我们知道在spring中每个bean都要有一个id或者name标示每个唯一的bean,在xml中定义一个bean可以指定其id和name值,但那些没有指定的,或者注解的spring的beanname怎么来的的?就是BeanNameGenerator接口实现的特性。
<bean id="transactionManager" class="org.springframework.orm.jpa.JpaTransactionManager"><property name="entityManagerFactory" ref="entityManagerFactory" /></bean>
BeanNameGenerator接口位于 org.springframework.beans.factory.support 包下面,只声明了一个方法,接受两个参数:definition 被生成名字的BeanDefinition实例;registry 生成名字后注册进的BeanDefinitionRegistry。
/** * Generate a bean name for the given bean definition. * 根据给定的bean definition 生成一个bean的名字 * @param definition the bean definition to generate a name for * @param 参数 definition 需要生成bean name的BeanDefinition实例 * @param registry the bean definition registry that the given definition * is supposed to be registered with * @param 参数registry 是 definition 注册 * @return the generated bean name * @return 返回生成的bean name */ String generateBeanName(BeanDefinition definition, BeanDefinitionRegistry registry);
BeanNameGenerator有两个实现版本,DefaultBeanNameGenerator和AnnotationBeanNameGenerator。其中DefaultBeanNameGenerator是给资源文件加载bean时使用(BeanDefinitionReader中使用);AnnotationBeanNameGenerator是为了处理注解生成bean name的情况。
DefaultBeanNameGenerator类将具体的处理方式委托给了,BeanDefinitionReaderUtils#generateBeanName(BeanDefinition, BeanDefinitionRegistry)方法处理。
/** * Generate a bean name for the given top-level bean definition, * unique within the given bean factory. * @param beanDefinition the bean definition to generate a bean name for * @param registry the bean factory that the definition is going to be * registered with (to check for existing bean names) * @return the generated bean name * @throws BeanDefinitionStoreException if no unique name can be generated * for the given bean definition */ public static String generateBeanName(BeanDefinition beanDefinition, BeanDefinitionRegistry registry) throws BeanDefinitionStoreException { return generateBeanName(beanDefinition, registry, false); }
这个方法也没有做任何处理,直接委托了给了generateBeanName(BeanDefinition , BeanDefinitionRegistry , boolean )方法,多指定了一个boolean型参数,是为了区分内部bean(innerBean)和顶级bean(top-level bean).
/** * Generate a bean name for the given bean definition, unique within the * given bean factory. * @param definition the bean definition to generate a bean name for * @param registry the bean factory that the definition is going to be * registered with (to check for existing bean names) * @param isInnerBean whether the given bean definition will be registered * as inner bean or as top-level bean (allowing for special name generation * for inner beans versus top-level beans) * @param isInnerBean 参数definition会被注册为一个内部bean还是一个顶级bean(内部bean和顶级bean 都允许使用特殊名字定义) * @return the generated bean name * @throws BeanDefinitionStoreException if no unique name can be generated * for the given bean definition * @throws BeanDefinitionStoreException 当没有唯一的名称可供生成的时候抛出异常 */public static String generateBeanName( BeanDefinition definition, BeanDefinitionRegistry registry, boolean isInnerBean) throws BeanDefinitionStoreException { //generatedBeanName定义为类前缀, 读取bean的className,不一定是运行时的实际类型。 String generatedBeanName = definition.getBeanClassName(); if (generatedBeanName == null) { //如果类名称为空,那读取bean的parent bean name if (definition.getParentName() != null) { generatedBeanName = definition.getParentName() + "$child"; } //否则,读取生成该bean的factoryBean name名称做前缀。else if (definition.getFactoryBeanName() != null) { generatedBeanName = definition.getFactoryBeanName() + "$created"; } } //generatedBeanName为空字符串,抛出异常if (!StringUtils.hasText(generatedBeanName)) { throw new BeanDefinitionStoreException("Unnamed bean definition specifies neither " + "'class' nor 'parent' nor 'factory-bean' - can't generate bean name"); } String id = generatedBeanName; //当为内部bean时,调用系统底层的object唯一标识码生成if (isInnerBean) { // Inner bean: generate identity hashcode suffix. id = generatedBeanName + GENERATED_BEAN_NAME_SEPARATOR + ObjectUtils.getIdentityHexString(definition); } //否则即为顶级bean,生成策略是前缀+循环数字,直到找到对应自增idelse { // Top-level bean: use plain class name. // Increase counter until the id is unique.int counter = -1; while (counter == -1 || registry.containsBeanDefinition(id)) { counter++; id = generatedBeanName + GENERATED_BEAN_NAME_SEPARATOR + counter; } } return id; }
关于每个对象的hash code的生成方式,这里面不确定是否和对象重写的hashCode()方法有关,需要jvm相关资料说明。
// ObjectUtils.java/** * Return a hex String form of an object's identity hash code. * 返回一个十六进制数从hash code中获得 * @param obj * the object * @return the object's identity code in hex notation */public static String getIdentityHexString(Object obj) { return Integer.toHexString(System.identityHashCode(obj)); } // System.java/** * Returns the same hash code for the given object as would be returned by * the default method hashCode(), whether or not the given object's class * overrides hashCode(). The hash code for the null reference is zero. * * @param x * object for which the hashCode is to be calculated * @return the hashCode * @since JDK1.1 *///native 表示操作系统实现的底层框架,用于生成对象的hashcode。jvm的实现还没有关心。public static native int identityHashCode(Object x); // Integer.java/** * All possible chars for representing a number as a String */final static char[] digits = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z' }; public static String toHexString(int i) { return toUnsignedString(i, 4); } private static String toUnsignedString(int i, int shift) { char[] buf = new char[32]; int charPos = 32; int radix = 1 << shift; int mask = radix - 1; do { buf[--charPos] = digits[i & mask]; i >>>= shift; } while (i != 0); return new String(buf, charPos, (32 - charPos)); }
重新整理下流程:生成流程分为前后两部分,前面生成的叫前缀,后面生成的叫后缀。
1,读取待生成name实例的类名称,未必是运行时的实际类型。
2,如果类型为空,则判断是否存在parent bean,如果存在,读取parent bean的name+"$child"。
3,如果parent bean 为空,那么判断是否存在factory bean ,如存在,factory bean name + "$created".前缀生成完毕。
4,如果前缀为空,直接抛出异常,没有可以定义这个bean的任何依据。
5,前缀存在,判断是否为内部bean(innerBean,此处默认为false),如果是,最终为前缀+分隔符+十六进制的hashcode码、
6,如果是顶级bean(top-level bean ),则判断前缀+数字的bean是否已存在,循环查询,直到查询到没有使用的id为止。处理完成。
DefaultBeanNameGenerator处理的问题就这些了。