注解:http://www.cnblogs.com/liangxiaofeng/p/6390868.html
注入方式:http://www.cnblogs.com/java-class/p/4727775.html
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Spring 依赖注入方式详解
平常的Java开发中,程序员在某个类中需要依赖其它类的方法。
通常是new一个依赖类再调用类实例的方法,这种开发存在的问题是new的类实例不好统一管理。
Spring提出了依赖注入的思想,即依赖类不由程序员实例化,而是通过Spring容器帮我们new指定实例并且将实例注入到需要该对象的类中。
依赖注入的另一种说法是"控制反转"。通俗的理解是:平常我们new一个实例,这个实例的控制权是我们程序员。
而控制反转是指new实例工作不由我们程序员来做而是交给Spring容器来做。
Spring有多种依赖注入的形式,本篇文章仅介绍Spring通过xml进行IOC配置的方式。
1.Set注入
这是最简单的注入方式,假设有一个SpringAction,类中需要实例化一个SpringDao对象,那么就可以定义一个private的SpringDao成员变量,然后创建SpringDao的set方法(这是ioc的注入入口):
package com.bless.springdemo.action;
public class SpringAction {
//注入对象springDao
private SpringDao springDao;
//一定要写被注入对象的set方法
public void setSpringDao(SpringDao springDao) {
this.springDao = springDao;
} public void ok(){
springDao.ok();
}
}
随后编写spring的xml文件,<bean>中的name属性是class属性的一个别名,class属性指类的全名,因为在SpringAction中有一个公共属性Springdao,所以要在<bean>标签中创建一个<property>标签指定SpringDao。<property>标签中的name就是SpringAction类中的SpringDao属性名,ref指下面<bean name="springDao"...>,这样其实是spring将SpringDaoImpl对象实例化并且调用SpringAction的setSpringDao方法将SpringDao注入:
<!--配置bean,配置后该类由spring管理-->
<bean name="springAction" class="com.bless.springdemo.action.SpringAction">
<!--(1)依赖注入,配置当前类中相应的属性-->
<property name="springDao" ref="springDao"></property>
</bean>
<bean name="springDao" class="com.bless.springdemo.dao.impl.SpringDaoImpl"></bean>
2.构造器注入
这种方式的注入是指带有参数的构造函数注入,看下面的例子,我创建了两个成员变量SpringDao和User,但是并未设置对象的set方法,所以就不能支持第一种注入方式,这里的注入方式是在SpringAction的构造函数中注入,也就是说在创建SpringAction对象时要将SpringDao和User两个参数值传进来:
public class SpringAction {
//注入对象springDao
private SpringDao springDao;
private User user;
public SpringAction(SpringDao springDao,User user){
this.springDao = springDao;
this.user = user;
System.out.println("构造方法调用springDao和user");
}
public void save(){
user.setName("卡卡");
springDao.save(user);
}
}
在XML文件中同样不用<property>的形式,而是使用<constructor-arg>标签,ref属性同样指向其它<bean>标签的name属性:
<!--配置bean,配置后该类由spring管理-->
<bean name="springAction" class="com.bless.springdemo.action.SpringAction">
<!--(2)创建构造器注入,如果主类有带参的构造方法则需添加此配置-->
<constructor-arg ref="springDao"></constructor-arg>
<constructor-arg ref="user"></constructor-arg>
</bean>
<bean name="springDao" class="com.bless.springdemo.dao.impl.SpringDaoImpl"></bean>
<bean name="user" class="com.bless.springdemo.vo.User"></bean>
解决构造方法参数的不确定性,你可能会遇到构造方法传入的两参数都是同类型的,为了分清哪个该赋对应值,则需要进行一些小处理:
下面是设置index,就是参数位置:
<bean name="springAction" class="com.bless.springdemo.action.SpringAction">
<constructor-arg index="0" ref="springDao"></constructor-arg>
<constructor-arg index="1" ref="user"></constructor-arg>
</bean>
另一种是设置参数类型:
<constructor-arg type="java.lang.String" ref=""/>
3.静态工厂的方法注入
静态工厂顾名思义,就是通过调用静态工厂的方法来获取自己需要的对象,为了让spring管理所有对象,我们不能直接通过"工程类.静态方法()"来获取对象,而是依然通过spring注入的形式获取:
package com.bless.springdemo.factory; import com.bless.springdemo.dao.FactoryDao;
import com.bless.springdemo.dao.impl.FactoryDaoImpl;
import com.bless.springdemo.dao.impl.StaticFacotryDaoImpl; public class DaoFactory {
//静态工厂
public static final FactoryDao getStaticFactoryDaoImpl(){
return new StaticFacotryDaoImpl();
}
}
同样看关键类,这里我需要注入一个FactoryDao对象,这里看起来跟第一种注入一模一样,但是看随后的xml会发现有很大差别:
public class SpringAction {
//注入对象
private FactoryDao staticFactoryDao;
public void staticFactoryOk(){
staticFactoryDao.saveFactory();
}
//注入对象的set方法
public void setStaticFactoryDao(FactoryDao staticFactoryDao) {
this.staticFactoryDao = staticFactoryDao;
}
}
Spring的IOC配置文件,注意看<bean name="staticFactoryDao">指向的class并不是FactoryDao的实现类,而是指向静态工厂DaoFactory,并且配置 factory-method="getStaticFactoryDaoImpl"指定调用哪个工厂方法:
<!--配置bean,配置后该类由spring管理-->
<bean name="springAction" class="com.bless.springdemo.action.SpringAction" >
<!--(3)使用静态工厂的方法注入对象,对应下面的配置文件(3)-->
<property name="staticFactoryDao" ref="staticFactoryDao"></property>
</property>
</bean>
<!--(3)此处获取对象的方式是从工厂类中获取静态方法-->
<bean name="staticFactoryDao" class="com.bless.springdemo.factory.DaoFactory" factory-method="getStaticFactoryDaoImpl"></bean>
4.实例工厂的方法注入
实例工厂的意思是获取对象实例的方法不是静态的,所以你需要首先new工厂类,再调用普通的实例方法:
public class DaoFactory {
//实例工厂
public FactoryDao getFactoryDaoImpl(){
return new FactoryDaoImpl();
}
}
那么下面这个类没什么说的,跟前面也很相似,但是我们需要通过实例工厂类创建FactoryDao对象:
public class SpringAction {
//注入对象
private FactoryDao factoryDao;
public void factoryOk(){
factoryDao.saveFactory();
}
public void setFactoryDao(FactoryDao factoryDao) {
this.factoryDao = factoryDao;
}
}
最后看spring配置文件:
<!--配置bean,配置后该类由spring管理-->
<bean name="springAction" class="com.bless.springdemo.action.SpringAction">
<!--(4)使用实例工厂的方法注入对象,对应下面的配置文件(4)-->
<property name="factoryDao" ref="factoryDao"></property>
</bean> <!--(4)此处获取对象的方式是从工厂类中获取实例方法-->
<bean name="daoFactory" class="com.bless.springdemo.factory.DaoFactory"></bean>
<bean name="factoryDao" factory-bean="daoFactory" factory-method="getFactoryDaoImpl"></bean>
5.总结
Spring IOC注入方式用得最多的是(1)(2)种,多写多练就会非常熟练。
另外注意:通过Spring创建的对象默认是单例,如果需要创建多实例对象可以在<bean>标签后面添加一个属性:
<bean name="..." class="..." scope="prototype">
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注解注入顾名思义就是通过注解来实现注入,Spring和注入相关的常见注解有Autowired、Resource、Qualifier、Service、Controller、Repository、Component。
Autowired是自动注入,自动从spring的上下文找到合适的bean来注入
Resource用来指定名称注入
Qualifier和Autowired配合使用,指定bean的名称
Service,Controller,Repository分别标记类是Service层类,Controller层类,数据存储层的类,spring扫描注解配置时,会标记这些类要生成bean。
Component是一种泛指,标记类是组件,spring扫描注解配置时,会标记这些类要生成bean。
Spring对于Bean的依赖注入,支持多种注解方式:
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@Resourcejavax.annotation JSR250 (Common Annotations for Java)
@Injectjavax.inject JSR330 (Dependency Injection for Java)
@Autowiredorg.springframework.bean.factory Spring |
直观上看起来,@Autowired是Spring提供的注解,其他几个都是JDK本身内建的注解,Spring对这些注解也进行了支持。但是使用起来这三者到底有什么区别呢?笔者经过方法的测试,发现一些有意思的特性。
区别总结如下:
一、@Autowired有个required属性,可以配置为false,这种情况下如果没有找到对应的bean是不会抛异常的。@Inject和@Resource没有提供对应的配置,所以必须找到否则会抛异常。
二、 @Autowired和@Inject基本是一样的,因为两者都是使用AutowiredAnnotationBeanPostProcessor来处理 依赖注入。但是@Resource是个例外,它使用的是CommonAnnotationBeanPostProcessor来处理依赖注入。当然,两者 都是BeanPostProcessor。
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@Autowired和@Inject
- 默认 autowired by type - 可以 通过@Qualifier 显式指定 autowired by qualifier name。
- 如果 autowired by type 失败(找不到或者找到多个实现),则退化为autowired by field name @Resource- 默认 autowired by field name - 如果 autowired by field name失败,会退化为 autowired by type - 可以 通过@Qualifier 显式指定 autowired by qualifier name
- 如果 autowired by qualifier name失败,会退化为 autowired by field name。但是这时候如果 autowired by field name失败,就不会再退化为autowired by type了。 |
TIPS Qualified name VS Bean name
在Spring设计中,Qualified name并不等同于Bean name,后者必须是唯一的,但是前者类似于tag或者group的作用,对特定的bean进行分类。可以达到getByTag(group)的效果。对 于XML配置的bean,可以通过id属性指定bean name(如果没有指定,默认使用类名首字母小写),通过标签指定qualifier name:
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<bean id="lamborghini" class="me.arganzheng.study.spring.autowired.Lamborghini">
<qualifier value="luxury"/>
<!-- inject any dependencies required by this bean -->
</bean> |
如果是通过注解方式,那么可以通过@Qualifier注解指定qualifier name,通过@Named或者@Component(@Service,@Repository等)的value值指定bean name:
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@Component("lamborghini")
@Qualifier("luxury")
public class Lamborghini implements Car {
} |
或者
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@Component@Named("lamborghini")
@Qualifier("luxury")
public class Lamborghini implements Car {
} |
同样,如果没有指定bean name,那么Spring会默认是用类名首字母小写(Lamborghini=>lamborghini)。
三、 通过Anotation注入依赖的方式在XML注入方式之前进行。如果对同一个bean的依赖同时使用了两种注入方式,那么XML的优先。但是不同担心通过Anotation注入的依赖没法注入XML中配置的bean,依赖注入是在bean的注册之后进行的。
四、目前的autowired by type方式(笔者用的是3.2.3.RELEASE版本),Spring的AutowiredAnnotationBeanPostProcessor 实现都是有”bug”的,也就是说@Autowired和@Inject都是有坑的(称之为坑,不称之为bug是因为貌似是故意的。。)。这是来源于线上 的一个bug,也是这边文章的写作原因。现场如下:
application-context.xml中有如下定义:
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<xml version="1.0" encoding="UTF-8"?>
<beans xmlns="http://www.springframework.org/schema/beans"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:aop="http://www.springframework.org/schema/aop"
xmlns:context="http://www.springframework.org/schema/context"
xmlns:util="http://www.springframework.org/schema/util"
xsi:schemaLocation=" http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans-3.0.xsd
http://www.springframework.org/schema/aop http://www.springframework.org/schema/aop/spring-aop-3.0.xsd
http://www.springframework.org/schema/context http://www.springframework.org/schema/context/spring-context-3.0.xsd
http://www.springframework.org/schema/util http://www.springframework.org/schema/util/spring-util-2.5.xsd">
<context:annotation-config /> <context:component-scan base-package="me.arganzheng.study" />
<util:constant id="en"
static-field="me.arganzheng.study.spring.autowired.Constants.Language.EN" />
<util:constant id="ja"
static-field="me.arganzheng.study.spring.autowired.Constants.Language.JP" />
<util:constant id="ind"
static-field="me.arganzheng.study.spring.autowired.Constants.Language.IND" />
<util:constant id="pt"
static-field="me.arganzheng.study.spring.autowired.Constants.Language.PT" />
<util:constant id="th"
static-field="me.arganzheng.study.spring.autowired.Constants.Language.TH" />
<util:constant id="ar"
static-field="me.arganzheng.study.spring.autowired.Constants.Language.AR" />
<util:constant id="en-rIn"
static-field="me.arganzheng.study.spring.autowired.Constants.Language.EN_RIN" />
<util:map id="languageChangesMap" key-type="java.lang.String"
value-type="java.lang.String">
<entry key="pt" value="pt" />
<entry key="br" value="pt" />
<entry key="jp" value="ja" />
<entry key="ja" value="ja" />
<entry key="ind" value="ind" />
<entry key="id" value="ind" />
<entry key="en-rin" value="en-rIn" />
<entry key="in" value="en-rIn" />
<entry key="en" value="en" />
<entry key="gb" value="en" />
<entry key="th" value="th" />
<entry key="ar" value="ar" />
<entry key="eg" value="ar" />
</util:map> </beans> |
其中static-field应用的常量定义在如下类中:
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package me.arganzheng.study.spring.autowired;
public interface Constants {
public interface Language {
public static final String EN = "CommonConstants.LANG_ENGLISH";
public static final String JP = "CommonConstants.LANG_JAPANESE";
public static final String IND = "CommonConstants.LANG_INDONESIAN";
public static final String PT = "CommonConstants.LANG_PORTUGUESE";
public static final String TH = "CommonConstants.LANG_THAI";
public static final String EN_RIN = "CommonConstants.LANG_ENGLISH_INDIA";
public static final String AR = "CommonConstants.LANG_Arabic";
} } |
然后如果我们在代码中如下声明依赖:
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public class AutowiredTest extends BaseSpringTestCase {
@Autowiredprivate Map<String, String> languageChangesMap;
@Testpublic void testAutowired() {
notNull(languageChangesMap); System.out.println(languageChangesMap.getClass().getSimpleName()); System.out.println(languageChangesMap); } } |
Guess what,诡异的事情发生了!
运行结果如下:
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LinkedHashMap {en=CommonConstants.LANG_ENGLISH, ja=CommonConstants.LANG_JAPANESE, ind=CommonConstants.LANG_INDONESIAN, pt=CommonConstants.LANG_PORTUGUESE, th=CommonConstants.LANG_THAI, ar=CommonConstants.LANG_Arabic, en-rIn=CommonConstants.LANG_ENGLISH_INDIA} |
也就是说Map
严重: Caught exception while allowing TestExecutionListener
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[org.springframework.test.context.support.DependencyInjectionTestExecutionListener@5c51ee0a] to prepare test instance [me.arganzheng.study.spring.autowired.AutowiredTest@6e301e0]
org.springframework.beans.factory.BeanCreationException: Error creating bean with name 'me.arganzheng.study.spring.autowired.AutowiredTest': Injection of autowired dependencies failed; nested exception is org.springframework.beans.factory.BeanCreationException: Could not autowire field: private java.util.Map me.arganzheng.study.spring.autowired.AutowiredTest.languageChangesMap; nested exception is org.springframework.beans.factory.NoSuchBeanDefinitionException: No qualifying bean of type [java.lang.String] found for dependency [map with value type java.lang.String]: expected at least 1 bean which qualifies as autowire candidate for this dependency. Dependency annotations: {@org.springframework.beans.factory.annotation.Autowired(required=true)}
... ed by: org.springframework.beans.factory.NoSuchBeanDefinitionException: No qualifying bean of type [java.lang.String] found for dependency [map with value type java.lang.String]: expected at least 1 bean which qualifies as autowire candidate for this dependency. Dependency annotations: {@org.springframework.beans.factory.annotation.Autowired(required=true)}
at org.springframework.beans.factory.support.DefaultListableBeanFactory.raiseNoSuchBeanDefinitionException(DefaultListableBeanFactory.java:986)
at org.springframework.beans.factory.support.DefaultListableBeanFactory.doResolveDependency(DefaultListableBeanFactory.java:843)
at org.springframework.beans.factory.support.DefaultListableBeanFactory.resolveDependency(DefaultListableBeanFactory.java:768)
at org.springframework.beans.factory.annotation.AutowiredAnnotationBeanPostProcessor$AutowiredFieldElement.inject(AutowiredAnnotationBeanPostProcessor.java:486)
... 28 more
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debug了一下,发现确实是Spring的一个bug。在DefaultListableBeanFactory的这个方法出问题了:
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protected Object doResolveDependency(DependencyDescriptor descriptor, Class<?> type, String beanName,
Set<String> autowiredBeanNames, TypeConverter typeConverter) throws BeansException {
... else if (Map.class.isAssignableFrom(type) && type.isInterface()) {
Class<?> keyType = descriptor.getMapKeyType(); if (keyType == null || !String.class.isAssignableFrom(keyType)) {
if (descriptor.isRequired()) {
throw new FatalBeanException("Key type [" + keyType + "] of map [" + type.getName() +
"] must be assignable to [java.lang.String]");
} return null;
} Class<?> valueType = descriptor.getMapValueType(); if (valueType == null) {
if (descriptor.isRequired()) {
throw new FatalBeanException("No value type declared for map [" + type.getName() + "]");
} return null;
} Map<String, Object> matchingBeans = findAutowireCandidates(beanName, valueType, descriptor); if (matchingBeans.isEmpty()) {
if (descriptor.isRequired()) {
raiseNoSuchBeanDefinitionException(valueType, "map with value type " + valueType.getName(), descriptor);
} return null;
} if (autowiredBeanNames != null) {
autowiredBeanNames.addAll(matchingBeans.keySet()); } return matchingBeans;
} ... } |
关键在这一句:Map
严重: Caught exception while allowing TestExecutionListener
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[org.springframework.test.context.support.DependencyInjectionTestExecutionListener@9476189] to prepare test instance [me.arganzheng.study.spring.autowired.AutowiredTest@2d546e21]
... Caused by: org.springframework.beans.factory.NoSuchBeanDefinitionException: No qualifying bean of type [java.lang.String] found for dependency [map with value type java.lang.String]: expected at least 1 bean which qualifies as autowire candidate for this dependency. Dependency annotations: {@org.springframework.beans.factory.annotation.Autowired(required=true), @org.springframework.beans.factory.annotation.Qualifier(value=languageChangesMap)}
at org.springframework.beans.factory.support.DefaultListableBeanFactory.raiseNoSuchBeanDefinitionException(DefaultListableBeanFactory.java:986)
at org.springframework.beans.factory.support.DefaultListableBeanFactory.doResolveDependency(DefaultListableBeanFactory.java:843)
at org.springframework.beans.factory.support.DefaultListableBeanFactory.resolveDependency(DefaultListableBeanFactory.java:768)
at org.springframework.beans.factory.annotation.AutowiredAnnotationBeanPostProcessor$AutowiredFieldElement.inject(AutowiredAnnotationBeanPostProcessor.java:486)
... 28 more
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debug了一下,发现跟没有指定qualifie name是一样的执行路径。不是指定了bean name了吗?为什么还是autowired by type呢?仔细查看了一下才发现。DefaultListableBeanFactory的doResolveDependency方法对首先对类型做 了区别:
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protected Object doResolveDependency(DependencyDescriptor descriptor, Class<?> type, String beanName,
Set<String> autowiredBeanNames, TypeConverter typeConverter) throws BeansException {
Object value = getAutowireCandidateResolver().getSuggestedValue(descriptor); if (value != null) {
if (value instanceof String) {
String strVal = resolveEmbeddedValue((String) value); BeanDefinition bd = (beanName != null && containsBean(beanName) ? getMergedBeanDefinition(beanName) : null);
value = evaluateBeanDefinitionString(strVal, bd); } TypeConverter converter = (typeConverter != null ? typeConverter : getTypeConverter());
return (descriptor.getField() != null ?
converter.convertIfNecessary(value, type, descriptor.getField()) : converter.convertIfNecessary(value, type, descriptor.getMethodParameter())); } if (type.isArray()) {
Class<?> componentType = type.getComponentType(); Map<String, Object> matchingBeans = findAutowireCandidates(beanName, componentType, descriptor); if (matchingBeans.isEmpty()) {
if (descriptor.isRequired()) {
raiseNoSuchBeanDefinitionException(componentType, "array of " + componentType.getName(), descriptor);
} return null;
} if (autowiredBeanNames != null) {
autowiredBeanNames.addAll(matchingBeans.keySet()); } TypeConverter converter = (typeConverter != null ? typeConverter : getTypeConverter());
return converter.convertIfNecessary(matchingBeans.values(), type);
} else if (Collection.class.isAssignableFrom(type) && type.isInterface()) {
Class<?> elementType = descriptor.getCollectionType(); if (elementType == null) {
if (descriptor.isRequired()) {
throw new FatalBeanException("No element type declared for collection [" + type.getName() + "]");
} return null;
} Map<String, Object> matchingBeans = findAutowireCandidates(beanName, elementType, descriptor); if (matchingBeans.isEmpty()) {
if (descriptor.isRequired()) {
raiseNoSuchBeanDefinitionException(elementType, "collection of " + elementType.getName(), descriptor);
} return null;
} if (autowiredBeanNames != null) {
autowiredBeanNames.addAll(matchingBeans.keySet()); } TypeConverter converter = (typeConverter != null ? typeConverter : getTypeConverter());
return converter.convertIfNecessary(matchingBeans.values(), type);
} else if (Map.class.isAssignableFrom(type) && type.isInterface()) {
Class<?> keyType = descriptor.getMapKeyType(); if (keyType == null || !String.class.isAssignableFrom(keyType)) {
if (descriptor.isRequired()) {
throw new FatalBeanException("Key type [" + keyType + "] of map [" + type.getName() +
"] must be assignable to [java.lang.String]");
} return null;
} Class<?> valueType = descriptor.getMapValueType(); if (valueType == null) {
if (descriptor.isRequired()) {
throw new FatalBeanException("No value type declared for map [" + type.getName() + "]");
} return null;
} Map<String, Object> matchingBeans = findAutowireCandidates(beanName, valueType, descriptor); if (matchingBeans.isEmpty()) {
if (descriptor.isRequired()) {
raiseNoSuchBeanDefinitionException(valueType, "map with value type " + valueType.getName(), descriptor);
} return null;
} if (autowiredBeanNames != null) {
autowiredBeanNames.addAll(matchingBeans.keySet()); } return matchingBeans;
} else {
Map<String, Object> matchingBeans = findAutowireCandidates(beanName, type, descriptor); if (matchingBeans.isEmpty()) {
if (descriptor.isRequired()) {
raiseNoSuchBeanDefinitionException(type, "", descriptor);
} return null;
} if (matchingBeans.size() > 1) {
String primaryBeanName = determinePrimaryCandidate(matchingBeans, descriptor); if (primaryBeanName == null) {
throw new NoUniqueBeanDefinitionException(type, matchingBeans.keySet());
} if (autowiredBeanNames != null) {
autowiredBeanNames.add(primaryBeanName); } return matchingBeans.get(primaryBeanName);
} // We have exactly one match. Map.Entry<String, Object> entry = matchingBeans.entrySet().iterator().next(); if (autowiredBeanNames != null) {
autowiredBeanNames.add(entry.getKey()); } return entry.getValue();
} } |
如果是Array,Collection或者Map,则根据集合类中元素的类型来进行autowired by type(Map使用value的类型)。为什么这么特殊处理呢?原来,Spring是为了达到这样的目的:让你可以一次注入所有符合类型的实现,也就是 说可以这样子注入:
@Autowired
private List<Car> cars;
如果你的car有多个实现,那么都会注入进来,不会再报
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org.springframework.beans.factory.NoSuchBeanDefinitionException: No unique bean of type [me.arganzheng.study.spring.autowired.Car] is defined: expected single matching bean but found 2: [audi, toyota].
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然而,上面的情况如果你用@Resource则不会有这个问题:
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public class AutowiredTest extends BaseSpringTestCase {
@Resource@Qualifier("languageChangesMap")
private Map<String, String> languageChangesMap;
@Testpublic void testAutowired() {
assertNotNull(languageChangesMap); System.out.println(languageChangesMap.getClass().getSimpleName()); System.out.println(languageChangesMap); } } |
正常运行:
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LinkedHashMap {pt=pt, br=pt, jp=ja, ja=ja, ind=ind, id=ind, en-rin=en-rIn, in=en-rIn, en=en, gb=en, th=th, ar=ar, eg=ar} |
当然,你如果不指定@Qualifier(“languageChangesMap”),同时field name不是languageChangesMap,那么还是一样报错的。
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Caused by: org.springframework.beans.factory.NoSuchBeanDefinitionException: No qualifying bean of type [java.lang.String] found for dependency [map with value type java.lang.String]: expected at least 1 bean which qualifies as autowire candidate for this dependency. Dependency annotations: {@javax.annotation.Resource(shareable=true, mappedName=, description=, name=, type=class java.lang.Object, authenticationType=CONTAINER, lookup=)}
at org.springframework.beans.factory.support.DefaultListableBeanFactory.raiseNoSuchBeanDefinitionException(DefaultListableBeanFactory.java:986)
at org.springframework.beans.factory.support.DefaultListableBeanFactory.doResolveDependency(DefaultListableBeanFactory.java:843)
at org.springframework.beans.factory.support.DefaultListableBeanFactory.resolveDependency(DefaultListableBeanFactory.java:768)
at org.springframework.context.annotation.CommonAnnotationBeanPostProcessor.autowireResource(CommonAnnotationBeanPostProcessor.java:438)
at org.springframework.context.annotation.CommonAnnotationBeanPostProcessor.getResource(CommonAnnotationBeanPostProcessor.java:416)
at org.springframework.context.annotation.CommonAnnotationBeanPostProcessor$ResourceElement.getResourceToInject(CommonAnnotationBeanPostProcessor.java:550)
at org.springframework.beans.factory.annotation.InjectionMetadata$InjectedElement.inject(InjectionMetadata.java:150)
at org.springframework.beans.factory.annotation.InjectionMetadata.inject(InjectionMetadata.java:87)
at org.springframework.context.annotation.CommonAnnotationBeanPostProcessor.postProcessPropertyValues(CommonAnnotationBeanPostProcessor.java:303)
... 26 more
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而且,@Resource也可以实现上面的List接收所有实现:
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public class AutowiredTest extends BaseSpringTestCase {
@Resource@Qualifier("languageChangesMap")
private Map<String, String> languageChangesMap;
@Resourceprivate List<Car> cars;
@Testpublic void testAutowired() {
assertNotNull(languageChangesMap); System.out.println(languageChangesMap.getClass().getSimpleName()); System.out.println(languageChangesMap); assertNotNull(cars); System.out.println(cars.getClass().getSimpleName()); System.out.println(cars); } } |
运行的妥妥的:
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LinkedHashMap {pt=pt, br=pt, jp=ja, ja=ja, ind=ind, id=ind, en-rin=en-rIn, in=en-rIn, en=en, gb=en, th=th, ar=ar, eg=ar} ArrayList |
[me.arganzheng.study.spring.autowired.Audi@579584da, me.arganzheng.study.spring.autowired.Toyota@19453122]
这是因为@Resource注解使用的是CommonAnnotationBeanPostProcessor处理器,跟 AutowiredAnnotationBeanPostProcessor不是同一个作者[/偷笑]。这里就不分析了,感兴趣的同学可以自己看代码研究 一下。
最终结论如下:
1、@Autowired和@Inject
autowired by type 可以 通过@Qualifier 显式指定 autowired by qualifier name(非集合类。注意:不是autowired by bean name!)
如果 autowired by type 失败(找不到或者找到多个实现),则退化为autowired by field name(非集合类)
2、@Resource
默认 autowired by field name
如果 autowired by field name失败,会退化为 autowired by type
可以 通过@Qualifier 显式指定 autowired by qualifier name
如果 autowired by qualifier name失败,会退化为 autowired by field name。但是这时候如果 autowired by field name失败,就不会再退化为autowired by type了
测试工程保存在GitHub上,是标准的maven工程,感兴趣的同学可以clone到本地运行测试一下。
补充
有同事指出Spring官方文档上有这么一句话跟我的结有点冲突:
However, although you can use this convention to refer to specific beans by name, @Autowired is fundamentally about type-driven injection with optional semantic qualifiers. This means that qualifier values, even with the bean name fallback, always have narrowing semantics within the set of type matches; they do not semantically express a reference to a unique bean id.
也就是说@Autowired即使加了@Qualifier注解,其实也是autowired by type。@Qualifier只是一个限定词,过滤条件而已。重新跟进了一下代码,发现确实是这样子的。Spring设计的这个 @Qualifier name 并不等同于 bean name。他有点类似于一个tag。不过如果这个tag是唯一的化,那么其实效果上等同于bean name。实现上,Spring是先getByType,得到list candicates,然后再根据qualifier name进行过滤。
再定义一个兰博基尼,这里使用@Qualifier指定:
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package me.arganzheng.study.spring.autowired;
import org.springframework.beans.factory.annotation.Qualifier;
import org.springframework.stereotype.Component;
@Component@Qualifier("luxury")
public class Lamborghini implements Car {
} |
再定义一个劳斯莱斯,这里故意用@Named指定:
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package me.arganzheng.study.spring.autowired;
import javax.inject.Named;
import org.springframework.stereotype.Component;
@Component@Named("luxury")
public class RollsRoyce implements Car {
} |
测试一下注入定义的豪华车:
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package me.arganzheng.study.spring.autowired;
import static junit.framework.Assert.assertNotNull;
import java.util.List;
import me.arganzheng.study.BaseSpringTestCase;
import org.junit.Test;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.beans.factory.annotation.Qualifier;
/** * * @author zhengzhibin * */public class AutowiredTest extends BaseSpringTestCase {
@Autowired@Qualifier("luxury")
private List<Car> luxuryCars;
@Testpublic void testAutowired() {
assertNotNull(luxuryCars); System.out.println(luxuryCars.getClass().getSimpleName()); System.out.println(luxuryCars); } } |
运行结果如下:
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ArrayList [me.arganzheng.study.spring.autowired.Lamborghini@66b875e1, me.arganzheng.study.spring.autowired.RollsRoyce@58433b76]
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补充:Autowiring modes
Spring支持四种autowire模式,当使用XML配置方式时,你可以通过autowire属性指定。
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no. (Default) No autowiring. Bean references must be defined via a ref element. Changing the default setting is not recommended for larger deployments, because specifying collaborators explicitly gives greater control and clarity. To some extent, it documents the structure of a system.
byName. Autowiring by property name. Spring looks for a bean with the same name as the property that needs to be autowired. For example, if a bean definition is set to autowire by name, and it contains a master property (that is, it has a setMaster(..) method), Spring looks for a bean definition named master, and uses it to set the property.
byType. Allows a property to be autowired if exactly one bean of the property type exists in the container. If more than one exists, a fatal exception is thrown, which indicates that you may not use byType autowiring for that bean. If there are no matching beans, nothing happens; the property is not set.
constructor. Analogous to byType, but applies to constructor arguments. If there is not exactly one bean of the constructor argument type in the container, a fatal error is raised. |
如果使用@Autowired、@Inject或者@Resource注解的时候,则稍微复杂一些,会有一个失败退化过程,并且引入了Qualifier。不过基本原理是一样。