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/*
 * 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.beans.factory;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;

import org.springframework.beans.BeansException;
import org.springframework.core.ResolvableType;
import org.springframework.util.Assert;
import org.springframework.util.StringUtils;

/**
 * Convenience methods operating on bean factories, in particular
 * on the {@link ListableBeanFactory} interface.
 *
 * 

Returns bean counts, bean names or bean instances, * taking into account the nesting hierarchy of a bean factory * (which the methods defined on the ListableBeanFactory interface don't, * in contrast to the methods defined on the BeanFactory interface). * * @author Rod Johnson * @author Juergen Hoeller * @author Chris Beams * @since 04.07.2003 */ public abstract class BeanFactoryUtils { /** * Separator for generated bean names. If a class name or parent name is not * unique, "#1", "#2" etc will be appended, until the name becomes unique. */ public static final String GENERATED_BEAN_NAME_SEPARATOR = "#"; /** * Return whether the given name is a factory dereference * (beginning with the factory dereference prefix). * @param name the name of the bean * @return whether the given name is a factory dereference * @see BeanFactory#FACTORY_BEAN_PREFIX */ public static boolean isFactoryDereference(String name) { return (name != null && name.startsWith(BeanFactory.FACTORY_BEAN_PREFIX)); } /** * Return the actual bean name, stripping out the factory dereference * prefix (if any, also stripping repeated factory prefixes if found). * @param name the name of the bean * @return the transformed name * @see BeanFactory#FACTORY_BEAN_PREFIX */ public static String transformedBeanName(String name) { Assert.notNull(name, "'name' must not be null"); String beanName = name; while (beanName.startsWith(BeanFactory.FACTORY_BEAN_PREFIX)) { beanName = beanName.substring(BeanFactory.FACTORY_BEAN_PREFIX.length()); } return beanName; } /** * Return whether the given name is a bean name which has been generated * by the default naming strategy (containing a "#..." part). * @param name the name of the bean * @return whether the given name is a generated bean name * @see #GENERATED_BEAN_NAME_SEPARATOR * @see org.springframework.beans.factory.support.BeanDefinitionReaderUtils#generateBeanName * @see org.springframework.beans.factory.support.DefaultBeanNameGenerator */ public static boolean isGeneratedBeanName(String name) { return (name != null && name.contains(GENERATED_BEAN_NAME_SEPARATOR)); } /** * Extract the "raw" bean name from the given (potentially generated) bean name, * excluding any "#..." suffixes which might have been added for uniqueness. * @param name the potentially generated bean name * @return the raw bean name * @see #GENERATED_BEAN_NAME_SEPARATOR */ public static String originalBeanName(String name) { Assert.notNull(name, "'name' must not be null"); int separatorIndex = name.indexOf(GENERATED_BEAN_NAME_SEPARATOR); return (separatorIndex != -1 ? name.substring(0, separatorIndex) : name); } /** * Count all beans in any hierarchy in which this factory participates. * Includes counts of ancestor bean factories. *

Beans that are "overridden" (specified in a descendant factory * with the same name) are only counted once. * @param lbf the bean factory * @return count of beans including those defined in ancestor factories */ public static int countBeansIncludingAncestors(ListableBeanFactory lbf) { return beanNamesIncludingAncestors(lbf).length; } /** * Return all bean names in the factory, including ancestor factories. * @param lbf the bean factory * @return the array of matching bean names, or an empty array if none * @see #beanNamesForTypeIncludingAncestors */ public static String[] beanNamesIncludingAncestors(ListableBeanFactory lbf) { return beanNamesForTypeIncludingAncestors(lbf, Object.class); } /** * Get all bean names for the given type, including those defined in ancestor * factories. Will return unique names in case of overridden bean definitions. *

Does consider objects created by FactoryBeans, which means that FactoryBeans * will get initialized. If the object created by the FactoryBean doesn't match, * the raw FactoryBean itself will be matched against the type. *

This version of {@code beanNamesForTypeIncludingAncestors} automatically * includes prototypes and FactoryBeans. * @param lbf the bean factory * @param type the type that beans must match (as a {@code ResolvableType}) * @return the array of matching bean names, or an empty array if none * @since 4.2 */ public static String[] beanNamesForTypeIncludingAncestors(ListableBeanFactory lbf, ResolvableType type) { Assert.notNull(lbf, "ListableBeanFactory must not be null"); String[] result = lbf.getBeanNamesForType(type); if (lbf instanceof HierarchicalBeanFactory) { HierarchicalBeanFactory hbf = (HierarchicalBeanFactory) lbf; if (hbf.getParentBeanFactory() instanceof ListableBeanFactory) { String[] parentResult = beanNamesForTypeIncludingAncestors( (ListableBeanFactory) hbf.getParentBeanFactory(), type); List resultList = new ArrayList(); resultList.addAll(Arrays.asList(result)); for (String beanName : parentResult) { if (!resultList.contains(beanName) && !hbf.containsLocalBean(beanName)) { resultList.add(beanName); } } result = StringUtils.toStringArray(resultList); } } return result; } /** * Get all bean names for the given type, including those defined in ancestor * factories. Will return unique names in case of overridden bean definitions. *

Does consider objects created by FactoryBeans, which means that FactoryBeans * will get initialized. If the object created by the FactoryBean doesn't match, * the raw FactoryBean itself will be matched against the type. *

This version of {@code beanNamesForTypeIncludingAncestors} automatically * includes prototypes and FactoryBeans. * @param lbf the bean factory * @param type the type that beans must match (as a {@code Class}) * @return the array of matching bean names, or an empty array if none */ public static String[] beanNamesForTypeIncludingAncestors(ListableBeanFactory lbf, Class type) { Assert.notNull(lbf, "ListableBeanFactory must not be null"); String[] result = lbf.getBeanNamesForType(type); if (lbf instanceof HierarchicalBeanFactory) { HierarchicalBeanFactory hbf = (HierarchicalBeanFactory) lbf; if (hbf.getParentBeanFactory() instanceof ListableBeanFactory) { String[] parentResult = beanNamesForTypeIncludingAncestors( (ListableBeanFactory) hbf.getParentBeanFactory(), type); List resultList = new ArrayList(); resultList.addAll(Arrays.asList(result)); for (String beanName : parentResult) { if (!resultList.contains(beanName) && !hbf.containsLocalBean(beanName)) { resultList.add(beanName); } } result = StringUtils.toStringArray(resultList); } } return result; } /** * Get all bean names for the given type, including those defined in ancestor * factories. Will return unique names in case of overridden bean definitions. *

Does consider objects created by FactoryBeans if the "allowEagerInit" * flag is set, which means that FactoryBeans will get initialized. If the * object created by the FactoryBean doesn't match, the raw FactoryBean itself * will be matched against the type. If "allowEagerInit" is not set, * only raw FactoryBeans will be checked (which doesn't require initialization * of each FactoryBean). * @param lbf the bean factory * @param includeNonSingletons whether to include prototype or scoped beans too * or just singletons (also applies to FactoryBeans) * @param allowEagerInit whether to initialize lazy-init singletons and * objects created by FactoryBeans (or by factory methods with a * "factory-bean" reference) for the type check. Note that FactoryBeans need to be * eagerly initialized to determine their type: So be aware that passing in "true" * for this flag will initialize FactoryBeans and "factory-bean" references. * @param type the type that beans must match * @return the array of matching bean names, or an empty array if none */ public static String[] beanNamesForTypeIncludingAncestors( ListableBeanFactory lbf, Class type, boolean includeNonSingletons, boolean allowEagerInit) { Assert.notNull(lbf, "ListableBeanFactory must not be null"); String[] result = lbf.getBeanNamesForType(type, includeNonSingletons, allowEagerInit); if (lbf instanceof HierarchicalBeanFactory) { HierarchicalBeanFactory hbf = (HierarchicalBeanFactory) lbf; if (hbf.getParentBeanFactory() instanceof ListableBeanFactory) { String[] parentResult = beanNamesForTypeIncludingAncestors( (ListableBeanFactory) hbf.getParentBeanFactory(), type, includeNonSingletons, allowEagerInit); List resultList = new ArrayList(); resultList.addAll(Arrays.asList(result)); for (String beanName : parentResult) { if (!resultList.contains(beanName) && !hbf.containsLocalBean(beanName)) { resultList.add(beanName); } } result = StringUtils.toStringArray(resultList); } } return result; } /** * Return all beans of the given type or subtypes, also picking up beans defined in * ancestor bean factories if the current bean factory is a HierarchicalBeanFactory. * The returned Map will only contain beans of this type. *

Does consider objects created by FactoryBeans, which means that FactoryBeans * will get initialized. If the object created by the FactoryBean doesn't match, * the raw FactoryBean itself will be matched against the type. *

Note: Beans of the same name will take precedence at the 'lowest' factory level, * i.e. such beans will be returned from the lowest factory that they are being found in, * hiding corresponding beans in ancestor factories. This feature allows for * 'replacing' beans by explicitly choosing the same bean name in a child factory; * the bean in the ancestor factory won't be visible then, not even for by-type lookups. * @param lbf the bean factory * @param type type of bean to match * @return the Map of matching bean instances, or an empty Map if none * @throws BeansException if a bean could not be created */ public static Map beansOfTypeIncludingAncestors(ListableBeanFactory lbf, Class type) throws BeansException { Assert.notNull(lbf, "ListableBeanFactory must not be null"); Map result = new LinkedHashMap(4); result.putAll(lbf.getBeansOfType(type)); if (lbf instanceof HierarchicalBeanFactory) { HierarchicalBeanFactory hbf = (HierarchicalBeanFactory) lbf; if (hbf.getParentBeanFactory() instanceof ListableBeanFactory) { Map parentResult = beansOfTypeIncludingAncestors( (ListableBeanFactory) hbf.getParentBeanFactory(), type); for (Map.Entry entry : parentResult.entrySet()) { String beanName = entry.getKey(); if (!result.containsKey(beanName) && !hbf.containsLocalBean(beanName)) { result.put(beanName, entry.getValue()); } } } } return result; } /** * Return all beans of the given type or subtypes, also picking up beans defined in * ancestor bean factories if the current bean factory is a HierarchicalBeanFactory. * The returned Map will only contain beans of this type. *

Does consider objects created by FactoryBeans if the "allowEagerInit" flag is set, * which means that FactoryBeans will get initialized. If the object created by the * FactoryBean doesn't match, the raw FactoryBean itself will be matched against the * type. If "allowEagerInit" is not set, only raw FactoryBeans will be checked * (which doesn't require initialization of each FactoryBean). *

Note: Beans of the same name will take precedence at the 'lowest' factory level, * i.e. such beans will be returned from the lowest factory that they are being found in, * hiding corresponding beans in ancestor factories. This feature allows for * 'replacing' beans by explicitly choosing the same bean name in a child factory; * the bean in the ancestor factory won't be visible then, not even for by-type lookups. * @param lbf the bean factory * @param type type of bean to match * @param includeNonSingletons whether to include prototype or scoped beans too * or just singletons (also applies to FactoryBeans) * @param allowEagerInit whether to initialize lazy-init singletons and * objects created by FactoryBeans (or by factory methods with a * "factory-bean" reference) for the type check. Note that FactoryBeans need to be * eagerly initialized to determine their type: So be aware that passing in "true" * for this flag will initialize FactoryBeans and "factory-bean" references. * @return the Map of matching bean instances, or an empty Map if none * @throws BeansException if a bean could not be created */ public static Map beansOfTypeIncludingAncestors( ListableBeanFactory lbf, Class type, boolean includeNonSingletons, boolean allowEagerInit) throws BeansException { Assert.notNull(lbf, "ListableBeanFactory must not be null"); Map result = new LinkedHashMap(4); result.putAll(lbf.getBeansOfType(type, includeNonSingletons, allowEagerInit)); if (lbf instanceof HierarchicalBeanFactory) { HierarchicalBeanFactory hbf = (HierarchicalBeanFactory) lbf; if (hbf.getParentBeanFactory() instanceof ListableBeanFactory) { Map parentResult = beansOfTypeIncludingAncestors( (ListableBeanFactory) hbf.getParentBeanFactory(), type, includeNonSingletons, allowEagerInit); for (Map.Entry entry : parentResult.entrySet()) { String beanName = entry.getKey(); if (!result.containsKey(beanName) && !hbf.containsLocalBean(beanName)) { result.put(beanName, entry.getValue()); } } } } return result; } /** * Return a single bean of the given type or subtypes, also picking up beans * defined in ancestor bean factories if the current bean factory is a * HierarchicalBeanFactory. Useful convenience method when we expect a * single bean and don't care about the bean name. *

Does consider objects created by FactoryBeans, which means that FactoryBeans * will get initialized. If the object created by the FactoryBean doesn't match, * the raw FactoryBean itself will be matched against the type. *

This version of {@code beanOfTypeIncludingAncestors} automatically includes * prototypes and FactoryBeans. *

Note: Beans of the same name will take precedence at the 'lowest' factory level, * i.e. such beans will be returned from the lowest factory that they are being found in, * hiding corresponding beans in ancestor factories. This feature allows for * 'replacing' beans by explicitly choosing the same bean name in a child factory; * the bean in the ancestor factory won't be visible then, not even for by-type lookups. * @param lbf the bean factory * @param type type of bean to match * @return the matching bean instance * @throws NoSuchBeanDefinitionException if no bean of the given type was found * @throws NoUniqueBeanDefinitionException if more than one bean of the given type was found * @throws BeansException if the bean could not be created */ public static T beanOfTypeIncludingAncestors(ListableBeanFactory lbf, Class type) throws BeansException { Map beansOfType = beansOfTypeIncludingAncestors(lbf, type); return uniqueBean(type, beansOfType); } /** * Return a single bean of the given type or subtypes, also picking up beans * defined in ancestor bean factories if the current bean factory is a * HierarchicalBeanFactory. Useful convenience method when we expect a * single bean and don't care about the bean name. *

Does consider objects created by FactoryBeans if the "allowEagerInit" flag is set, * which means that FactoryBeans will get initialized. If the object created by the * FactoryBean doesn't match, the raw FactoryBean itself will be matched against the * type. If "allowEagerInit" is not set, only raw FactoryBeans will be checked * (which doesn't require initialization of each FactoryBean). *

Note: Beans of the same name will take precedence at the 'lowest' factory level, * i.e. such beans will be returned from the lowest factory that they are being found in, * hiding corresponding beans in ancestor factories. This feature allows for * 'replacing' beans by explicitly choosing the same bean name in a child factory; * the bean in the ancestor factory won't be visible then, not even for by-type lookups. * @param lbf the bean factory * @param type type of bean to match * @param includeNonSingletons whether to include prototype or scoped beans too * or just singletons (also applies to FactoryBeans) * @param allowEagerInit whether to initialize lazy-init singletons and * objects created by FactoryBeans (or by factory methods with a * "factory-bean" reference) for the type check. Note that FactoryBeans need to be * eagerly initialized to determine their type: So be aware that passing in "true" * for this flag will initialize FactoryBeans and "factory-bean" references. * @return the matching bean instance * @throws NoSuchBeanDefinitionException if no bean of the given type was found * @throws NoUniqueBeanDefinitionException if more than one bean of the given type was found * @throws BeansException if the bean could not be created */ public static T beanOfTypeIncludingAncestors( ListableBeanFactory lbf, Class type, boolean includeNonSingletons, boolean allowEagerInit) throws BeansException { Map beansOfType = beansOfTypeIncludingAncestors(lbf, type, includeNonSingletons, allowEagerInit); return uniqueBean(type, beansOfType); } /** * Return a single bean of the given type or subtypes, not looking in ancestor * factories. Useful convenience method when we expect a single bean and * don't care about the bean name. *

Does consider objects created by FactoryBeans, which means that FactoryBeans * will get initialized. If the object created by the FactoryBean doesn't match, * the raw FactoryBean itself will be matched against the type. *

This version of {@code beanOfType} automatically includes * prototypes and FactoryBeans. * @param lbf the bean factory * @param type type of bean to match * @return the matching bean instance * @throws NoSuchBeanDefinitionException if no bean of the given type was found * @throws NoUniqueBeanDefinitionException if more than one bean of the given type was found * @throws BeansException if the bean could not be created */ public static T beanOfType(ListableBeanFactory lbf, Class type) throws BeansException { Assert.notNull(lbf, "ListableBeanFactory must not be null"); Map beansOfType = lbf.getBeansOfType(type); return uniqueBean(type, beansOfType); } /** * Return a single bean of the given type or subtypes, not looking in ancestor * factories. Useful convenience method when we expect a single bean and * don't care about the bean name. *

Does consider objects created by FactoryBeans if the "allowEagerInit" * flag is set, which means that FactoryBeans will get initialized. If the * object created by the FactoryBean doesn't match, the raw FactoryBean itself * will be matched against the type. If "allowEagerInit" is not set, * only raw FactoryBeans will be checked (which doesn't require initialization * of each FactoryBean). * @param lbf the bean factory * @param type type of bean to match * @param includeNonSingletons whether to include prototype or scoped beans too * or just singletons (also applies to FactoryBeans) * @param allowEagerInit whether to initialize lazy-init singletons and * objects created by FactoryBeans (or by factory methods with a * "factory-bean" reference) for the type check. Note that FactoryBeans need to be * eagerly initialized to determine their type: So be aware that passing in "true" * for this flag will initialize FactoryBeans and "factory-bean" references. * @return the matching bean instance * @throws NoSuchBeanDefinitionException if no bean of the given type was found * @throws NoUniqueBeanDefinitionException if more than one bean of the given type was found * @throws BeansException if the bean could not be created */ public static T beanOfType( ListableBeanFactory lbf, Class type, boolean includeNonSingletons, boolean allowEagerInit) throws BeansException { Assert.notNull(lbf, "ListableBeanFactory must not be null"); Map beansOfType = lbf.getBeansOfType(type, includeNonSingletons, allowEagerInit); return uniqueBean(type, beansOfType); } /** * Extract a unique bean for the given type from the given Map of matching beans. * @param type type of bean to match * @param matchingBeans all matching beans found * @return the unique bean instance * @throws NoSuchBeanDefinitionException if no bean of the given type was found * @throws NoUniqueBeanDefinitionException if more than one bean of the given type was found */ private static T uniqueBean(Class type, Map matchingBeans) { int nrFound = matchingBeans.size(); if (nrFound == 1) { return matchingBeans.values().iterator().next(); } else if (nrFound > 1) { throw new NoUniqueBeanDefinitionException(type, matchingBeans.keySet()); } else { throw new NoSuchBeanDefinitionException(type); } } }





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