAnnotationDeclaringClassForTypes(List, Class)
* @see #isAnnotationDeclaredLocally(Class, Class)
*/
public static Class findAnnotationDeclaringClass(Class annotationType, Class clazz) {
Assert.notNull(annotationType, "Annotation type must not be null");
if (clazz == null || Object.class == clazz) {
return null;
}
if (isAnnotationDeclaredLocally(annotationType, clazz)) {
return clazz;
}
return findAnnotationDeclaringClass(annotationType, clazz.getSuperclass());
}
/**
* Find the first {@link Class} in the inheritance hierarchy of the
* specified {@code clazz} (including the specified {@code clazz} itself)
* on which at least one of the specified {@code annotationTypes} is
* directly present.
*
If the supplied {@code clazz} is an interface, only the interface
* itself will be checked; the inheritance hierarchy for interfaces will
* not be traversed.
*
Meta-annotations will not be searched.
*
The standard {@link Class} API does not provide a mechanism for
* determining which class in an inheritance hierarchy actually declares
* one of several candidate {@linkplain Annotation annotations}, so we
* need to handle this explicitly.
* @param annotationTypes the annotation types to look for
* @param clazz the class to check for the annotations on, or {@code null}
* @return the first {@link Class} in the inheritance hierarchy that
* declares an annotation of at least one of the specified
* {@code annotationTypes}, or {@code null} if not found
* @since 3.2.2
* @see Class#isAnnotationPresent(Class)
* @see Class#getDeclaredAnnotations()
* @see #findAnnotationDeclaringClass(Class, Class)
* @see #isAnnotationDeclaredLocally(Class, Class)
*/
public static Class findAnnotationDeclaringClassForTypes(List> annotationTypes, Class clazz) {
Assert.notEmpty(annotationTypes, "List of annotation types must not be empty");
if (clazz == null || Object.class == clazz) {
return null;
}
for (Class annotationType : annotationTypes) {
if (isAnnotationDeclaredLocally(annotationType, clazz)) {
return clazz;
}
}
return findAnnotationDeclaringClassForTypes(annotationTypes, clazz.getSuperclass());
}
/**
* Determine whether an annotation of the specified {@code annotationType}
* is declared locally (i.e., directly present) on the supplied
* {@code clazz}.
* The supplied {@link Class} may represent any type.
*
Meta-annotations will not be searched.
*
Note: This method does not determine if the annotation
* is {@linkplain java.lang.annotation.Inherited inherited}. For greater
* clarity regarding inherited annotations, consider using
* {@link #isAnnotationInherited(Class, Class)} instead.
* @param annotationType the annotation type to look for
* @param clazz the class to check for the annotation on
* @return {@code true} if an annotation of the specified {@code annotationType}
* is directly present
* @see java.lang.Class#getDeclaredAnnotations()
* @see java.lang.Class#getDeclaredAnnotation(Class)
* @see #isAnnotationInherited(Class, Class)
*/
public static boolean isAnnotationDeclaredLocally(Class annotationType, Class clazz) {
Assert.notNull(annotationType, "Annotation type must not be null");
Assert.notNull(clazz, "Class must not be null");
try {
for (Annotation ann : clazz.getDeclaredAnnotations()) {
if (ann.annotationType() == annotationType) {
return true;
}
}
}
catch (Throwable ex) {
handleIntrospectionFailure(clazz, ex);
}
return false;
}
/**
* Determine whether an annotation of the specified {@code annotationType}
* is present on the supplied {@code clazz} and is
* {@linkplain java.lang.annotation.Inherited inherited} (i.e., not
* directly present).
*
Meta-annotations will not be searched.
*
If the supplied {@code clazz} is an interface, only the interface
* itself will be checked. In accordance with standard meta-annotation
* semantics in Java, the inheritance hierarchy for interfaces will not
* be traversed. See the {@linkplain java.lang.annotation.Inherited javadoc}
* for the {@code @Inherited} meta-annotation for further details regarding
* annotation inheritance.
* @param annotationType the annotation type to look for
* @param clazz the class to check for the annotation on
* @return {@code true} if an annotation of the specified {@code annotationType}
* is present and inherited
* @see Class#isAnnotationPresent(Class)
* @see #isAnnotationDeclaredLocally(Class, Class)
*/
public static boolean isAnnotationInherited(Class annotationType, Class clazz) {
Assert.notNull(annotationType, "Annotation type must not be null");
Assert.notNull(clazz, "Class must not be null");
return (clazz.isAnnotationPresent(annotationType) && !isAnnotationDeclaredLocally(annotationType, clazz));
}
/**
* Determine if an annotation of type {@code metaAnnotationType} is
* meta-present on the supplied {@code annotationType}.
* @param annotationType the annotation type to search on
* @param metaAnnotationType the type of meta-annotation to search for
* @return {@code true} if such an annotation is meta-present
* @since 4.2.1
*/
public static boolean isAnnotationMetaPresent(Class annotationType,
Class metaAnnotationType) {
Assert.notNull(annotationType, "Annotation type must not be null");
if (metaAnnotationType == null) {
return false;
}
AnnotationCacheKey cacheKey = new AnnotationCacheKey(annotationType, metaAnnotationType);
Boolean metaPresent = metaPresentCache.get(cacheKey);
if (metaPresent != null) {
return metaPresent;
}
metaPresent = Boolean.FALSE;
if (findAnnotation(annotationType, metaAnnotationType, false) != null) {
metaPresent = Boolean.TRUE;
}
metaPresentCache.put(cacheKey, metaPresent);
return metaPresent;
}
/**
* Determine if the supplied {@link Annotation} is defined in the core JDK
* {@code java.lang.annotation} package.
* @param annotation the annotation to check
* @return {@code true} if the annotation is in the {@code java.lang.annotation} package
*/
public static boolean isInJavaLangAnnotationPackage(Annotation annotation) {
return (annotation != null && isInJavaLangAnnotationPackage(annotation.annotationType()));
}
/**
* Determine if the {@link Annotation} with the supplied name is defined
* in the core JDK {@code java.lang.annotation} package.
* @param annotationType the annotation type to check
* @return {@code true} if the annotation is in the {@code java.lang.annotation} package
* @since 4.3.8
*/
static boolean isInJavaLangAnnotationPackage(Class annotationType) {
return (annotationType != null && isInJavaLangAnnotationPackage(annotationType.getName()));
}
/**
* Determine if the {@link Annotation} with the supplied name is defined
* in the core JDK {@code java.lang.annotation} package.
* @param annotationType the name of the annotation type to check
* @return {@code true} if the annotation is in the {@code java.lang.annotation} package
* @since 4.2
*/
public static boolean isInJavaLangAnnotationPackage(String annotationType) {
return (annotationType != null && annotationType.startsWith("java.lang.annotation"));
}
/**
* Check the declared attributes of the given annotation, in particular covering
* Google App Engine's late arrival of {@code TypeNotPresentExceptionProxy} for
* {@code Class} values (instead of early {@code Class.getAnnotations() failure}.
*
This method not failing indicates that {@link #getAnnotationAttributes(Annotation)}
* won't failure either (when attempted later on).
* @param annotation the annotation to validate
* @throws IllegalStateException if a declared {@code Class} attribute could not be read
* @since 4.3.15
* @see Class#getAnnotations()
* @see #getAnnotationAttributes(Annotation)
*/
public static void validateAnnotation(Annotation annotation) {
for (Method method : getAttributeMethods(annotation.annotationType())) {
Class returnType = method.getReturnType();
if (returnType == Class.class || returnType == Class[].class) {
try {
method.invoke(annotation);
}
catch (Throwable ex) {
throw new IllegalStateException("Could not obtain annotation attribute value for " + method, ex);
}
}
}
}
/**
* Retrieve the given annotation's attributes as a {@link Map}, preserving all
* attribute types.
*
Equivalent to calling {@link #getAnnotationAttributes(Annotation, boolean, boolean)}
* with the {@code classValuesAsString} and {@code nestedAnnotationsAsMap} parameters
* set to {@code false}.
*
Note: This method actually returns an {@link AnnotationAttributes} instance.
* However, the {@code Map} signature has been preserved for binary compatibility.
* @param annotation the annotation to retrieve the attributes for
* @return the Map of annotation attributes, with attribute names as keys and
* corresponding attribute values as values (never {@code null})
* @see #getAnnotationAttributes(AnnotatedElement, Annotation)
* @see #getAnnotationAttributes(Annotation, boolean, boolean)
* @see #getAnnotationAttributes(AnnotatedElement, Annotation, boolean, boolean)
*/
public static Map getAnnotationAttributes(Annotation annotation) {
return getAnnotationAttributes(null, annotation);
}
/**
* Retrieve the given annotation's attributes as a {@link Map}.
* Equivalent to calling {@link #getAnnotationAttributes(Annotation, boolean, boolean)}
* with the {@code nestedAnnotationsAsMap} parameter set to {@code false}.
*
Note: This method actually returns an {@link AnnotationAttributes} instance.
* However, the {@code Map} signature has been preserved for binary compatibility.
* @param annotation the annotation to retrieve the attributes for
* @param classValuesAsString whether to convert Class references into Strings (for
* compatibility with {@link org.springframework.core.type.AnnotationMetadata})
* or to preserve them as Class references
* @return the Map of annotation attributes, with attribute names as keys and
* corresponding attribute values as values (never {@code null})
* @see #getAnnotationAttributes(Annotation, boolean, boolean)
*/
public static Map getAnnotationAttributes(Annotation annotation, boolean classValuesAsString) {
return getAnnotationAttributes(annotation, classValuesAsString, false);
}
/**
* Retrieve the given annotation's attributes as an {@link AnnotationAttributes} map.
* This method provides fully recursive annotation reading capabilities on par with
* the reflection-based {@link org.springframework.core.type.StandardAnnotationMetadata}.
* @param annotation the annotation to retrieve the attributes for
* @param classValuesAsString whether to convert Class references into Strings (for
* compatibility with {@link org.springframework.core.type.AnnotationMetadata})
* or to preserve them as Class references
* @param nestedAnnotationsAsMap whether to convert nested annotations into
* {@link AnnotationAttributes} maps (for compatibility with
* {@link org.springframework.core.type.AnnotationMetadata}) or to preserve them as
* {@code Annotation} instances
* @return the annotation attributes (a specialized Map) with attribute names as keys
* and corresponding attribute values as values (never {@code null})
* @since 3.1.1
*/
public static AnnotationAttributes getAnnotationAttributes(Annotation annotation, boolean classValuesAsString,
boolean nestedAnnotationsAsMap) {
return getAnnotationAttributes(null, annotation, classValuesAsString, nestedAnnotationsAsMap);
}
/**
* Retrieve the given annotation's attributes as an {@link AnnotationAttributes} map.
*
Equivalent to calling {@link #getAnnotationAttributes(AnnotatedElement, Annotation, boolean, boolean)}
* with the {@code classValuesAsString} and {@code nestedAnnotationsAsMap} parameters
* set to {@code false}.
* @param annotatedElement the element that is annotated with the supplied annotation;
* may be {@code null} if unknown
* @param annotation the annotation to retrieve the attributes for
* @return the annotation attributes (a specialized Map) with attribute names as keys
* and corresponding attribute values as values (never {@code null})
* @since 4.2
* @see #getAnnotationAttributes(AnnotatedElement, Annotation, boolean, boolean)
*/
public static AnnotationAttributes getAnnotationAttributes(AnnotatedElement annotatedElement, Annotation annotation) {
return getAnnotationAttributes(annotatedElement, annotation, false, false);
}
/**
* Retrieve the given annotation's attributes as an {@link AnnotationAttributes} map.
*
This method provides fully recursive annotation reading capabilities on par with
* the reflection-based {@link org.springframework.core.type.StandardAnnotationMetadata}.
* @param annotatedElement the element that is annotated with the supplied annotation;
* may be {@code null} if unknown
* @param annotation the annotation to retrieve the attributes for
* @param classValuesAsString whether to convert Class references into Strings (for
* compatibility with {@link org.springframework.core.type.AnnotationMetadata})
* or to preserve them as Class references
* @param nestedAnnotationsAsMap whether to convert nested annotations into
* {@link AnnotationAttributes} maps (for compatibility with
* {@link org.springframework.core.type.AnnotationMetadata}) or to preserve them as
* {@code Annotation} instances
* @return the annotation attributes (a specialized Map) with attribute names as keys
* and corresponding attribute values as values (never {@code null})
* @since 4.2
*/
public static AnnotationAttributes getAnnotationAttributes(AnnotatedElement annotatedElement,
Annotation annotation, boolean classValuesAsString, boolean nestedAnnotationsAsMap) {
return getAnnotationAttributes(
(Object) annotatedElement, annotation, classValuesAsString, nestedAnnotationsAsMap);
}
private static AnnotationAttributes getAnnotationAttributes(Object annotatedElement,
Annotation annotation, boolean classValuesAsString, boolean nestedAnnotationsAsMap) {
AnnotationAttributes attributes =
retrieveAnnotationAttributes(annotatedElement, annotation, classValuesAsString, nestedAnnotationsAsMap);
postProcessAnnotationAttributes(annotatedElement, attributes, classValuesAsString, nestedAnnotationsAsMap);
return attributes;
}
/**
* Retrieve the given annotation's attributes as an {@link AnnotationAttributes} map.
*
This method provides fully recursive annotation reading capabilities on par with
* the reflection-based {@link org.springframework.core.type.StandardAnnotationMetadata}.
*
NOTE: This variant of {@code getAnnotationAttributes()} is
* only intended for use within the framework. The following special rules apply:
*
* - Default values will be replaced with default value placeholders.
* - The resulting, merged annotation attributes should eventually be
* {@linkplain #postProcessAnnotationAttributes post-processed} in order to
* ensure that placeholders have been replaced by actual default values and
* in order to enforce {@code @AliasFor} semantics.
*
* @param annotatedElement the element that is annotated with the supplied annotation;
* may be {@code null} if unknown
* @param annotation the annotation to retrieve the attributes for
* @param classValuesAsString whether to convert Class references into Strings (for
* compatibility with {@link org.springframework.core.type.AnnotationMetadata})
* or to preserve them as Class references
* @param nestedAnnotationsAsMap whether to convert nested annotations into
* {@link AnnotationAttributes} maps (for compatibility with
* {@link org.springframework.core.type.AnnotationMetadata}) or to preserve them as
* {@code Annotation} instances
* @return the annotation attributes (a specialized Map) with attribute names as keys
* and corresponding attribute values as values (never {@code null})
* @since 4.2
* @see #postProcessAnnotationAttributes
*/
static AnnotationAttributes retrieveAnnotationAttributes(Object annotatedElement, Annotation annotation,
boolean classValuesAsString, boolean nestedAnnotationsAsMap) {
Class annotationType = annotation.annotationType();
AnnotationAttributes attributes = new AnnotationAttributes(annotationType);
for (Method method : getAttributeMethods(annotationType)) {
try {
Object attributeValue = method.invoke(annotation);
Object defaultValue = method.getDefaultValue();
if (defaultValue != null && ObjectUtils.nullSafeEquals(attributeValue, defaultValue)) {
attributeValue = new DefaultValueHolder(defaultValue);
}
attributes.put(method.getName(),
adaptValue(annotatedElement, attributeValue, classValuesAsString, nestedAnnotationsAsMap));
}
catch (Throwable ex) {
if (ex instanceof InvocationTargetException) {
Throwable targetException = ((InvocationTargetException) ex).getTargetException();
rethrowAnnotationConfigurationException(targetException);
}
throw new IllegalStateException("Could not obtain annotation attribute value for " + method, ex);
}
}
return attributes;
}
/**
* Adapt the given value according to the given class and nested annotation settings.
* Nested annotations will be
* {@linkplain #synthesizeAnnotation(Annotation, AnnotatedElement) synthesized}.
* @param annotatedElement the element that is annotated, used for contextual
* logging; may be {@code null} if unknown
* @param value the annotation attribute value
* @param classValuesAsString whether to convert Class references into Strings (for
* compatibility with {@link org.springframework.core.type.AnnotationMetadata})
* or to preserve them as Class references
* @param nestedAnnotationsAsMap whether to convert nested annotations into
* {@link AnnotationAttributes} maps (for compatibility with
* {@link org.springframework.core.type.AnnotationMetadata}) or to preserve them as
* {@code Annotation} instances
* @return the adapted value, or the original value if no adaptation is needed
*/
static Object adaptValue(Object annotatedElement, Object value, boolean classValuesAsString,
boolean nestedAnnotationsAsMap) {
if (classValuesAsString) {
if (value instanceof Class) {
return ((Class) value).getName();
}
else if (value instanceof Class[]) {
Class[] clazzArray = (Class[]) value;
String[] classNames = new String[clazzArray.length];
for (int i = 0; i < clazzArray.length; i++) {
classNames[i] = clazzArray[i].getName();
}
return classNames;
}
}
if (value instanceof Annotation) {
Annotation annotation = (Annotation) value;
if (nestedAnnotationsAsMap) {
return getAnnotationAttributes(annotatedElement, annotation, classValuesAsString, true);
}
else {
return synthesizeAnnotation(annotation, annotatedElement);
}
}
if (value instanceof Annotation[]) {
Annotation[] annotations = (Annotation[]) value;
if (nestedAnnotationsAsMap) {
AnnotationAttributes[] mappedAnnotations = new AnnotationAttributes[annotations.length];
for (int i = 0; i < annotations.length; i++) {
mappedAnnotations[i] =
getAnnotationAttributes(annotatedElement, annotations[i], classValuesAsString, true);
}
return mappedAnnotations;
}
else {
return synthesizeAnnotationArray(annotations, annotatedElement);
}
}
// Fallback
return value;
}
/**
* Register the annotation-declared default values for the given attributes,
* if available.
* @param attributes the annotation attributes to process
* @since 4.3.2
*/
public static void registerDefaultValues(AnnotationAttributes attributes) {
// Only do defaults scanning for public annotations; we'd run into
// IllegalAccessExceptions otherwise, and we don't want to mess with
// accessibility in a SecurityManager environment.
Class annotationType = attributes.annotationType();
if (annotationType != null && Modifier.isPublic(annotationType.getModifiers())) {
// Check declared default values of attributes in the annotation type.
for (Method annotationAttribute : getAttributeMethods(annotationType)) {
String attributeName = annotationAttribute.getName();
Object defaultValue = annotationAttribute.getDefaultValue();
if (defaultValue != null && !attributes.containsKey(attributeName)) {
if (defaultValue instanceof Annotation) {
defaultValue = getAnnotationAttributes((Annotation) defaultValue, false, true);
}
else if (defaultValue instanceof Annotation[]) {
Annotation[] realAnnotations = (Annotation[]) defaultValue;
AnnotationAttributes[] mappedAnnotations = new AnnotationAttributes[realAnnotations.length];
for (int i = 0; i < realAnnotations.length; i++) {
mappedAnnotations[i] = getAnnotationAttributes(realAnnotations[i], false, true);
}
defaultValue = mappedAnnotations;
}
attributes.put(attributeName, new DefaultValueHolder(defaultValue));
}
}
}
}
/**
* Post-process the supplied {@link AnnotationAttributes}, preserving nested
* annotations as {@code Annotation} instances.
*
Specifically, this method enforces attribute alias semantics
* for annotation attributes that are annotated with {@link AliasFor @AliasFor}
* and replaces default value placeholders with their original default values.
* @param annotatedElement the element that is annotated with an annotation or
* annotation hierarchy from which the supplied attributes were created;
* may be {@code null} if unknown
* @param attributes the annotation attributes to post-process
* @param classValuesAsString whether to convert Class references into Strings (for
* compatibility with {@link org.springframework.core.type.AnnotationMetadata})
* or to preserve them as Class references
* @since 4.3.2
* @see #postProcessAnnotationAttributes(Object, AnnotationAttributes, boolean, boolean)
* @see #getDefaultValue(Class, String)
*/
public static void postProcessAnnotationAttributes(Object annotatedElement,
AnnotationAttributes attributes, boolean classValuesAsString) {
postProcessAnnotationAttributes(annotatedElement, attributes, classValuesAsString, false);
}
/**
* Post-process the supplied {@link AnnotationAttributes}.
*
Specifically, this method enforces attribute alias semantics
* for annotation attributes that are annotated with {@link AliasFor @AliasFor}
* and replaces default value placeholders with their original default values.
* @param annotatedElement the element that is annotated with an annotation or
* annotation hierarchy from which the supplied attributes were created;
* may be {@code null} if unknown
* @param attributes the annotation attributes to post-process
* @param classValuesAsString whether to convert Class references into Strings (for
* compatibility with {@link org.springframework.core.type.AnnotationMetadata})
* or to preserve them as Class references
* @param nestedAnnotationsAsMap whether to convert nested annotations into
* {@link AnnotationAttributes} maps (for compatibility with
* {@link org.springframework.core.type.AnnotationMetadata}) or to preserve them as
* {@code Annotation} instances
* @since 4.2
* @see #retrieveAnnotationAttributes(Object, Annotation, boolean, boolean)
* @see #getDefaultValue(Class, String)
*/
static void postProcessAnnotationAttributes(Object annotatedElement,
AnnotationAttributes attributes, boolean classValuesAsString, boolean nestedAnnotationsAsMap) {
// Abort?
if (attributes == null) {
return;
}
Class annotationType = attributes.annotationType();
// Track which attribute values have already been replaced so that we can short
// circuit the search algorithms.
Set valuesAlreadyReplaced = new HashSet();
if (!attributes.validated) {
// Validate @AliasFor configuration
Map> aliasMap = getAttributeAliasMap(annotationType);
for (String attributeName : aliasMap.keySet()) {
if (valuesAlreadyReplaced.contains(attributeName)) {
continue;
}
Object value = attributes.get(attributeName);
boolean valuePresent = (value != null && !(value instanceof DefaultValueHolder));
for (String aliasedAttributeName : aliasMap.get(attributeName)) {
if (valuesAlreadyReplaced.contains(aliasedAttributeName)) {
continue;
}
Object aliasedValue = attributes.get(aliasedAttributeName);
boolean aliasPresent = (aliasedValue != null && !(aliasedValue instanceof DefaultValueHolder));
// Something to validate or replace with an alias?
if (valuePresent || aliasPresent) {
if (valuePresent && aliasPresent) {
// Since annotation attributes can be arrays, we must use ObjectUtils.nullSafeEquals().
if (!ObjectUtils.nullSafeEquals(value, aliasedValue)) {
String elementAsString =
(annotatedElement != null ? annotatedElement.toString() : "unknown element");
throw new AnnotationConfigurationException(String.format(
"In AnnotationAttributes for annotation [%s] declared on %s, " +
"attribute '%s' and its alias '%s' are declared with values of [%s] and [%s], " +
"but only one is permitted.", annotationType.getName(), elementAsString,
attributeName, aliasedAttributeName, ObjectUtils.nullSafeToString(value),
ObjectUtils.nullSafeToString(aliasedValue)));
}
}
else if (aliasPresent) {
// Replace value with aliasedValue
attributes.put(attributeName,
adaptValue(annotatedElement, aliasedValue, classValuesAsString, nestedAnnotationsAsMap));
valuesAlreadyReplaced.add(attributeName);
}
else {
// Replace aliasedValue with value
attributes.put(aliasedAttributeName,
adaptValue(annotatedElement, value, classValuesAsString, nestedAnnotationsAsMap));
valuesAlreadyReplaced.add(aliasedAttributeName);
}
}
}
}
attributes.validated = true;
}
// Replace any remaining placeholders with actual default values
for (String attributeName : attributes.keySet()) {
if (valuesAlreadyReplaced.contains(attributeName)) {
continue;
}
Object value = attributes.get(attributeName);
if (value instanceof DefaultValueHolder) {
value = ((DefaultValueHolder) value).defaultValue;
attributes.put(attributeName,
adaptValue(annotatedElement, value, classValuesAsString, nestedAnnotationsAsMap));
}
}
}
/**
* Retrieve the value of the {@code value} attribute of a
* single-element Annotation, given an annotation instance.
* @param annotation the annotation instance from which to retrieve the value
* @return the attribute value, or {@code null} if not found unless the attribute
* value cannot be retrieved due to an {@link AnnotationConfigurationException},
* in which case such an exception will be rethrown
* @see #getValue(Annotation, String)
*/
public static Object getValue(Annotation annotation) {
return getValue(annotation, VALUE);
}
/**
* Retrieve the value of a named attribute, given an annotation instance.
* @param annotation the annotation instance from which to retrieve the value
* @param attributeName the name of the attribute value to retrieve
* @return the attribute value, or {@code null} if not found unless the attribute
* value cannot be retrieved due to an {@link AnnotationConfigurationException},
* in which case such an exception will be rethrown
* @see #getValue(Annotation)
* @see #rethrowAnnotationConfigurationException(Throwable)
*/
public static Object getValue(Annotation annotation, String attributeName) {
if (annotation == null || !StringUtils.hasText(attributeName)) {
return null;
}
try {
Method method = annotation.annotationType().getDeclaredMethod(attributeName);
ReflectionUtils.makeAccessible(method);
return method.invoke(annotation);
}
catch (NoSuchMethodException ex) {
return null;
}
catch (InvocationTargetException ex) {
rethrowAnnotationConfigurationException(ex.getTargetException());
throw new IllegalStateException(
"Could not obtain value for annotation attribute '" + attributeName + "' in " + annotation, ex);
}
catch (Throwable ex) {
handleIntrospectionFailure(annotation.getClass(), ex);
return null;
}
}
/**
* Retrieve the default value of the {@code value} attribute
* of a single-element Annotation, given an annotation instance.
* @param annotation the annotation instance from which to retrieve the default value
* @return the default value, or {@code null} if not found
* @see #getDefaultValue(Annotation, String)
*/
public static Object getDefaultValue(Annotation annotation) {
return getDefaultValue(annotation, VALUE);
}
/**
* Retrieve the default value of a named attribute, given an annotation instance.
* @param annotation the annotation instance from which to retrieve the default value
* @param attributeName the name of the attribute value to retrieve
* @return the default value of the named attribute, or {@code null} if not found
* @see #getDefaultValue(Class, String)
*/
public static Object getDefaultValue(Annotation annotation, String attributeName) {
if (annotation == null) {
return null;
}
return getDefaultValue(annotation.annotationType(), attributeName);
}
/**
* Retrieve the default value of the {@code value} attribute
* of a single-element Annotation, given the {@link Class annotation type}.
* @param annotationType the annotation type for which the default value should be retrieved
* @return the default value, or {@code null} if not found
* @see #getDefaultValue(Class, String)
*/
public static Object getDefaultValue(Class annotationType) {
return getDefaultValue(annotationType, VALUE);
}
/**
* Retrieve the default value of a named attribute, given the
* {@link Class annotation type}.
* @param annotationType the annotation type for which the default value should be retrieved
* @param attributeName the name of the attribute value to retrieve.
* @return the default value of the named attribute, or {@code null} if not found
* @see #getDefaultValue(Annotation, String)
*/
public static Object getDefaultValue(Class annotationType, String attributeName) {
if (annotationType == null || !StringUtils.hasText(attributeName)) {
return null;
}
try {
return annotationType.getDeclaredMethod(attributeName).getDefaultValue();
}
catch (Throwable ex) {
handleIntrospectionFailure(annotationType, ex);
return null;
}
}
/**
* Synthesize an annotation from the supplied {@code annotation}
* by wrapping it in a dynamic proxy that transparently enforces
* attribute alias semantics for annotation attributes that are
* annotated with {@link AliasFor @AliasFor}.
* @param annotation the annotation to synthesize
* @return the synthesized annotation, if the supplied annotation is
* synthesizable; {@code null} if the supplied annotation is
* {@code null}; otherwise, the supplied annotation unmodified
* @throws AnnotationConfigurationException if invalid configuration of
* {@code @AliasFor} is detected
* @since 4.2
* @see #synthesizeAnnotation(Annotation, AnnotatedElement)
*/
static A synthesizeAnnotation(A annotation) {
return synthesizeAnnotation(annotation, null);
}
/**
* Synthesize an annotation from the supplied {@code annotation}
* by wrapping it in a dynamic proxy that transparently enforces
* attribute alias semantics for annotation attributes that are
* annotated with {@link AliasFor @AliasFor}.
* @param annotation the annotation to synthesize
* @param annotatedElement the element that is annotated with the supplied
* annotation; may be {@code null} if unknown
* @return the synthesized annotation if the supplied annotation is
* synthesizable; {@code null} if the supplied annotation is
* {@code null}; otherwise the supplied annotation unmodified
* @throws AnnotationConfigurationException if invalid configuration of
* {@code @AliasFor} is detected
* @since 4.2
* @see #synthesizeAnnotation(Map, Class, AnnotatedElement)
* @see #synthesizeAnnotation(Class)
*/
public static A synthesizeAnnotation(A annotation, AnnotatedElement annotatedElement) {
return synthesizeAnnotation(annotation, (Object) annotatedElement);
}
@SuppressWarnings("unchecked")
static A synthesizeAnnotation(A annotation, Object annotatedElement) {
if (annotation == null) {
return null;
}
if (annotation instanceof SynthesizedAnnotation) {
return annotation;
}
Class annotationType = annotation.annotationType();
if (!isSynthesizable(annotationType)) {
return annotation;
}
DefaultAnnotationAttributeExtractor attributeExtractor =
new DefaultAnnotationAttributeExtractor(annotation, annotatedElement);
InvocationHandler handler = new SynthesizedAnnotationInvocationHandler(attributeExtractor);
// Can always expose Spring's SynthesizedAnnotation marker since we explicitly check for a
// synthesizable annotation before (which needs to declare @AliasFor from the same package)
Class[] exposedInterfaces = new Class[] {annotationType, SynthesizedAnnotation.class};
return (A) Proxy.newProxyInstance(annotation.getClass().getClassLoader(), exposedInterfaces, handler);
}
/**
* Synthesize an annotation from the supplied map of annotation
* attributes by wrapping the map in a dynamic proxy that implements an
* annotation of the specified {@code annotationType} and transparently
* enforces attribute alias semantics for annotation attributes
* that are annotated with {@link AliasFor @AliasFor}.
* The supplied map must contain a key-value pair for every attribute
* defined in the supplied {@code annotationType} that is not aliased or
* does not have a default value. Nested maps and nested arrays of maps
* will be recursively synthesized into nested annotations or nested
* arrays of annotations, respectively.
*
Note that {@link AnnotationAttributes} is a specialized type of
* {@link Map} that is an ideal candidate for this method's
* {@code attributes} argument.
* @param attributes the map of annotation attributes to synthesize
* @param annotationType the type of annotation to synthesize
* @param annotatedElement the element that is annotated with the annotation
* corresponding to the supplied attributes; may be {@code null} if unknown
* @return the synthesized annotation, or {@code null} if the supplied attributes
* map is {@code null}
* @throws IllegalArgumentException if a required attribute is missing or if an
* attribute is not of the correct type
* @throws AnnotationConfigurationException if invalid configuration of
* {@code @AliasFor} is detected
* @since 4.2
* @see #synthesizeAnnotation(Annotation, AnnotatedElement)
* @see #synthesizeAnnotation(Class)
* @see #getAnnotationAttributes(AnnotatedElement, Annotation)
* @see #getAnnotationAttributes(AnnotatedElement, Annotation, boolean, boolean)
*/
@SuppressWarnings("unchecked")
public static A synthesizeAnnotation(Map attributes,
Class annotationType, AnnotatedElement annotatedElement) {
Assert.notNull(annotationType, "'annotationType' must not be null");
if (attributes == null) {
return null;
}
MapAnnotationAttributeExtractor attributeExtractor =
new MapAnnotationAttributeExtractor(attributes, annotationType, annotatedElement);
InvocationHandler handler = new SynthesizedAnnotationInvocationHandler(attributeExtractor);
Class[] exposedInterfaces = (canExposeSynthesizedMarker(annotationType) ?
new Class[] {annotationType, SynthesizedAnnotation.class} : new Class[] {annotationType});
return (A) Proxy.newProxyInstance(annotationType.getClassLoader(), exposedInterfaces, handler);
}
/**
* Synthesize an annotation from its default attributes values.
* This method simply delegates to
* {@link #synthesizeAnnotation(Map, Class, AnnotatedElement)},
* supplying an empty map for the source attribute values and {@code null}
* for the {@link AnnotatedElement}.
* @param annotationType the type of annotation to synthesize
* @return the synthesized annotation
* @throws IllegalArgumentException if a required attribute is missing
* @throws AnnotationConfigurationException if invalid configuration of
* {@code @AliasFor} is detected
* @since 4.2
* @see #synthesizeAnnotation(Map, Class, AnnotatedElement)
* @see #synthesizeAnnotation(Annotation, AnnotatedElement)
*/
public static A synthesizeAnnotation(Class annotationType) {
return synthesizeAnnotation(Collections. emptyMap(), annotationType, null);
}
/**
* Synthesize an array of annotations from the supplied array
* of {@code annotations} by creating a new array of the same size and
* type and populating it with {@linkplain #synthesizeAnnotation(Annotation)
* synthesized} versions of the annotations from the input array.
* @param annotations the array of annotations to synthesize
* @param annotatedElement the element that is annotated with the supplied
* array of annotations; may be {@code null} if unknown
* @return a new array of synthesized annotations, or {@code null} if
* the supplied array is {@code null}
* @throws AnnotationConfigurationException if invalid configuration of
* {@code @AliasFor} is detected
* @since 4.2
* @see #synthesizeAnnotation(Annotation, AnnotatedElement)
* @see #synthesizeAnnotation(Map, Class, AnnotatedElement)
*/
static Annotation[] synthesizeAnnotationArray(Annotation[] annotations, Object annotatedElement) {
if (annotations == null) {
return null;
}
Annotation[] synthesized = (Annotation[]) Array.newInstance(
annotations.getClass().getComponentType(), annotations.length);
for (int i = 0; i < annotations.length; i++) {
synthesized[i] = synthesizeAnnotation(annotations[i], annotatedElement);
}
return synthesized;
}
/**
* Synthesize an array of annotations from the supplied array
* of {@code maps} of annotation attributes by creating a new array of
* {@code annotationType} with the same size and populating it with
* {@linkplain #synthesizeAnnotation(Map, Class, AnnotatedElement)
* synthesized} versions of the maps from the input array.
* @param maps the array of maps of annotation attributes to synthesize
* @param annotationType the type of annotations to synthesize
* (never {@code null})
* @return a new array of synthesized annotations, or {@code null} if
* the supplied array is {@code null}
* @throws AnnotationConfigurationException if invalid configuration of
* {@code @AliasFor} is detected
* @since 4.2.1
* @see #synthesizeAnnotation(Map, Class, AnnotatedElement)
* @see #synthesizeAnnotationArray(Annotation[], Object)
*/
@SuppressWarnings("unchecked")
static A[] synthesizeAnnotationArray(Map[] maps, Class annotationType) {
Assert.notNull(annotationType, "'annotationType' must not be null");
if (maps == null) {
return null;
}
A[] synthesized = (A[]) Array.newInstance(annotationType, maps.length);
for (int i = 0; i < maps.length; i++) {
synthesized[i] = synthesizeAnnotation(maps[i], annotationType, null);
}
return synthesized;
}
/**
* Get a map of all attribute aliases declared via {@code @AliasFor}
* in the supplied annotation type.
* The map is keyed by attribute name with each value representing
* a list of names of aliased attributes.
*
For explicit alias pairs such as x and y (i.e., where x
* is an {@code @AliasFor("y")} and y is an {@code @AliasFor("x")}, there
* will be two entries in the map: {@code x -> (y)} and {@code y -> (x)}.
*
For implicit aliases (i.e., attributes that are declared
* as attribute overrides for the same attribute in the same meta-annotation),
* there will be n entries in the map. For example, if x, y, and z are
* implicit aliases, the map will contain the following entries:
* {@code x -> (y, z)}, {@code y -> (x, z)}, {@code z -> (x, y)}.
*
An empty return value implies that the annotation does not declare
* any attribute aliases.
* @param annotationType the annotation type to find attribute aliases in
* @return a map containing attribute aliases (never {@code null})
* @since 4.2
*/
static Map> getAttributeAliasMap(Class annotationType) {
if (annotationType == null) {
return Collections.emptyMap();
}
Map> map = attributeAliasesCache.get(annotationType);
if (map != null) {
return map;
}
map = new LinkedHashMap>();
for (Method attribute : getAttributeMethods(annotationType)) {
List aliasNames = getAttributeAliasNames(attribute);
if (!aliasNames.isEmpty()) {
map.put(attribute.getName(), aliasNames);
}
}
attributeAliasesCache.put(annotationType, map);
return map;
}
/**
* Check whether we can expose our {@link SynthesizedAnnotation} marker for the given annotation type.
* @param annotationType the annotation type that we are about to create a synthesized proxy for
*/
private static boolean canExposeSynthesizedMarker(Class annotationType) {
try {
return (Class.forName(SynthesizedAnnotation.class.getName(), false, annotationType.getClassLoader()) ==
SynthesizedAnnotation.class);
}
catch (ClassNotFoundException ex) {
return false;
}
}
/**
* Determine if annotations of the supplied {@code annotationType} are
* synthesizable (i.e., in need of being wrapped in a dynamic
* proxy that provides functionality above that of a standard JDK
* annotation).
* Specifically, an annotation is synthesizable if it declares
* any attributes that are configured as aliased pairs via
* {@link AliasFor @AliasFor} or if any nested annotations used by the
* annotation declare such aliased pairs.
* @since 4.2
* @see SynthesizedAnnotation
* @see SynthesizedAnnotationInvocationHandler
*/
@SuppressWarnings("unchecked")
private static boolean isSynthesizable(Class annotationType) {
Boolean synthesizable = synthesizableCache.get(annotationType);
if (synthesizable != null) {
return synthesizable;
}
synthesizable = Boolean.FALSE;
for (Method attribute : getAttributeMethods(annotationType)) {
if (!getAttributeAliasNames(attribute).isEmpty()) {
synthesizable = Boolean.TRUE;
break;
}
Class returnType = attribute.getReturnType();
if (Annotation[].class.isAssignableFrom(returnType)) {
Class nestedAnnotationType =
(Class) returnType.getComponentType();
if (isSynthesizable(nestedAnnotationType)) {
synthesizable = Boolean.TRUE;
break;
}
}
else if (Annotation.class.isAssignableFrom(returnType)) {
Class nestedAnnotationType = (Class) returnType;
if (isSynthesizable(nestedAnnotationType)) {
synthesizable = Boolean.TRUE;
break;
}
}
}
synthesizableCache.put(annotationType, synthesizable);
return synthesizable;
}
/**
* Get the names of the aliased attributes configured via
* {@link AliasFor @AliasFor} for the supplied annotation {@code attribute}.
* @param attribute the attribute to find aliases for
* @return the names of the aliased attributes (never {@code null}, though
* potentially empty)
* @throws IllegalArgumentException if the supplied attribute method is
* {@code null} or not from an annotation
* @throws AnnotationConfigurationException if invalid configuration of
* {@code @AliasFor} is detected
* @since 4.2
* @see #getAttributeOverrideName(Method, Class)
*/
static List getAttributeAliasNames(Method attribute) {
Assert.notNull(attribute, "attribute must not be null");
AliasDescriptor descriptor = AliasDescriptor.from(attribute);
return (descriptor != null ? descriptor.getAttributeAliasNames() : Collections. emptyList());
}
/**
* Get the name of the overridden attribute configured via
* {@link AliasFor @AliasFor} for the supplied annotation {@code attribute}.
* @param attribute the attribute from which to retrieve the override
* (never {@code null})
* @param metaAnnotationType the type of meta-annotation in which the
* overridden attribute is allowed to be declared
* @return the name of the overridden attribute, or {@code null} if not
* found or not applicable for the specified meta-annotation type
* @throws IllegalArgumentException if the supplied attribute method is
* {@code null} or not from an annotation, or if the supplied meta-annotation
* type is {@code null} or {@link Annotation}
* @throws AnnotationConfigurationException if invalid configuration of
* {@code @AliasFor} is detected
* @since 4.2
*/
static String getAttributeOverrideName(Method attribute, Class metaAnnotationType) {
Assert.notNull(attribute, "attribute must not be null");
Assert.notNull(metaAnnotationType, "metaAnnotationType must not be null");
Assert.isTrue(Annotation.class != metaAnnotationType,
"metaAnnotationType must not be [java.lang.annotation.Annotation]");
AliasDescriptor descriptor = AliasDescriptor.from(attribute);
return (descriptor != null ? descriptor.getAttributeOverrideName(metaAnnotationType) : null);
}
/**
* Get all methods declared in the supplied {@code annotationType} that
* match Java's requirements for annotation attributes.
* All methods in the returned list will be
* {@linkplain ReflectionUtils#makeAccessible(Method) made accessible}.
* @param annotationType the type in which to search for attribute methods
* (never {@code null})
* @return all annotation attribute methods in the specified annotation
* type (never {@code null}, though potentially empty)
* @since 4.2
*/
static List getAttributeMethods(Class annotationType) {
List methods = attributeMethodsCache.get(annotationType);
if (methods != null) {
return methods;
}
methods = new ArrayList();
for (Method method : annotationType.getDeclaredMethods()) {
if (isAttributeMethod(method)) {
ReflectionUtils.makeAccessible(method);
methods.add(method);
}
}
attributeMethodsCache.put(annotationType, methods);
return methods;
}
/**
* Get the annotation with the supplied {@code annotationName} on the
* supplied {@code element}.
* @param element the element to search on
* @param annotationName the fully qualified class name of the annotation
* type to find
* @return the annotation if found; {@code null} otherwise
* @since 4.2
*/
static Annotation getAnnotation(AnnotatedElement element, String annotationName) {
for (Annotation annotation : element.getAnnotations()) {
if (annotation.annotationType().getName().equals(annotationName)) {
return annotation;
}
}
return null;
}
/**
* Determine if the supplied {@code method} is an annotation attribute method.
* @param method the method to check
* @return {@code true} if the method is an attribute method
* @since 4.2
*/
static boolean isAttributeMethod(Method method) {
return (method != null && method.getParameterTypes().length == 0 && method.getReturnType() != void.class);
}
/**
* Determine if the supplied method is an "annotationType" method.
* @return {@code true} if the method is an "annotationType" method
* @see Annotation#annotationType()
* @since 4.2
*/
static boolean isAnnotationTypeMethod(Method method) {
return (method != null && method.getName().equals("annotationType") && method.getParameterTypes().length == 0);
}
/**
* Resolve the container type for the supplied repeatable {@code annotationType}.
* Automatically detects a container annotation declared via
* {@link java.lang.annotation.Repeatable}. If the supplied annotation type
* is not annotated with {@code @Repeatable}, this method simply returns
* {@code null}.
* @since 4.2
*/
@SuppressWarnings("unchecked")
static Class resolveContainerAnnotationType(Class annotationType) {
try {
Annotation repeatable = getAnnotation(annotationType, REPEATABLE_CLASS_NAME);
if (repeatable != null) {
Object value = getValue(repeatable);
return (Class) value;
}
}
catch (Exception ex) {
handleIntrospectionFailure(annotationType, ex);
}
return null;
}
/**
* If the supplied throwable is an {@link AnnotationConfigurationException},
* it will be cast to an {@code AnnotationConfigurationException} and thrown,
* allowing it to propagate to the caller.
*
Otherwise, this method does nothing.
* @param ex the throwable to inspect
* @since 4.2
*/
static void rethrowAnnotationConfigurationException(Throwable ex) {
if (ex instanceof AnnotationConfigurationException) {
throw (AnnotationConfigurationException) ex;
}
}
/**
* Handle the supplied annotation introspection exception.
*
If the supplied exception is an {@link AnnotationConfigurationException},
* it will simply be thrown, allowing it to propagate to the caller, and
* nothing will be logged.
*
Otherwise, this method logs an introspection failure (in particular
* {@code TypeNotPresentExceptions}) before moving on, assuming nested
* Class values were not resolvable within annotation attributes and
* thereby effectively pretending there were no annotations on the specified
* element.
* @param element the element that we tried to introspect annotations on
* @param ex the exception that we encountered
* @see #rethrowAnnotationConfigurationException
*/
static void handleIntrospectionFailure(AnnotatedElement element, Throwable ex) {
rethrowAnnotationConfigurationException(ex);
Log loggerToUse = logger;
if (loggerToUse == null) {
loggerToUse = LogFactory.getLog(AnnotationUtils.class);
logger = loggerToUse;
}
if (element instanceof Class && Annotation.class.isAssignableFrom((Class) element)) {
// Meta-annotation or (default) value lookup on an annotation type
if (loggerToUse.isDebugEnabled()) {
loggerToUse.debug("Failed to meta-introspect annotation " + element + ": " + ex);
}
}
else {
// Direct annotation lookup on regular Class, Method, Field
if (loggerToUse.isInfoEnabled()) {
loggerToUse.info("Failed to introspect annotations on " + element + ": " + ex);
}
}
}
/**
* Clear the internal annotation metadata cache.
* @since 4.3.15
*/
public static void clearCache() {
findAnnotationCache.clear();
metaPresentCache.clear();
annotatedInterfaceCache.clear();
synthesizableCache.clear();
attributeAliasesCache.clear();
attributeMethodsCache.clear();
aliasDescriptorCache.clear();
}
/**
* Cache key for the AnnotatedElement cache.
*/
private static final class AnnotationCacheKey implements Comparable {
private final AnnotatedElement element;
private final Class annotationType;
public AnnotationCacheKey(AnnotatedElement element, Class annotationType) {
this.element = element;
this.annotationType = annotationType;
}
@Override
public boolean equals(Object other) {
if (this == other) {
return true;
}
if (!(other instanceof AnnotationCacheKey)) {
return false;
}
AnnotationCacheKey otherKey = (AnnotationCacheKey) other;
return (this.element.equals(otherKey.element) && this.annotationType.equals(otherKey.annotationType));
}
@Override
public int hashCode() {
return (this.element.hashCode() * 29 + this.annotationType.hashCode());
}
@Override
public String toString() {
return "@" + this.annotationType + " on " + this.element;
}
@Override
public int compareTo(AnnotationCacheKey other) {
int result = this.element.toString().compareTo(other.element.toString());
if (result == 0) {
result = this.annotationType.getName().compareTo(other.annotationType.getName());
}
return result;
}
}
private static class AnnotationCollector {
private final Class annotationType;
private final Class containerAnnotationType;
private final boolean declaredMode;
private final Set visited = new HashSet();
private final Set result = new LinkedHashSet();
AnnotationCollector(Class annotationType, Class containerAnnotationType, boolean declaredMode) {
this.annotationType = annotationType;
this.containerAnnotationType = (containerAnnotationType != null ? containerAnnotationType :
resolveContainerAnnotationType(annotationType));
this.declaredMode = declaredMode;
}
Set getResult(AnnotatedElement element) {
process(element);
return Collections.unmodifiableSet(this.result);
}
@SuppressWarnings("unchecked")
private void process(AnnotatedElement element) {
if (this.visited.add(element)) {
try {
Annotation[] annotations = (this.declaredMode ? element.getDeclaredAnnotations() : element.getAnnotations());
for (Annotation ann : annotations) {
Class currentAnnotationType = ann.annotationType();
if (ObjectUtils.nullSafeEquals(this.annotationType, currentAnnotationType)) {
this.result.add(synthesizeAnnotation((A) ann, element));
}
else if (ObjectUtils.nullSafeEquals(this.containerAnnotationType, currentAnnotationType)) {
this.result.addAll(getValue(element, ann));
}
else if (!isInJavaLangAnnotationPackage(currentAnnotationType)) {
process(currentAnnotationType);
}
}
}
catch (Throwable ex) {
handleIntrospectionFailure(element, ex);
}
}
}
@SuppressWarnings("unchecked")
private List getValue(AnnotatedElement element, Annotation annotation) {
try {
List synthesizedAnnotations = new ArrayList();
for (A anno : (A[]) AnnotationUtils.getValue(annotation)) {
synthesizedAnnotations.add(synthesizeAnnotation(anno, element));
}
return synthesizedAnnotations;
}
catch (Throwable ex) {
handleIntrospectionFailure(element, ex);
}
// Unable to read value from repeating annotation container -> ignore it.
return Collections.emptyList();
}
}
/**
* {@code AliasDescriptor} encapsulates the declaration of {@code @AliasFor}
* on a given annotation attribute and includes support for validating
* the configuration of aliases (both explicit and implicit).
* @since 4.2.1
* @see #from
* @see #getAttributeAliasNames
* @see #getAttributeOverrideName
*/
private static class AliasDescriptor {
private final Method sourceAttribute;
private final Class sourceAnnotationType;
private final String sourceAttributeName;
private final Method aliasedAttribute;
private final Class aliasedAnnotationType;
private final String aliasedAttributeName;
private final boolean isAliasPair;
/**
* Create an {@code AliasDescriptor} from the declaration
* of {@code @AliasFor} on the supplied annotation attribute and
* validate the configuration of {@code @AliasFor}.
* @param attribute the annotation attribute that is annotated with
* {@code @AliasFor}
* @return an alias descriptor, or {@code null} if the attribute
* is not annotated with {@code @AliasFor}
* @see #validateAgainst
*/
public static AliasDescriptor from(Method attribute) {
AliasDescriptor descriptor = aliasDescriptorCache.get(attribute);
if (descriptor != null) {
return descriptor;
}
AliasFor aliasFor = attribute.getAnnotation(AliasFor.class);
if (aliasFor == null) {
return null;
}
descriptor = new AliasDescriptor(attribute, aliasFor);
descriptor.validate();
aliasDescriptorCache.put(attribute, descriptor);
return descriptor;
}
@SuppressWarnings("unchecked")
private AliasDescriptor(Method sourceAttribute, AliasFor aliasFor) {
Class declaringClass = sourceAttribute.getDeclaringClass();
Assert.isTrue(declaringClass.isAnnotation(), "sourceAttribute must be from an annotation");
this.sourceAttribute = sourceAttribute;
this.sourceAnnotationType = (Class) declaringClass;
this.sourceAttributeName = sourceAttribute.getName();
this.aliasedAnnotationType = (Annotation.class == aliasFor.annotation() ?
this.sourceAnnotationType : aliasFor.annotation());
this.aliasedAttributeName = getAliasedAttributeName(aliasFor, sourceAttribute);
if (this.aliasedAnnotationType == this.sourceAnnotationType &&
this.aliasedAttributeName.equals(this.sourceAttributeName)) {
String msg = String.format("@AliasFor declaration on attribute '%s' in annotation [%s] points to " +
"itself. Specify 'annotation' to point to a same-named attribute on a meta-annotation.",
sourceAttribute.getName(), declaringClass.getName());
throw new AnnotationConfigurationException(msg);
}
try {
this.aliasedAttribute = this.aliasedAnnotationType.getDeclaredMethod(this.aliasedAttributeName);
}
catch (NoSuchMethodException ex) {
String msg = String.format(
"Attribute '%s' in annotation [%s] is declared as an @AliasFor nonexistent attribute '%s' in annotation [%s].",
this.sourceAttributeName, this.sourceAnnotationType.getName(), this.aliasedAttributeName,
this.aliasedAnnotationType.getName());
throw new AnnotationConfigurationException(msg, ex);
}
this.isAliasPair = (this.sourceAnnotationType == this.aliasedAnnotationType);
}
private void validate() {
// Target annotation is not meta-present?
if (!this.isAliasPair && !isAnnotationMetaPresent(this.sourceAnnotationType, this.aliasedAnnotationType)) {
String msg = String.format("@AliasFor declaration on attribute '%s' in annotation [%s] declares " +
"an alias for attribute '%s' in meta-annotation [%s] which is not meta-present.",
this.sourceAttributeName, this.sourceAnnotationType.getName(), this.aliasedAttributeName,
this.aliasedAnnotationType.getName());
throw new AnnotationConfigurationException(msg);
}
if (this.isAliasPair) {
AliasFor mirrorAliasFor = this.aliasedAttribute.getAnnotation(AliasFor.class);
if (mirrorAliasFor == null) {
String msg = String.format("Attribute '%s' in annotation [%s] must be declared as an @AliasFor [%s].",
this.aliasedAttributeName, this.sourceAnnotationType.getName(), this.sourceAttributeName);
throw new AnnotationConfigurationException(msg);
}
String mirrorAliasedAttributeName = getAliasedAttributeName(mirrorAliasFor, this.aliasedAttribute);
if (!this.sourceAttributeName.equals(mirrorAliasedAttributeName)) {
String msg = String.format("Attribute '%s' in annotation [%s] must be declared as an @AliasFor [%s], not [%s].",
this.aliasedAttributeName, this.sourceAnnotationType.getName(), this.sourceAttributeName,
mirrorAliasedAttributeName);
throw new AnnotationConfigurationException(msg);
}
}
Class returnType = this.sourceAttribute.getReturnType();
Class aliasedReturnType = this.aliasedAttribute.getReturnType();
if (returnType != aliasedReturnType &&
(!aliasedReturnType.isArray() || returnType != aliasedReturnType.getComponentType())) {
String msg = String.format("Misconfigured aliases: attribute '%s' in annotation [%s] " +
"and attribute '%s' in annotation [%s] must declare the same return type.",
this.sourceAttributeName, this.sourceAnnotationType.getName(), this.aliasedAttributeName,
this.aliasedAnnotationType.getName());
throw new AnnotationConfigurationException(msg);
}
if (this.isAliasPair) {
validateDefaultValueConfiguration(this.aliasedAttribute);
}
}
private void validateDefaultValueConfiguration(Method aliasedAttribute) {
Assert.notNull(aliasedAttribute, "aliasedAttribute must not be null");
Object defaultValue = this.sourceAttribute.getDefaultValue();
Object aliasedDefaultValue = aliasedAttribute.getDefaultValue();
if (defaultValue == null || aliasedDefaultValue == null) {
String msg = String.format("Misconfigured aliases: attribute '%s' in annotation [%s] " +
"and attribute '%s' in annotation [%s] must declare default values.",
this.sourceAttributeName, this.sourceAnnotationType.getName(), aliasedAttribute.getName(),
aliasedAttribute.getDeclaringClass().getName());
throw new AnnotationConfigurationException(msg);
}
if (!ObjectUtils.nullSafeEquals(defaultValue, aliasedDefaultValue)) {
String msg = String.format("Misconfigured aliases: attribute '%s' in annotation [%s] " +
"and attribute '%s' in annotation [%s] must declare the same default value.",
this.sourceAttributeName, this.sourceAnnotationType.getName(), aliasedAttribute.getName(),
aliasedAttribute.getDeclaringClass().getName());
throw new AnnotationConfigurationException(msg);
}
}
/**
* Validate this descriptor against the supplied descriptor.
* This method only validates the configuration of default values
* for the two descriptors, since other aspects of the descriptors
* are validated when they are created.
*/
private void validateAgainst(AliasDescriptor otherDescriptor) {
validateDefaultValueConfiguration(otherDescriptor.sourceAttribute);
}
/**
* Determine if this descriptor represents an explicit override for
* an attribute in the supplied {@code metaAnnotationType}.
* @see #isAliasFor
*/
private boolean isOverrideFor(Class metaAnnotationType) {
return (this.aliasedAnnotationType == metaAnnotationType);
}
/**
* Determine if this descriptor and the supplied descriptor both
* effectively represent aliases for the same attribute in the same
* target annotation, either explicitly or implicitly.
*
This method searches the attribute override hierarchy, beginning
* with this descriptor, in order to detect implicit and transitively
* implicit aliases.
* @return {@code true} if this descriptor and the supplied descriptor
* effectively alias the same annotation attribute
* @see #isOverrideFor
*/
private boolean isAliasFor(AliasDescriptor otherDescriptor) {
for (AliasDescriptor lhs = this; lhs != null; lhs = lhs.getAttributeOverrideDescriptor()) {
for (AliasDescriptor rhs = otherDescriptor; rhs != null; rhs = rhs.getAttributeOverrideDescriptor()) {
if (lhs.aliasedAttribute.equals(rhs.aliasedAttribute)) {
return true;
}
}
}
return false;
}
public List getAttributeAliasNames() {
// Explicit alias pair?
if (this.isAliasPair) {
return Collections.singletonList(this.aliasedAttributeName);
}
// Else: search for implicit aliases
List aliases = new ArrayList();
for (AliasDescriptor otherDescriptor : getOtherDescriptors()) {
if (this.isAliasFor(otherDescriptor)) {
this.validateAgainst(otherDescriptor);
aliases.add(otherDescriptor.sourceAttributeName);
}
}
return aliases;
}
private List getOtherDescriptors() {
List otherDescriptors = new ArrayList();
for (Method currentAttribute : getAttributeMethods(this.sourceAnnotationType)) {
if (!this.sourceAttribute.equals(currentAttribute)) {
AliasDescriptor otherDescriptor = AliasDescriptor.from(currentAttribute);
if (otherDescriptor != null) {
otherDescriptors.add(otherDescriptor);
}
}
}
return otherDescriptors;
}
public String getAttributeOverrideName(Class metaAnnotationType) {
Assert.notNull(metaAnnotationType, "metaAnnotationType must not be null");
Assert.isTrue(Annotation.class != metaAnnotationType,
"metaAnnotationType must not be [java.lang.annotation.Annotation]");
// Search the attribute override hierarchy, starting with the current attribute
for (AliasDescriptor desc = this; desc != null; desc = desc.getAttributeOverrideDescriptor()) {
if (desc.isOverrideFor(metaAnnotationType)) {
return desc.aliasedAttributeName;
}
}
// Else: explicit attribute override for a different meta-annotation
return null;
}
private AliasDescriptor getAttributeOverrideDescriptor() {
if (this.isAliasPair) {
return null;
}
return AliasDescriptor.from(this.aliasedAttribute);
}
/**
* Get the name of the aliased attribute configured via the supplied
* {@link AliasFor @AliasFor} annotation on the supplied {@code attribute},
* or the original attribute if no aliased one specified (indicating that
* the reference goes to a same-named attribute on a meta-annotation).
* This method returns the value of either the {@code attribute}
* or {@code value} attribute of {@code @AliasFor}, ensuring that only
* one of the attributes has been declared while simultaneously ensuring
* that at least one of the attributes has been declared.
* @param aliasFor the {@code @AliasFor} annotation from which to retrieve
* the aliased attribute name
* @param attribute the attribute that is annotated with {@code @AliasFor}
* @return the name of the aliased attribute (never {@code null} or empty)
* @throws AnnotationConfigurationException if invalid configuration of
* {@code @AliasFor} is detected
*/
private String getAliasedAttributeName(AliasFor aliasFor, Method attribute) {
String attributeName = aliasFor.attribute();
String value = aliasFor.value();
boolean attributeDeclared = StringUtils.hasText(attributeName);
boolean valueDeclared = StringUtils.hasText(value);
// Ensure user did not declare both 'value' and 'attribute' in @AliasFor
if (attributeDeclared && valueDeclared) {
String msg = String.format("In @AliasFor declared on attribute '%s' in annotation [%s], attribute 'attribute' " +
"and its alias 'value' are present with values of [%s] and [%s], but only one is permitted.",
attribute.getName(), attribute.getDeclaringClass().getName(), attributeName, value);
throw new AnnotationConfigurationException(msg);
}
// Either explicit attribute name or pointing to same-named attribute by default
attributeName = (attributeDeclared ? attributeName : value);
return (StringUtils.hasText(attributeName) ? attributeName.trim() : attribute.getName());
}
@Override
public String toString() {
return String.format("%s: @%s(%s) is an alias for @%s(%s)", getClass().getSimpleName(),
this.sourceAnnotationType.getSimpleName(), this.sourceAttributeName,
this.aliasedAnnotationType.getSimpleName(), this.aliasedAttributeName);
}
}
private static class DefaultValueHolder {
final Object defaultValue;
public DefaultValueHolder(Object defaultValue) {
this.defaultValue = defaultValue;
}
}
}