Spring原始碼解讀之核心容器下節
續
上一篇我們通過ClassPathXmlApplicationContext載入xml檔案,通過BeanFactory獲取例項bean的demo程式碼去解讀了Spring Core Container中的spring-beans,spring-core,spring-context三個元件之間的一些具體類的實現。從載入XML、構造BeanFactory、到初始化Bean,已經有了一個全貌的瞭解。今天繼續前一節,我們來說一下註解方式是如何實現bean是如何實現自動化裝配和依賴載入的。
註解demo
package com.ckmike.dao.impl; import com.ckmike.beans.Employee; import com.ckmike.dao.EmployeeMapper; import org.springframework.stereotype.Repository; /** * EmployeeDao 簡要描述 * <p> TODO:描述該類職責 </p> * * @author ckmike * @version 1.0 * @date 18-12-15 下午12:27 * @copyright ckmike **/ @Repository(value = "employeeDao") public class EmployeeDao implements EmployeeMapper { public Employee getEmployeeById() { return new Employee(); } } package com.ckmike.service.impl; import com.ckmike.beans.Employee; import com.ckmike.dao.EmployeeMapper; import com.ckmike.service.EmployeeService; import org.springframework.stereotype.Service; import javax.annotation.Resource; /** * EmployeeServiceImpl 簡要描述 * <p> TODO:描述該類職責 </p> * * @author ckmike * @version 1.0 * @date 18-12-15 上午10:38 * @copyright ckmike **/ @Service(value = "employeeService") public class EmployeeServiceImpl implements EmployeeService { @Resource(name = "employeeDao") private EmployeeMapper employeeMapper; public Employee getEmployee() { return employeeMapper.getEmployeeById(); } } import com.ckmike.beans.Employee; import com.ckmike.config.SpringConfig; import com.ckmike.service.EmployeeService; import org.junit.Test; import org.junit.runner.RunWith; import org.springframework.test.context.ContextConfiguration; import org.springframework.test.context.junit4.SpringJUnit4Cla***unner; import javax.annotation.Resource; /** * SpringCoreAnnotationTest 簡要描述 * <p> TODO:描述該類職責 </p> * * @author ckmike * @version 1.0 * @date 18-12-15 下午12:19 * @copyright ckmike **/ @RunWith(value = SpringJUnit4Cla***unner.class) @ContextConfiguration(classes={SpringConfig.class}) public class SpringCoreAnnotationTest { @Resource(name="employeeService") private EmployeeService employeeService; @Test public void annotationTest() { Employee employee = employeeService.getEmployee(); System.out.println(employee.toString()); } }
pom.xml檔案
<?xml version="1.0" encoding="UTF-8"?> <project xmlns="http://maven.apache.org/POM/4.0.0" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 http://maven.apache.org/xsd/maven-4.0.0.xsd"> <modelVersion>4.0.0</modelVersion> <groupId>Spring-Core-Demo</groupId> <artifactId>com.ckmike.springcore.demo</artifactId> <version>1.0-SNAPSHOT</version> <dependencies> <!-- Spring的核心模組 --> <dependency> <groupId>org.springframework</groupId> <artifactId>spring-core</artifactId> <version>5.1.3.RELEASE</version> </dependency> <!-- Beans模組 --> <dependency> <groupId>org.springframework</groupId> <artifactId>spring-beans</artifactId> <version>5.1.3.RELEASE</version> </dependency> <!-- 生命週期管理 --> <dependency> <groupId>org.springframework</groupId> <artifactId>spring-context</artifactId> <version>5.1.3.RELEASE</version> </dependency> <!-- SPel模組 --> <dependency> <groupId>org.springframework</groupId> <artifactId>spring-expression</artifactId> <version>5.1.3.RELEASE</version> </dependency> <dependency> <groupId>junit</groupId> <artifactId>junit</artifactId> <version>4.12</version> <scope>test</scope> </dependency> <dependency> <groupId>org.springframework</groupId> <artifactId>spring-test</artifactId> <version>5.1.2.RELEASE</version> <scope>test</scope> </dependency> </dependencies> </project>
這種方式是實際開發測試的流程,一般我們在Spring專案中會使用註解進行bean註冊,這種方式和XML方式有什麼不同呢?那種方式比較好呢?
註解方式:方便開發和使用,只要通過註解自動注入物件,解放了開發使用者。但是對於維護而言,各個註解是散落在各個類上的,如果你需要知道整個專案中bean的全貌,那麼你需要頻繁的切換到各個類。
XML管理方式:把所有的bean管理聚集在一起,維護查詢起來非常方便。但是對於開發和使用者需要一起維護這個XML檔案,對於開發使用者不太友好。
綜合考慮:一般我們開發一個專案都會約定一些規則與共識,所以這兩種方式都有存在的意義,具體選擇結合專案人員、專案場景做出考量即可。
自動裝配
從上面的註解方式自動裝配方式,我們看@ContextConfiguration(classes={SpringConfig.class}),它依然是通過初始化Context來初始化Bean容器,只是這個時候我們不是從xml初始容器,而是通過掃描註解的方式自動註冊bean到容器中。我們看下SpringConfig這個類做了什麼:
/**
* SpringConfig 簡要描述
* <p> TODO:描述該類職責 </p>
*
* @author ckmike
* @version 1.0
* @date 18-12-15 下午12:34
* @copyright ckmike
**/
@Configuration
@ComponentScan(basePackages={"com.ckmike"})
public class SpringConfig {
}
@ComponentScan指定掃描的根路徑,掃描該路徑下所有的註解,自動註冊到Bean容器當中。我們繼續看下@ComponentScan:
/*
* Copyright 2002-2016 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.context.annotation;
import java.lang.annotation.Documented;
import java.lang.annotation.ElementType;
import java.lang.annotation.Repeatable;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.annotation.Target;
import org.springframework.beans.factory.support.BeanNameGenerator;
import org.springframework.core.annotation.AliasFor;
import org.springframework.core.type.filter.TypeFilter;
/**
* Configures component scanning directives for use with @{@link Configuration} classes.
* Provides support parallel with Spring XML's {@code <context:component-scan>} element.
*
* <p>Either {@link #basePackageClasses} or {@link #basePackages} (or its alias
* {@link #value}) may be specified to define specific packages to scan. If specific
* packages are not defined, scanning will occur from the package of the
* class that declares this annotation.
*
* <p>Note that the {@code <context:component-scan>} element has an
* {@code annotation-config} attribute; however, this annotation does not. This is because
* in almost all cases when using {@code @ComponentScan}, default annotation config
* processing (e.g. processing {@code @Autowired} and friends) is assumed. Furthermore,
* when using {@link AnnotationConfigApplicationContext}, annotation config processors are
* always registered, meaning that any attempt to disable them at the
* {@code @ComponentScan} level would be ignored.
*
* <p>See {@link Configuration @Configuration}'s Javadoc for usage examples.
*
* @author Chris Beams
* @author Juergen Hoeller
* @author Sam Brannen
* @since 3.1
* @see Configuration
*/
@Retention(RetentionPolicy.RUNTIME)
@Target(ElementType.TYPE)
@Documented
@Repeatable(ComponentScans.class)
public @interface ComponentScan {
/**
* Alias for {@link #basePackages}.
* <p>Allows for more concise annotation declarations if no other attributes
* are needed — for example, {@code @ComponentScan("org.my.pkg")}
* instead of {@code @ComponentScan(basePackages = "org.my.pkg")}.
*/
@AliasFor("basePackages")
String[] value() default {};
/**
* Base packages to scan for annotated components.
* <p>{@link #value} is an alias for (and mutually exclusive with) this
* attribute.
* <p>Use {@link #basePackageClasses} for a type-safe alternative to
* String-based package names.
*/
@AliasFor("value")
String[] basePackages() default {};
/**
* Type-safe alternative to {@link #basePackages} for specifying the packages
* to scan for annotated components. The package of each class specified will be scanned.
* <p>Consider creating a special no-op marker class or interface in each package
* that serves no purpose other than being referenced by this attribute.
*/
Class<?>[] basePackageClasses() default {};
/**
* The {@link BeanNameGenerator} class to be used for naming detected components
* within the Spring container.
* <p>The default value of the {@link BeanNameGenerator} interface itself indicates
* that the scanner used to process this {@code @ComponentScan} annotation should
* use its inherited bean name generator, e.g. the default
* {@link AnnotationBeanNameGenerator} or any custom instance supplied to the
* application context at bootstrap time.
* @see AnnotationConfigApplicationContext#setBeanNameGenerator(BeanNameGenerator)
*/
Class<? extends BeanNameGenerator> nameGenerator() default BeanNameGenerator.class;
/**
* The {@link ScopeMetadataResolver} to be used for resolving the scope of detected components.
*/
Class<? extends ScopeMetadataResolver> scopeResolver() default AnnotationScopeMetadataResolver.class;
/**
* Indicates whether proxies should be generated for detected components, which may be
* necessary when using scopes in a proxy-style fashion.
* <p>The default is defer to the default behavior of the component scanner used to
* execute the actual scan.
* <p>Note that setting this attribute overrides any value set for {@link #scopeResolver}.
* @see ClassPathBeanDefinitionScanner#setScopedProxyMode(ScopedProxyMode)
*/
ScopedProxyMode scopedProxy() default ScopedProxyMode.DEFAULT;
/**
* Controls the class files eligible for component detection.
* <p>Consider use of {@link #includeFilters} and {@link #excludeFilters}
* for a more flexible approach.
*/
String resourcePattern() default ClassPathScanningCandidateComponentProvider.DEFAULT_RESOURCE_PATTERN;
/**
* Indicates whether automatic detection of classes annotated with {@code @Component}
* {@code @Repository}, {@code @Service}, or {@code @Controller} should be enabled.
*/
boolean useDefaultFilters() default true;
/**
* Specifies which types are eligible for component scanning.
* <p>Further narrows the set of candidate components from everything in {@link #basePackages}
* to everything in the base packages that matches the given filter or filters.
* <p>Note that these filters will be applied in addition to the default filters, if specified.
* Any type under the specified base packages which matches a given filter will be included,
* even if it does not match the default filters (i.e. is not annotated with {@code @Component}).
* @see #resourcePattern()
* @see #useDefaultFilters()
*/
Filter[] includeFilters() default {};
/**
* Specifies which types are not eligible for component scanning.
* @see #resourcePattern
*/
Filter[] excludeFilters() default {};
/**
* Specify whether scanned beans should be registered for lazy initialization.
* <p>Default is {@code false}; switch this to {@code true} when desired.
* @since 4.1
*/
boolean lazyInit() default false;
/**
* Declares the type filter to be used as an {@linkplain ComponentScan#includeFilters
* include filter} or {@linkplain ComponentScan#excludeFilters exclude filter}.
*/
@Retention(RetentionPolicy.RUNTIME)
@Target({})
@interface Filter {
/**
* The type of filter to use.
* <p>Default is {@link FilterType#ANNOTATION}.
* @see #classes
* @see #pattern
*/
FilterType type() default FilterType.ANNOTATION;
/**
* Alias for {@link #classes}.
* @see #classes
*/
@AliasFor("classes")
Class<?>[] value() default {};
/**
* The class or classes to use as the filter.
* <p>The following table explains how the classes will be interpreted
* based on the configured value of the {@link #type} attribute.
* <table border="1">
* <tr><th>{@code FilterType}</th><th>Class Interpreted As</th></tr>
* <tr><td>{@link FilterType#ANNOTATION ANNOTATION}</td>
* <td>the annotation itself</td></tr>
* <tr><td>{@link FilterType#ASSIGNABLE_TYPE ASSIGNABLE_TYPE}</td>
* <td>the type that detected components should be assignable to</td></tr>
* <tr><td>{@link FilterType#CUSTOM CUSTOM}</td>
* <td>an implementation of {@link TypeFilter}</td></tr>
* </table>
* <p>When multiple classes are specified, <em>OR</em> logic is applied
* — for example, "include types annotated with {@code @Foo} OR {@code @Bar}".
* <p>Custom {@link TypeFilter TypeFilters} may optionally implement any of the
* following {@link org.springframework.beans.factory.Aware Aware} interfaces, and
* their respective methods will be called prior to {@link TypeFilter#match match}:
* <ul>
* <li>{@link org.springframework.context.EnvironmentAware EnvironmentAware}</li>
* <li>{@link org.springframework.beans.factory.BeanFactoryAware BeanFactoryAware}
* <li>{@link org.springframework.beans.factory.BeanClassLoaderAware BeanClassLoaderAware}
* <li>{@link org.springframework.context.ResourceLoaderAware ResourceLoaderAware}
* </ul>
* <p>Specifying zero classes is permitted but will have no effect on component
* scanning.
* @since 4.2
* @see #value
* @see #type
*/
@AliasFor("value")
Class<?>[] classes() default {};
/**
* The pattern (or patterns) to use for the filter, as an alternative
* to specifying a Class {@link #value}.
* <p>If {@link #type} is set to {@link FilterType#ASPECTJ ASPECTJ},
* this is an AspectJ type pattern expression. If {@link #type} is
* set to {@link FilterType#REGEX REGEX}, this is a regex pattern
* for the fully-qualified class names to match.
* @see #type
* @see #classes
*/
String[] pattern() default {};
}
}
如果不指定路徑,那麼就從classpath下面去掃描,lazyInit預設false,預設是通過BeanNameGenerator去生成bean,然後放入到容器中,其中還有scopedProxy,我們先來看看BeanNameGenerator介面的實現類:
/*
* Copyright 2002-2017 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.context.annotation;
import java.beans.Introspector;
import java.util.Map;
import java.util.Set;
import org.springframework.beans.factory.annotation.AnnotatedBeanDefinition;
import org.springframework.beans.factory.config.BeanDefinition;
import org.springframework.beans.factory.support.BeanDefinitionRegistry;
import org.springframework.beans.factory.support.BeanNameGenerator;
import org.springframework.core.annotation.AnnotationAttributes;
import org.springframework.core.type.AnnotationMetadata;
import org.springframework.lang.Nullable;
import org.springframework.util.Assert;
import org.springframework.util.ClassUtils;
import org.springframework.util.StringUtils;
/**
* {@link org.springframework.beans.factory.support.BeanNameGenerator}
* implementation for bean classes annotated with the
* {@link org.springframework.stereotype.Component @Component} annotation
* or with another annotation that is itself annotated with
* {@link org.springframework.stereotype.Component @Component} as a
* meta-annotation. For example, Spring's stereotype annotations (such as
* {@link org.springframework.stereotype.Repository @Repository}) are
* themselves annotated with
* {@link org.springframework.stereotype.Component @Component}.
*
* <p>Also supports Java EE 6's {@link javax.annotation.ManagedBean} and
* JSR-330's {@link javax.inject.Named} annotations, if available. Note that
* Spring component annotations always override such standard annotations.
*
* <p>If the annotation's value doesn't indicate a bean name, an appropriate
* name will be built based on the short name of the class (with the first
* letter lower-cased). For example:
*
* <pre class="code">com.xyz.FooServiceImpl -> fooServiceImpl</pre>
*
* @author Juergen Hoeller
* @author Mark Fisher
* @since 2.5
* @see org.springframework.stereotype.Component#value()
* @see org.springframework.stereotype.Repository#value()
* @see org.springframework.stereotype.Service#value()
* @see org.springframework.stereotype.Controller#value()
* @see javax.inject.Named#value()
*/
public class AnnotationBeanNameGenerator implements BeanNameGenerator {
private static final String COMPONENT_ANNOTATION_CLASSNAME = "org.springframework.stereotype.Component";
@Override
public String generateBeanName(BeanDefinition definition, BeanDefinitionRegistry registry) {
if (definition instanceof AnnotatedBeanDefinition) {
String beanName = determineBeanNameFromAnnotation((AnnotatedBeanDefinition) definition);
if (StringUtils.hasText(beanName)) {
// Explicit bean name found.
return beanName;
}
}
// Fallback: generate a unique default bean name.
return buildDefaultBeanName(definition, registry);
}
/**
* Derive a bean name from one of the annotations on the class.
* @param annotatedDef the annotation-aware bean definition
* @return the bean name, or {@code null} if none is found
*/
@Nullable
protected String determineBeanNameFromAnnotation(AnnotatedBeanDefinition annotatedDef) {
AnnotationMetadata amd = annotatedDef.getMetadata();
Set<String> types = amd.getAnnotationTypes();
String beanName = null;
for (String type : types) {
AnnotationAttributes attributes = AnnotationConfigUtils.attributesFor(amd, type);
if (attributes != null && isStereotypeWithNameValue(type, amd.getMetaAnnotationTypes(type), attributes)) {
Object value = attributes.get("value");
if (value instanceof String) {
String strVal = (String) value;
if (StringUtils.hasLength(strVal)) {
if (beanName != null && !strVal.equals(beanName)) {
throw new IllegalStateException("Stereotype annotations suggest inconsistent " +
"component names: '" + beanName + "' versus '" + strVal + "'");
}
beanName = strVal;
}
}
}
}
return beanName;
}
/**
* Check whether the given annotation is a stereotype that is allowed
* to suggest a component name through its annotation {@code value()}.
* @param annotationType the name of the annotation class to check
* @param metaAnnotationTypes the names of meta-annotations on the given annotation
* @param attributes the map of attributes for the given annotation
* @return whether the annotation qualifies as a stereotype with component name
*/
protected boolean isStereotypeWithNameValue(String annotationType,
Set<String> metaAnnotationTypes, @Nullable Map<String, Object> attributes) {
boolean isStereotype = annotationType.equals(COMPONENT_ANNOTATION_CLASSNAME) ||
metaAnnotationTypes.contains(COMPONENT_ANNOTATION_CLASSNAME) ||
annotationType.equals("javax.annotation.ManagedBean") ||
annotationType.equals("javax.inject.Named");
return (isStereotype && attributes != null && attributes.containsKey("value"));
}
/**
* Derive a default bean name from the given bean definition.
* <p>The default implementation delegates to {@link #buildDefaultBeanName(BeanDefinition)}.
* @param definition the bean definition to build a bean name for
* @param registry the registry that the given bean definition is being registered with
* @return the default bean name (never {@code null})
*/
protected String buildDefaultBeanName(BeanDefinition definition, BeanDefinitionRegistry registry) {
return buildDefaultBeanName(definition);
}
/**
* Derive a default bean name from the given bean definition.
* <p>The default implementation simply builds a decapitalized version
* of the short class name: e.g. "mypackage.MyJdbcDao" -> "myJdbcDao".
* <p>Note that inner classes will thus have names of the form
* "outerClassName.InnerClassName", which because of the period in the
* name may be an issue if you are autowiring by name.
* @param definition the bean definition to build a bean name for
* @return the default bean name (never {@code null})
*/
protected String buildDefaultBeanName(BeanDefinition definition) {
String beanClassName = definition.getBeanClassName();
Assert.state(beanClassName != null, "No bean class name set");
String shortClassName = ClassUtils.getShortName(beanClassName);
return Introspector.decapitalize(shortClassName);
}
}
從這裡我們就很容易發現,他是通過註解(@Controller,@Service,@Component,@Repository)掃描value生成beanName並且要求是唯一的,這樣我們在呼叫註解注入的時候也就可以自動的獲取到bean例項,實現自動裝配了。
我們再來看下ScopedProxyMode
package org.springframework.context.annotation;
/**
* Enumerates the various scoped-proxy options.
*
* <p>For a more complete discussion of exactly what a scoped proxy is, see the
* section of the Spring reference documentation entitled '<em>Scoped beans as
* dependencies</em>'.
*
* @author Mark Fisher
* @since 2.5
* @see ScopeMetadata
*/
public enum ScopedProxyMode {
/**
* Default typically equals {@link #NO}, unless a different default
* has been configured at the component-scan instruction level.
*/
DEFAULT,
/**
* Do not create a scoped proxy.
* <p>This proxy-mode is not typically useful when used with a
* non-singleton scoped instance, which should favor the use of the
* {@link #INTERFACES} or {@link #TARGET_CLASS} proxy-modes instead if it
* is to be used as a dependency.
*/
NO,
/**
* Create a JDK dynamic proxy implementing <i>all</i> interfaces exposed by
* the class of the target object.
*/
INTERFACES,
/**
* Create a class-based proxy (uses CGLIB).
*/
TARGET_CLASS;
}
這是一個列舉類,可選值JDK動態代理、CGlib動態代理,或者NO,預設是default。每一種值的說明也非常清晰說明了。
說道這裡我們其實就已經很大致清楚註解注入,自動裝配的這個過程了。通過掃描註解value生成唯一BeanName,註冊Bean,初始化Context容器,然後在使用的地方通過註解注入指定 name的Bean。
@Autowired與@Resource
spring不但支援自己定義的@Autowired註解,還支援幾個由JSR-250規範定義的註解,它們分別是@Resource、@PostConstruct以及@PreDestroy。通常我們實際上不會使用@Resource註解進行注入,通常都是通過@Autowired進自動裝配,那麼他們有什麼區別呢?
@Resource是JAVA在javax.annotation下提供的註解。
@Autowired是Spring-beans下org.springframework.beans.factory.annotation提供的自定義註解。
我們先來看下Resource和Autowired:
package javax.annotation;
import java.lang.annotation.*;
import static java.lang.annotation.ElementType.*;
import static java.lang.annotation.RetentionPolicy.*;
/**
* The Resource annotation marks a resource that is needed
* by the application. This annotation may be applied to an
* application component class, or to fields or methods of the
* component class. When the annotation is applied to a
* field or method, the container will inject an instance
* of the requested resource into the application component
* when the component is initialized. If the annotation is
* applied to the component class, the annotation declares a
* resource that the application will look up at runtime. <p>
*
* Even though this annotation is not marked Inherited, deployment
* tools are required to examine all superclasses of any component
* class to discover all uses of this annotation in all superclasses.
* All such annotation instances specify resources that are needed
* by the application component. Note that this annotation may
* appear on private fields and methods of superclasses; the container
* is required to perform injection in these cases as well.
*
* @since Common Annotations 1.0
*/
@Target({TYPE, FIELD, METHOD})
@Retention(RUNTIME)
public @interface Resource {
/**
* The JNDI name of the resource. For field annotations,
* the default is the field name. For method annotations,
* the default is the JavaBeans property name corresponding
* to the method. For class annotations, there is no default
* and this must be specified.
*/
String name() default "";
/**
* The name of the resource that the reference points to. It can
* link to any compatible resource using the global JNDI names.
*
* @since Common Annotations 1.1
*/
String lookup() default "";
/**
* The Java type of the resource. For field annotations,
* the default is the type of the field. For method annotations,
* the default is the type of the JavaBeans property.
* For class annotations, there is no default and this must be
* specified.
*/
Class<?> type() default java.lang.Object.class;
/**
* The two possible authentication types for a resource.
*/
enum AuthenticationType {
CONTAINER,
APPLICATION
}
/**
* The authentication type to use for this resource.
* This may be specified for resources representing a
* connection factory of any supported type, and must
* not be specified for resources of other types.
*/
AuthenticationType authenticationType() default AuthenticationType.CONTAINER;
/**
* Indicates whether this resource can be shared between
* this component and other components.
* This may be specified for resources representing a
* connection factory of any supported type, and must
* not be specified for resources of other types.
*/
boolean shareable() default true;
/**
* A product specific name that this resource should be mapped to.
* The name of this resource, as defined by the <code>name</code>
* element or defaulted, is a name that is local to the application
* component using the resource. (It's a name in the JNDI
* <code>java:comp/env</code> namespace.) Many application servers
* provide a way to map these local names to names of resources
* known to the application server. This mapped name is often a
* <i>global</i> JNDI name, but may be a name of any form. <p>
*
* Application servers are not required to support any particular
* form or type of mapped name, nor the ability to use mapped names.
* The mapped name is product-dependent and often installation-dependent.
* No use of a mapped name is portable.
*/
String mappedName() default "";
/**
* Description of this resource. The description is expected
* to be in the default language of the system on which the
* application is deployed. The description can be presented
* to the Deployer to help in choosing the correct resource.
*/
String description() default "";
}
@Autowired
/*
* Copyright 2002-2018 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.annotation;
import java.lang.annotation.Documented;
import java.lang.annotation.ElementType;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.annotation.Target;
/**
* Marks a constructor, field, setter method or config method as to be autowired by
* Spring's dependency injection facilities. This is an alternative to the JSR-330
* {@link javax.inject.Inject} annotation, adding required-vs-optional semantics.
*
* <p>Only one constructor (at max) of any given bean class may declare this annotation
* with the 'required' parameter set to {@code true}, indicating <i>the</i> constructor
* to autowire when used as a Spring bean. If multiple <i>non-required</i> constructors
* declare the annotation, they will be considered as candidates for autowiring.
* The constructor with the greatest number of dependencies that can be satisfied by
* matching beans in the Spring container will be chosen. If none of the candidates
* can be satisfied, then a primary/default constructor (if present) will be used.
* If a class only declares a single constructor to begin with, it will always be used,
* even if not annotated. An annotated constructor does not have to be public.
*
* <p>Fields are injected right after construction of a bean, before any config methods
* are invoked. Such a config field does not have to be public.
*
* <p>Config methods may have an arbitrary name and any number of arguments; each of
* those arguments will be autowired with a matching bean in the Spring container.
* Bean property setter methods are effectively just a special case of such a general
* config method. Such config methods do not have to be public.
*
* <p>In the case of a multi-arg constructor or method, the 'required' parameter is
* applicable to all arguments. Individual parameters may be declared as Java-8-style
* {@link java.util.Optional} or, as of Spring Framework 5.0, also as {@code @Nullable}
* or a not-null parameter type in Kotlin, overriding the base required semantics.
*
* <p>In case of a {@link java.util.Collection} or {@link java.util.Map} dependency type,
* the container autowires all beans matching the declared value type. For such purposes,
* the map keys must be declared as type String which will be resolved to the corresponding
* bean names. Such a container-provided collection will be ordered, taking into account
* {@link org.springframework.core.Ordered}/{@link org.springframework.core.annotation.Order}
* values of the target components, otherwise following their registration order in the
* container. Alternatively, a single matching target bean may also be a generally typed
* {@code Collection} or {@code Map} itself, getting injected as such.
*
* <p>Note that actual injection is performed through a
* {@link org.springframework.beans.factory.config.BeanPostProcessor
* BeanPostProcessor} which in turn means that you <em>cannot</em>
* use {@code @Autowired} to inject references into
* {@link org.springframework.beans.factory.config.BeanPostProcessor
* BeanPostProcessor} or
* {@link org.springframework.beans.factory.config.BeanFactoryPostProcessor BeanFactoryPostProcessor}
* types. Please consult the javadoc for the {@link AutowiredAnnotationBeanPostProcessor}
* class (which, by default, checks for the presence of this annotation).
*
* @author Juergen Hoeller
* @author Mark Fisher
* @since 2.5
* @see AutowiredAnnotationBeanPostProcessor
* @see Qualifier
* @see Value
*/
@Target({ElementType.CONSTRUCTOR, ElementType.METHOD, ElementType.PARAMETER, ElementType.FIELD, ElementType.ANNOTATION_TYPE})
@Retention(RetentionPolicy.RUNTIME)
@Documented
public @interface Autowired {
/**
* Declares whether the annotated dependency is required.
* <p>Defaults to {@code true}.
*/
boolean required() default true;
}
我們可以新增一個EmployeeDao2進行測試,分表使用@Autowired、@Resource注入EmployeeServiceImpl中測試。
package com.ckmike.dao.impl;
import com.ckmike.beans.Employee;
import com.ckmike.dao.EmployeeMapper;
import org.springframework.stereotype.Repository;
/**
* EmployeeDao2 簡要描述
* <p> TODO:描述該類職責 </p>
*
* @author ckmike
* @version 1.0
* @date 18-12-15 下午4:15
* @copyright ckmike
**/
@Repository(value = "employeeDao2")
public class EmployeeDao2 implements EmployeeMapper {
public Employee getEmployeeById() {
System.out.println("EmployeeDao2");
return new Employee();
}
}
package com.ckmike.service.impl;
import com.ckmike.beans.Employee;
import com.ckmike.dao.EmployeeMapper;
import com.ckmike.service.EmployeeService;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.stereotype.Service;
import javax.annotation.Resource;
/**
* EmployeeServiceImpl 簡要描述
* <p> TODO:描述該類職責 </p>
*
* @author ckmike
* @version 1.0
* @date 18-12-15 上午10:38
* @copyright ckmike
**/
@Service(value = "employeeService")
public class EmployeeServiceImpl implements EmployeeService {
@Autowired
private EmployeeMapper employeeMapper;
public Employee getEmployee() {
return employeeMapper.getEmployeeById();
}
}
import com.ckmike.beans.Employee;
import com.ckmike.config.SpringConfig;
import com.ckmike.service.EmployeeService;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.beans.factory.annotation.Qualifier;
import org.springframework.test.context.ContextConfiguration;
import org.springframework.test.context.junit4.SpringJUnit4Cla***unner;
import javax.annotation.Resource;
/**
* SpringCoreAnnotationTest 簡要描述
* <p> TODO:描述該類職責 </p>
*
* @author ckmike
* @version 1.0
* @date 18-12-15 下午12:19
* @copyright ckmike
**/
@RunWith(value = SpringJUnit4Cla***unner.class)
@ContextConfiguration(classes={SpringConfig.class})
public class SpringCoreAnnotationTest {
@Resource(name = "employeeService")
private EmployeeService employeeService;
@Test
public void annotationTest() {
Employee employee = employeeService.getEmployee();
System.out.println(employee.toString());
}
}
這個時候我們發現報錯了:'com.ckmike.dao.EmployeeMapper' available: expected single matching bean but found 2: employeeDao,employeeDao2。發現有兩個實現了EmployeeMapper的bean,都符合型別匹配,這個時候報錯了。如果使用@Resource不指定名字也一樣會找到兩個類匹配的bean,@Resource可以通過name來指定,而@Autowired則需要結合@Qualifier(value = "employeeDao")指定bean.
總結:
@Resource ,它預設是byName來匹配尋找bean的,@Resource有兩個屬性是比較重要的,分是name和type,Spring將@Resource註解的name屬性解析為bean的名字,而type屬性則解析為bean的型別。所以如果使用name屬性,則使用byName的自動注入策略,而使用type屬性時則使用byType自動注入策略。如果既不指定name也不指定type屬性,這時將通過反射機制使用byName自動注入策略。
@Resource裝配順序
- 如果同時指定了name和type,則從Spring context中找到唯一匹配的bean進行裝配,找不到則丟擲異常。
- 如果指定了name,則從context中查詢名稱(id)匹配的bean進行裝配,找不到則丟擲異常。
- 如果指定了type,則從context中找到型別匹配的唯一bean進行裝配,找不到或者找到多個,都會丟擲異常。
- 如果既沒有指定name,又沒有指定type,則自動按照byName方式進行裝配;如果沒有匹配,則回退為一個原始型別進行匹配,如果匹配則自動裝配,否則丟擲異常。
@Autowired是通過byType進行裝配的,如果沒有找到或者找到多個bean會丟擲異常,如果可以為null,那麼需要設定require = false,預設情況是不能為null的。可以結合@Qualifier(value = "employeeDao")與@Resource就相似了。
相同點:兩者都可以放置在成員屬性上,setter方法上。
那麼到這裡我們對Spring Core Container的XMl方式、註解方式都說完了,看一遍肯定是很難完全掌握的,我們需要多看多寫多總結,最終你一定會慢慢熟悉並掌握這部分內容的。
其實自動註解裝配是得益於JAVA註解機制的,更多知識請檢視JAVA註解機制,學以致用才是學習的王道。打完收工。後續我還會繼續閱讀AOP的實現程式碼,和大家一起分享底層實現原理。上面有哪裡不對的地方希望你能留言告訴我,我會第一時間修改,以防止誤導大家,謝謝。