spring@PropertySource用法
测试例子
package com.hjzgg.auth.config; import org.springframework.beans.factory.annotation.Autowired; import org.springframework.context.annotation.Bean; import org.springframework.context.annotation.Configuration; import org.springframework.context.annotation.PropertySource; import org.springframework.core.env.Environment; import org.springframework.util.StringUtils; import java.lang.reflect.Field; import java.util.ArrayList; import java.util.List; /** * Created by hujunzheng on 2017/6/22. */ @Configuration @PropertySource("classpath:conf/config.properties") public class SystemConfig { public static class User { public static String NAME; public static int AGE; public static int USER_ID; public static String ADDRESS; } @Autowired private Environment env; @Bean public SystemConfig oauthSystemConfig() throws IllegalAccessException { setStaticPropertiesValue(SystemConfig.class); Class<?>[] clazzs = SystemConfig.class.getClasses(); for (Class clazz: clazzs) { setStaticPropertiesValue(clazz); } return null; } private void setStaticPropertiesValue(Class<?> clazz) throws IllegalAccessException { Field[] fields = clazz.getDeclaredFields(); for (Field field : fields) { String key = field.getName().toLowerCase().replace("_", "."); String value = env.getProperty(key); if (StringUtils.isEmpty(value)) { continue; } if (field.getType() == List.class) { String[] values = value.split(","); List<String> vlist = new ArrayList<String>(); for (String tvalue : values) { if (!StringUtils.isEmpty(tvalue)) { vlist.add(tvalue); } } field.set(null, vlist); } if (field.getType() == String[].class) { String[] values = value.split(","); List<String> vlist = new ArrayList<String>(); for (String tvalue : values) { if (!StringUtils.isEmpty(tvalue)) { vlist.add(tvalue); } } field.set(null, vlist.toArray(new String[] {})); } if (field.getType() == String.class) { field.set(null, value); } if (field.getType() == Integer.class) { field.set(null, Integer.valueOf(value)); } if (field.getType() == Float.class) { field.set(null, Float.valueOf(value)); } if (field.getType() == Double.class) { field.set(null, Double.valueOf(value)); } } } }
Configuration源码说明
package org.springframework.context.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; import org.springframework.beans.factory.annotation.Autowired; import org.springframework.beans.factory.annotation.Value; import org.springframework.stereotype.Component; /** * Indicates that a class declares one or more {@link Bean @Bean} methods and may be processed * by the Spring container to generate bean definitions and service requests for those * beans at runtime, for example: * <pre class="code"> * @Configuration * public class AppConfig { * @Bean * public MyBean myBean() { * // instantiate, configure and return bean ... * } * }</pre> * * <h2>Bootstrapping {@code @Configuration} classes</h2> * <h3>Via {@code AnnotationConfigApplicationContext}</h3> * {@code @Configuration} classes are typically bootstrapped using either * {@link AnnotationConfigApplicationContext} or its web-capable variant, * {@link org.springframework.web.context.support.AnnotationConfigWebApplicationContext * AnnotationConfigWebApplicationContext}. * A simple example with the former follows: * <pre class="code"> * AnnotationConfigApplicationContext ctx = * new AnnotationConfigApplicationContext(); * ctx.register(AppConfig.class); * ctx.refresh(); * MyBean myBean = ctx.getBean(MyBean.class); * // use myBean ...</pre> * * See {@link AnnotationConfigApplicationContext} Javadoc for further details and see * {@link org.springframework.web.context.support.AnnotationConfigWebApplicationContext * AnnotationConfigWebApplicationContext} for {@code web.xml} configuration instructions. * * <h3>Via Spring {@code <beans>} XML</h3> * <p>As an alternative to registering {@code @Configuration} classes directly against an * {@code AnnotationConfigApplicationContext}, {@code @Configuration} classes may be * declared as normal {@code <bean>} definitions within Spring XML files: * <pre class="code"> * {@code * <beans> * <context:annotation-config/> * <bean class="com.acme.AppConfig"/> * </beans>}</pre> * * In the example above, {@code <context:annotation-config/>} is required in order to * enable {@link ConfigurationClassPostProcessor} and other annotation-related * post processors that facilitate handling {@code @Configuration} classes. * * <h3>Via component scanning</h3> * <p>{@code @Configuration} is meta-annotated with {@link Component @Component}, therefore * {@code @Configuration} classes are candidates for component scanning (typically using * Spring XML's {@code <context:component-scan/>} element) and therefore may also take * advantage of {@link Autowired @Autowired}/{@link javax.inject.Inject @Inject} * at the field and method level (but not at the constructor level). * <p>{@code @Configuration} classes may not only be bootstrapped using * component scanning, but may also themselves <em>configure</em> component scanning using * the {@link ComponentScan @ComponentScan} annotation: * <pre class="code"> * @Configuration * @ComponentScan("com.acme.app.services") * public class AppConfig { * // various @Bean definitions ... * }</pre> * * See {@link ComponentScan @ComponentScan} Javadoc for details. * * * <h2>Working with externalized values</h2> * <h3>Using the {@code Environment} API</h3> * Externalized values may be looked up by injecting the Spring * {@link org.springframework.core.env.Environment Environment} into a * {@code @Configuration} class using the {@code @Autowired} or the {@code @Inject} * annotation: * <pre class="code"> * @Configuration * public class AppConfig { * @Inject Environment env; * * @Bean * public MyBean myBean() { * MyBean myBean = new MyBean(); * myBean.setName(env.getProperty("bean.name")); * return myBean; * } * }</pre> * * Properties resolved through the {@code Environment} reside in one or more "property * source" objects, and {@code @Configuration} classes may contribute property sources to * the {@code Environment} object using * the {@link org.springframework.core.env.PropertySources @PropertySources} annotation: * <pre class="code"> * @Configuration * @PropertySource("classpath:/com/acme/app.properties") * public class AppConfig { * @Inject Environment env; * * @Bean * public MyBean myBean() { * return new MyBean(env.getProperty("bean.name")); * } * }</pre> * * See {@link org.springframework.core.env.Environment Environment} * and {@link PropertySource @PropertySource} Javadoc for further details. * * <h3>Using the {@code @Value} annotation</h3> * Externalized values may be 'wired into' {@code @Configuration} classes using * the {@link Value @Value} annotation: * <pre class="code"> * @Configuration * @PropertySource("classpath:/com/acme/app.properties") * public class AppConfig { * @Value("${bean.name}") String beanName; * * @Bean * public MyBean myBean() { * return new MyBean(beanName); * } * }</pre> * * This approach is most useful when using Spring's * {@link org.springframework.context.support.PropertySourcesPlaceholderConfigurer * PropertySourcesPlaceholderConfigurer}, usually enabled via XML with * {@code <context:property-placeholder/>}. See the section below on composing * {@code @Configuration} classes with Spring XML using {@code @ImportResource}, * see {@link Value @Value} Javadoc, and see {@link Bean @Bean} Javadoc for details on working with * {@code BeanFactoryPostProcessor} types such as * {@code PropertySourcesPlaceholderConfigurer}. * * <h2>Composing {@code @Configuration} classes</h2> * <h3>With the {@code @Import} annotation</h3> * <p>{@code @Configuration} classes may be composed using the {@link Import @Import} annotation, * not unlike the way that {@code <import>} works in Spring XML. Because * {@code @Configuration} objects are managed as Spring beans within the container, * imported configurations may be injected using {@code @Autowired} or {@code @Inject}: * <pre class="code"> * @Configuration * public class DatabaseConfig { * @Bean * public DataSource dataSource() { * // instantiate, configure and return DataSource * } * } * * @Configuration * @Import(DatabaseConfig.class) * public class AppConfig { * @Inject DatabaseConfig dataConfig; * * @Bean * public MyBean myBean() { * // reference the dataSource() bean method * return new MyBean(dataConfig.dataSource()); * } * }</pre> * * Now both {@code AppConfig} and the imported {@code DatabaseConfig} can be bootstrapped * by registering only {@code AppConfig} against the Spring context: * * <pre class="code"> * new AnnotationConfigApplicationContext(AppConfig.class);</pre> * * <h3>With the {@code @Profile} annotation</h3> * {@code @Configuration} classes may be marked with the {@link Profile @Profile} annotation to * indicate they should be processed only if a given profile or profiles are * <em>active</em>: * <pre class="code"> * @Profile("embedded") * @Configuration * public class EmbeddedDatabaseConfig { * @Bean * public DataSource dataSource() { * // instantiate, configure and return embedded DataSource * } * } * * @Profile("production") * @Configuration * public class ProductionDatabaseConfig { * @Bean * public DataSource dataSource() { * // instantiate, configure and return production DataSource * } * }</pre> * * See {@link Profile @Profile} and {@link org.springframework.core.env.Environment Environment} * Javadoc for further details. * * <h3>With Spring XML using the {@code @ImportResource} annotation</h3> * As mentioned above, {@code @Configuration} classes may be declared as regular Spring * {@code <bean>} definitions within Spring XML files. It is also possible to * import Spring XML configuration files into {@code @Configuration} classes using * the {@link ImportResource @ImportResource} annotation. Bean definitions imported from XML can be * injected using {@code @Autowired} or {@code @Import}: * <pre class="code"> * @Configuration * @ImportResource("classpath:/com/acme/database-config.xml") * public class AppConfig { * @Inject DataSource dataSource; // from XML * * @Bean * public MyBean myBean() { * // inject the XML-defined dataSource bean * return new MyBean(this.dataSource); * } * }</pre> * * <h3>With nested {@code @Configuration} classes</h3> * {@code @Configuration} classes may be nested within one another as follows: * <pre class="code"> * @Configuration * public class AppConfig { * @Inject DataSource dataSource; * * @Bean * public MyBean myBean() { * return new MyBean(dataSource); * } * * @Configuration * static class DatabaseConfig { * @Bean * DataSource dataSource() { * return new EmbeddedDatabaseBuilder().build(); * } * } * }</pre> * * When bootstrapping such an arrangement, only {@code AppConfig} need be registered * against the application context. By virtue of being a nested {@code @Configuration} * class, {@code DatabaseConfig} <em>will be registered automatically</em>. This avoids * the need to use an {@code @Import} annotation when the relationship between * {@code AppConfig} {@code DatabaseConfig} is already implicitly clear. * * <p>Note also that nested {@code @Configuration} classes can be used to good effect * with the {@code @Profile} annotation to provide two options of the same bean to the * enclosing {@code @Configuration} class. * * <h2>Configuring lazy initialization</h2> * <p>By default, {@code @Bean} methods will be <em>eagerly instantiated</em> at container * bootstrap time. To avoid this, {@code @Configuration} may be used in conjunction with * the {@link Lazy @Lazy} annotation to indicate that all {@code @Bean} methods declared within * the class are by default lazily initialized. Note that {@code @Lazy} may be used on * individual {@code @Bean} methods as well. * * <h2>Testing support for {@code @Configuration} classes</h2> * The Spring <em>TestContext framework</em> available in the {@code spring-test} module * provides the {@code @ContextConfiguration} annotation, which as of Spring 3.1 can * accept an array of {@code @Configuration} {@code Class} objects: * <pre class="code"> * @RunWith(SpringJUnit4ClassRunner.class) * @ContextConfiguration(classes={AppConfig.class, DatabaseConfig.class}) * public class MyTests { * * @Autowired MyBean myBean; * * @Autowired DataSource dataSource; * * @Test * public void test() { * // assertions against myBean ... * } * }</pre> * * See TestContext framework reference documentation for details. * * <h2>Enabling built-in Spring features using {@code @Enable} annotations</h2> * Spring features such as asynchronous method execution, scheduled task execution, * annotation driven transaction management, and even Spring MVC can be enabled and * configured from {@code @Configuration} * classes using their respective "{@code @Enable}" annotations. See * {@link org.springframework.scheduling.annotation.EnableAsync @EnableAsync}, * {@link org.springframework.scheduling.annotation.EnableScheduling @EnableScheduling}, * {@link org.springframework.transaction.annotation.EnableTransactionManagement @EnableTransactionManagement}, * {@link org.springframework.context.annotation.EnableAspectJAutoProxy @EnableAspectJAutoProxy}, * and {@link org.springframework.web.servlet.config.annotation.EnableWebMvc @EnableWebMvc} * for details. * * <h2>Constraints when authoring {@code @Configuration} classes</h2> * <ul> * <li>@Configuration classes must be non-final * <li>@Configuration classes must be non-local (may not be declared within a method) * <li>@Configuration classes must have a default/no-arg constructor and may not * use {@link Autowired @Autowired} constructor parameters. Any nested configuration classes * must be {@code static} * </ul> * * @author Rod Johnson * @author Chris Beams * @since 3.0 * @see Bean * @see Profile * @see Import * @see ImportResource * @see ComponentScan * @see Lazy * @see PropertySource * @see AnnotationConfigApplicationContext * @see ConfigurationClassPostProcessor * @see org.springframework.core.env.Environment * @see org.springframework.test.context.ContextConfiguration */ @Target(ElementType.TYPE) @Retention(RetentionPolicy.RUNTIME) @Documented @Component public @interface Configuration { /** * Explicitly specify the name of the Spring bean definition associated * with this Configuration class. If left unspecified (the common case), * a bean name will be automatically generated. * * <p>The custom name applies only if the Configuration class is picked up via * component scanning or supplied directly to a {@link AnnotationConfigApplicationContext}. * If the Configuration class is registered as a traditional XML bean definition, * the name/id of the bean element will take precedence. * * @return the specified bean name, if any * @see org.springframework.beans.factory.support.DefaultBeanNameGenerator */ String value() default ""; }
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