• spring的@ConditionalOnMissingBean注解


    Spring4推出了@Conditional注解,方便程序根据当前环境或者容器情况来动态注入bean,对@Conditional注解不熟悉的朋友可移步至 Spring @Conditional注解 详细讲解及示例 这篇博客进行学习。

    继@Conditional注解后,又基于此注解推出了很多派生注解,比如@ConditionalOnBean、@ConditionalOnMissingBean、@ConditionalOnExpression、@ConditionalOnClass......动态注入bean变得更方便了。本篇将讲解@ConditionalOnBean注解。

    配置类中有两个Computer类的bean,一个是笔记本电脑,一个是备用电脑。如果当前容器中已经有电脑bean了,就不注入备用电脑,如果没有,则注入备用电脑,这里需要使用到@ConditionalOnMissingBean。

    @Configuration
    public class BeanConfig {

    @Bean(name = "notebookPC")
    public Computer computer1(){
    return new Computer("笔记本电脑");
    }

    @ConditionalOnMissingBean(Computer.class)
    @Bean("reservePC")
    public Computer computer2(){
    return new Computer("备用电脑");
    }
    }
    这个注解就实现了功能,这个@ConditionalOnMissingBean为我们做了什么呢?我们来一探究竟.。

    一探究竟:
    首先,来看@ConditionalOnMissingBean的声明:

    //可以标注在类和方法上
    @Target({ElementType.TYPE, ElementType.METHOD})
    @Retention(RetentionPolicy.RUNTIME)
    @Documented
    //使用了@Conditional注解,条件类是OnBeanCondition
    @Conditional({OnBeanCondition.class})
    public @interface ConditionalOnMissingBean {
    Class<?>[] value() default {};

    String[] type() default {};

    Class<?>[] ignored() default {};

    String[] ignoredType() default {};

    Class<? extends Annotation>[] annotation() default {};

    String[] name() default {};

    SearchStrategy search() default SearchStrategy.ALL;
    }
    这时候,我们就看到了我们熟悉的@Conditional注解,OnBeanCondition作为条件类。

    OnBeanCondition类的声明:

    //定义带注释的组件的排序顺序,2147483647即为默认值
    @Order(2147483647)
    class OnBeanCondition extends SpringBootCondition implements ConfigurationCondition {
    它继承了SpringBootCondition类,OnBeanCondition类中没有matches方法,而SpringBootCondition类中有实现matches方法。OnBeanCondition还实现了ConfigurationCondition,ConfigurationCondition接口不熟悉的读者可以到Spring ConfigurationCondition接口详解 了解接口。OnBeanCondition类重写了getConfigurationPhase()方法,表示在注册bean的时候注解生效:

    public ConfigurationPhase getConfigurationPhase() {
    return ConfigurationPhase.REGISTER_BEAN;
    }
    就从matches方法开始:

    //SpringBootCondition类中的matches方法
    public final boolean matches(ConditionContext context, AnnotatedTypeMetadata metadata) {
    //获取当前的类名或者方法名(由标注的位置决定)
    String classOrMethodName = getClassOrMethodName(metadata);

    try {
    //关键代码:这里就会判断出结果
    ConditionOutcome outcome = this.getMatchOutcome(context, metadata);
    //存入日志
    this.logOutcome(classOrMethodName, outcome);
    //存入记录
    this.recordEvaluation(context, classOrMethodName, outcome);
    //最后返回ConditionOutcome的isMatch就是返回boolean类型结果
    return outcome.isMatch();
    } catch (NoClassDefFoundError var5) {
    throw new IllegalStateException("Could not evaluate condition on " + classOrMethodName + " due to " + var5.getMessage() + " not found. Make sure your own configuration does not rely on that class. This can also happen if you are @ComponentScanning a springframework package (e.g. if you put a @ComponentScan in the default package by mistake)", var5);
    } catch (RuntimeException var6) {
    throw new IllegalStateException("Error processing condition on " + this.getName(metadata), var6);
    }
    }
    关键代码在OnBeanCondition的getMatchOutcome方法上:

    /**
    * 获得判断结果的方法,ConditionOutcome类中存着boolean类型的结果
    */
    public ConditionOutcome getMatchOutcome(ConditionContext context, AnnotatedTypeMetadata metadata) {
    //返回一个新的ConditionMessage
    ConditionMessage matchMessage = ConditionMessage.empty();
    OnBeanCondition.BeanSearchSpec spec;
    List matching;
    //这是metadata会调用isAnnotated方法判断当前标注的注解是不是ConditionalOnMissingBean
    //其实@ConditionalOnBean、@ConditionalOnMissingBean和@ConditionalOnSingleCandidate都是使用这个条件类,所以这里做判断
    if (metadata.isAnnotated(ConditionalOnBean.class.getName())) {
    spec = new OnBeanCondition.BeanSearchSpec(context, metadata, ConditionalOnBean.class);
    matching = this.getMatchingBeans(context, spec);
    if (matching.isEmpty()) {
    return ConditionOutcome.noMatch(ConditionMessage.forCondition(ConditionalOnBean.class, new Object[]{spec}).didNotFind("any beans").atAll());
    }

    matchMessage = matchMessage.andCondition(ConditionalOnBean.class, new Object[]{spec}).found("bean", "beans").items(Style.QUOTE, matching);
    }

    if (metadata.isAnnotated(ConditionalOnSingleCandidate.class.getName())) {
    OnBeanCondition.BeanSearchSpec spec = new OnBeanCondition.SingleCandidateBeanSearchSpec(context, metadata, ConditionalOnSingleCandidate.class);
    matching = this.getMatchingBeans(context, spec);
    if (matching.isEmpty()) {
    return ConditionOutcome.noMatch(ConditionMessage.forCondition(ConditionalOnSingleCandidate.class, new Object[]{spec}).didNotFind("any beans").atAll());
    }

    if (!this.hasSingleAutowireCandidate(context.getBeanFactory(), matching, spec.getStrategy() == SearchStrategy.ALL)) {
    return ConditionOutcome.noMatch(ConditionMessage.forCondition(ConditionalOnSingleCandidate.class, new Object[]{spec}).didNotFind("a primary bean from beans").items(Style.QUOTE, matching));
    }

    matchMessage = matchMessage.andCondition(ConditionalOnSingleCandidate.class, new Object[]{spec}).found("a primary bean from beans").items(Style.QUOTE, matching);
    }

    //如果当前注入的bean是@ConditionalOnMissingBean
    if (metadata.isAnnotated(ConditionalOnMissingBean.class.getName())) {
    //返回一个spec(说明),这里的spec规定了搜索的内容,比如搜索策略、需要搜索的类名......
    spec = new OnBeanCondition.BeanSearchSpec(context, metadata, ConditionalOnMissingBean.class);
    //主要的搜索实现在这个方法里,最后返回一个list
    matching = this.getMatchingBeans(context, spec);
    //判断搜索出来的结果
    if (!matching.isEmpty()) {
    return ConditionOutcome.noMatch(ConditionMessage.forCondition(ConditionalOnMissingBean.class, new Object[]{spec}).found("bean", "beans").items(Style.QUOTE, matching));
    }

    matchMessage = matchMessage.andCondition(ConditionalOnMissingBean.class, new Object[]{spec}).didNotFind("any beans").atAll();
    }

    return ConditionOutcome.match(matchMessage);
    }
    spec = new OnBeanCondition.BeanSearchSpec(context, metadata, ConditionalOnBean.class);

    这句中,相当于从内部类中将标注@ConditionalOnMissingBean注解时的属性都取出来:

    BeanSearchSpec(ConditionContext context, AnnotatedTypeMetadata metadata, Class<?> annotationType) {
    this.annotationType = annotationType;
    MultiValueMap<String, Object> attributes = metadata.getAllAnnotationAttributes(annotationType.getName(), true);
    //将attributes这个map中的数据放到对应的list成员变量中
    this.collect(attributes, "name", this.names);
    this.collect(attributes, "value", this.types);
    this.collect(attributes, "type", this.types);
    this.collect(attributes, "annotation", this.annotations);
    this.collect(attributes, "ignored", this.ignoredTypes);
    this.collect(attributes, "ignoredType", this.ignoredTypes);
    this.strategy = (SearchStrategy)metadata.getAnnotationAttributes(annotationType.getName()).get("search");
    OnBeanCondition.BeanTypeDeductionException deductionException = null;

    try {
    if (this.types.isEmpty() && this.names.isEmpty()) {
    this.addDeducedBeanType(context, metadata, this.types);
    }
    } catch (OnBeanCondition.BeanTypeDeductionException var7) {
    deductionException = var7;
    }

    this.validate(deductionException);
    }

    //验证的方法
    protected void validate(OnBeanCondition.BeanTypeDeductionException ex) {
    if (!this.hasAtLeastOne(this.types, this.names, this.annotations)) {
    String message = this.annotationName() + " did not specify a bean using type, name or annotation";
    if (ex == null) {
    throw new IllegalStateException(message);
    } else {
    throw new IllegalStateException(message + " and the attempt to deduce the bean's type failed", ex);
    }
    }
    }
    看一下OnBeanCondition类中的getMatchingBeans方法,里面有用到搜索策略,详见搜索策略介绍

    private List<String> getMatchingBeans(ConditionContext context, OnBeanCondition.BeanSearchSpec beans) {
    //获得当前bean工厂
    ConfigurableListableBeanFactory beanFactory = context.getBeanFactory();
    //判断当前的搜索策略是否是PARENTS或者ANCESTORS,默认是ALL
    if (beans.getStrategy() == SearchStrategy.PARENTS || beans.getStrategy() == SearchStrategy.ANCESTORS) {
    BeanFactory parent = beanFactory.getParentBeanFactory();
    Assert.isInstanceOf(ConfigurableListableBeanFactory.class, parent, "Unable to use SearchStrategy.PARENTS");
    //如果是PARENTS或者ANCESTORS,当前bean工厂就用父工厂
    beanFactory = (ConfigurableListableBeanFactory)parent;
    }

    if (beanFactory == null) {
    return Collections.emptyList();
    } else {
    List<String> beanNames = new ArrayList();
    //如果当前搜索策略等于CURRENT,为true
    boolean considerHierarchy = beans.getStrategy() != SearchStrategy.CURRENT;
    //这里的type就是需要查找的bean的类型
    //下面,会从属性中找bean
    Iterator var6 = beans.getTypes().iterator();

    String beanName;
    while(var6.hasNext()) {
    beanName = (String)var6.next();
    //如果找到了类型,接下来就是根据类型找bean的实例名,找示例名的方法在下方,实际上就是一个getNamesForType
    beanNames.addAll(this.getBeanNamesForType(beanFactory, beanName, context.getClassLoader(), considerHierarchy));
    }

    var6 = beans.getIgnoredTypes().iterator();

    while(var6.hasNext()) {
    beanName = (String)var6.next();
    beanNames.removeAll(this.getBeanNamesForType(beanFactory, beanName, context.getClassLoader(), considerHierarchy));
    }

    var6 = beans.getAnnotations().iterator();

    while(var6.hasNext()) {
    beanName = (String)var6.next();
    beanNames.addAll(Arrays.asList(this.getBeanNamesForAnnotation(beanFactory, beanName, context.getClassLoader(), considerHierarchy)));
    }

    var6 = beans.getNames().iterator();

    while(var6.hasNext()) {
    beanName = (String)var6.next();
    if (this.containsBean(beanFactory, beanName, considerHierarchy)) {
    beanNames.add(beanName);
    }
    }
    //将存放bean实例名的list返回
    return beanNames;
    }
    }



    //根据类型获取bean的name
    private Collection<String> getBeanNamesForType(ListableBeanFactory beanFactory, String type, ClassLoader classLoader, boolean considerHierarchy) throws LinkageError {
    try {
    Set<String> result = new LinkedHashSet();
    this.collectBeanNamesForType(result, beanFactory, ClassUtils.forName(type, classLoader), considerHierarchy);
    return result;
    } catch (ClassNotFoundException var6) {
    return Collections.emptySet();
    } catch (NoClassDefFoundError var7) {
    return Collections.emptySet();
    }
    }

    private void collectBeanNamesForType(Set<String> result, ListableBeanFactory beanFactory, Class<?> type, boolean considerHierarchy) {
    result.addAll(BeanTypeRegistry.get(beanFactory).getNamesForType(type));
    if (considerHierarchy && beanFactory instanceof HierarchicalBeanFactory) {
    BeanFactory parent = ((HierarchicalBeanFactory)beanFactory).getParentBeanFactory();
    if (parent instanceof ListableBeanFactory) {
    this.collectBeanNamesForType(result, (ListableBeanFactory)parent, type, considerHierarchy);
    }
    }

    }
    找完bean了之后,回到刚才的代码里:

    //如果当前注入的bean是@ConditionalOnMissingBean
    if (metadata.isAnnotated(ConditionalOnMissingBean.class.getName())) {
    //返回一个spec(说明),这里的spec规定了搜索的内容,比如搜索策略、需要搜索的类名......
    spec = new OnBeanCondition.BeanSearchSpec(context, metadata, ConditionalOnMissingBean.class);
    matching = this.getMatchingBeans(context, spec);
    if (!matching.isEmpty()) {
    return ConditionOutcome.noMatch(ConditionMessage.forCondition(ConditionalOnMissingBean.class, new Object[]{spec}).found("bean", "beans").items(Style.QUOTE, matching));
    }

    matchMessage = matchMessage.andCondition(ConditionalOnMissingBean.class, new Object[]{spec}).didNotFind("any beans").atAll();
    }
    如果第5行返回的list不是空的,就会返回ConditionOutcome对象noMatch方法,表示不匹配。ConditionOutcome类用于存放过滤结果,只有两个变量:

    /**
    * 过滤结果类
    */
    public class ConditionOutcome {
    /**
    * 匹配结果 true or false
    */
    private final boolean match;
    /**
    * 匹配结果信息
    */
    private final ConditionMessage message;
    两者区别:
    @ConditionOnBean在判断list的时候,如果list没有值,返回false,否则返回true

    @ConditionOnMissingBean在判断list的时候,如果list没有值,返回true,否则返回false,其他逻辑都一样

    例子:
    @ConditionalOnBean(javax.sql.DataSource.class)    
    Spring容器或者所有父容器中需要存在至少一个javax.sql.DataSource类的实例

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  • 原文地址:https://www.cnblogs.com/YuyuanNo1/p/12511121.html
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