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  • Spring约束

    时间:2017-1-29 02:01

    Appendix D. XML Schema-based configuration

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    Appendix D. XML Schema-based configuration
     
    D.1 Introduction
     
    This appendix details the XML Schema-based configuration introduced in Spring 2.0 and enhanced and extended in Spring 2.5 and 3.0.
     
    DTD support?
     
    Authoring Spring configuration files using the older DTD style is still fully supported.
     
    Nothing will break if you forego the use of the new XML Schema-based approach to authoring Spring XML configuration files. All that you lose out on is the opportunity to have more succinct and clearer configuration. Regardless of whether the XML configuration is DTD- or Schema-based, in the end it all boils down to the same object model in the container (namely one or more BeanDefinition instances).
     
    The central motivation for moving to XML Schema based configuration files was to make Spring XML configuration easier. The 'classic' <bean/>-based approach is good, but its generic-nature comes with a price in terms of configuration overhead.
     
    From the Spring IoC containers point-of-view, everything is a bean. That's great news for the Spring IoC container, because if everything is a bean then everything can be treated in the exact same fashion. The same, however, is not true from a developer's point-of-view. The objects defined in a Spring XML configuration file are not all generic, vanilla beans. Usually, each bean requires some degree of specific configuration.
     
    Spring 2.0's new XML Schema-based configuration addresses this issue. The <bean/> element is still present, and if you wanted to, you could continue to write the exact same style of Spring XML configuration using only <bean/> elements. The new XML Schema-based configuration does, however, make Spring XML configuration files substantially clearer to read. In addition, it allows you to express the intent of a bean definition.
     
    The key thing to remember is that the new custom tags work best for infrastructure or integration beans: for example, AOP, collections, transactions, integration with 3rd-party frameworks such as Mule, etc., while the existing bean tags are best suited to application-specific beans, such as DAOs, service layer objects, validators, etc.
     
    The examples included below will hopefully convince you that the inclusion of XML Schema support in Spring 2.0 was a good idea. The reception in the community has been encouraging; also, please note the fact that this new configuration mechanism is totally customisable and extensible. This means you can write your own domain-specific configuration tags that would better represent your application's domain; the process involved in doing so is covered in the appendix entitled Appendix E, Extensible XML authoring.
     
    D.2 XML Schema-based configuration
     
    D.2.1 Referencing the schemas
     
    To switch over from the DTD-style to the new XML Schema-style, you need to make the following change.
     
    <?xml version="1.0" encoding="UTF-8"?>
    <!DOCTYPE beans PUBLIC "-//SPRING//DTD BEAN 2.0//EN"
     
    <beans>
     
    <!-- bean definitions here -->
     
    </beans>
    The equivalent file in the XML Schema-style would be...
     
    <?xml version="1.0" encoding="UTF-8"?>
           xsi:schemaLocation="
     
    <!-- bean definitions here -->
     
    </beans>
    [Note]Note
    The 'xsi:schemaLocation' fragment is not actually required, but can be included to reference a local copy of a schema (which can be useful during development).
     
    The above Spring XML configuration fragment is boilerplate that you can copy and paste (!) and then plug <bean/> definitions into like you have always done. However, the entire point of switching over is to take advantage of the new Spring 2.0 XML tags since they make configuration easier. The section entitled Section D.2.2, “The util schema” demonstrates how you can start immediately by using some of the more common utility tags.
     
    The rest of this chapter is devoted to showing examples of the new Spring XML Schema based configuration, with at least one example for every new tag. The format follows a before and after style, with a before snippet of XML showing the old (but still 100% legal and supported) style, followed immediately by an after example showing the equivalent in the new XML Schema-based style.
     
    D.2.2 The util schema
     
    First up is coverage of the util tags. As the name implies, the util tags deal with common, utility configuration issues, such as configuring collections, referencing constants, and suchlike.
     
    To use the tags in the util schema, you need to have the following preamble at the top of your Spring XML configuration file; the text in the snippet below references the correct schema so that the tags in the util namespace are available to you.
     
    <?xml version="1.0" encoding="UTF-8"?>
           xsi:schemaLocation="
     
    <!-- bean definitions here -->
     
    </beans>
    <util:constant/>
     
    Before...
     
    <bean id="..." class="...">
      <property name="isolation">
        <bean id="java.sql.Connection.TRANSACTION_SERIALIZABLE"
        class="org.springframework.beans.factory.config.FieldRetrievingFactoryBean" />
      </property>
    </bean>
    The above configuration uses a Spring FactoryBean implementation, the FieldRetrievingFactoryBean, to set the value of the 'isolation' property on a bean to the value of the 'java.sql.Connection.TRANSACTION_SERIALIZABLE' constant. This is all well and good, but it is a tad verbose and (unnecessarily) exposes Spring's internal plumbing to the end user.
     
    The following XML Schema-based version is more concise and clearly expresses the developer's intent ('inject this constant value'), and it just reads better.
     
    <bean id="..." class="...">
      <property name="isolation">
        <util:constant static-field="java.sql.Connection.TRANSACTION_SERIALIZABLE"/>
      </property>
    </bean>
    Setting a bean property or constructor arg from a field value
     
    FieldRetrievingFactoryBean is a FactoryBean which retrieves a static or non-static field value. It is typically used for retrieving public static final constants, which may then be used to set a property value or constructor arg for another bean.
     
    Find below an example which shows how a static field is exposed, by using the staticField property:
     
    <bean id="myField"
            class="org.springframework.beans.factory.config.FieldRetrievingFactoryBean">
      <property name="staticField" value="java.sql.Connection.TRANSACTION_SERIALIZABLE"/>
    </bean>
    There is also a convenience usage form where the static field is specified as the bean name:
     
    <bean id="java.sql.Connection.TRANSACTION_SERIALIZABLE"
        class="org.springframework.beans.factory.config.FieldRetrievingFactoryBean"/>
    This does mean that there is no longer any choice in what the bean id is (so any other bean that refers to it will also have to use this longer name), but this form is very concise to define, and very convenient to use as an inner bean since the id doesn't have to be specified for the bean reference:
     
    <bean id="..." class="...">
      <property name="isolation">
        <bean id="java.sql.Connection.TRANSACTION_SERIALIZABLE"
              class="org.springframework.beans.factory.config.FieldRetrievingFactoryBean" />
      </property>
    </bean>
    It is also possible to access a non-static (instance) field of another bean, as described in the API documentation for the FieldRetrievingFactoryBean class.
     
    Injecting enum values into beans as either property or constructor arguments is very easy to do in Spring, in that you don't actually have to do anything or know anything about the Spring internals (or even about classes such as the FieldRetrievingFactoryBean). Let's look at an example to see how easy injecting an enum value is; consider this JDK 5 enum:
     
    package javax.persistence;
     
    public enum PersistenceContextType {
     
        TRANSACTION,
        EXTENDED
     
    }
    Now consider a setter of type PersistenceContextType:
     
    package example;
     
    public class Client {
     
        private PersistenceContextType persistenceContextType;
     
        public void setPersistenceContextType(PersistenceContextType type) {
            this.persistenceContextType = type;
        }
    }
    .. and the corresponding bean definition:
     
    <bean class="example.Client">
        <property name="persistenceContextType" value="TRANSACTION" />
    </bean>
    This works for classic type-safe emulated enums (on JDK 1.4 and JDK 1.3) as well; Spring will automatically attempt to match the string property value to a constant on the enum class.
     
    <util:property-path/>
     
    Before...
     
    <!-- target bean to be referenced by name -->
    <bean id="testBean" class="org.springframework.beans.TestBean" scope="prototype">
      <property name="age" value="10"/>
      <property name="spouse">
        <bean class="org.springframework.beans.TestBean">
          <property name="age" value="11"/>
        </bean>
      </property>
    </bean>
     
    <!-- will result in 10, which is the value of property 'age' of bean 'testBean' -->
    <bean id="testBean.age" class="org.springframework.beans.factory.config.PropertyPathFactoryBean"/>
    The above configuration uses a Spring FactoryBean implementation, the PropertyPathFactoryBean, to create a bean (of type int) called 'testBean.age' that has a value equal to the 'age' property of the 'testBean' bean.
     
    After...
     
    <!-- target bean to be referenced by name -->
    <bean id="testBean" class="org.springframework.beans.TestBean" scope="prototype">
      <property name="age" value="10"/>
      <property name="spouse">
        <bean class="org.springframework.beans.TestBean">
          <property name="age" value="11"/>
        </bean>
      </property>
    </bean>
     
    <!-- will result in 10, which is the value of property 'age' of bean 'testBean' -->
    <util:property-path id="name" path="testBean.age"/>
    The value of the 'path' attribute of the <property-path/> tag follows the form 'beanName.beanProperty'.
     
    Using <util:property-path/> to set a bean property or constructor-argument
     
    PropertyPathFactoryBean is a FactoryBean that evaluates a property path on a given target object. The target object can be specified directly or via a bean name. This value may then be used in another bean definition as a property value or constructor argument.
     
    Here's an example where a path is used against another bean, by name:
     
    // target bean to be referenced by name
    <bean id="person" class="org.springframework.beans.TestBean" scope="prototype">
      <property name="age" value="10"/>
      <property name="spouse">
        <bean class="org.springframework.beans.TestBean">
          <property name="age" value="11"/>
        </bean>
      </property>
    </bean>
     
    // will result in 11, which is the value of property 'spouse.age' of bean 'person'
    <bean id="theAge"
        class="org.springframework.beans.factory.config.PropertyPathFactoryBean">
      <property name="targetBeanName" value="person"/>
      <property name="propertyPath" value="spouse.age"/>
    </bean>
    In this example, a path is evaluated against an inner bean:
     
    <!-- will result in 12, which is the value of property 'age' of the inner bean -->
    <bean id="theAge"
        class="org.springframework.beans.factory.config.PropertyPathFactoryBean">
      <property name="targetObject">
        <bean class="org.springframework.beans.TestBean">
          <property name="age" value="12"/>
        </bean>
      </property>
      <property name="propertyPath" value="age"/>
    </bean>
    There is also a shortcut form, where the bean name is the property path.
     
    <!-- will result in 10, which is the value of property 'age' of bean 'person' -->
    <bean id="person.age"
        class="org.springframework.beans.factory.config.PropertyPathFactoryBean"/>
    This form does mean that there is no choice in the name of the bean. Any reference to it will also have to use the same id, which is the path. Of course, if used as an inner bean, there is no need to refer to it at all:
     
    <bean id="..." class="...">
      <property name="age">
        <bean id="person.age"
            class="org.springframework.beans.factory.config.PropertyPathFactoryBean"/>
      </property>
    </bean>
    The result type may be specifically set in the actual definition. This is not necessary for most use cases, but can be of use for some. Please see the Javadocs for more info on this feature.
     
    <util:properties/>
     
    Before...
     
    <!-- creates a java.util.Properties instance with values loaded from the supplied location -->
    <bean id="jdbcConfiguration" class="org.springframework.beans.factory.config.PropertiesFactoryBean">
      <property name="location" value="classpath:com/foo/jdbc-production.properties"/>
    </bean>
    The above configuration uses a Spring FactoryBean implementation, the PropertiesFactoryBean, to instantiate a java.util.Properties instance with values loaded from the supplied Resource location).
     
    After...
     
    <!-- creates a java.util.Properties instance with values loaded from the supplied location -->
    <util:properties id="jdbcConfiguration" location="classpath:com/foo/jdbc-production.properties"/>
    <util:list/>
     
    Before...
     
    <!-- creates a java.util.List instance with values loaded from the supplied 'sourceList' -->
    <bean id="emails" class="org.springframework.beans.factory.config.ListFactoryBean">
      <property name="sourceList">
          <list>
            <value>pechorin@hero.org</value>
            <value>raskolnikov@slums.org</value>
            <value>stavrogin@gov.org</value>
            <value>porfiry@gov.org</value>
          </list>
      </property>
    </bean>
    The above configuration uses a Spring FactoryBean implementation, the ListFactoryBean, to create a java.util.List instance initialized with values taken from the supplied 'sourceList'.
     
    After...
     
    <!-- creates a java.util.List instance with the supplied values -->
    <util:list id="emails">
        <value>pechorin@hero.org</value>
        <value>raskolnikov@slums.org</value>
        <value>stavrogin@gov.org</value>
        <value>porfiry@gov.org</value>
    </util:list>
    You can also explicitly control the exact type of List that will be instantiated and populated via the use of the 'list-class' attribute on the <util:list/> element. For example, if we really need a java.util.LinkedList to be instantiated, we could use the following configuration:
     
    <util:list id="emails" list-class="java.util.LinkedList">
        <value>jackshaftoe@vagabond.org</value>
        <value>eliza@thinkingmanscrumpet.org</value>
        <value>vanhoek@pirate.org</value>
        <value>d'Arcachon@nemesis.org</value>
    </util:list>
    If no 'list-class' attribute is supplied, a List implementation will be chosen by the container.
     
    <util:map/>
     
    Before...
     
    <!-- creates a java.util.Map instance with values loaded from the supplied 'sourceMap' -->
    <bean id="emails" class="org.springframework.beans.factory.config.MapFactoryBean">
      <property name="sourceMap">
          <map>
            <entry key="pechorin" value="pechorin@hero.org"/>
            <entry key="raskolnikov" value="raskolnikov@slums.org"/>
            <entry key="stavrogin" value="stavrogin@gov.org"/>
            <entry key="porfiry" value="porfiry@gov.org"/>
          </map>
      </property>
    </bean>
    The above configuration uses a Spring FactoryBean implementation, the MapFactoryBean, to create a java.util.Map instance initialized with key-value pairs taken from the supplied 'sourceMap'.
     
    After...
     
    <!-- creates a java.util.Map instance with the supplied key-value pairs -->
    <util:map id="emails">
        <entry key="pechorin" value="pechorin@hero.org"/>
        <entry key="raskolnikov" value="raskolnikov@slums.org"/>
        <entry key="stavrogin" value="stavrogin@gov.org"/>
        <entry key="porfiry" value="porfiry@gov.org"/>
    </util:map>
    You can also explicitly control the exact type of Map that will be instantiated and populated via the use of the 'map-class' attribute on the <util:map/> element. For example, if we really need a java.util.TreeMap to be instantiated, we could use the following configuration:
     
    <util:map id="emails" map-class="java.util.TreeMap">
        <entry key="pechorin" value="pechorin@hero.org"/>
        <entry key="raskolnikov" value="raskolnikov@slums.org"/>
        <entry key="stavrogin" value="stavrogin@gov.org"/>
        <entry key="porfiry" value="porfiry@gov.org"/>
    </util:map>
    If no 'map-class' attribute is supplied, a Map implementation will be chosen by the container.
     
    <util:set/>
     
    Before...
     
    <!-- creates a java.util.Set instance with values loaded from the supplied 'sourceSet' -->
    <bean id="emails" class="org.springframework.beans.factory.config.SetFactoryBean">
      <property name="sourceSet">
          <set>
            <value>pechorin@hero.org</value>
            <value>raskolnikov@slums.org</value>
            <value>stavrogin@gov.org</value>
            <value>porfiry@gov.org</value>
          </set>
      </property>
    </bean>
    The above configuration uses a Spring FactoryBean implementation, the SetFactoryBean, to create a java.util.Set instance initialized with values taken from the supplied 'sourceSet'.
     
    After...
     
    <!-- creates a java.util.Set instance with the supplied values -->
    <util:set id="emails">
        <value>pechorin@hero.org</value>
        <value>raskolnikov@slums.org</value>
        <value>stavrogin@gov.org</value>
        <value>porfiry@gov.org</value>
    </util:set>
    You can also explicitly control the exact type of Set that will be instantiated and populated via the use of the 'set-class' attribute on the <util:set/> element. For example, if we really need a java.util.TreeSet to be instantiated, we could use the following configuration:
     
    <util:set id="emails" set-class="java.util.TreeSet">
        <value>pechorin@hero.org</value>
        <value>raskolnikov@slums.org</value>
        <value>stavrogin@gov.org</value>
        <value>porfiry@gov.org</value>
    </util:set>
    If no 'set-class' attribute is supplied, a Set implementation will be chosen by the container.
     
    D.2.3 The jee schema
     
    The jee tags deal with Java EE (Java Enterprise Edition)-related configuration issues, such as looking up a JNDI object and defining EJB references.
     
    To use the tags in the jee schema, you need to have the following preamble at the top of your Spring XML configuration file; the text in the following snippet references the correct schema so that the tags in the jee namespace are available to you.
     
    <?xml version="1.0" encoding="UTF-8"?>
           xsi:schemaLocation="
     
    <!-- bean definitions here -->
     
    </beans>
    <jee:jndi-lookup/> (simple)
     
    Before...
     
    <bean id="dataSource" class="org.springframework.jndi.JndiObjectFactoryBean">
        <property name="jndiName" value="jdbc/MyDataSource"/>
    </bean>
     
    <bean id="userDao" class="com.foo.JdbcUserDao">
        <!-- Spring will do the cast automatically (as usual) -->
        <property name="dataSource" ref="dataSource"/>
    </bean>
    After...
     
    <jee:jndi-lookup id="dataSource" jndi-name="jdbc/MyDataSource"/>
     
    <bean id="userDao" class="com.foo.JdbcUserDao">
        <!-- Spring will do the cast automatically (as usual) -->
        <property name="dataSource" ref="dataSource"/>
    </bean>
    <jee:jndi-lookup/> (with single JNDI environment setting)
     
    Before...
     
    <bean id="simple" class="org.springframework.jndi.JndiObjectFactoryBean">
        <property name="jndiName" value="jdbc/MyDataSource"/>
        <property name="jndiEnvironment">
            <props>
                <prop key="foo">bar</prop>
            </props>
        </property>
    </bean>
    After...
     
    <jee:jndi-lookup id="simple" jndi-name="jdbc/MyDataSource">
        <jee:environment>foo=bar</jee:environment>
    </jee:jndi-lookup>
    <jee:jndi-lookup/> (with multiple JNDI environment settings)
     
    Before...
     
    <bean id="simple" class="org.springframework.jndi.JndiObjectFactoryBean">
        <property name="jndiName" value="jdbc/MyDataSource"/>
        <property name="jndiEnvironment">
            <props>
                <prop key="foo">bar</prop>
                <prop key="ping">pong</prop>
            </props>
        </property>
    </bean>
    After...
     
    <jee:jndi-lookup id="simple" jndi-name="jdbc/MyDataSource">
        <!-- newline-separated, key-value pairs for the environment (standard Properties format) -->
        <jee:environment>
            foo=bar
            ping=pong
        </jee:environment>
    </jee:jndi-lookup>
    <jee:jndi-lookup/> (complex)
     
    Before...
     
    <bean id="simple" class="org.springframework.jndi.JndiObjectFactoryBean">
        <property name="jndiName" value="jdbc/MyDataSource"/>
        <property name="cache" value="true"/>
        <property name="resourceRef" value="true"/>
        <property name="lookupOnStartup" value="false"/>
        <property name="expectedType" value="com.myapp.DefaultFoo"/>
        <property name="proxyInterface" value="com.myapp.Foo"/>
    </bean>
    After...
     
    <jee:jndi-lookup id="simple"
                 jndi-name="jdbc/MyDataSource"
                 cache="true"
                 resource-ref="true"
                 lookup-on-startup="false"
                 expected-type="com.myapp.DefaultFoo"
                 proxy-interface="com.myapp.Foo"/>
    <jee:local-slsb/> (simple)
     
    The <jee:local-slsb/> tag configures a reference to an EJB Stateless SessionBean.
     
    Before...
     
    <bean id="simple"
          class="org.springframework.ejb.access.LocalStatelessSessionProxyFactoryBean">
      <property name="jndiName" value="ejb/RentalServiceBean"/>
      <property name="businessInterface" value="com.foo.service.RentalService"/>
    </bean>
    After...
     
    <jee:local-slsb id="simpleSlsb" jndi-name="ejb/RentalServiceBean"
        business-interface="com.foo.service.RentalService"/>
    <jee:local-slsb/> (complex)
     
    <bean id="complexLocalEjb"
          class="org.springframework.ejb.access.LocalStatelessSessionProxyFactoryBean">
      <property name="jndiName" value="ejb/RentalServiceBean"/>
      <property name="businessInterface" value="com.foo.service.RentalService"/>
      <property name="cacheHome" value="true"/>
      <property name="lookupHomeOnStartup" value="true"/>
      <property name="resourceRef" value="true"/>
    </bean>
    After...
     
    <jee:local-slsb id="complexLocalEjb"
        jndi-name="ejb/RentalServiceBean"
        business-interface="com.foo.service.RentalService"
        cache-home="true"
        lookup-home-on-startup="true"
        resource-ref="true">
    <jee:remote-slsb/>
     
    The <jee:remote-slsb/> tag configures a reference to a remote EJB Stateless SessionBean.
     
    Before...
     
    <bean id="complexRemoteEjb"
          class="org.springframework.ejb.access.SimpleRemoteStatelessSessionProxyFactoryBean">
      <property name="jndiName" value="ejb/MyRemoteBean"/>
      <property name="businessInterface" value="com.foo.service.RentalService"/>
      <property name="cacheHome" value="true"/>
      <property name="lookupHomeOnStartup" value="true"/>
      <property name="resourceRef" value="true"/>
      <property name="homeInterface" value="com.foo.service.RentalService"/>
      <property name="refreshHomeOnConnectFailure" value="true"/>
    </bean>
    After...
     
    <jee:remote-slsb id="complexRemoteEjb"
        jndi-name="ejb/MyRemoteBean"
        business-interface="com.foo.service.RentalService"
        cache-home="true"
        lookup-home-on-startup="true"
        resource-ref="true"
        home-interface="com.foo.service.RentalService"
        refresh-home-on-connect-failure="true">
     
    D.2.4 The lang schema
     
    The lang tags deal with exposing objects that have been written in a dynamic language such as JRuby or Groovy as beans in the Spring container.
     
    These tags (and the dynamic language support) are comprehensively covered in the chapter entitled Chapter 28, Dynamic language support. Please do consult that chapter for full details on this support and the lang tags themselves.
     
    In the interest of completeness, to use the tags in the lang schema, you need to have the following preamble at the top of your Spring XML configuration file; the text in the following snippet references the correct schema so that the tags in the lang namespace are available to you.
     
    <?xml version="1.0" encoding="UTF-8"?>
           xsi:schemaLocation="
     
    <!-- bean definitions here -->
     
    </beans>
     
    D.2.5 The jms schema
     
    The jms tags deal with configuring JMS-related beans such as Spring's MessageListenerContainers. These tags are detailed in the section of the JMS chapter entitled Section 23.6, “JMS Namespace Support”. Please do consult that chapter for full details on this support and the jms tags themselves.
     
    In the interest of completeness, to use the tags in the jms schema, you need to have the following preamble at the top of your Spring XML configuration file; the text in the following snippet references the correct schema so that the tags in the jms namespace are available to you.
     
    <?xml version="1.0" encoding="UTF-8"?>
           xsi:schemaLocation="
     
    <!-- bean definitions here -->
     
    </beans>
     
    D.2.6 The tx (transaction) schema
     
    The tx tags deal with configuring all of those beans in Spring's comprehensive support for transactions. These tags are covered in the chapter entitled Chapter 12, Transaction Management.
     
    [Tip]Tip
    You are strongly encouraged to look at the 'spring-tx-3.0.xsd' file that ships with the Spring distribution. This file is (of course), the XML Schema for Spring's transaction configuration, and covers all of the various tags in the tx namespace, including attribute defaults and suchlike. This file is documented inline, and thus the information is not repeated here in the interests of adhering to the DRY (Don't Repeat Yourself) principle.
     
    In the interest of completeness, to use the tags in the tx schema, you need to have the following preamble at the top of your Spring XML configuration file; the text in the following snippet references the correct schema so that the tags in the tx namespace are available to you.
     
    <?xml version="1.0" encoding="UTF-8"?>
           xsi:schemaLocation="
     
    <!-- bean definitions here -->
     
    </beans>
    [Note]Note
    Often when using the tags in the tx namespace you will also be using the tags from the aop namespace (since the declarative transaction support in Spring is implemented using AOP). The above XML snippet contains the relevant lines needed to reference the aop schema so that the tags in the aop namespace are available to you.
     
    D.2.7 The aop schema
     
    The aop tags deal with configuring all things AOP in Spring: this includes Spring's own proxy-based AOP framework and Spring's integration with the AspectJ AOP framework. These tags are comprehensively covered in the chapter entitled Chapter 9, Aspect Oriented Programming with Spring.
     
    In the interest of completeness, to use the tags in the aop schema, you need to have the following preamble at the top of your Spring XML configuration file; the text in the following snippet references the correct schema so that the tags in the aop namespace are available to you.
     
    <?xml version="1.0" encoding="UTF-8"?>
           xsi:schemaLocation="
     
    <!-- bean definitions here -->
     
    </beans>
     
    D.2.8 The context schema
     
    The context tags deal with ApplicationContext configuration that relates to plumbing - that is, not usually beans that are important to an end-user but rather beans that do a lot of grunt work in Spring, such as BeanfactoryPostProcessors. The following snippet references the correct schema so that the tags in the context namespace are available to you.
     
    <?xml version="1.0" encoding="UTF-8"?>
           xsi:schemaLocation="
     
    <!-- bean definitions here -->
     
    </beans>
    [Note]Note
    The context schema was only introduced in Spring 2.5.
     
    <property-placeholder/>
     
    This element activates the replacement of ${...} placeholders, resolved against the specified properties file (as a Spring resource location). This element is a convenience mechanism that sets up a PropertyPlaceholderConfigurer for you; if you need more control over the PropertyPlaceholderConfigurer, just define one yourself explicitly.
     
    <annotation-config/>
     
    Activates the Spring infrastructure for various annotations to be detected in bean classes: Spring's @Required and @Autowired, as well as JSR 250's @PostConstruct, @PreDestroy and @Resource (if available), and JPA's @PersistenceContext and @PersistenceUnit (if available). Alternatively, you can choose to activate the individual BeanPostProcessors for those annotations explicitly.
     
    [Note]Note
    This element does not activate processing of Spring's @Transactional annotation. Use the <tx:annotation-driven/> element for that purpose.
     
    <component-scan/>
     
    This element is detailed in Section 5.9, “Annotation-based container configuration”.
     
    <load-time-weaver/>
     
    This element is detailed in Section 9.8.4, “Load-time weaving with AspectJ in the Spring Framework”.
     
    <spring-configured/>
     
    This element is detailed in Section 9.8.1, “Using AspectJ to dependency inject domain objects with Spring”.
     
    <mbean-export/>
     
    This element is detailed in Section 24.4.3, “Configuring annotation based MBean export”.
     
    D.2.9 The tool schema
     
    The tool tags are for use when you want to add tooling-specific metadata to your custom configuration elements. This metadata can then be consumed by tools that are aware of this metadata, and the tools can then do pretty much whatever they want with it (validation, etc.).
     
    The tool tags are not documented in this release of Spring as they are currently undergoing review. If you are a third party tool vendor and you would like to contribute to this review process, then do mail the Spring mailing list. The currently supported tool tags can be found in the file 'spring-tool-3.0.xsd' in the 'src/org/springframework/beans/factory/xml' directory of the Spring source distribution.
     
    D.2.10 The jdbc schema
     
    The jdbc tags allow you to quickly configure an embedded database or initialize an existing data source. These tags are documented in Section 14.8, “Embedded database support” and Section 14.9, “Initializing a DataSource” respectively.
     
    To use the tags in the jdbc schema, you need to have the following preamble at the top of your Spring XML configuration file; the text in the following snippet references the correct schema so that the tags in the jdbc namespace are available to you.
     
    <?xml version="1.0" encoding="UTF-8"?>
           xsi:schemaLocation="
     
    <!-- bean definitions here -->
     
    </beans>
     
    D.2.11 The cache schema
     
    The cache tags can be used to enable support for Spring's @CacheEvict, @CachePut and @Caching annotations. It it also supports declarative XML-based caching. See Section 29.3.5, “Enable caching annotations” and Section 29.4, “Declarative XML-based caching” for details.
     
    To use the tags in the cache schema, you need to have the following preamble at the top of your Spring XML configuration file; the text in the following snippet references the correct schema so that the tags in the cache namespace are available to you.
     
    <?xml version="1.0" encoding="UTF-8"?>
           xsi:schemaLocation="
     
    <!-- bean definitions here -->
     
    </beans>
     
    D.2.12 The beans schema
     
    Last but not least we have the tags in the beans schema. These are the same tags that have been in Spring since the very dawn of the framework. Examples of the various tags in the beans schema are not shown here because they are quite comprehensively covered in Section 5.4.2, “Dependencies and configuration in detail” (and indeed in that entire chapter).
     
    One thing that is new to the beans tags themselves in Spring 2.0 is the idea of arbitrary bean metadata. In Spring 2.0 it is now possible to add zero or more key / value pairs to <bean/> XML definitions. What, if anything, is done with this extra metadata is totally up to your own custom logic (and so is typically only of use if you are writing your own custom tags as described in the appendix entitled Appendix E, Extensible XML authoring).
     
    Find below an example of the <meta/> tag in the context of a surrounding <bean/> (please note that without any logic to interpret it the metadata is effectively useless as-is).
     
    <?xml version="1.0" encoding="UTF-8"?>
           xsi:schemaLocation="
     
        <bean id="foo" class="x.y.Foo">
            <meta key="cacheName" value="foo"/>
            <property name="name" value="Rick"/>
        </bean>
     
    </beans>
    In the case of the above example, you would assume that there is some logic that will consume the bean definition and set up some caching infrastructure using the supplied metadata.
     
    Prev Up Next
    Appendix C. Migrating to Spring Framework 3.2 Home Appendix E. Extensible XML authoring
     
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  • 原文地址:https://www.cnblogs.com/wwwwyc/p/6375477.html
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