站长资讯网
最全最丰富的资讯网站

Mysql之 详解JOIN

mysql视频教程栏目详解join

Mysql之 详解JOIN

相关免费学习推荐:mysql视频教程

0 索引

  • JOIN语句的执行顺序
  • INNER/LEFT/RIGHT/FULL JOIN的区别
  • ONWHERE的区别

1 概述

一个完整的SQL语句中会被拆分成多个子句,子句的执行过程中会产生虚拟表(vt),但是结果只返回最后一张虚拟表。从这个思路出发,我们试着理解一下JOIN查询的执行过程并解答一些常见的问题。
如果之前对不同JOIN的执行结果没有概念,可以结合这篇文章往下看

2 JOIN的执行顺序

以下是JOIN查询的通用结构

SELECT <row_list>    FROM <left_table>      <inner|left|right> JOIN <right_table>        ON <join condition>          WHERE <where_condition>

它的执行顺序如下(SQL语句里第一个被执行的总是FROM子句)

  • FROM:对左右两张表执行笛卡尔积,产生第一张表vt1。行数为n*m(n为左表的行数,m为右表的行数
  • ON:根据ON的条件逐行筛选vt1,将结果插入vt2中
  • JOIN:添加外部行,如果指定了LEFT JOIN(LEFT OUTER JOIN),则先遍历一遍左表的每一行,其中不在vt2的行会被插入到vt2,该行的剩余字段将被填充为NULL,形成vt3;如果指定了RIGHT JOIN也是同理。但如果指定的是INNER JOIN,则不会添加外部行,上述插入过程被忽略,vt2=vt3(所以INNER JOIN的过滤条件放在ONWHERE里 执行结果是没有区别的,下文会细说)
  • WHERE:对vt3进行条件过滤,满足条件的行被输出到vt4
  • SELECT:取出vt4的指定字段到vt5

下面用一个例子介绍一下上述联表的过程(这个例子不是个好的实践,只是为了说明join语法)

3 举例

创建一个用户信息表:

CREATE TABLE `user_info` (   `userid` int(11) NOT NULL,   `name` varchar(255) NOT NULL,   UNIQUE `userid` (`userid`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8mb4

再创建一个用户余额表:

CREATE TABLE `user_account` (   `userid` int(11) NOT NULL,   `money` bigint(20) NOT NULL,  UNIQUE `userid` (`userid`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8mb4

随便导入一些数据:

select * from user_info; +--------+------+ | userid | name | +--------+------+ |   1001 | x    | |   1002 | y    | |   1003 | z    | |   1004 | a    | |   1005 | b    | |   1006 | c    | |   1007 | d    | |   1008 | e    | +--------+------+ 8 rows in set (0.00 sec)  select * from user_account; +--------+-------+ | userid | money | +--------+-------+ |   1001 |    22 | |   1002 |    30 | |   1003 |     8 | |   1009 |    11 | +--------+-------+ 4 rows in set (0.00 sec)

一共8个用户有用户名,4个用户的账户有余额。
取出userid为1003的用户姓名和余额,SQL如下

SELECT i.name, a.money    FROM user_info as i      LEFT JOIN user_account as a        ON i.userid = a.userid          WHERE a.userid = 1003;

第一步:执行FROM子句对两张表进行笛卡尔积操作

笛卡尔积操作后会返回两张表中所有行的组合,左表user_info有8行,右表user_account有4行,生成的虚拟表vt1就是8*4=32行:

SELECT * FROM user_info as i LEFT JOIN user_account as a ON 1; +--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1001 | x    |   1001 |    22 | |   1002 | y    |   1001 |    22 | |   1003 | z    |   1001 |    22 | |   1004 | a    |   1001 |    22 | |   1005 | b    |   1001 |    22 | |   1006 | c    |   1001 |    22 | |   1007 | d    |   1001 |    22 | |   1008 | e    |   1001 |    22 | |   1001 | x    |   1002 |    30 | |   1002 | y    |   1002 |    30 | |   1003 | z    |   1002 |    30 | |   1004 | a    |   1002 |    30 | |   1005 | b    |   1002 |    30 | |   1006 | c    |   1002 |    30 | |   1007 | d    |   1002 |    30 | |   1008 | e    |   1002 |    30 | |   1001 | x    |   1003 |     8 | |   1002 | y    |   1003 |     8 | |   1003 | z    |   1003 |     8 | |   1004 | a    |   1003 |     8 | |   1005 | b    |   1003 |     8 | |   1006 | c    |   1003 |     8 | |   1007 | d    |   1003 |     8 | |   1008 | e    |   1003 |     8 | |   1001 | x    |   1009 |    11 | |   1002 | y    |   1009 |    11 | |   1003 | z    |   1009 |    11 | |   1004 | a    |   1009 |    11 | |   1005 | b    |   1009 |    11 | |   1006 | c    |   1009 |    11 | |   1007 | d    |   1009 |    11 | |   1008 | e    |   1009 |    11 | +--------+------+--------+-------+ 32 rows in set (0.00 sec)

第二步:执行ON子句过滤掉不满足条件的行

ON i.userid = a.userid 过滤之后vt2如下:

+--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1001 | x    |   1001 |    22 | |   1002 | y    |   1002 |    30 | |   1003 | z    |   1003 |     8 | +--------+------+--------+-------+

第三步:JOIN 添加外部行

LEFT JOIN会将左表未出现在vt2的行插入进vt2,每一行的剩余字段将被填充为NULL,RIGHT JOIN同理
本例中用的是LEFT JOIN,所以会将左表user_info剩下的行都添上 生成表vt3:

+--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1001 | x    |   1001 |    22 | |   1002 | y    |   1002 |    30 | |   1003 | z    |   1003 |     8 | |   1004 | a    |   NULL |  NULL | |   1005 | b    |   NULL |  NULL | |   1006 | c    |   NULL |  NULL | |   1007 | d    |   NULL |  NULL | |   1008 | e    |   NULL |  NULL | +--------+------+--------+-------+

第四步:WHERE条件过滤

WHERE a.userid = 1003 生成表vt4:

+--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1003 | z    |   1003 |     8 | +--------+------+--------+-------+

第五步:SELECT

SELECT i.name, a.money 生成vt5:

+------+-------+ | name | money | +------+-------+ | z    |     8 | +------+-------+

虚拟表vt5作为最终结果返回给客户端

介绍完联表的过程之后,我们看看常用JOIN的区别

4 INNER/LEFT/RIGHT/FULL JOIN的区别

  • INNER JOIN…ON…: 返回 左右表互相匹配的所有行(因为只执行上文的第二步ON过滤,不执行第三步 添加外部行)
  • LEFT JOIN…ON…: 返回左表的所有行,若某些行在右表里没有相对应的匹配行,则将右表的列在新表中置为NULL
  • RIGHT JOIN…ON…: 返回右表的所有行,若某些行在左表里没有相对应的匹配行,则将左表的列在新表中置为NULL

INNER JOIN

拿上文的第三步添加外部行来举例,若LEFT JOIN替换成INNER JOIN,则会跳过这一步,生成的表vt3与vt2一模一样:

+--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1001 | x    |   1001 |    22 | |   1002 | y    |   1002 |    30 | |   1003 | z    |   1003 |     8 | +--------+------+--------+-------+

RIGHT JOIN

LEFT JOIN替换成RIGHT JOIN,则生成的表vt3如下:

+--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1001 | x    |   1001 |    22 | |   1002 | y    |   1002 |    30 | |   1003 | z    |   1003 |     8 | |   NULL | NULL |   1009 |    11 | +--------+------+--------+-------+

因为user_account(右表)里存在userid=1009这一行,而user_info(左表)里却找不到这一行的记录,所以会在第三步插入以下一行:

|   NULL | NULL |   1009 |    11 |

FULL JOIN

上文引用的文章中提到了标准SQL定义的FULL JOIN,这在mysql里是不支持的,不过我们可以通过LEFT JOIN + UNION + RIGHT JOIN 来实现FULL JOIN

SELECT *    FROM user_info as i      RIGHT JOIN user_account as a        ON a.userid=i.userid union  SELECT *    FROM user_info as i      LEFT JOIN user_account as a        ON a.userid=i.userid;

他会返回如下结果:

+--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1001 | x    |   1001 |    22 | |   1002 | y    |   1002 |    30 | |   1003 | z    |   1003 |     8 | |   NULL | NULL |   1009 |    11 | |   1004 | a    |   NULL |  NULL | |   1005 | b    |   NULL |  NULL | |   1006 | c    |   NULL |  NULL | |   1007 | d    |   NULL |  NULL | |   1008 | e    |   NULL |  NULL | +--------+------+--------+-------+

ps:其实我们从语义上就能看出LEFT JOINRIGHT JOIN没什么差别,两者的结果差异取决于左右表的放置顺序,以下内容摘自mysql官方文档:

RIGHT JOIN works analogously to LEFT JOIN. To keep code portable across databases, it is recommended that you use LEFT JOIN instead of RIGHT JOIN.

所以当你纠结使用LEFT JOIN还是RIGHT JOIN时,尽可能只使用LEFT JOIN吧

5 ON和WHERE的区别

上文把JOIN的执行顺序了解清楚之后,ON和WHERE的区别也就很好理解了。
举例说明:

SELECT *    FROM user_info as i     LEFT JOIN user_account as a       ON i.userid = a.userid and i.userid = 1003;
SELECT *    FROM user_info as i     LEFT JOIN user_account as a       ON i.userid = a.userid where i.userid = 1003;

第一种情况LEFT JOIN在执行完第二步ON子句后,筛选出满足i.userid = a.userid and i.userid = 1003的行,生成表vt2,然后执行第三步JOIN子句,将外部行添加进虚拟表生成vt3即最终结果:

vt2: +--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1003 | z    |   1003 |     8 | +--------+------+--------+-------+ vt3: +--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1001 | x    |   NULL |  NULL | |   1002 | y    |   NULL |  NULL | |   1003 | z    |   1003 |     8 | |   1004 | a    |   NULL |  NULL | |   1005 | b    |   NULL |  NULL | |   1006 | c    |   NULL |  NULL | |   1007 | d    |   NULL |  NULL | |   1008 | e    |   NULL |  NULL | +--------+------+--------+-------+

而第二种情况LEFT JOIN在执行完第二步ON子句后,筛选出满足i.userid = a.userid的行,生成表vt2;再执行第三步JOIN子句添加外部行生成表vt3;然后执行第四步WHERE子句,再对vt3表进行过滤生成vt4,得的最终结果:

vt2: +--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1001 | x    |   1001 |    22 | |   1002 | y    |   1002 |    30 | |   1003 | z    |   1003 |     8 | +--------+------+--------+-------+ vt3: +--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1001 | x    |   1001 |    22 | |   1002 | y    |   1002 |    30 | |   1003 | z    |   1003 |     8 | |   1004 | a    |   NULL |  NULL | |   1005 | b    |   NULL |  NULL | |   1006 | c    |   NULL |  NULL | |   1007 | d    |   NULL |  NULL | |   1008 | e    |   NULL |  NULL | +--------+------+--------+-------+ vt4: +--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1003 | z    |   1003 |     8 | +--------+------+--------+-------+

如果将上例的LEFT JOIN替换成INNER JOIN,不论将条件过滤放到ON还是WHERE里,结果都是一样的,因为INNER JOIN不会执行第三步添加外部行

SELECT *    FROM user_info as i     INNER JOIN user_account as a       ON i.userid = a.userid and i.userid = 1003;
SELECT *    FROM user_info as i     INNER JOIN user_account as a       ON i.userid = a.userid where i.userid = 1003;

返回结果都是:

+--------+------+--------+-------+ | userid | name | userid | money | +--------+------+--------+-------+ |   1003 | z    |   1003 |     8 | +--------+------+--------+-------+

想了解

赞(0)
分享到: 更多 (0)
网站地图   沪ICP备18035694号-2    沪公网安备31011702889846号