接口定义
用于推断一个特定的beanDefinition是否能作为指定依赖的候选者的策略接口
public interface AutowireCandidateResolver {
// 默认情况下直接根据bd中的定义返回,如果没有进行特殊配置的话为true
default boolean isAutowireCandidate(BeanDefinitionHolder bdHolder, DependencyDescriptor descriptor) {
return bdHolder.getBeanDefinition().isAutowireCandidate();
}
// 指定的依赖是否是必要的
default boolean isRequired(DependencyDescriptor descriptor) {
return descriptor.isRequired();
}
// QualifierAnnotationAutowireCandidateResolver做了实现,判断是否有@Qualifier注解
// 一共有两种注解:
// 1.Spring内置的@Qualifier注解,org.springframework.beans.factory.annotation.Qualifier
// 2.添加了JSR-330相关依赖,javax.inject.Qualifier注解
// 默认情况下返回false
default boolean hasQualifier(DependencyDescriptor descriptor) {
return false;
}
// QualifierAnnotationAutowireCandidateResolver做了实现
// 获取一个该依赖一个建议的值
@Nullable
default Object getSuggestedValue(DependencyDescriptor descriptor) {
return null;
}
// 对某个依赖我们想要延迟注入,但是在创建Bean的过程中这个依赖又是必须的
// 通过下面这个方法就能为延迟注入的依赖先生成一个代理注入到bean中
@Nullable
default Object getLazyResolutionProxyIfNecessary(DependencyDescriptor descriptor, @Nullable String beanName) {
return null;
}
}
继承关系
可以看到继承关系都是单层的,我们就一个一个往下看
SimpleAutowireCandidateResolver
相比于接口没有什么区别,实现也就是父接口中的默认实现,一般也不会使用这个类
public class SimpleAutowireCandidateResolver implements AutowireCandidateResolver {
@Override
public boolean isAutowireCandidate(BeanDefinitionHolder bdHolder, DependencyDescriptor descriptor) {
return bdHolder.getBeanDefinition().isAutowireCandidate();
}
@Override
public boolean isRequired(DependencyDescriptor descriptor) {
return descriptor.isRequired();
}
@Override
@Nullable
public Object getSuggestedValue(DependencyDescriptor descriptor) {
return null;
}
@Override
@Nullable
public Object getLazyResolutionProxyIfNecessary(DependencyDescriptor descriptor, @Nullable String beanName) {
return null;
}
}
GenericTypeAwareAutowireCandidateResolver
额外增加了对泛型的处理能力
public class GenericTypeAwareAutowireCandidateResolver extends SimpleAutowireCandidateResolver
implements BeanFactoryAware {
@Nullable
private BeanFactory beanFactory;
@Override
public void setBeanFactory(BeanFactory beanFactory) {
this.beanFactory = beanFactory;
}
@Nullable
protected final BeanFactory getBeanFactory() {
return this.beanFactory;
}
@Override
public boolean isAutowireCandidate(BeanDefinitionHolder bdHolder, DependencyDescriptor descriptor) {
if (!super.isAutowireCandidate(bdHolder, descriptor)) {
// 如果bd中已经配置了这个bean不做为依赖进行注入的话,直接返回false
return false;
}
// 检查泛型是否匹配
return checkGenericTypeMatch(bdHolder, descriptor);
}
}
QualifierAnnotationAutowireCandidateResolver
增加了对@Qualifier注解以及@Value注解的处理能力
public class QualifierAnnotationAutowireCandidateResolver extends GenericTypeAwareAutowireCandidateResolver {
private final Set<Class<? extends Annotation>> qualifierTypes = new LinkedHashSet<>(2);
// @Value注解
private Class<? extends Annotation> valueAnnotationType = Value.class;
// @Qualifier注解
@SuppressWarnings("unchecked")
public QualifierAnnotationAutowireCandidateResolver() {
this.qualifierTypes.add(Qualifier.class);
try {
this.qualifierTypes.add((Class<? extends Annotation>) ClassUtils.forName("javax.inject.Qualifier",
QualifierAnnotationAutowireCandidateResolver.class.getClassLoader()));
}
catch (ClassNotFoundException ex) {
// JSR-330 API not available - simply skip.
}
}
// .......
@Override
public boolean isAutowireCandidate(BeanDefinitionHolder bdHolder, DependencyDescriptor descriptor) {
// 类型上已经匹配了
boolean match = super.isAutowireCandidate(bdHolder, descriptor);
if (match) {
// 还需要判断是否满足@Qualifier注解的要求
match = checkQualifiers(bdHolder, descriptor.getAnnotations());
if (match) {
MethodParameter methodParam = descriptor.getMethodParameter();
if (methodParam != null) {
Method method = methodParam.getMethod();
if (method == null || void.class == method.getReturnType()) {
match = checkQualifiers(bdHolder, methodParam.getMethodAnnotations());
}
}
}
}
return match;
}
// .....
// 是否是@Qualifier注解
protected boolean isQualifier(Class<? extends Annotation> annotationType) {
for (Class<? extends Annotation> qualifierType : this.qualifierTypes) {
if (annotationType.equals(qualifierType) || annotationType.isAnnotationPresent(qualifierType)) {
return true;
}
}
return false;
}
@Override
@Nullable
public Object getSuggestedValue(DependencyDescriptor descriptor) {
Object value = findValue(descriptor.getAnnotations());
if (value == null) {
MethodParameter methodParam = descriptor.getMethodParameter();
if (methodParam != null) {
value = findValue(methodParam.getMethodAnnotations());
}
}
return value;
}
// 查找@Value注解
@Nullable
protected Object findValue(Annotation[] annotationsToSearch) {
if (annotationsToSearch.length > 0) {
AnnotationAttributes attr = AnnotatedElementUtils.getMergedAnnotationAttributes(
AnnotatedElementUtils.forAnnotations(annotationsToSearch), this.valueAnnotationType);
if (attr != null) {
return extractValue(attr);
}
}
return null;
}
// 获取@Value注解中的值
protected Object extractValue(AnnotationAttributes attr) {
Object value = attr.get(AnnotationUtils.VALUE);
if (value == null) {
throw new IllegalStateException("Value annotation must have a value attribute");
}
return value;
}
}
ContextAnnotationAutowireCandidateResolver
这个类是最底层的子类,集成了所有的方法,并且额外提供了对依赖进行延迟处理的能力
public class ContextAnnotationAutowireCandidateResolver extends QualifierAnnotationAutowireCandidateResolver {
// 如果依赖需要进行延迟处理,那么构建一个代理对象先注入到bean中,不会直接去创建依赖对象
@Override
@Nullable
public Object getLazyResolutionProxyIfNecessary(DependencyDescriptor descriptor, @Nullable String beanName) {
return (isLazy(descriptor) ? buildLazyResolutionProxy(descriptor, beanName) : null);
}
// 依赖是否需要延迟处理
protected boolean isLazy(DependencyDescriptor descriptor) {
for (Annotation ann : descriptor.getAnnotations()) {
Lazy lazy = AnnotationUtils.getAnnotation(ann, Lazy.class);
if (lazy != null && lazy.value()) {
return true;
}
}
MethodParameter methodParam = descriptor.getMethodParameter();
if (methodParam != null) {
Method method = methodParam.getMethod();
if (method == null || void.class == method.getReturnType()) {
Lazy lazy = AnnotationUtils.getAnnotation(methodParam.getAnnotatedElement(), Lazy.class);
if (lazy != null && lazy.value()) {
return true;
}
}
}
return false;
}
// 构建延迟处理的代理对象
protected Object buildLazyResolutionProxy(final DependencyDescriptor descriptor, final @Nullable String beanName) {
final DefaultListableBeanFactory beanFactory = (DefaultListableBeanFactory) getBeanFactory();
// 创建了一个TargetSource
TargetSource ts = new TargetSource() {
@Override
public Class<?> getTargetClass() {
return descriptor.getDependencyType();
}
@Override
public boolean isStatic() {
return false;
}
// target是我们实际想要使用的对象,如果不进行延迟处理,那么注入到bean中的应该就是这个对象
// 但是因为要进行延迟注入依赖,所有会向外暴露一个TargetSource,这个TargetSource的目标为实际想要使用的对象,生成代理时会基于TargetSource进行生成。在运行期间(完成注入后)我们使用这个延迟处理的依赖时实际调用的会是target中的方法。
@Override
public Object getTarget() {
Object target = beanFactory.doResolveDependency(descriptor, beanName, null, null);
if (target == null) {
Class<?> type = getTargetClass();
if (Map.class == type) {
return Collections.emptyMap();
}
else if (List.class == type) {
return Collections.emptyList();
}
else if (Set.class == type || Collection.class == type) {
return Collections.emptySet();
}
throw new NoSuchBeanDefinitionException(descriptor.getResolvableType(),
"Optional dependency not present for lazy injection point");
}
return target;
}
@Override
public void releaseTarget(Object target) {
}
};
// 使用ProxyFactory,给TargetSource生成一个代理
ProxyFactory pf = new ProxyFactory();
pf.setTargetSource(ts);
Class<?> dependencyType = descriptor.getDependencyType();
// 如果依赖的类型是一个接口,需要让代理类也实现这个接口
if (dependencyType.isInterface()) {
pf.addInterface(dependencyType);
}
// 生成代理
return pf.getProxy(beanFactory.getBeanClassLoader());
}
}
