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2023-11-21
这篇“mysql子查询如何应用”文章的知识点大部分人都不太理解,所以小编给大家总结了以下内容,内容详细,步骤清晰,具有一定的借鉴价值,希望大家阅读完这篇文章能有所收获,下面我们一起来看看这篇“mysql子查询如何应用”文章吧。
简介
子查询要包含在括号内 将子查询放在比较条件的右侧 单行操作符对应单行子查询,多行操作符对应多行子查询分类
单行子查询:查询的结果只有1行 多行子查询:查询的结果有多行 相关(或关联)子查询:子查询中的参数需要用到主查询中的值 不相关(或非关联)子查询案例1
# 1.查询工资比Abel高用户 # 方式1:需要2步 SELECT salary FROM employees WHERE last_name = Abel; SELECT last_name, salary FROMemployeesWHERE salary > 11000; # 方式2:自连接 SELECT e2.last_name, e2.salary FROM employees e1, employees e2 WHERE e2.`salary` > e1.`salary` #多表的连接条件 AND e1.last_name = Abel; # 方式3:子查询 SELECT last_name,salary FROM employees WHEREsalary > (SELECT salary FROM employees WHERE last_name = Abel );称谓的规范
外查询(或主查询) 内查询(或子查询)单行比较操作符
代码案例
# 查询工资大于149号员工工资的员工的信息 SELECT employee_id, last_name, salary FROM employees WHERE salary > ( SELECT salary FROM employees WHERE employee_id = 149 ); # 返回job_id与141号员工相同,salary比143号员工多的员工姓名,job_id和工资 SELECTlast_name, job_id, salaryFROM employees WHERE job_id = ( SELECT job_id FROM employees WHERE employee_id = 141 ) AND salary > ( SELECT salary FROM employees WHERE employee_id = 143 ); # 返回公司工资最少的员工的last_name,job_id和salary SELECT last_name, job_id, salary FROM employees WHERE salary = ( SELECT MIN(salary) FROM employees ); # 查询与141号员工的manager_id和department_id相同的其他员工的employee_id,manager_id,department_id # 方式1: SELECTemployee_id, manager_id, department_idFROM employees WHERE manager_id = ( SELECT manager_id FROM employees WHEREemployee_id =141 ) AND department_id = ( SELECT department_id FROM employees WHERE employee_id = 141 ) ANDemployee_id <>141; # 方式2: SELECT employee_id, manager_id, department_id FROM employees WHERE(manager_id,department_id) = (SELECT manager_id,department_id FROM employees WHERE employee_id = 141 ) AND employee_id <> 141; # 查询最低工资大于110号部门最低工资的部门id和其最低工资 SELECT department_id, MIN(salary) FROM employees WHERE department_id IS NOT NULL GROUP BYdepartment_idHAVING MIN(salary) > ( SELECT MIN(salary) FROM employees WHERE department_id = 110 ); # 显式员工的employee_id,last_name和location。其中,若员工department_id与location_id为1800的department_id相同,则location为’Canada’,其余则为’USA’ SELECT employee_id, last_name, CASE department_id WHEN ( SELECT department_id FROM departments WHERElocation_id =1800) THEN Canada ELSE USA END "location" FROM employees; # 子查询结果为null,则最后结果为null SELECTlast_name, job_idFROM employees WHERE job_id = (SELECT job_id FROM employees WHERE last_name = Haas);多行子查询
也称为集合比较子查询 内查询返回多行 使用多行比较操作符多行比较操作符
代码案例
# IN: SELECT employee_id, last_name FROM employees WHERE salary IN (SELECT MIN(salary) FROM employees GROUP BY department_id); # ANY 或 ALL: # 返回其它job_id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 WHEREjob_id <>IT_PROG AND salary < ANY ( SELECT salary FROM employees WHERE job_id = IT_PROG ); # 返回其它job_id中比job_id为‘IT_PROG’部门所有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 WHERE job_id <> IT_PROG AND salary < ALL ( SELECT salary FROM employees WHERE job_id = IT_PROG ); # 查询平均工资最低的部门id # MySQL中聚合函数是不能嵌套使用的。 # 方式1: SELECT department_id FROM employees GROUP BY department_id HAVING AVG(salary) = ( SELECT MIN(avg_sal) FROM( SELECT AVG(salary) avg_sal FROM employees GROUP BYdepartment_id ) t_dept_avg_sal );# 方式2: SELECT department_id FROM employees GROUP BY department_id HAVING AVG(salary) <= ALL( SELECT AVG(salary) avg_sal FROM employees GROUP BY department_id ) # 子查询结果为null,则最后结果为null SELECTlast_nameFROM employees WHERE employee_id NOT IN ( SELECT manager_id FROM employees );相关子查询
子查询中使用主查询中的列代码案例
# 查询员工中工资大于公司平均工资的员工的last_name,salary和其department_id SELECT last_name, salary, department_id FROMemployeesWHERE salary > ( SELECT AVG(salary) FROM employees ); # 查询员工中工资大于本部门平均工资的员工的last_name,salary和其department_id # 方式1:使用相关子查询 SELECT last_name, salary, department_id FROM employees e1 WHEREsalary > (SELECT AVG(salary) FROM employees e2 WHERE department_id = e1.`department_id` ); #方式2:在FROM中声明子查询 SELECTe.last_name, e.salary, e.department_idFROM employees e,( SELECT department_id,AVG(salary) avg_sal FROMemployeesGROUP BY department_id) t_dept_avg_sal # 取别名 WHERE e.department_id = t_dept_avg_sal.department_id ANDe.salary > t_dept_avg_sal.avg_sal# 查询员工的id,salary,按照department_name排序 SELECT employee_id, salary FROMemployees eORDER BY ( SELECT department_name FROM departments d WHERE e.`department_id` = d.`department_id` ) ASC;在SELECT中,除了GROUP BY 和 LIMIT之外,其他位置都可以声明子查询
SELECT ....,....,....(存在聚合函数) FROM ... (LEFT / RIGHT)JOIN....ON 多表的连接条件 (LEFT / RIGHT)JOIN ... ON .... WHERE 不包含聚合函数的过滤条件 GROUP BY ...,.... HAVING 包含聚合函数的过滤条件 ORDER BY....,...(ASC / DESC ) LIMIT ...,....代码案例
# 若employees表中employee_id与job_history表中employee_id相同的数目不小于2,输出这些相同id的员工的employee_id,last_name和其job_id SELECT employee_id, last_name, job_id FROM employees e WHERE 2 <= ( SELECT COUNT(*) FROMjob_history jWHERE e.`employee_id` = j.`employee_id` ) # EXISTS 与 NOT EXISTS关键字 # 查询公司管理者的employee_id,last_name,job_id,department_id信息 # 方式1:自连接 SELECT DISTINCTmgr.employee_id, mgr.last_name, mgr.job_id, mgr.department_idFROM employees emp JOIN employees mgr ON emp.manager_id = mgr.employee_id; # 方式2:子查询 SELECTemployee_id, last_name, job_id, department_idFROM employees WHERE employee_id IN ( SELECT DISTINCT manager_id FROM employees ); #方式3:使用EXISTS SELECT employee_id, last_name, job_id, department_id FROMemployees e1WHERE EXISTS ( SELECT * FROM employees e2 WHERE e1.`employee_id` = e2.`manager_id` ); # 查询departments表中,不存在于employees表中的部门的department_id和department_name #方式1: SELECT d.department_id, d.department_name FROMemployees eRIGHT JOIN departments d ON e.`department_id` = d.`department_id` WHERE e.`department_id` IS NULL; # 方式2: SELECT department_id, department_name FROM departments d WHERE NOT EXISTS ( SELECT * FROM employees e WHERE d.`department_id` = e.`department_id` );以上就是关于“mysql子查询如何应用”这篇文章的内容,相信大家都有了一定的了解,希望小编分享的内容对大家有帮助,若想了解更多相关的知识内容,请关注行业资讯频道。
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