java注释格式清单

Java 注释格式

1 注释文档的格式

注释文档将用来生成HTML格式的代码报告，所以注释文档必须书写在类、域、构造函数、方法、定义之前。注释文档由两部分组成——描述、块标记。例如：

/**

* The doGet method of the servlet.

* This method is called when a form has its tag value method equals to get.

* @param request

* the request send by the client to the server

* @param response

* the response send by the server to the client

* @throws ServletException

* if an error occurred

* @throws IOException

* if an error occurred

public void doGet (HttpServletRequest request, HttpServletResponse response)

throws ServletException, IOException {

doPost(request, response);

}

前两行为描述，描述完毕后，由@符号起头为块标记注视。

2 注释的种类

2.1 文件头注释

文件头注释以 /*开始，以*/结束，需要注明该文件创建时间，文件名，命名空间信息。

例如：

* Created on 2005-7-2

* /

2.2 类、接口注释

类、接口的注释采用 /** … */，描述部分用来书写该类的作用或者相关信息，块标记部分必须注明作者和版本。

例如：

/**Title: XXXX DRIVER 3.0

*Description: XXXX DRIVER 3.0

*Company:XXXX有限公司

* @author Java Development Group

* @version 3.0

例如：

/**

* A class representing a window on the screen.

* For example:

* Window win = new Window(parent);

* win.show();

* @author Sami Shaio

* @version %I%, %G%

* @see java.awt.BaseWindow

* @see java.awt.Button

class Window extends BaseWindow {

...

}

2.3 构造函数注释

构造函数注释采用 /** … */，描述部分注明构造函数的作用，不一定有块标记部分。

例如：

/**

* 默认构造函数

有例如：

/**

* 带参数构造函数,初始化模式名,名称和数据源类型

* @param schema

* Ref 模式名

* @param name

* Ref 名称

* @param type

* byVal 数据源类型

2.4 域注释

域注释可以出现在注释文档里面，也可以不出现在注释文档里面。用/** … */的域注释将会被认为是注释文档热出现在最终生成的HTML报告里面，而使用/* … */的注释会被忽略。

例如：

/* 由于triger和表用一个DMSource，所以要区分和表的迁移成功标记 */ boolean isTrigerSuccess = false;

又例如：

/** 由于triger和表用一个DMSource，所以要区分和表的迁移成功标记 */ boolean isTrigerSuccess = false;

再例如：

/**

* The X-coordinate of the component.

* @see #getLocation()

int x = 1263732;

2.5 方法注释

方法注释采用 /** … */，描述部分注明方法的功能，块标记部分注明方法的参数，返回值，异常等信息。例如：

/**

* 设置是否有外码约束

* @param conn

* Connection 与数据库的连接

2.6 定义注释

规则同域注释。

3 注释块标记

3.1 标记的顺序

块标记将采用如下顺序：

…

* @param (classes, interfaces, methods and constructors only) * @return (methods only)

* @exception (@throws is a synonym added in Javadoc 1.2)

* @author (classes and interfaces only, required)

* @version (classes and interfaces only, required. See footnote 1) * @see

* @since

* @serial (or @serialField or @serialData)

* @deprecated (see How and When To Deprecate APIs)

* …

一个块标记可以根据需要重复出现多次，多次出现的标记按照如下顺序： @author 按照时间先后顺序（chronological）

@param 按照参数定义顺序（declaration）

@throws 按照异常名字的字母顺序（alphabetically）

@see 按照如下顺序：

@see #field

@see #Constructor(Type, Type...)

@see #Constructor(Type id, Type id...)

@see #method(Type, Type,...)

@see #method(Type id, Type, id...)

@see Class

@see Class#field

@see Class#Constructor(Type, Type...)

@see Class#Constructor(Type id, Type id)

@see Class#method(Type, Type,...)

@see Class#method(Type id, Type id,...)

@see package.Class

@see package.Class#field

@see package.Class#Constructor(Type, Type...)

@see package.Class#Constructor(Type id, Type id)

@see package.Class#method(Type, Type,...)

@see package.Class#method(Type id, Type, id)

@see package

3.2 标记介绍

3.2.1 @param标记

@param后面空格后跟着参数的变量名字（不是类型），空格后跟着对该参数的描述。

在描述中第一个名字为该变量的数据类型，表示数据类型的名次前面可以有一个冠词如：a,an,the。如果是int类型的参数则不需要注明数据类型。例如： …

* @param ch the char 用用来……

* @param _image the image 用来……

* @param _num 一个数字……

…

对于参数的描述如果只是一短语，最好不要首字母大写，结尾也不要句号。对于参数的描述是一个句子，最好不要首字母大写，如果出现了句号这说明你的描述不止一句话。如果非要首字母大写的话，必须用句号来结束句子。（英文的句号）

公司内部添加ByRef和ByVal两个标记，例如：

* @param _image the image ByRef 用来……

说明该参数是引用传递（指针），ByVal可以省略，表示是值传递。

3.2.2 @return标记

返回为空（void）的构造函数或者函数，@return可以省略。

如果返回值就是输入参数，必须用与输入参数的@param相同的描述信息。必要的时候注明特殊条件写的返回值。

3.2.3 @throws 标记

@throws以前使用的是@exception。

@throws的内容必须在函数的throws部分定义。

3.2.4 @author标记

类注释标记。

函数注释里面可以不出现@author。

3.2.5 @version

类注释标记。

函数注释里面可以不出现@version

3.2.6 @since

类注释标记。

标明该类可以运行的JDK版本

例如：

@since JDK1.2

3.2.7 @deprecated

由于某种原因而被宣布将要被废弃的方法。

/**

* @deprecated As of JDK 1.1, replaced by

* setBounds

* @see #setBounds(int,int,int,int)

3.2.8 @link标记

语法：{@link package.class#member label}

Label为链接文字。

package.class#member将被自动转换成指向package.class的member文件的URL。

4 HTML代码的使用

在注释描述部分可以使用HTML代码。

表示段落

表示自动标号

5 注释示例

/**

* Graphics is the abstract base class for all graphics contexts * which allow an application to draw onto components realized on * various devices or onto off-screen images.

* A Graphics object encapsulates the state information needed * for the various rendering operations that Java supports. This * state information includes:

* (see setXORMode)

* Coordinates are infinitely thin and lie between the pixels of the * output device.

* Operations which draw the outline of a figure operate by traversing * along the infinitely thin path with a pixel-sized pen that hangs * down and to the right of the anchor point on the path.

* Operations which fill a figure operate by filling the interior

* of the infinitely thin path.

* Operations which render horizontal text render the ascending

* portion of the characters entirely above the baseline coordinate. *

* Some important points to consider are that drawing a figure that * covers a given rectangle will occupy one extra row of pixels on * the right and bottom edges compared to filling a figure that is * bounded by that same rectangle.

* Also, drawing a horizontal line along the same y coordinate as * the baseline of a line of text will draw the line entirely below * the text except for any descenders.

* Both of these properties are due to the pen hanging down and to * the right from the path that it traverses.

* All coordinates which appear as arguments to the methods of this * Graphics object are considered relative to the translation origin * of this Graphics object prior to the invocation of the method. * All rendering operations modify only pixels which lie within the * area bounded by both the current clip of the graphics context

* and the extents of the Component used to create the Graphics object. *

* @author Sami Shaio

* @author Arthur van Hoff

* @version %I%, %G%

* @since 1.0

public abstract class Graphics {

/**

* Draws as much of the specified image as is currently available * with its northwest corner at the specified coordinate (x, y). * This method will return immediately in all cases, even if the * entire image has not yet been scaled, dithered and converted * for the current output device.

* If the current output representation is not yet complete then * the method will return false and the indicated

* {@link ImageObserver} object will be notified as the

* conversion process progresses.

* @param img the image to be drawn

* @param x the x-coordinate of the northwest corner

* of the destination rectangle in pixels

* @param y the y-coordinate of the northwest corner

* of the destination rectangle in pixels

* @param observer the image observer to be notified as more * of the image is converted. May be

* null

* @return true if the image is completely

* loaded and was painted successfully;

* false otherwise.

* @see Image

* @see ImageObserver

* @since 1.0

public abstract boolean drawImage(Image img, int x, int y, ImageObserver observer);

/**

* Dispose of the system resources used by this graphics context. * The Graphics context cannot be used after being disposed of. * While the finalization process of the garbage collector will * also dispose of the same system resources, due to the number * of Graphics objects that can be created in short time frames * it is preferable to manually free the associated resources * using this method rather than to rely on a finalization * process which may not happen for a long period of time. *

* Graphics objects which are provided as arguments to the paint * and update methods of Components are automatically disposed * by the system when those methods return. Programmers should, * for efficiency, call the dispose method when finished using * a Graphics object only if it was created directly from a * Component or another Graphics object.

* @see #create(int, int, int, int)

* @see #finalize()

* @see Component#getGraphics()

* @see Component#paint(Graphics)

* @see Component#update(Graphics)

* @since 1.0

public abstract void dispose();

/**

* Disposes of this graphics context once it is no longer * referenced.

* @see #dispose()

* @since 1.0

public void finalize() {

dispose();

}

Java 注释格式

1 注释文档的格式

/**

* The doGet method of the servlet.

* This method is called when a form has its tag value method equals to get.

* @param request

* the request send by the client to the server

* @param response

* the response send by the server to the client

* @throws ServletException

* if an error occurred

* @throws IOException

* if an error occurred

public void doGet (HttpServletRequest request, HttpServletResponse response)

throws ServletException, IOException {

doPost(request, response);

}

前两行为描述，描述完毕后，由@符号起头为块标记注视。

2 注释的种类

2.1 文件头注释

文件头注释以 /*开始，以*/结束，需要注明该文件创建时间，文件名，命名空间信息。

例如：

* Created on 2005-7-2

* /

2.2 类、接口注释

类、接口的注释采用 /** … */，描述部分用来书写该类的作用或者相关信息，块标记部分必须注明作者和版本。

例如：

/**Title: XXXX DRIVER 3.0

*Description: XXXX DRIVER 3.0

*Company:XXXX有限公司

* @author Java Development Group

* @version 3.0

例如：

/**

* A class representing a window on the screen.

* For example:

* Window win = new Window(parent);

* win.show();

* @author Sami Shaio

* @version %I%, %G%

* @see java.awt.BaseWindow

* @see java.awt.Button

class Window extends BaseWindow {

...

}

2.3 构造函数注释

构造函数注释采用 /** … */，描述部分注明构造函数的作用，不一定有块标记部分。

例如：

/**

* 默认构造函数

有例如：

/**

* 带参数构造函数,初始化模式名,名称和数据源类型

* @param schema

* Ref 模式名

* @param name

* Ref 名称

* @param type

* byVal 数据源类型

2.4 域注释

例如：

/* 由于triger和表用一个DMSource，所以要区分和表的迁移成功标记 */ boolean isTrigerSuccess = false;

又例如：

/** 由于triger和表用一个DMSource，所以要区分和表的迁移成功标记 */ boolean isTrigerSuccess = false;

再例如：

/**

* The X-coordinate of the component.

* @see #getLocation()

int x = 1263732;

2.5 方法注释

方法注释采用 /** … */，描述部分注明方法的功能，块标记部分注明方法的参数，返回值，异常等信息。例如：

/**

* 设置是否有外码约束

* @param conn

* Connection 与数据库的连接

2.6 定义注释

规则同域注释。

3 注释块标记

3.1 标记的顺序

块标记将采用如下顺序：

…

* @param (classes, interfaces, methods and constructors only) * @return (methods only)

* @exception (@throws is a synonym added in Javadoc 1.2)

* @author (classes and interfaces only, required)

* @version (classes and interfaces only, required. See footnote 1) * @see

* @since

* @serial (or @serialField or @serialData)

* @deprecated (see How and When To Deprecate APIs)

* …

一个块标记可以根据需要重复出现多次，多次出现的标记按照如下顺序： @author 按照时间先后顺序（chronological）

@param 按照参数定义顺序（declaration）

@throws 按照异常名字的字母顺序（alphabetically）

@see 按照如下顺序：

@see #field

@see #Constructor(Type, Type...)

@see #Constructor(Type id, Type id...)

@see #method(Type, Type,...)

@see #method(Type id, Type, id...)

@see Class

@see Class#field

@see Class#Constructor(Type, Type...)

@see Class#Constructor(Type id, Type id)

@see Class#method(Type, Type,...)

@see Class#method(Type id, Type id,...)

@see package.Class

@see package.Class#field

@see package.Class#Constructor(Type, Type...)

@see package.Class#Constructor(Type id, Type id)

@see package.Class#method(Type, Type,...)

@see package.Class#method(Type id, Type, id)

@see package

3.2 标记介绍

3.2.1 @param标记

@param后面空格后跟着参数的变量名字（不是类型），空格后跟着对该参数的描述。

在描述中第一个名字为该变量的数据类型，表示数据类型的名次前面可以有一个冠词如：a,an,the。如果是int类型的参数则不需要注明数据类型。例如： …

* @param ch the char 用用来……

* @param _image the image 用来……

* @param _num 一个数字……

…

公司内部添加ByRef和ByVal两个标记，例如：

* @param _image the image ByRef 用来……

说明该参数是引用传递（指针），ByVal可以省略，表示是值传递。

3.2.2 @return标记

返回为空（void）的构造函数或者函数，@return可以省略。

如果返回值就是输入参数，必须用与输入参数的@param相同的描述信息。必要的时候注明特殊条件写的返回值。

3.2.3 @throws 标记

@throws以前使用的是@exception。

@throws的内容必须在函数的throws部分定义。

3.2.4 @author标记

类注释标记。

函数注释里面可以不出现@author。

3.2.5 @version

类注释标记。

函数注释里面可以不出现@version

3.2.6 @since

类注释标记。

标明该类可以运行的JDK版本

例如：

@since JDK1.2

3.2.7 @deprecated

由于某种原因而被宣布将要被废弃的方法。

/**

* @deprecated As of JDK 1.1, replaced by

* setBounds

* @see #setBounds(int,int,int,int)

3.2.8 @link标记

语法：{@link package.class#member label}

Label为链接文字。

package.class#member将被自动转换成指向package.class的member文件的URL。

4 HTML代码的使用

在注释描述部分可以使用HTML代码。

表示段落

表示自动标号

5 注释示例

/**

* Graphics is the abstract base class for all graphics contexts * which allow an application to draw onto components realized on * various devices or onto off-screen images.

* A Graphics object encapsulates the state information needed * for the various rendering operations that Java supports. This * state information includes:

* (see setXORMode)

* Coordinates are infinitely thin and lie between the pixels of the * output device.

* Operations which draw the outline of a figure operate by traversing * along the infinitely thin path with a pixel-sized pen that hangs * down and to the right of the anchor point on the path.

* Operations which fill a figure operate by filling the interior

* of the infinitely thin path.

* Operations which render horizontal text render the ascending

* portion of the characters entirely above the baseline coordinate. *

* Also, drawing a horizontal line along the same y coordinate as * the baseline of a line of text will draw the line entirely below * the text except for any descenders.

* Both of these properties are due to the pen hanging down and to * the right from the path that it traverses.

* and the extents of the Component used to create the Graphics object. *

* @author Sami Shaio

* @author Arthur van Hoff

* @version %I%, %G%

* @since 1.0

public abstract class Graphics {

/**

* If the current output representation is not yet complete then * the method will return false and the indicated

* {@link ImageObserver} object will be notified as the

* conversion process progresses.

* @param img the image to be drawn

* @param x the x-coordinate of the northwest corner

* of the destination rectangle in pixels

* @param y the y-coordinate of the northwest corner

* of the destination rectangle in pixels

* @param observer the image observer to be notified as more * of the image is converted. May be

* null

* @return true if the image is completely

* loaded and was painted successfully;

* false otherwise.

* @see Image

* @see ImageObserver

* @since 1.0

public abstract boolean drawImage(Image img, int x, int y, ImageObserver observer);

/**

* @see #create(int, int, int, int)

* @see #finalize()

* @see Component#getGraphics()

* @see Component#paint(Graphics)

* @see Component#update(Graphics)

* @since 1.0

public abstract void dispose();

/**

* Disposes of this graphics context once it is no longer * referenced.

* @see #dispose()

* @since 1.0

public void finalize() {

dispose();

}

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