sql优化-派生表与inner-join

首先来说明一下派生表

外部的表查询的结果集是从子查询中生成的.如下形式:

select ... from (select ....) dt

如上形式中括号中的查询的结果作为外面select语句的查询源,派生表必须指定别名,因此后面的dt必须指定。派生表和临时表差不多,但是在select语句中派生表比临时表要容易,因为派生表不用创建。

一个有关派生表优化的实例。

开发同事发来一个sql优化,涉及到4张表,表中的数据都不是很大,但是查询起来真的很慢。服务器性能又差,查询总是超时。

四张表的表结构如下:

       Table: t_info_setting
Create Table: CREATE TABLE `t_info_setting` (
  `id` int(11) NOT NULL AUTO_INCREMENT,
  `parent_key` varchar(32) NOT NULL,
  `column_name` varchar(32) NOT NULL,
  `column_key` varchar(32) NOT NULL,
  `storage_way` tinyint(4) DEFAULT '0',
  `check_way` tinyint(4) DEFAULT '0',
  `remark` varchar(500) DEFAULT '',
  `operator` varchar(128) DEFAULT '',
  `status` int(11) DEFAULT '1',
  `update_time` datetime DEFAULT CURRENT_TIMESTAMP ON UPDATE CURRENT_TIMESTAMP,
  PRIMARY KEY (`id`),
  KEY `column_key` (`column_key`)
) ENGINE=InnoDB AUTO_INCREMENT=9 DEFAULT CHARSET=utf8
t_info_setting
       Table: t_articles_status
Create Table: CREATE TABLE `t_articles_status` (
  `id` int(11) unsigned NOT NULL AUTO_INCREMENT,
  `linkId` varchar(36) NOT NULL,
  `column_key` varchar(32) NOT NULL,
  `status` int(11) DEFAULT '50000',
  `operator_time` timestamp NULL DEFAULT CURRENT_TIMESTAMP ON UPDATE CURRENT_TIMESTAMP,
  PRIMARY KEY (`id`),
  KEY `article_status` (`linkId`,`column_key`)
) ENGINE=InnoDB AUTO_INCREMENT=22232 DEFAULT CHARSET=utf8
1 row in set (0.00 sec)
t_articles_status
       Table: t_article_operations
Create Table: CREATE TABLE `t_article_operations` (
  `id` int(11) NOT NULL AUTO_INCREMENT,
  `linkId` varchar(36) NOT NULL,
  `column_key` varchar(32) NOT NULL DEFAULT '',
  `type` varchar(16) DEFAULT '',
  `operator` varchar(128) DEFAULT '',
  `operator_time` timestamp NULL DEFAULT CURRENT_TIMESTAMP ON UPDATE CURRENT_TIMESTAMP,
  PRIMARY KEY (`id`),
  KEY `article_operation` (`linkId`,`column_key`),
  KEY `operator_time` (`operator_time`)
) ENGINE=InnoDB AUTO_INCREMENT=23316 DEFAULT CHARSET=utf8
1 row in set (0.00 sec)
t_article_operations
       Table: t_articles
Create Table: CREATE TABLE `t_articles` (
  `id` int(11) unsigned NOT NULL AUTO_INCREMENT,
  `linkId` varchar(36) DEFAULT NULL,
  `source` int(11) DEFAULT '0',
  `title` varchar(150) NOT NULL,
  `author` varchar(150) NOT NULL,
  `tags` varchar(200) DEFAULT NULL,
  `abstract` varchar(512) DEFAULT NULL,
  `content` mediumtext,
  `thumbnail` varchar(256) DEFAULT NULL,
  `sourceId` varchar(24) DEFAULT '',
  `accessoryUrl` text,
  `relatedStock` text,
  `contentUrl` text,
  `secuInfo` text,
  `market` varchar(10) DEFAULT 'hk',
  `code` varchar(10) DEFAULT '',
  `updator` varchar(64) DEFAULT '',
  `createTime` timestamp NULL DEFAULT CURRENT_TIMESTAMP COMMENT '建立时间',
  `updateTime` timestamp NULL DEFAULT CURRENT_TIMESTAMP ON UPDATE CURRENT_TIMESTAMP COMMENT '更新时间',
  PRIMARY KEY (`id`),
  UNIQUE KEY `linkId` (`linkId`)
) ENGINE=InnoDB AUTO_INCREMENT=15282 DEFAULT CHARSET=utf8
t_articles

上面四张表,由上面的自增字段的值可以知道表的数据并不是很大,最大的表也就2万多行,表中的索引情况已经一目了然。开发同学给出的sql语句如下:

(
  SELECT
    'daily' AS category,
    e.linkId,
    e.title,
    e.updateTime
  FROM
    (
      SELECT DISTINCT
        b.column_key,
        b. STATUS,
        b.linkId
      FROM
        t_info_setting a
      inner JOIN t_articles_status b ON a.column_key = b.column_key
      inner JOIN t_article_operations c ON b.column_key = c.column_key
      WHERE
        a.parent_key = 'daily'
      AND a. STATUS = 1
      AND b. STATUS = 80000
      ORDER BY
        c.operator_time DESC
      LIMIT 1
    ) AS d
  inner JOIN t_articles e ON d.linkId = e.linkId
)
UNION ALL
  (
    SELECT
      'ipo' AS category,
      e.linkId,
      e.title,
      e.updateTime
    FROM
      (
        SELECT DISTINCT
          b.column_key,
          b. STATUS,
          b.linkId
        FROM
          t_info_setting a
        inner JOIN t_articles_status b ON a.column_key = b.column_key
        inner JOIN t_article_operations c ON b.column_key = c.column_key
        WHERE
          a.parent_key = 'ipo'
        AND a. STATUS = 1
        AND b. STATUS = 80000
        ORDER BY
          c.operator_time DESC
        LIMIT 1
      ) AS d
    inner JOIN t_articles e ON d.linkId = e.linkId
  )
UNION ALL
  (
    SELECT
      'research' AS category,
      e.linkId,
      e.title,
      e.updateTime
    FROM
      (
        SELECT DISTINCT
          b.column_key,
          b. STATUS,
          b.linkId
        FROM
          t_info_setting a
        inner JOIN t_articles_status b ON a.column_key = b.column_key
        inner JOIN t_article_operations c ON b.column_key = c.column_key
        WHERE
          a.parent_key = 'research'
        AND a. STATUS = 1
        AND b. STATUS = 80000
        ORDER BY
          c.operator_time DESC
        LIMIT 1
      ) AS d
    inner JOIN t_articles e ON d.linkId = e.linkId
  )
UNION ALL
  (
    SELECT
      'news' AS category,
      e.linkId,
      e.title,
      e.updateTime
    FROM
      (
        SELECT DISTINCT
          b.column_key,
          b. STATUS,
          b.linkId
        FROM
          t_info_setting a
        inner JOIN t_articles_status b ON a.column_key = b.column_key
        inner JOIN t_article_operations c ON b.column_key = c.column_key
        WHERE
          a.parent_key = 'news'
        AND a. STATUS = 1
        AND b. STATUS = 80000
        ORDER BY
          c.operator_time DESC
        LIMIT 1
      ) AS d
    inner JOIN t_articles e ON d.linkId = e.linkId
  )
开发给的sql

原sql很长大概有107行,但是分析这条sql发现了使用了三个union联合查询,然后每条联合的sql语句基本是一模一样的,只是改变了a.parent_key = 'research'这个条件。这说明我们只需要分析其中的一条sql即可。

        SELECT
            'research' AS category,
            e.linkId,
            e.title,
            e.updateTime
        FROM
            (                             -- 这里使用了派生表
                SELECT DISTINCT           --a
                    b.column_key,
                    b. STATUS,
                    b.linkId
                FROM
                    t_info_setting a
                inner JOIN t_articles_status b ON a.column_key = b.column_key
                inner JOIN t_article_operations c ON b.column_key = c.column_key           -- c
                WHERE
                    a.parent_key = 'research'
                AND a. STATUS = 1
                AND b. STATUS = 80000
                ORDER BY
                    c.operator_time DESC
                LIMIT 1
            ) AS d
        inner JOIN t_articles e ON d.linkId = e.linkId           -- b

首先:这条sql语句中使用了派生表,分析里面的子查询,最后有一个limit 1也就是只查出一条数据,并且是按照operator_time 进行排序,那么distinct的去重复就是不需要的。再看子查询中查询出了三个字段,但是在b处和e表进行联合查询的时候只使用了linkId 这一个字段,因此子查询中多余的两个字段需要去掉。

在表t_article_operations上有一个符合索引,我们知道mysql在使用复合索引时,采用最左原则,因此在c处的联合查询我们需要加上linkId ,根据上面分析,改写sql如下:

select
    'research' as category,
    e.linkId,
    e.title,
    e.updateTime
from (
    select b.linkId -- 去除不必要的列、distinct操作
    from t_info_setting a
    inner join t_articles_status b
        on a.column_key=b.column_key
    inner join t_article_operations c
        on b.linkId=c.linkId and b.column_key=c.column_key -- 关联条件应包含linkId
    where
        a.parent_key='research'
        and a.status=1
        and b.status=80000
    order by c.operator_time desc
    limit 1
) d
inner join t_articles e
    on d.linkId=e.linkId;

然后查看下改写前后两个sql的执行计划。

 

 

改写后的执行计划:

+----+-------------+------------+--------+-------------------+----------------+---------+-----------------------------------------------------------+-------+-------------+
| id | select_type | table      | type   | possible_keys     | key            | key_len | ref                                                       | rows  | Extra       |
+----+-------------+------------+--------+-------------------+----------------+---------+-----------------------------------------------------------+-------+-------------+
|  1 | PRIMARY     | <derived2> | system | NULL              | NULL           | NULL    | NULL                                                      |     1 | NULL        |
|  1 | PRIMARY     | e          | const  | linkId            | linkId         | 111     | const                                                     |     1 | NULL        |
|  2 | DERIVED     | c          | index  | article_operation | operator_time  | 5       | NULL                                                      | 14711 | NULL        |
|  2 | DERIVED     | a          | ref    | column_key        | column_key     | 98      | wlb_live_contents.c.column_key                            |     1 | Using where |
|  2 | DERIVED     | b          | ref    | article_status    | article_status | 208     | wlb_live_contents.c.linkId,wlb_live_contents.c.column_key |     1 | Using where |
+----+-------------+------------+--------+-------------------+----------------+---------+-----------------------------------------------------------+-------+-------------+

改写之后的单个sql很快就有了结果,大概0.12秒就有了结束,而原来的sql会超时结束的。

在原sql语句中使用了union,因为我们最后的结果并不要求去重复,只是四个结果集的联合,因此这里我们可以使用union all代替上面的union。

改写后的执行计划DERIVED表示使用了派生表,我们看到在e表与派生表进行inner查询的使用了索引。

分析:

之前看到一种说法是,在数据表和派生表联合进行查询时,不能使用索引,但是上面的的执行计划说明使用了索引(e表和派生表联合查询,e表使用了索引)。【究竟要怎么用还需进一步研究】

改写sql

上面使用了派生表,其实数据量比较大时,派生表的效率并不是很高的,上面的查询我们试着用4张表的联合查询来改写。

改写之后的sql如下:

SELECT
    'research' AS category,
    e.linkId,
    e.title,
    e.updateTime
FROM
    t_info_setting a
INNER JOIN t_articles_status b ON a.column_key = b.column_key
INNER JOIN t_article_operations c ON b.linkId = c.linkId
AND b.column_key = c.column_key
INNER JOIN t_articles e ON c.linkId = e.linkId
WHERE
    a.parent_key = 'research'
AND a. STATUS = 1
AND b. STATUS = 80000
ORDER BY
    c.operator_time DESC
LIMIT 1

查看执行计划:

+----+-------------+-------+-------+-------------------+----------------+---------+-----------------------------------------------------------+------+-------------+
| id | select_type | table | type  | possible_keys     | key            | key_len | ref                                                       | rows | Extra       |
+----+-------------+-------+-------+-------------------+----------------+---------+-----------------------------------------------------------+------+-------------+
|  1 | SIMPLE      | c     | index | article_operation | operator_time  | 5       | NULL                                                      |    1 | NULL        |
|  1 | SIMPLE      | a     | ref   | column_key        | column_key     | 98      | wlb_live_contents.c.column_key                            |    1 | Using where |
|  1 | SIMPLE      | b     | ref   | article_status    | article_status | 208     | wlb_live_contents.c.linkId,wlb_live_contents.c.column_key |    1 | Using where |
|  1 | SIMPLE      | e     | ref   | linkId            | linkId         | 111     | wlb_live_contents.c.linkId                                |    1 | NULL        |
+----+-------------+-------+-------+-------------------+----------------+---------+-----------------------------------------------------------+------+-------------+

根据执行计划,这个inner join的执行计划是要比上面的使用派生表的执行计划要高一些。

说明:

1:在使用联合查询的时候,可以考虑联合查询的键上创建索引,效率可能会高点。

2:可以考虑在order by的键上创建索引。

3:根据数据可以知道,t_article_operations本质上是一个流水表,记录日志类信息,不应出现在日常查询中。解决此种查询的办法:operator_time保存在t_articles_status中,查询彻底移除t_article_operations,或临时方法:t_article_operations只保留短期数据,历史记录定期迁移至其他表。

 

posted @ 2019-09-10 10:54  夜间独行的浪子  阅读(1243)  评论(0编辑  收藏  举报