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目录

什么是注解
为什么学习注解
注解的基本作用
常用的注解类和元注解

@Override
@Documented
@Retention
@Target
@Inherited

附录

注解和注释的区别
巨人的肩膀

一、什么是注解

注解(Annotation)就是一个元数据,即描述数据的数据【是不是感觉和注释差不多,两者的区别看这里:注解和注释的区别

二、为什么学习注解

官方术语:如果你想把某个方法声明为服务,那么使用注解(Annotation)会更好一些,因为这种情况下需要注解和方法紧密耦合起来,开发人员也必须意识到这一点。
自我理解:更好的优化理解代码
自我表现:对菜鸟装一手
自我现实:

参考的代码出错了,都不知道哪里错,那么你就可以凉凉了
面试一问三不知道,恭喜你凉凉了

三、注解的基本作用

编译检查
在反射中使用注解(Annotation)
根据注解(Annotation)生成帮助文档
注解处理器
在框架中的作用

四、常用的注解类和元注解

注解类:用于注解的一个类,如@Override

元注解(meta-annotation):自定义注解上还有注解,共四个:@Target、@Retention、@Documented、@Inherited

@Override

@Override
    protected void onCreate(Bundle savedInstanceState) {
        super.onCreate(savedInstanceState);
        setContentView(R.layout.main);
}

代码片段01——调用@Override代码地方

@Target(ElementType.METHOD)
@Retention(RetentionPolicy.SOURCE)
public @interface Override {
}

代码片段02——@Override代码内容

从代码片段01,我们可以知道注解@Override绝对是我们学习Android的人员最常用的注解了。那么它具体是什么作用呢?在代码片段02中,我们可以理解发现里面可以说是什么都没写,它的具体作用是只能是注解的基本作用之一,检测编译;具体体现是验证@Override下面的方法名是否是你父类中所有的,如果没有则报错。比如上面的举例onCreate,如果没有@Override,且你的oncreate改为全部小写依旧可以编译通过,这时候编译器默认你创建了新的方法。

@Documented

@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(ElementType.ANNOTATION_TYPE)
public @interface Documented {
}

代码片段03——@Documented代码内容

在代码片段03中,我们可以理解发现里面可以说是什么都没写,它的具体作用是只能是注解的基本作用之一,根据注解(Annotation)生成帮助文档;具体体现是简单的标记注解,标识是否将注解信息包含在java文档中.

@Retention



/**
 * Indicates how long annotations with the annotated type are to
 * be retained.  If no Retention annotation is present on
 * an annotation type declaration, the retention policy defaults to
 * {@code RetentionPolicy.CLASS}.
 *
 * <p>A Retention meta-annotation has effect only if the
 * meta-annotated type is used directly for annotation.  It has no
 * effect if the meta-annotated type is used as a member type in
 * another annotation type.
 *
 * @author  Joshua Bloch
 * @since 1.5
 * @jls 9.6.3.2 @Retention
 */



@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(ElementType.ANNOTATION_TYPE)
public @interface Retention {
    /**
     * Returns the retention policy.
     * @return the retention policy
     */
    RetentionPolicy value();
}


代码片段04——@Retention代码内容


在代码片段04中,我们可以看到@Retention是根据RetentionPolicy类中的相应的结果集设置注解的保留时间【即设置注解的生命周期何时结束】,默认设置是RetentionPolicy.CLASS。查看RetentionPolicy类中的相应的结果集。




/**
 * Annotation retention policy.  The constants of this enumerated type
 * describe the various policies for retaining annotations.  They are used
 * in conjunction with the {@link Retention} meta-annotation type to specify
 * how long annotations are to be retained.
 *
 * @author  Joshua Bloch
 * @since 1.5
 */



public enum RetentionPolicy {
    /**
     * Annotations are to be discarded by the compiler.
     */
    SOURCE,

    /**
     * Annotations are to be recorded in the class file by the compiler
     * but need not be retained by the VM at run time.  This is the default
     * behavior.
     */
    CLASS,

    /**
     * Annotations are to be recorded in the class file by the compiler and
     * retained by the VM at run time, so they may be read reflectively.
     *
     * @see java.lang.reflect.AnnotatedElement
     */
    RUNTIME
}


代码片段05——RetentionPolicy类代码内容


在代码片段05中可知,这个类是设置注解什么时候结束的常量,即控制注解的生命周期的常量。分别为SOURCE,CLASS,RUNTIME。


RetentionPolicy.SOURCE:有效期在源码阶段,在编译阶段丢弃,这些注解在编译结束后不会有任何意义,也不会写入字节码中。

RetentionPolicy.CLASS:有效期至字节码文件。在类加载的时候丢弃,注解默认使用这种方式。

RetentionPolicy.RUNTIME:始终有效,在运行时也会保留。因此可以使用反射读取该注解的信息,自定义注解通常使用这种方式。


@Target




/**
 * Indicates the contexts in which an annotation type is applicable. The
 * declaration contexts and type contexts in which an annotation type may be
 * applicable are specified in JLS 9.6.4.1, and denoted in source code by enum
 * constants of {@link ElementType java.lang.annotation.ElementType}.
 *
 * <p>If an {@code @Target} meta-annotation is not present on an annotation type
 * {@code T} , then an annotation of type {@code T} may be written as a
 * modifier for any declaration except a type parameter declaration.
 *
 * <p>If an {@code @Target} meta-annotation is present, the compiler will enforce
 * the usage restrictions indicated by {@code ElementType}
 * enum constants, in line with JLS 9.7.4.
 *
 * <p>For example, this {@code @Target} meta-annotation indicates that the
 * declared type is itself a meta-annotation type.  It can only be used on
 * annotation type declarations:
 * <pre>
 *    @Target(ElementType.ANNOTATION_TYPE)
 *    public @interface MetaAnnotationType {
 *        ...
 *    }
 * </pre>
 *
 * <p>This {@code @Target} meta-annotation indicates that the declared type is
 * intended solely for use as a member type in complex annotation type
 * declarations.  It cannot be used to annotate anything directly:
 * <pre>
 *    @Target({})
 *    public @interface MemberType {
 *        ...
 *    }
 * </pre>
 *
 * <p>It is a compile-time error for a single {@code ElementType} constant to
 * appear more than once in an {@code @Target} annotation.  For example, the
 * following {@code @Target} meta-annotation is illegal:
 * <pre>
 *    @Target({ElementType.FIELD, ElementType.METHOD, ElementType.FIELD})
 *    public @interface Bogus {
 *        ...
 *    }
 * </pre>
 *
 * @since 1.5
 * @jls 9.6.4.1 @Target
 * @jls 9.7.4 Where Annotations May Appear
 */



@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(ElementType.ANNOTATION_TYPE)
public @interface Target {
    /**
     * Returns an array of the kinds of elements an annotation type
     * can be applied to.
     * @return an array of the kinds of elements an annotation type
     * can be applied to
     */
    ElementType[] value();
}


代码片段06——@Target代码内容


在代码片段06中,我们看到@Target是表示在什么地方使用该注解。默认情况下,则该注解可以放在任意地方。查看代码片段07,可以设置的参数。


/**
 * The constants of this enumerated type provide a simple classification of the
 * syntactic locations where annotations may appear in a Java program. These
 * constants are used in {@link Target java.lang.annotation.Target}
 * meta-annotations to specify where it is legal to write annotations of a
 * given type.
 *
 * <p>The syntactic locations where annotations may appear are split into
 * <em>declaration contexts</em> , where annotations apply to declarations, and
 * <em>type contexts</em> , where annotations apply to types used in
 * declarations and expressions.
 *
 * <p>The constants {@link #ANNOTATION_TYPE} , {@link #CONSTRUCTOR} , {@link
 * #FIELD} , {@link #LOCAL_VARIABLE} , {@link #METHOD} , {@link #PACKAGE} ,
 * {@link #PARAMETER} , {@link #TYPE} , and {@link #TYPE_PARAMETER} correspond
 * to the declaration contexts in JLS 9.6.4.1.
 *
 * <p>For example, an annotation whose type is meta-annotated with
 * {@code @Target(ElementType.FIELD)} may only be written as a modifier for a
 * field declaration.
 *
 * <p>The constant {@link #TYPE_USE} corresponds to the 15 type contexts in JLS
 * 4.11, as well as to two declaration contexts: type declarations (including
 * annotation type declarations) and type parameter declarations.
 *
 * <p>For example, an annotation whose type is meta-annotated with
 * {@code @Target(ElementType.TYPE_USE)} may be written on the type of a field
 * (or within the type of the field, if it is a nested, parameterized, or array
 * type), and may also appear as a modifier for, say, a class declaration.
 *
 * <p>The {@code TYPE_USE} constant includes type declarations and type
 * parameter declarations as a convenience for designers of type checkers which
 * give semantics to annotation types. For example, if the annotation type
 * {@code NonNull} is meta-annotated with
 * {@code @Target(ElementType.TYPE_USE)}, then {@code @NonNull}
 * {@code class C {...}} could be treated by a type checker as indicating that
 * all variables of class {@code C} are non-null, while still allowing
 * variables of other classes to be non-null or not non-null based on whether
 * {@code @NonNull} appears at the variable's declaration.
 *
 * @author  Joshua Bloch
 * @since 1.5
 * @jls 9.6.4.1 @Target
 * @jls 4.1 The Kinds of Types and Values
 */
public enum ElementType {
    /** Class, interface (including annotation type), or enum declaration */
    TYPE,

    /** Field declaration (includes enum constants) */
    FIELD,

    /** Method declaration */
    METHOD,

    /** Formal parameter declaration */
    PARAMETER,

    /** Constructor declaration */
    CONSTRUCTOR,

    /** Local variable declaration */
    LOCAL_VARIABLE,

    /** Annotation type declaration */
    ANNOTATION_TYPE,

    /** Package declaration */
    PACKAGE,

    /**
     * Type parameter declaration
     *
     * @since 1.8
     */
    TYPE_PARAMETER,

    /**
     * Use of a type
     *
     * @since 1.8
     */
    TYPE_USE
}


代码片段07——ElementType类t代码内容


ElementType.TYPE:用于描述类,接口(包括注解类型),Enum

ElementType.FIELD:用于描述实例变量(包括枚举的常量)

ElementType.METHOD:用于描述方法

ElementType.PARAMETER:用于描述参数

ElementType.CONSTRUCTOR:用于构造方法

ElementType.LOCAL_VARIABLE:用于描述局部变量

ElementType.ANNOTATION_TYPE :用于描述注解

ElementType.PACKAGE:用于描述包

ElementType.TYPE_PARAMETER:since 1.8 表示该注解能写在类型变量的声明语句中

ElementType.TYPE_USE:since 1.8 表示该注解能写在使用类型的任何语句中


@Inherited


@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(ElementType.ANNOTATION_TYPE)
public @interface Inherited {
}


代码片段08——@Inherited代码内容 


代码08片段表示该注解类型被自动继承,如果用户在当前类中查询这个元注解类型,但是当前类的声明中不包含这个元注解类型,那么将自动查询其父类,直至查到该注解或到达顶层类


附录


注解和注释的区别


 定义不同


注解:元数据,它是一种描述数据的数据。所以,可以说注解就是源代码的元数据。

注释:是对源代码说明的文字


作用对象不同


注解:是给编译器看的。

注释:是给人看的。


书写范围不同


注解:遵守一定的书写规范,以@开头,与工具一起使用

注释:可以在代码的任何地方书写


运行范围不同


注解:可以参与编译器的任何阶段,对数据有一定的操作作用

注释:被编译器忽略,不参与编译


巨人的肩膀


注解的作用