第四天MySQL「终于解决」

第四天MySQL「终于解决」第四天MySQL
连接查询(内连接、外连接、交叉连接)(sql99版本下)
子查询:
select 后面(标量子查询)
from 后面(表子查询)
where 或having后面(标量子查询、列子查

第四天MySQL

2020 5/7

(sql99)

语法:

       SELECT   查询列表

       FROM    表1   别名 [连接类型]

       JION     表2  别名

       ON       连接条件

       [WHERE   筛选条件]

       [GROUP BY  分组]

       [HAVING    筛选条件]

       [ORDER BY   排序列表]

分类:

内连接:inner

外连接:

              左外:left [outer]

              右外:right[outer]

              全外:full[outer]

交叉连接:cross

 

 

#############(一)、内连接########################################

语法:

       SELECT 查询列表

       FROM 表1 别名

       INEER JOIN 表2 别名

       ON 连接条件;(后可外加其他如where、group by等子句)

 

特点:

①      可添加排序、分组、筛选

②      inner可以省略

③      筛选条件放在where 后面,连接条件放在on后面,提高分离性,便于阅读(对比与sql92,它的筛选条件和连接条件都是放在where后面)

分类:

###等值连接

 

#案例1:查询员工名、部门名

SELECT

       last_name,

       department_name

FROM

       employees e

INNER JOIN departments d ON e.department_id = d.department_id;

 

#案例2:查询名字中包含e的员工名和工种名【筛选】

SELECT

       last_name,

       job_title

FROM

       employees  e

INNER JOIN jobs  j  ON  e.job_id = j.job_id

WHERE

       e.last_name LIKE “%e%”;

 

#案例3:查询那个部门个数大于3的部门名和员工个数,并按个数降序【排序】

SELECT

       department_name,

       COUNT(*)

FROM

       employees  e

INNER JOIN departments  d ON e.department_id = d.department_id

GROUP BY

       department_name

HAVING

       COUNT(*) > 3

ORDER BY

       COUNT(*) DESC;

 

#案例4:查询部门个数大于3的城市名和部门个数【分组+筛选】

SELECT

       city,

       COUNT(*)

FROM

       locations l

INNER JOIN departments d ON l.location_id = d.location_id

GROUP BY

       city

HAVING

       COUNT(*) > 3;

 

#案例5:查询员工名、部门名、工种名、并按部门名降序

SELECT

       last_name,

       department_name,

       job_title

FROM

       employees e

INNER JOIN departments d ON e.department_id = d.department_id

INNER JOIN jobs j ON j.job_id = e.job_id

ORDER BY

       department_name DESC;

 

###非等值连接

 

#查询员工的工资级别

SELECT

       *

FROM

       job_grades;

 

SELECT

       grade_level,

       last_name,

       salary

FROM

       employees e

JOIN job_grades j ON e.salary BETWEEN lowest_sal

AND highest_sal;

 

#查询工资级别的个数大于20,并且按工资级别降序【排序+分组+筛选】

SELECT

       COUNT(*) 个数,

       grade_level

FROM

       employees e

JOIN job_grades j ON e.salary BETWEEN lowest_sal

AND highest_sal

GROUP BY

       grade_level

HAVING

       COUNT(*) > 20

ORDER BY

       grade_level DESC;

 

 

###自连接

#案例:查询员工的名字中包含”k”的员工名、上级的名字

SELECT

       e.last_name 员工名,

       m.last_name 上级领导名

FROM

       employees e

JOIN employees m ON e.manager_id = m.employee_id

WHERE

       e.last_name LIKE “%k%”;

 

###(二)、外连接#########################################

特点:

  1. 外连接的查询结果为主表中的所有记录

a)        如果从表中有和它匹配的,则显示为匹配的值

b)       如果从表中没有和它匹配的,则线束null

c)        外连接查询结果=内连接查询结果+主表中有而从表中没有的记录

  1. 左外连接,left join左边的是主表(右外连接,right join右边的为主表)
  2. 左外和右外交换两个表的顺序,可以实现同样的效果
  3. 全外连接=内连接查询结果+1表中有而表2中没有的记录+表2有而表1没有的记录

引入:

#查询没有男朋友的女神名

USE girls;

 

SELECT

       *

FROM

       beauty;

 

SELECT

       NAME,

       bo.id

FROM

       beauty bea

LEFT JOIN boys bo ON bea.boyfriend_id = bo.id

WHERE

       bo.id IS NULL;

###左(右)外连接

#查询哪个部门没有员工

 

#左外

SELECT

       department_name,

       employee_id

FROM

       departments d

LEFT JOIN employees e ON d.department_id = e.department_id

WHERE

       employee_id IS NULL;

———————————————————–

#右外

SELECT

       department_name,

       employee_id,

FROM

       employees e

RIGHT JOIN departments d ON d.department_id = e.department_id

WHERE

       employee_id IS NULL;

 

###全外连接

#查询女神表和男朋友表的全外连接

SELECT b.*,bo.*

FROM beauty b

FULL OUTER JOIN boys bo

ON b.boyfriend_id = bo.id;

 

###交叉连接(两个表进行笛卡尔乘积)

 

SELECT b.*,bo.*

FROM beauty b

CROSS JOIN boys bo;

 

总结(sql92  PK sql99)

功能:sql99支持的较多

可读性:sql99实现连接查询的条件和筛选选条件的分离,可读性较高

 

 

 

十八、子查询

含义:出现在其他语句中的select语句,称为子查询或内查询

外部的查询语句 ,称为主查询或外查询

分类:

按子查询出现的位置:

              select 后面(仅仅支持标量子查询)

              from 后面(支持表子查询)

              where 或having后面(标量子查询、列子查询、行子查询)-》重要

              exists后面(相关子查询)(表子查询)

按结果集的行列数不同:

              标量子查询(结果集只有一行一列)

              列子查询(结果集只有一列多行)

              行子查询(结果集有一行多列)

              表子查询(结果一般为多行多列)

 

###where或having 后面

1. 标量子查询(单行子查询)

2. 列子查询(多行子查询)

3. 行子查询(多行多列)

特点:

①     子查询放在小括号内

②     子查询一般放在条件的右侧

③     标量子查询,一般搭配着单行操作符使用(>  <  <>  <=  >=  = )

④     列子查询,一般搭配着多行操作符使用(in 、 any|some 、 all)

⑤     子查询的执行优先于主查询的执行,主查询的结果用到了子查询的结果

 

###标量子查询

 

#案例1:谁的工资比Abel高?

 

SELECT  *

FROM employees

WHERE salary > (

              SELECT salary FROM employees WHERE last_name = “Abel”  #先查出Abel的工资

);

 

#案例2:返回job_id与141号相同,salary比143号员工多的员工、姓名、job_id和工资

 

SELECT last_name,job_id,salary

FROM employees

WHERE job_id = (

       SELECT job_id FROM employees WHERE employee_id = 141

) AND salary>(

       SELECT salary FROM employees WHERE employee_id = 143

);

 

#案例3:返回工资最少的员工的last_name  job_id  salary

 

SELECT last_name,job_id,salary

FROM employees

WHERE salary =(

       SELECT MIN(salary) FROM employees

);

 

 

#案例4:查询最低工资大于50号部门最低工资的部门id和其最低工资

 

SELECT department_id,MIN(salary)

FROM employees

GROUP BY department_id

HAVING MIN(salary)>(

       SELECT MIN(salary) FROM employees WHERE department_id = 50

);

 

###列子查询

 

多行操作符:

 第四天MySQL「终于解决」

 

#案例1:返回location_id是1400或1700的部门中的所有员工姓名

SELECT

       last_name,

       department_id

FROM

       employees e

WHERE

       department_id IN (

              SELECT

                     department_id

              FROM

                     departments

              WHERE

                     location_id IN (1400, 1700)

       );

 

#案例2:返回其它部门中比job_id为‘IT_PROG’部门任一工资低的员工的员 工号、姓名、job_id 以及salary

SELECT

       employee_id,

       last_name,

       job_id,

       salary

FROM

       employees e

WHERE

       salary < ANY (

              SELECT DISTINCT

                     salary

              FROM

                     employees

              WHERE

                     job_id = “IT_PROG”

       )

AND job_id <> “IT_PROG”;

——————-两种方式等价————————

SELECT

       employee_id,

       last_name,

       job_id,

       salary

FROM

       employees e

WHERE

       salary < (

              SELECT

                     MAX(DISTINCT salary)

              FROM

                     employees

              WHERE

                     job_id = “IT_PROG”

       )

AND job_id <> “IT_PROG”;

 

#案例3:返回其它部门中比job_id为‘IT_PROG’部门所有工资都低的员工 的员工号、姓名、job_id 以及salary

SELECT

       employee_id,

       last_name,

       job_id,

       salary

FROM

       employees e

WHERE

       salary < ALL (

              SELECT DISTINCT

                     salary

              FROM

                     employees

              WHERE

                     job_id = “IT_PROG”

       )

AND job_id <> “IT_PROG”;

——————-两种方式等价————————

 

SELECT

       employee_id,

       last_name,

       job_id,

       salary

FROM

       employees e

WHERE

       salary < (

              SELECT

                     MIN(DISTINCT salary)

              FROM

                     employees

              WHERE

                     job_id = “IT_PROG”

       )

AND job_id <> “IT_PROG”;

 

注意:因为列子查询中的ALL和ANY|SOME通能能被MAX或MIN分组查询后的标量子查询替换,因此用的较少

 

#行子查询(结果集一行多列或多行多列)

 

#案例:查询员工编号最小并且工资最高的员工信息

 

SELECT

       *

FROM

       employees

WHERE

       employee_id = (

              SELECT

                     MIN(employee_id)

              FROM

                     employees

       )

AND salary = (

       SELECT

              MAX(salary)

       FROM

              employees

);#用标量子查询写的方式

——————-两种方式等价————————

 

SELECT

       *

FROM

       employees

WHERE

       (employee_id, salary) = (

              SELECT

                     MIN(employee_id),

                     MAX(salary)

              FROM

                     employees

       );#用行子查询写得方式

 

###select 后面

注意:仅仅支持标量子查询

#案例:查询每个部门的员工个数

SELECT

       d.*, (

              SELECT

                     COUNT(*)

              FROM

                     employees e

              WHERE

                     e.department_id = d.department_id

       )

FROM

       departments d;

 

#案例2:查询员工号=102的部门名

SELECT

       (

              SELECT

                     department_name

              FROM

                     departments d

              INNER JOIN employees e ON e.department_id = d.department_id

              WHERE

                     e.employee_id = 102

       );

 

###from后面

注意:将子查询结果充当一个表,要求必须取别名

 

#案例:查询每个部门的平均工资的工资等级

 

 

 

SELECT

       ag_dep.*, g.grade_level

FROM

       (

              SELECT

                     AVG(salary) ag,

                     department_id

              FROM

                     employees

              GROUP BY

                     department_id

       ) ag_dep

INNER JOIN job_grades g ON ag_dep.ag BETWEEN lowest_sal

AND highest_sal;

 

###exists后面(相关子查询)

语法:exists(完整的查询语句)

结果:1或0

SELECT EXISTS(SELECT employee_id FROM employees);->1

SELECT EXISTS(SELECT employee_id FROM employees WHERE salary = 30000);->0

存在结果就返回1,不存在就返回0

 

#案例:查询有员工的部门名

 

SELECT department_name

FROM departments d

WHERE EXISTS(

       SELECT *

       FROM employees e

       WHERE d.department_id = e.department_id

);

 

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