/* * Copyright 2002-2015 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 * * http://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.Method; import java.util.Arrays; import java.util.Collections; import java.util.HashSet; 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 bridge methods * (which the compiler generates for generic declarations) as well as super methods * (for optional "annotation inheritance"). Note that none of this is * provided by the JDK's introspection facilities themselves. * *

As a general rule for runtime-retained annotations (e.g. for transaction * control, authorization, or service exposure), always use the lookup methods * on this class (e.g., {@link #findAnnotation(Method, Class)}, * {@link #getAnnotation(Method, Class)}, and {@link #getAnnotations(Method)}) * 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)}). * * @author Rob Harrop * @author Juergen Hoeller * @author Sam Brannen * @author Mark Fisher * @author Chris Beams * @author Phillip Webb * @since 2.0 * @see java.lang.reflect.Method#getAnnotations() * @see java.lang.reflect.Method#getAnnotation(Class) */ public abstract class AnnotationUtils { /** The attribute name for annotations with a single element */ public static final String VALUE = "value"; private static final Map findAnnotationCache = new ConcurrentReferenceHashMap(256); private static final Map, Boolean> annotatedInterfaceCache = new ConcurrentReferenceHashMap, Boolean>(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 meta-annotation thereof. * @param ann the Annotation to check * @param annotationType the annotation type to look for, both locally and as a meta-annotation * @return the matching annotation, or {@code null} if none found * @since 4.0 */ @SuppressWarnings("unchecked") public static T getAnnotation(Annotation ann, Class annotationType) { if (annotationType.isInstance(ann)) { return (T) ann; } try { return ann.annotationType().getAnnotation(annotationType); } catch (Exception ex) { // Assuming nested Class values not resolvable within annotation attributes... logIntrospectionFailure(ann.annotationType(), ex); return null; } } /** * Get a single {@link Annotation} of {@code annotationType} from the supplied * Method, Constructor or Field. Meta-annotations will be searched if the annotation * is not declared locally on the supplied element. * @param annotatedElement the Method, Constructor or Field from which to get the annotation * @param annotationType the annotation type to look for, both locally and as a meta-annotation * @return the matching annotation, or {@code null} if none found * @since 3.1 */ public static T getAnnotation(AnnotatedElement annotatedElement, Class annotationType) { try { T ann = annotatedElement.getAnnotation(annotationType); if (ann == null) { for (Annotation metaAnn : annotatedElement.getAnnotations()) { ann = metaAnn.annotationType().getAnnotation(annotationType); if (ann != null) { break; } } } return ann; } catch (Exception ex) { // Assuming nested Class values not resolvable within annotation attributes... logIntrospectionFailure(annotatedElement, ex); return null; } } /** * Get all {@link Annotation Annotations} from the supplied Method, Constructor or Field. * @param annotatedElement the Method, Constructor or Field to retrieve annotations from * @return the annotations found, or {@code null} if not resolvable (e.g. because nested * Class values in annotation attributes failed to resolve at runtime) * @since 4.0.8 */ public static Annotation[] getAnnotations(AnnotatedElement annotatedElement) { try { return annotatedElement.getAnnotations(); } catch (Exception ex) { // Assuming nested Class values not resolvable within annotation attributes... logIntrospectionFailure(annotatedElement, ex); return null; } } /** * Get all {@link Annotation Annotations} from the supplied {@link Method}. *

Correctly handles bridge {@link Method Methods} generated by the compiler. * @param method the Method to retrieve annotations from * @return the annotations found * @see org.springframework.core.BridgeMethodResolver#findBridgedMethod(Method) */ public static Annotation[] getAnnotations(Method method) { try { return BridgeMethodResolver.findBridgedMethod(method).getAnnotations(); } catch (Exception ex) { // Assuming nested Class values not resolvable within annotation attributes... logIntrospectionFailure(method, ex); return null; } } /** * Get a single {@link Annotation} of {@code annotationType} from the supplied {@link Method}. *

Correctly handles bridge {@link Method Methods} generated by the compiler. * @param method the method to look for annotations on * @param annotationType the annotation type to look for * @return the annotations found * @see org.springframework.core.BridgeMethodResolver#findBridgedMethod(Method) */ public static A getAnnotation(Method method, Class annotationType) { Method resolvedMethod = BridgeMethodResolver.findBridgedMethod(method); return getAnnotation((AnnotatedElement) resolvedMethod, annotationType); } /** * Get the possibly repeating {@link Annotation}s of {@code annotationType} from the * supplied {@link Method}. Deals with both a single direct annotation and repeating * annotations nested within a containing annotation. *

Correctly handles bridge {@link Method Methods} generated by the compiler. * @param method the method to look for annotations on * @param containerAnnotationType the class of the container that holds the annotations * @param annotationType the annotation type to look for * @return the annotations found * @since 4.0 * @see org.springframework.core.BridgeMethodResolver#findBridgedMethod(Method) */ public static Set getRepeatableAnnotation(Method method, Class containerAnnotationType, Class annotationType) { Method resolvedMethod = BridgeMethodResolver.findBridgedMethod(method); return getRepeatableAnnotation((AnnotatedElement) resolvedMethod, containerAnnotationType, annotationType); } /** * Get the possibly repeating {@link Annotation}s of {@code annotationType} from the * supplied {@link AnnotatedElement}. Deals with both a single direct annotation and * repeating annotations nested within a containing annotation. *

Correctly handles bridge {@link Method Methods} generated by the compiler. * @param annotatedElement the element to look for annotations on * @param containerAnnotationType the class of the container that holds the annotations * @param annotationType the annotation type to look for * @return the annotations found * @since 4.0 * @see org.springframework.core.BridgeMethodResolver#findBridgedMethod(Method) */ public static Set getRepeatableAnnotation(AnnotatedElement annotatedElement, Class containerAnnotationType, Class annotationType) { try { if (annotatedElement.getAnnotations().length > 0) { return new AnnotationCollector(containerAnnotationType, annotationType).getResult(annotatedElement); } } catch (Exception ex) { // Assuming nested Class values not resolvable within annotation attributes... logIntrospectionFailure(annotatedElement, ex); } return Collections.emptySet(); } /** * Find a single {@link Annotation} of {@code annotationType} from the supplied * {@link Method}, traversing its super methods (i.e., from superclasses and * interfaces) if no annotation can be found on the given method itself. *

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 annotation found, or {@code null} if none */ @SuppressWarnings("unchecked") public static A findAnnotation(Method method, Class annotationType) { AnnotationCacheKey cacheKey = new AnnotationCacheKey(method, annotationType); A result = (A) findAnnotationCache.get(cacheKey); if (result == null) { result = getAnnotation(method, annotationType); Class clazz = method.getDeclaringClass(); if (result == null) { result = searchOnInterfaces(method, annotationType, clazz.getInterfaces()); } while (result == null) { clazz = clazz.getSuperclass(); if (clazz == null || clazz.equals(Object.class)) { break; } try { Method equivalentMethod = clazz.getDeclaredMethod(method.getName(), method.getParameterTypes()); result = getAnnotation(equivalentMethod, annotationType); } catch (NoSuchMethodException ex) { // No equivalent method found } if (result == null) { result = searchOnInterfaces(method, annotationType, clazz.getInterfaces()); } } if (result != null) { findAnnotationCache.put(cacheKey, result); } } return result; } private static A searchOnInterfaces(Method method, Class annotationType, Class... ifcs) { A annotation = null; for (Class iface : ifcs) { if (isInterfaceWithAnnotatedMethods(iface)) { try { Method equivalentMethod = iface.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; } private static boolean isInterfaceWithAnnotatedMethods(Class iface) { Boolean flag = annotatedInterfaceCache.get(iface); if (flag != null) { return flag; } boolean found = false; for (Method ifcMethod : iface.getMethods()) { try { if (ifcMethod.getAnnotations().length > 0) { found = true; break; } } catch (Exception ex) { // Assuming nested Class values not resolvable within annotation attributes... logIntrospectionFailure(ifcMethod, ex); } } annotatedInterfaceCache.put(iface, 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 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: *

    *
  1. Search for the annotation on the given class and return it if found. *
  2. Recursively search through all annotations that the given class declares. *
  3. Recursively search through all interfaces that the given class declares. *
  4. 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 annotation if found, or {@code null} if not found */ @SuppressWarnings("unchecked") public static A findAnnotation(Class clazz, Class annotationType) { AnnotationCacheKey cacheKey = new AnnotationCacheKey(clazz, annotationType); A result = (A) findAnnotationCache.get(cacheKey); if (result == null) { result = findAnnotation(clazz, annotationType, new HashSet()); if (result != null) { 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 annotation if found, or {@code null} if not found */ @SuppressWarnings("unchecked") private static A findAnnotation(Class clazz, Class annotationType, Set visited) { Assert.notNull(clazz, "Class must not be null"); try { Annotation[] anns = clazz.getDeclaredAnnotations(); for (Annotation ann : anns) { if (ann.annotationType().equals(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 (Exception ex) { // Assuming nested Class values not resolvable within annotation attributes... logIntrospectionFailure(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 || superclass.equals(Object.class)) { 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) which declares an annotation for the * specified {@code annotationType}, or {@code null} if not found. If the supplied * {@code clazz} is {@code null}, {@code null} will be returned. *

If the supplied {@code clazz} is an interface, only the interface itself will be checked; * the inheritance hierarchy for interfaces will not be traversed. *

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, both locally and as a meta-annotation * @param clazz the class on which to check for the annotation (may be {@code null}) * @return the first {@link Class} in the inheritance hierarchy of the specified {@code clazz} * which declares an annotation for 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 || clazz.equals(Object.class)) { 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) which declares * at least one of the specified {@code annotationTypes}, or {@code null} if * none of the specified annotation types could be found. *

If the supplied {@code clazz} is {@code null}, {@code null} will be * returned. *

If the supplied {@code clazz} is an interface, only the interface itself * will be checked; the inheritance hierarchy for interfaces will not be traversed. *

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 list of Class objects corresponding to the * annotation types * @param clazz the Class object corresponding to the class on which to check * for the annotations, or {@code null} * @return the first {@link Class} in the inheritance hierarchy of the specified * {@code clazz} which 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, "The list of annotation types must not be empty"); if (clazz == null || clazz.equals(Object.class)) { return null; } for (Class annotationType : annotationTypes) { if (isAnnotationDeclaredLocally(annotationType, clazz)) { return clazz; } } return findAnnotationDeclaringClassForTypes(annotationTypes, clazz.getSuperclass()); } /** * Determine whether an annotation for the specified {@code annotationType} is * declared locally on the supplied {@code clazz}. The supplied {@link Class} * may represent any type. *

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 Class object corresponding to the annotation type * @param clazz the Class object corresponding to the class on which to check for the annotation * @return {@code true} if an annotation for the specified {@code annotationType} * is declared locally on the supplied {@code clazz} * @see Class#getDeclaredAnnotations() * @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"); boolean declaredLocally = false; try { for (Annotation ann : clazz.getDeclaredAnnotations()) { if (ann.annotationType().equals(annotationType)) { declaredLocally = true; break; } } } catch (Exception ex) { // Assuming nested Class values not resolvable within annotation attributes... logIntrospectionFailure(clazz, ex); } return declaredLocally; } /** * Determine whether an annotation for the specified {@code annotationType} is present * on the supplied {@code clazz} and is {@linkplain java.lang.annotation.Inherited inherited} * (i.e., not declared locally for the class). *

If the supplied {@code clazz} is an interface, only the interface itself will be checked. * In accordance with standard meta-annotation semantics, 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 Class object corresponding to the annotation type * @param clazz the Class object corresponding to the class on which to check for the annotation * @return {@code true} if an annotation for the specified {@code annotationType} is present * on the supplied {@code clazz} and is 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 the supplied {@link Annotation} is defined in the core JDK * {@code java.lang.annotation} package. * @param annotation the annotation to check (never {@code null}) * @return {@code true} if the annotation is in the {@code java.lang.annotation} package */ public static boolean isInJavaLangAnnotationPackage(Annotation annotation) { Assert.notNull(annotation, "Annotation must not be null"); return annotation.annotationType().getName().startsWith("java.lang.annotation"); } /** * Retrieve the given annotation's attributes as a {@link Map}, preserving all * attribute types as-is. *

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 */ public static Map getAnnotationAttributes(Annotation annotation) { return getAnnotationAttributes(annotation, false, false); } /** * 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 turn 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 */ public static Map getAnnotationAttributes(Annotation annotation, boolean classValuesAsString) { return getAnnotationAttributes(annotation, classValuesAsString, false); } /** * Retrieve the given annotation's attributes as an {@link AnnotationAttributes} * map structure. *

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 turn Class references into Strings (for * compatibility with {@link org.springframework.core.type.AnnotationMetadata} * or to preserve them as Class references * @param nestedAnnotationsAsMap whether to turn nested Annotation instances into * {@link AnnotationAttributes} maps (for compatibility with * {@link org.springframework.core.type.AnnotationMetadata} or to preserve them as * Annotation instances * @return the annotation attributes (a specialized Map) with attribute names as keys * and corresponding attribute values as values * @since 3.1.1 */ public static AnnotationAttributes getAnnotationAttributes(Annotation annotation, boolean classValuesAsString, boolean nestedAnnotationsAsMap) { AnnotationAttributes attrs = new AnnotationAttributes(); Method[] methods = annotation.annotationType().getDeclaredMethods(); for (Method method : methods) { if (method.getParameterTypes().length == 0 && method.getReturnType() != void.class) { try { ReflectionUtils.makeAccessible(method); Object value = method.invoke(annotation); attrs.put(method.getName(), adaptValue(value, classValuesAsString, nestedAnnotationsAsMap)); } catch (Exception ex) { throw new IllegalStateException("Could not obtain annotation attribute values", ex); } } } return attrs; } /** * Adapt the given value according to the given class and nested annotation settings. * @param value the annotation attribute value * @param classValuesAsString whether to turn Class references into Strings (for * compatibility with {@link org.springframework.core.type.AnnotationMetadata} * or to preserve them as Class references * @param nestedAnnotationsAsMap whether to turn nested Annotation instances into * {@link AnnotationAttributes} maps (for compatibility with * {@link org.springframework.core.type.AnnotationMetadata} or to preserve them as * Annotation instances * @return the adapted value, or the original value if no adaptation is needed */ static Object adaptValue(Object value, boolean classValuesAsString, boolean nestedAnnotationsAsMap) { if (classValuesAsString) { if (value instanceof Class) { value = ((Class) value).getName(); } else if (value instanceof Class[]) { Class[] clazzArray = (Class[]) value; String[] newValue = new String[clazzArray.length]; for (int i = 0; i < clazzArray.length; i++) { newValue[i] = clazzArray[i].getName(); } value = newValue; } } if (nestedAnnotationsAsMap && value instanceof Annotation) { return getAnnotationAttributes((Annotation) value, classValuesAsString, true); } else if (nestedAnnotationsAsMap && value instanceof Annotation[]) { Annotation[] realAnnotations = (Annotation[]) value; AnnotationAttributes[] mappedAnnotations = new AnnotationAttributes[realAnnotations.length]; for (int i = 0; i < realAnnotations.length; i++) { mappedAnnotations[i] = getAnnotationAttributes(realAnnotations[i], classValuesAsString, true); } return mappedAnnotations; } else { return value; } } /** * 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 * @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 * @see #getValue(Annotation) */ public static Object getValue(Annotation annotation, String attributeName) { if (annotation == null || !StringUtils.hasLength(attributeName)) { return null; } try { Method method = annotation.annotationType().getDeclaredMethod(attributeName); ReflectionUtils.makeAccessible(method); return method.invoke(annotation); } catch (Exception 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.hasLength(attributeName)) { return null; } try { return annotationType.getDeclaredMethod(attributeName).getDefaultValue(); } catch (Exception ex) { return null; } } private static void logIntrospectionFailure(AnnotatedElement annotatedElement, Exception ex) { Log loggerToUse = logger; if (loggerToUse == null) { loggerToUse = LogFactory.getLog(AnnotationUtils.class); logger = loggerToUse; } if (loggerToUse.isInfoEnabled()) { loggerToUse.info("Failed to introspect annotations on [" + annotatedElement + "]: " + ex); } } /** * Cache key for the AnnotatedElement cache. */ private static class AnnotationCacheKey { 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) && ObjectUtils.nullSafeEquals(this.annotationType, otherKey.annotationType)); } @Override public int hashCode() { return (this.element.hashCode() * 29 + this.annotationType.hashCode()); } } private static class AnnotationCollector { private final Class containerAnnotationType; private final Class annotationType; private final Set visited = new HashSet(); private final Set result = new LinkedHashSet(); public AnnotationCollector(Class containerAnnotationType, Class annotationType) { this.containerAnnotationType = containerAnnotationType; this.annotationType = annotationType; } public Set getResult(AnnotatedElement element) { process(element); return Collections.unmodifiableSet(this.result); } @SuppressWarnings("unchecked") private void process(AnnotatedElement annotatedElement) { if (this.visited.add(annotatedElement)) { for (Annotation ann : annotatedElement.getAnnotations()) { if (ObjectUtils.nullSafeEquals(this.annotationType, ann.annotationType())) { this.result.add((A) ann); } else if (ObjectUtils.nullSafeEquals(this.containerAnnotationType, ann.annotationType())) { this.result.addAll(getValue(ann)); } else if (!isInJavaLangAnnotationPackage(ann)) { process(ann.annotationType()); } } } } @SuppressWarnings("unchecked") private List getValue(Annotation annotation) { try { Method method = annotation.annotationType().getDeclaredMethod("value"); ReflectionUtils.makeAccessible(method); return Arrays.asList((A[]) method.invoke(annotation)); } catch (Exception ex) { // Unable to read value from repeating annotation container -> ignore it. return Collections.emptyList(); } } } }