lee*_*phy 5 mysql subquery in-subquery
我有两个表,位置和位置组
CREATE TABLE locations (
location_id INT UNSIGNED PRIMARY KEY AUTO_INCREMENT,
name VARCHAR(63) UNIQUE NOT NULL
);
INSERT INTO locations (name)
VALUES
('london'),
('bristol'),
('exeter');
CREATE TABLE location_groups (
location_group_id INT UNSIGNED PRIMARY KEY AUTO_INCREMENT,
location_ids VARCHAR(255) NOT NULL,
user_ids VARCHAR(255) NOT NULL,
name VARCHAR(63) NOT NULL,
);
INSERT INTO location_groups (location_ids, user_ids, name)
VALUES
('1', '1,2,4', 'south east'),
('2,3', '2', 'south west');
我想要做的是返回给定 user_id 存在的所有 location_groups 的所有 location_ids。我正在使用 CSV 将 location_ids 和 user_ids 存储在 location_groups 表中。我知道这不是规范化的,但这就是数据库的方式,它超出了我的控制。
我目前的查询是:
SELECT location_id
FROM locations
WHERE FIND_IN_SET(location_id,
(SELECT location_ids
FROM location_groups
WHERE FIND_IN_SET(2,location_groups.user_ids)) )
现在,如果 user_id = 1 例如(因为只返回 1 个 location_group 行),这可以正常工作,但是如果我搜索 user_id = 2,我会收到一个错误,说子查询返回超过 1 行,这是用户 2位于 2 个 location_groups 中。我明白为什么会抛出错误,我正在尝试解决它。
为了澄清在 location_groups.user_ids 中搜索 user_id 1 时应返回 location_id 1。搜索 user_id 2 时,应返回 location_ids 1,2,3。
我知道这是一个复杂的查询,所以如果有什么不清楚的,请告诉我。任何帮助,将不胜感激!谢谢你。
您可以使用sGROUP_CONCAT组合location_id子查询中的s 。
SELECT location_id
FROM locations
WHERE FIND_IN_SET(location_id,
(SELECT GROUP_CONCAT(location_ids)
FROM location_groups
WHERE FIND_IN_SET(2,location_groups.user_ids)) )
或者,使用编写查询时遇到的问题作为规范化好的原因的示例。哎呀,即使你确实使用了这个查询,它的运行速度也会比在正确规范化的表上的查询慢;你可以用它来说明为什么应该重组表。
作为参考(和其他读者),这里是规范化模式的样子(包括对基表的一些额外更改)。
location_groups表中的复合字段可以简单地分成额外的行以实现1NF,但这不会在2NF 中,因为该name列将仅依赖于候选键的location一部分(location, user)。(另一种思考方式是name区域的属性,而不是区域/组、位置和用户之间的关系。)
相反,这些列将被拆分为 1NF 的两个附加表:一个连接位置和区域,另一个连接用户和区域。后者可能是用户和位置(而不是区域)之间的关系,但当前模式并非如此(这可能是当前非规范化模式的另一个问题)。区域-位置关系是一对多的(因为每个位置都在一个区域内)。从样本数据中,我们看到区域-用户关系是多对多的。该location_groups表便成为region表。
-- normalized from `location_groups`
CREATE TABLE regions (
`id` INT UNSIGNED PRIMARY KEY AUTO_INCREMENT,
`name` VARCHAR(63) UNIQUE NOT NULL
);
-- slightly altered from original
CREATE TABLE locations (
`id` INT UNSIGNED PRIMARY KEY AUTO_INCREMENT,
`name` VARCHAR(63) UNIQUE NOT NULL
);
-- missing from original sample
CREATE TABLE users (
`id` INT UNSIGNED PRIMARY KEY AUTO_INCREMENT,
`name` VARCHAR(63) UNIQUE NOT NULL
);
-- normalized from `location_groups`
CREATE TABLE location_regions (
`region` INT UNSIGNED,
`location` INT UNSIGNED UNIQUE NOT NULL,
PRIMARY KEY (`region`, `location`),
FOREIGN KEY (`region`)
REFERENCES regions (id)
ON DELETE restrict ON UPDATE cascade,
FOREIGN KEY (`location`)
REFERENCES locations (id)
ON DELETE cascade ON UPDATE cascade
);
-- normalized from `location_groups`
CREATE TABLE user_regions (
`region` INT UNSIGNED NOT NULL,
`user` INT UNSIGNED NOT NULL,
PRIMARY KEY (`region`, `user`),
FOREIGN KEY (`region`)
REFERENCES regions (id)
ON DELETE restrict ON UPDATE cascade,
FOREIGN KEY (`user`)
REFERENCES users (id)
ON DELETE cascade ON UPDATE cascade
);
样本数据:
INSERT INTO regions
VALUES
('South East'),
('South West'),
('North East'),
('North West');
INSERT INTO locations (`name`)
VALUES
('London'),
('Bristol'),
('Exeter'),
('Hull');
INSERT INTO users (`name`)
VALUES
('Alice'),
('Bob'),
('Carol'),
('Dave'),
('Eve');
------ Location-Region relation ------
-- temporary table used to map natural keys to surrogate keys
CREATE TEMPORARY TABLE loc_rgns (
`location` VARCHAR(63) UNIQUE NOT NULL
`region` VARCHAR(63) NOT NULL,
);
-- Hull added to demonstrate correctness of desired query
INSERT INTO loc_rgns (region, location)
VALUES
('South East', 'London'),
('South West', 'Bristol'),
('South West', 'Exeter'),
('North East', 'Hull');
-- map natural keys to surrogate keys for final relationship
INSERT INTO location_regions (`location`, `region`)
SELECT loc.id, rgn.id
FROM locations AS loc
JOIN loc_rgns AS lr ON loc.name = lr.location
JOIN regions AS rgn ON rgn.name = lr.region;
------ User-Region relation ------
-- temporary table used to map natural keys to surrogate keys
CREATE TEMPORARY TABLE usr_rgns (
`user` INT UNSIGNED NOT NULL,
`region` VARCHAR(63) NOT NULL,
UNIQUE (`user`, `region`)
);
-- user 3 added in order to demonstrate correctness of desired query
INSERT INTO usr_rgns (`user`, `region`)
VALUES
(1, 'South East'),
(2, 'South East'),
(2, 'South West'),
(3, 'North West'),
(4, 'South East');
-- map natural keys to surrogate keys for final relationship
INSERT INTO user_regions (`user`, `region`)
SELECT user, rgn.id
FROM usr_rgns AS ur
JOIN regions AS rgn ON rgn.name = ur.region;
现在,对规范化架构的所需查询:
SELECT DISTINCT loc.id
FROM locations AS loc
JOIN location_regions AS lr ON loc.id = lr.location
JOIN user_regions AS ur ON lr.region = ur.region
;
结果:
+----+
| id |
+----+
| 1 |
| 2 |
| 3 |
+----+