时间:2021-07-01 10:21:17 帮助过:6人阅读
#在创建完表后,修改自增字段的起始值
mysql> create table student(
-> id int primary key auto_increment,
-> name varchar(20),
-> sex enum(‘male‘,‘female‘) default ‘male‘
-> );
mysql> alter table student auto_increment=3;
mysql> show create table student;
.......
ENGINE=InnoDB AUTO_INCREMENT=3 DEFAULT CHARSET=utf8
mysql> insert into student(name) values(‘egon‘);
Query OK, 1 row affected (0.01 sec)
mysql> select * from student;
+----+------+------+
| id | name | sex |
+----+------+------+
| 3 | egon | male |
+----+------+------+
row in set (0.00 sec)
mysql> show create table student;
.......
ENGINE=InnoDB AUTO_INCREMENT=4 DEFAULT CHARSET=utf8
#也可以创建表时指定auto_increment的初始值,注意初始值的设置为表选项,应该放到括号外
create table student(
id int primary key auto_increment,
name varchar(20),
sex enum(‘male‘,‘female‘) default ‘male‘
)auto_increment=3;
#设置步长
sqlserver:自增步长
基于表级别
create table t1(
id int。。。
)engine=innodb,auto_increment=2 步长=2 default charset=utf8
mysql自增的步长:
show session variables like ‘auto_inc%‘;
#基于会话级别
set session auth_increment_increment=2 #修改会话级别的步长
#基于全局级别的
set global auth_increment_increment=2 #修改全局级别的步长(所有会话都生效)
#!!!注意了注意了注意了!!!
If the value of auto_increment_offset is greater than that of auto_increment_increment, the value of auto_increment_offset is ignored.
翻译:如果auto_increment_offset的值大于auto_increment_increment的值,则auto_increment_offset的值会被忽略
比如:设置auto_increment_offset=3,auto_increment_increment=2
mysql> set global auto_increment_increment=5;
Query OK, 0 rows affected (0.00 sec)
mysql> set global auto_increment_offset=3;
Query OK, 0 rows affected (0.00 sec)
mysql> show variables like ‘auto_incre%‘; #需要退出重新登录
+--------------------------+-------+
| Variable_name | Value |
+--------------------------+-------+
| auto_increment_increment | 1 |
| auto_increment_offset | 1 |
+--------------------------+-------+
create table student(
id int primary key auto_increment,
name varchar(20),
sex enum(‘male‘,‘female‘) default ‘male‘
);
mysql> insert into student(name) values(‘egon1‘),(‘egon2‘),(‘egon3‘);
mysql> select * from student;
+----+-------+------+
| id | name | sex |
+----+-------+------+
| 3 | egon1 | male |
| 8 | egon2 | male |
| 13 | egon3 | male |
+----+-------+------+
步长increment与起始偏移量offset:auto_increment_increment,auto_increment_offset
单字段主键
主键字段特点:非空且唯一
create table users(
id INT primary key,
name varchar(20),
city varchar(20)
);
多字段联合主键
create table users2(
id INT,
name varchar(20),
city varchar(20),
primary key(name,id)
);
(1)一张表只能有一个主键
(2)主键类型不一定非是整型
7.7:复制表
复制表结构+记录 (key不会复制: 主键、外键和索引) mysql> create table new_service select * from service; 只复制表结构 mysql> select * from service where 1=2; //条件为假,查不到任何记录 Empty set (0.00 sec) mysql> create table new1_service select * from service where 1=2; Query OK, 0 rows affected (0.00 sec) Records: 0 Duplicates: 0 Warnings: 0 mysql> create table t4 like employees;
8.表记录操作
8.1:表记录之增删改
-- 1.增加一条记录insert
/*insert [into] tab_name (field1,filed2,.......) values (value1,value2,.......);*/
create table employee_new(
id int primary key auto_increment,
name varchar(20) not null unique,
birthday varchar(20),
salary float(7,2)
);
insert into employee_new (id,name,birthday,salary) values
(1,‘yuan‘,‘1990-09-09‘,9000);
insert into employee_new values
(2,‘alex‘,‘1989-08-08‘,3000);
insert into employee_new (name,salary) values
(‘xialv‘,1000);
-- 插入多条数据
insert into employee_new values
(4,‘alvin1‘,‘1993-04-20‘,3000),
(5,‘alvin2‘,‘1995-05-12‘,5000);
-- set插入: insert [into] tab_name set 字段名=值
insert into employee_new set id=12,name="alvin3";
-- 2.修改表记录 update tab_name set field1=value1,field2=value2,......[where 语句]
/* UPDATE语法可以用新值更新原有表行中的各列。
SET子句指示要修改哪些列和要给予哪些值。
WHERE子句指定应更新哪些行。如没有WHERE子句,则更新所有的行。*/
update employee_new set birthday="1989-10-24" WHERE id=1;
--- 将yuan的薪水在原有基础上增加1000元。
update employee_new set salary=salary+4000 where name=‘yuan‘;
-- 3.删除表纪录
delete from tab_name [where ....]
/* 如果不跟where语句则删除整张表中的数据
delete只能用来删除一行记录
delete语句只能删除表中的内容,不能删除表本身,想要删除表,用drop
TRUNCATE TABLE也可以删除表中的所有数据,词语句首先摧毁表,再新建表。此种方式删除的数据不能在
事务中恢复。*/
-- 删除表中名称为’alex’的记录。
delete from employee_new where name=‘alex‘;
-- 删除表中所有记录。
delete from employee_new;-- 注意auto_increment没有被重置:alter table employee auto_increment=1;
-- 使用truncate删除表中记录。
truncate table emp_new;
8.2:表记录之查(单表查询)
-- 查询表达式
SELECT *|field1,filed2 ... FROM tab_name
WHERE 条件
GROUP BY field
HAVING 筛选
ORDER BY field
LIMIT 限制条数
---准备表
CREATE TABLE ExamResult(
id INT PRIMARY KEY auto_increment,
name VARCHAR (20),
JS DOUBLE ,
Django DOUBLE ,
OpenStack DOUBLE
);
INSERT INTO ExamResult VALUES (1,"Amos",98,98,98),
(2,"xialv",35,98,67),
(3,"alex",59,59,62),
(4,"wusir",88,89,82),
(5,"alvin",88,98,67),
(6,"sam",86,100,55);
-- (1)select [distinct] *|field1,field2,...... from tab_name
-- 其中from指定从哪张表筛选,*表示查找所有列,也可以指定一个列
-- 表明确指定要查找的列,distinct用来剔除重复行。
-- 查询表中所有学生的信息。
select * from ExamResult;
-- 查询表中所有学生的姓名和对应的英语成绩。
select name,JS from ExamResult;
-- 过滤表中重复数据。
select distinct JS ,name from ExamResult;
-- (2)select 也可以使用表达式,并且可以使用: 字段 as 别名或者:字段 别名
-- 在所有学生分数上加10分特长分显示。
select name,JS+10,Django+10,OpenStack+10 from ExamResult;
-- 统计每个学生的总分。
select name,JS+Django+OpenStack from ExamResult;
-- 使用别名表示学生总分。
select name as 姓名,JS+Django+OpenStack as 总成绩 from ExamResult;
select name,JS+Django+OpenStack 总成绩 from ExamResult;
select name JS from ExamResult; -- what will happen?---->记得加逗号
-- (3)使用where子句,进行过滤查询。
-- 查询姓名为XXX的学生成绩
select * from ExamResult where name=‘yuan‘;
-- 查询英语成绩大于90分的同学
select id,name,JS from ExamResult where JS>90;
-- 查询总分大于200分的所有同学
select name,JS+Django+OpenStack as 总成绩 from
ExamResult where JS+Django+OpenStack>200 ;
-- where字句中可以使用:
-- 比较运算符:
> < >= <= <> !=
between 80 and 100 值在10到20之间
in(80,90,100) 值是10或20或30
like ‘yuan%‘
/*
pattern可以是%或者_,
如果是%则表示任意多字符,此例如唐僧,唐国强
如果是_则表示一个字符唐_,只有唐僧符合。两个_则表示两个字符:__
*/
-- 逻辑运算符
在多个条件直接可以使用逻辑运算符 and or not
-- 练习
-- 查询JS分数在 70-100之间的同学。
select name ,JS from ExamResult where JS between 80 and 100;
-- 查询Django分数为75,76,77的同学。
select name ,Django from ExamResult where Django in (75,98,77);
-- 查询所有姓王的学生成绩。
select * from ExamResult where name like ‘王%‘;
-- 查询JS分>90,Django分>90的同学。
select id,name from ExamResult where JS>90 and Django >90;
-- 查找缺考数学的学生的姓名
select name from ExamResult where Database is null;
-- (4)Order by 指定排序的列,排序的列即可是表中的列名,也可以是select 语句后指定的别名。
-- select *|field1,field2... from tab_name order by field [Asc|Desc]
-- Asc 升序、Desc 降序,其中asc为默认值 ORDER BY 子句应位于SELECT语句的结尾。
-- 练习:
-- 对JS成绩排序后输出。
select * from ExamResult order by JS;
-- 对总分排序按从高到低的顺序输出
select name ,(ifnull(JS,0)+ifnull(Django,0)+ifnull(Database,0))
总成绩 from ExamResult order by 总成绩 desc;
-- 对姓李的学生成绩排序输出
select name ,(ifnull(JS,0)+ifnull(Django,0)+ifnull(OpenStack,0))
总成绩 from ExamResult where name like ‘a%‘
order by 总成绩 desc;
-- (5)group by 分组查询:
CREATE TABLE order_menu(
id INT PRIMARY KEY auto_increment,
product_name VARCHAR (20),
price FLOAT(6,2),
born_date DATE,
class VARCHAR (20)
);
INSERT INTO order_menu (product_name,price,born_date,class) VALUES
("苹果",20,20170612,"水果"),
("香蕉",80,20170602,"水果"),
("水壶",120,20170612,"电器"),
("被罩",70,20170612,"床上用品"),
("音响",420,20170612,"电器"),
("床单",55,20170612,"床上用品"),
("草莓",34,20170612,"水果");
-- 注意,按分组条件分组后每一组只会显示第一条记录
-- group by字句,其后可以接多个列名,也可以跟having子句,对group by 的结果进行筛选。
-- 按位置字段筛选
select * from order_menu group by 5;
-- 练习:对购物表按类名分组后显示每一组商品的价格总和
select class,SUM(price)from order_menu group by class;
-- 练习:对购物表按类名分组后显示每一组商品价格总和超过150的商品
select class,SUM(price)from order_menu group by class
HAVING SUM(price)>150;
/*
having 和 where两者都可以对查询结果进行进一步的过滤,差别有:
<1>where语句只能用在分组之前的筛选,having可以用在分组之后的筛选;
<2>使用where语句的地方都可以用having进行替换
<3>having中可以用聚合函数,where中就不行。
*/
-- GROUP_CONCAT() 函数
SELECT id,GROUP_CONCAT(name),GROUP_CONCAT(JS) from ExamResult GROUP BY id;
-- (6)聚合函数: 先不要管聚合函数要干嘛,先把要求的内容查出来再包上聚合函数即可。
-- (一般和分组查询配合使用)
--<1> 统计表中所有记录
-- COUNT(列名):统计行的个数
-- 统计一个班级共有多少学生?先查出所有的学生,再用count包上
select count(*) from ExamResult;
-- 统计JS成绩大于70的学生有多少个?
select count(JS) from ExamResult where JS>70;
-- 统计总分大于280的人数有多少?
select count(name) from ExamResult
where (ifnull(JS,0)+ifnull(Django,0)+ifnull(OpenStack,0))>280;
-- 注意:count(*)统计所有行; count(字段)不统计null值.
-- SUM(列名):统计满足条件的行的内容和
-- 统计一个班级JS总成绩?先查出所有的JS成绩,再用sum包上
select JS as JS总成绩 from ExamResult;
select sum(JS) as JS总成绩 from ExamResult;
-- 统计一个班级各科分别的总成绩
select sum(JS) as JS总成绩,
sum(Django) as Django总成绩,
sum(OpenStack) as OpenStack from ExamResult;
-- 统计一个班级各科的成绩总和
select sum(ifnull(JS,0)+ifnull(Django,0)+ifnull(Database,0))
as 总成绩 from ExamResult;
-- 统计一个班级JS成绩平均分
select sum(JS)/count(*) from ExamResult ;
-- 注意:sum仅对数值起作用,否则会报错。
-- AVG(列名):
-- 求一个班级JS平均分?先查出所有的JS分,然后用avg包上。
select avg(ifnull(JS,0)) from ExamResult;
-- 求一个班级总分平均分
select avg((ifnull(JS,0)+ifnull(Django,0)+ifnull(Database,0)))
from ExamResult ;
-- Max、Min
-- 求班级最高分和最低分(数值范围在统计中特别有用)
select Max((ifnull(JS,0)+ifnull(Django,0)+ifnull(OpenStack,0)))
最高分 from ExamResult;
select Min((ifnull(JS,0)+ifnull(Django,0)+ifnull(OpenStack,0)))
最低分 from ExamResult;
-- 求购物表中单价最高的商品名称及价格
---SELECT id, MAX(price) FROM order_menu;--id和最高价商品是一个商品吗?
SELECT MAX(price) FROM order_menu;
-- 注意:null 和所有的数计算都是null,所以需要用ifnull将null转换为0!
-- -----ifnull(JS,0)
-- with rollup的使用
--<2> 统计分组后的组记录
-- (7) 重点:Select from where group by having order by
-- Mysql在执行sql语句时的执行顺序:
-- from where select group by having order by
-- 分析:
select JS as JS成绩 from ExamResult where JS成绩 >70; ---- 不成功
select JS as JS成绩 from ExamResult having JS成绩 >90; --- 成功
-- (8) limit
SELECT * from ExamResult limit 1;
SELECT * from ExamResult limit 2,5;--跳过前两条显示接下来的五条纪录
SELECT * from ExamResult limit 2,2;
--- (9) 使用正则表达式查询
SELECT * FROM employee WHERE emp_name REGEXP ‘^yu‘;
SELECT * FROM employee WHERE emp_name REGEXP ‘yun$‘;
SELECT * FROM employee WHERE emp_name REGEXP ‘m{2}‘;
9.外键约束
9.1:创建外键
--- 每一个班主任会对应多个学生 , 而每个学生只能对应一个班主任
----主表
CREATE TABLE ClassCharger(
id TINYINT PRIMARY KEY auto_increment,
name VARCHAR (20),
age INT ,
is_marriged boolean -- show create table ClassCharger: tinyint(1)
);
INSERT INTO ClassCharger (name,age,is_marriged) VALUES ("冰冰",12,0),
("丹丹",14,0),
("歪歪",22,0),
("姗姗",20,0),
("小雨",21,0);
----子表
CREATE TABLE Student(
id INT PRIMARY KEY auto_increment,
name VARCHAR (20),
charger_id TINYINT, --切记:作为外键一定要和关联主键的数据类型保持一致
-- [ADD CONSTRAINT charger_fk_stu]FOREIGN KEY (charger_id) REFERENCES ClassCharger(id)
) ENGINE=INNODB;
INSERT INTO Student(name,charger_id) VALUES ("alvin1",2),
("alvin2",4),
("alvin3",1),
("alvin4",3),
("alvin5",1),
("alvin6",3),
("alvin7",2);
DELETE FROM ClassCharger WHERE name="冰冰";
INSERT student (name,charger_id) VALUES ("yuan",1);
-- 删除居然成功,可是 alvin3显示还是有班主任id=1的冰冰的;
-----------增加外键和删除外键---------
ALTER TABLE student ADD CONSTRAINT abc
FOREIGN KEY(charger_id)
REFERENCES classcharger(id);
ALTER TABLE student DROP FOREIGN KEY abc;
9.2:INNODB支持的ON语句
--外键约束对子表的含义: 如果在父表中找不到候选键,则不允许在子表上进行insert/update
--外键约束对父表的含义: 在父表上进行update/delete以更新或删除在子表中有一条或多条对
-- 应匹配行的候选键时,父表的行为取决于:在定义子表的外键时指定的
-- on update/on delete子句
-----------------innodb支持的四种方式---------------------------------------
-----cascade方式 在父表上update/delete记录时,同步update/delete掉子表的匹配记录
-----外键的级联删除:如果父表中的记录被删除,则子表中对应的记录自动被删除--------
FOREIGN KEY (charger_id) REFERENCES ClassCharger(id)
ON DELETE CASCADE
------set null方式 在父表上update/delete记录时,将子表上匹配记录的列设为null
-- 要注意子表的外键列不能为not null
FOREIGN KEY (charger_id) REFERENCES ClassCharger(id)
ON DELETE SET NULL
------Restrict方式 :拒绝对父表进行删除更新操作(了解)
------No action方式 在mysql中同Restrict,如果子表中有匹配的记录,则不允许对父表对应候选键
-- 进行update/delete操作(了解)
10.多表查询
10.1:准备表
-- 准备两张表
-- company.employee
-- company.department
create table employee(
emp_id int auto_increment primary key not null,
emp_name varchar(50),
age int,
dept_id int
);
insert into employee(emp_name,age,dept_id) values
(‘A‘,19,200),
(‘B‘,26,201),
(‘C‘,30,201),
(‘D‘,24,202),
(‘E‘,20,200),
(‘F‘,38,204);
create table department(
dept_id int,
dept_name varchar(100)
);
insert into department values
(200,‘人事部‘),
(201,‘技术部‘),
(202,‘销售部‘),
(203,‘财政部‘);
mysql> select * from employee;
+--------+----------+------+---------+
| emp_id | emp_name | age | dept_id |
+--------+----------+------+---------+
| 1 | A | 19 | 200 |
| 2 | B | 26 | 201 |
| 3 | C | 30 | 201 |
| 4 | D | 24 | 202 |
| 5 | E | 20 | 200 |
| 6 | F | 38 | 204 |
+--------+----------+------+---------+
rows in set (0.00 sec)
mysql> select * from department;
+---------+-----------+
| dept_id | dept_name |
+---------+-----------+
| 200 | 人事部 |
| 201 | 技术部 |
| 202 | 销售部 |
| 203 | 财政部 |
+---------+-----------+
rows in set (0.01 sec)
10.2:多表查询之连接查询
1.笛卡尔积查询
mysql> SELECT * FROM employee,department; -- select employee.emp_id,employee.emp_name,employee.age, -- department.dept_name from employee,department; +--------+----------+------+---------+---------+-----------+ | emp_id | emp_name | age | dept_id | dept_id | dept_name | +--------+----------+------+---------+---------+-----------+ | 1 | A | 19 | 200 | 200 | 人事部 | | 1 | A | 19 | 200 | 201 | 技术部 | | 1 | A | 19 | 200 | 202 | 销售部 | | 1 | A | 19 | 200 | 203 | 财政部 | | 2 | B | 26 | 201 | 200 | 人事部 | | 2 | B | 26 | 201 | 201 | 技术部 | | 2 | B | 26 | 201 | 202 | 销售部 | | 2 | B | 26 | 201 | 203 | 财政部 | | 3 | C | 30 | 201 | 200 | 人事部 | | 3 | C | 30 | 201 | 201 | 技术部 | | 3 | C | 30 | 201 | 202 | 销售部 | | 3 | C | 30 | 201 | 203 | 财政部 | | 4 | D | 24 | 202 | 200 | 人事部 | | 4 | D | 24 | 202 | 201 | 技术部 | | 4 | D | 24 | 202 | 202 | 销售部 | | 4 | D | 24 | 202 | 203 | 财政部 | | 5 | E | 20 | 200 | 200 | 人事部 | | 5 | E | 20 | 200 | 201 | 技术部 | | 5 | E | 20 | 200 | 202 | 销售部 | | 5 | E | 20 | 200 | 203 | 财政部 | | 6 | F | 38 | 204 | 200 | 人事部 | | 6 | F | 38 | 204 | 201 | 技术部 | | 6 | F | 38 | 204 | 202 | 销售部 | | 6 | F | 38 | 204 | 203 | 财政部 | +--------+----------+------+---------+---------+-----------+
2.内连接
-- 查询两张表中都有的关联数据,相当于利用条件从笛卡尔积结果中筛选出了正确的结果。
select * from employee,department where employee.dept_id = department.dept_id;
--select * from employee inner join department on employee.dept_id = department.dept_id;
+--------+----------+------+---------+---------+-----------+
| emp_id | emp_name | age | dept_id | dept_id | dept_name |
+--------+----------+------+---------+---------+-----------+
| 1 | A | 19 | 200 | 200 | 人事部 |
| 2 | B | 26 | 201 | 201 | 技术部 |
| 3 | C | 30 | 201 | 201 | 技术部 |
| 4 | D | 24 | 202 | 202 | 销售部 |
| 5 | E | 20 | 200 | 200 | 人事部 |
+--------+----------+------+---------+---------+-----------+
3.外连接
--(1)左外连接:在内连接的基础上增加左边有右边没有的结果
select * from employee left join department on employee.dept_id = department.dept_id;
+--------+----------+------+---------+---------+-----------+
| emp_id | emp_name | age | dept_id | dept_id | dept_name |
+--------+----------+------+---------+---------+-----------+
| 1 | A | 19 | 200 | 200 | 人事部 |
| 5 | E | 20 | 200 | 200 | 人事部 |
| 2 | B | 26 | 201 | 201 | 技术部 |
| 3 | C | 30 | 201 | 201 | 技术部 |
| 4 | D | 24 | 202 | 202 | 销售部 |
| 6 | F | 38 | 204 | NULL | NULL |
+--------+----------+------+---------+---------+-----------+
--(2)右外连接:在内连接的基础上增加右边有左边没有的结果
select * from employee RIGHT JOIN department on employee.dept_id = department.dept_id;
+--------+----------+------+---------+---------+-----------+
| emp_id | emp_name | age | dept_id | dept_id | dept_name |
+--------+----------+------+---------+---------+-----------+
| 1 | A | 19 | 200 | 200 | 人事部 |
| 2 | B | 26 | 201 | 201 | 技术部 |
| 3 | C | 30 | 201 | 201 | 技术部 |
| 4 | D | 24 | 202 | 202 | 销售部 |
| 5 | E | 20 | 200 | 200 | 人事部 |
| NULL | NULL | NULL | NULL | 203 | 财政部 |
+--------+----------+------+---------+---------+-----------+
--(3)全外连接:在内连接的基础上增加左边有右边没有的和右边有左边没有的结果
-- mysql不支持全外连接 full JOIN
-- mysql可以使用此种方式间接实现全外连接
select * from employee RIGHT JOIN department on employee.dept_id = department.dept_id
UNION
select * from employee LEFT JOIN department on employee.dept_id = department.dept_id;
+--------+----------+------+---------+---------+-----------+
| emp_id | emp_name | age | dept_id | dept_id | dept_name |
+--------+----------+------+---------+---------+-----------+
| 1 | A | 19 | 200 | 200 | 人事部 |
| 2 | B | 26 | 201 | 201 | 技术部 |
| 3 | C | 30 | 201 | 201 | 技术部 |
| 4 | D | 24 | 202 | 202 | 销售部 |
| 5 | E | 20 | 200 | 200 | 人事部 |
| NULL | NULL | NULL | NULL | 203 | 财政部 |
| 6 | F | 38 | 204 | NULL | NULL |
+--------+----------+------+---------+---------+-----------+
-- 注意 union与union all的区别:union会去掉相同的纪录
10.3:多表查询之复合条件连接查询
-- 查询员工年龄大于等于25岁的部门
SELECT DISTINCT department.dept_name
FROM employee,department
WHERE employee.dept_id = department.dept_id
AND age>25;
--以内连接的方式查询employee和department表,并且以age字段的升序方式显示
select employee.emp_id,employee.emp_name,employee.age,department.dept_name
from employee,department
where employee.dept_id = department.dept_id
order by age asc;
10.3:多表查询之子查询
-- 查询员工年龄大于等于25岁的部门
SELECT DISTINCT department.dept_name
FROM employee,department
WHERE employee.dept_id = department.dept_id
AND age>25;
--以内连接的方式查询employee和department表,并且以age字段的升序方式显示
select employee.emp_id,employee.emp_name,employee.age,department.dept_name
from employee,department
where employee.dept_id = department.dept_id
order by age asc;
数据导入: /* Navicat Premium Data Transfer Source Server : localhost Source Server Type : MySQL Source Server Version : 50624 Source Host : localhost Source Database : sqlexam Target Server Type : MySQL Target Server Version : 50624 File Encoding : utf-8 Date: 10/21/2016 06:46:46 AM */ SET NAMES utf8; SET FOREIGN_KEY_CHECKS = 0; -- ---------------------------- -- Table structure for `class` -- ---------------------------- DROP TABLE IF EXISTS `class`; CREATE TABLE `class` ( `cid` int(11) NOT NULL AUTO_INCREMENT, `caption` varchar(32) NOT NULL, PRIMARY KEY (`cid`) ) ENGINE=InnoDB AUTO_INCREMENT=5 DEFAULT CHARSET=utf8; -- ---------------------------- -- Records of `class` -- ---------------------------- BEGIN; INSERT INTO `class` VALUES (‘1‘, ‘三年二班‘), (‘2‘, ‘三年三班‘), (‘3‘, ‘一年二班‘), (‘4‘, ‘二年九班‘); COMMIT; -- ---------------------------- -- Table structure for `course` -- ---------------------------- DROP TABLE IF EXISTS `course`; CREATE TABLE `course` ( `cid` int(11) NOT NULL AUTO_INCREMENT, `cname` varchar(32) NOT NULL, `teacher_id` int(11) NOT NULL, PRIMARY KEY (`cid`), KEY `fk_course_teacher` (`teacher_id`), CONSTRAINT `fk_course_teacher` FOREIGN KEY (`teacher_id`) REFERENCES `teacher` (`tid`) ) ENGINE=InnoDB AUTO_INCREMENT=5 DEFAULT CHARSET=utf8; -- ---------------------------- -- Records of `course` -- ---------------------------- BEGIN; INSERT INTO `course` VALUES (‘1‘, ‘生物‘, ‘1‘), (‘2‘, ‘物理‘, ‘2‘), (‘3‘, ‘体育‘, ‘3‘), (‘4‘, ‘美术‘, ‘2‘); COMMIT; -- ---------------------------- -- Table structure for `score` -- ---------------------------- DROP TABLE IF EXISTS `score`; CREATE TABLE `score` ( `sid` int(11) NOT NULL AUTO_INCREMENT, `student_id` int(11) NOT NULL, `course_id` int(11) NOT NULL, `num` int(11) NOT NULL, PRIMARY KEY (`sid`), KEY `fk_score_student` (`student_id`), KEY `fk_score_course` (`course_id`), CONSTRAINT `fk_score_course` FOREIGN KEY (`course_id`) REFERENCES `course` (`cid`), CONSTRAINT `fk_score_student` FOREIGN KEY (`student_id`) REFERENCES `student` (`sid`) ) ENGINE=InnoDB AUTO_INCREMENT=53 DEFAULT CHARSET=utf8; -- ---------------------------- -- Records of `score` -- ---------------------------- BEGIN; INSERT INTO `score` VALUES (‘1‘, ‘1‘, ‘1‘, ‘10‘), (‘2‘, ‘1‘, ‘2‘, ‘9‘), (‘5‘, ‘1‘, ‘4‘, ‘66‘), (‘6‘, ‘2‘, ‘1‘, ‘8‘), (‘8‘, ‘2‘, ‘3‘, ‘68‘), (‘9‘, ‘2‘, ‘4‘, ‘99‘), (‘10‘, ‘3‘, ‘1‘, ‘77‘), (‘11‘, ‘3‘, ‘2‘, ‘66‘), (‘12‘, ‘3‘, ‘3‘, ‘87‘), (‘13‘, ‘3‘, ‘4‘, ‘99‘), (‘14‘, ‘4‘, ‘1‘, ‘79‘), (‘15‘, ‘4‘, ‘2‘, ‘11‘), (‘16‘, ‘4‘, ‘3‘, ‘67‘), (‘17‘, ‘4‘, ‘4‘, ‘100‘), (‘18‘, ‘5‘, ‘1‘, ‘79‘), (‘19‘, ‘5‘, ‘2‘, ‘11‘), (‘20‘, ‘5‘, ‘3‘, ‘67‘), (‘21‘, ‘5‘, ‘4‘, ‘100‘), (‘22‘, ‘6‘, ‘1‘, ‘9‘), (‘23‘, ‘6‘, ‘2‘, ‘100‘), (‘24‘, ‘6‘, ‘3‘, ‘67‘), (‘25‘, ‘6‘, ‘4‘, ‘100‘), (‘26‘, ‘7‘, ‘1‘, ‘9‘), (‘27‘, ‘7‘, ‘2‘, ‘100‘), (‘28‘, ‘7‘, ‘3‘, ‘67‘), (‘29‘, ‘7‘, ‘4‘, ‘88‘), (‘30‘, ‘8‘, ‘1‘, ‘9‘), (‘31‘, ‘8‘, ‘2‘, ‘100‘), (‘32‘, ‘8‘, ‘3‘, ‘67‘), (‘33‘, ‘8‘, ‘4‘, ‘88‘), (‘34‘, ‘9‘, ‘1‘, ‘91‘), (‘35‘, ‘9‘, ‘2‘, ‘88‘), (‘36‘, ‘9‘, ‘3‘, ‘67‘), (‘37‘, ‘9‘, ‘4‘, ‘22‘), (‘38‘, ‘10‘, ‘1‘, ‘90‘), (‘39‘, ‘10‘, ‘2‘, ‘77‘), (‘40‘, ‘10‘, ‘3‘, ‘43‘), (‘41‘, ‘10‘, ‘4‘, ‘87‘), (‘42‘, ‘11‘, ‘1‘, ‘90‘), (‘43‘, ‘11‘, ‘2‘, ‘77‘), (‘44‘, ‘11‘, ‘3‘, ‘43‘), (‘45‘, ‘11‘, ‘4‘, ‘87‘), (‘46‘, ‘12‘, ‘1‘, ‘90‘), (‘47‘, ‘12‘, ‘2‘, ‘77‘), (‘48‘, ‘12‘, ‘3‘, ‘43‘), (‘49‘, ‘12‘, ‘4‘, ‘87‘), (‘52‘, ‘13‘, ‘3‘, ‘87‘); COMMIT; -- ---------------------------- -- Table structure for `student` -- ---------------------------- DROP TABLE IF EXISTS `student`; CREATE TABLE `student` ( `sid` int(11) NOT NULL AUTO_INCREMENT, `gender` char(1) NOT NULL, `class_id` int(11) NOT NULL, `sname` varchar(32) NOT NULL, PRIMARY KEY (`sid`), KEY `fk_class` (`class_id`), CONSTRAINT `fk_class` FOREIGN KEY (`class_id`) REFERENCES `class` (`cid`) ) ENGINE=InnoDB AUTO_INCREMENT=17 DEFAULT CHARSET=utf8; -- ---------------------------- -- Records of `student` -- ---------------------------- BEGIN; INSERT INTO `student` VALUES (‘1‘, ‘男‘, ‘1‘, ‘理解‘), (‘2‘, ‘女‘, ‘1‘, ‘钢蛋‘), (‘3‘, ‘男‘, ‘1‘, ‘张三‘), (‘4‘, ‘男‘, ‘1‘, ‘张一‘), (‘5‘, ‘女‘, ‘1‘, ‘张二‘), (‘6‘, ‘男‘, ‘1‘, ‘张四‘), (‘7‘, ‘女‘, ‘2‘, ‘铁锤‘), (‘8‘, ‘男‘, ‘2‘, ‘李三‘), (‘9‘, ‘男‘, ‘2‘, ‘李一‘), (‘10‘, ‘女‘, ‘2‘, ‘李二‘), (‘11‘, ‘男‘, ‘2‘, ‘李四‘), (‘12‘, ‘女‘, ‘3‘, ‘如花‘), (‘13‘, ‘男‘, ‘3‘, ‘刘三‘), (‘14‘, ‘男‘, ‘3‘, ‘刘一‘), (‘15‘, ‘女‘, ‘3‘, ‘刘二‘), (‘16‘, ‘男‘, ‘3‘, ‘刘四‘); COMMIT; -- ---------------------------- -- Table structure for `teacher` -- ---------------------------- DROP TABLE IF EXISTS `teacher`; CREATE TABLE `teacher` ( `tid` int(11) NOT NULL AUTO_INCREMENT, `tname` varchar(32) NOT NULL, PRIMARY KEY (`tid`) ) ENGINE=InnoDB AUTO_INCREMENT=6 DEFAULT CHARSET=utf8; -- ---------------------------- -- Records of `teacher` -- ---------------------------- BEGIN; INSERT INTO `teacher` VALUES (‘1‘, ‘张磊老师‘), (‘2‘, ‘李平老师‘), (‘3‘, ‘刘海燕老师‘), (‘4‘, ‘朱云海老师‘), (‘5‘, ‘李杰老师‘); COMMIT; SET FOREIGN_KEY_CHECKS = 1;
--1、将所有的课程的名称以及对应的任课老师姓名打印出来,如下: SELECT cname,tname FROM course INNER JOIN teacher WHERE course.teacher_id=teacher.tid; --2、查询学生表中男女生各有多少人? 如下: SELECT gender,COUNT(gender) 人数 FROM student GROUP BY gender; --3、查询物理成绩等于100的学生的姓名?如下: SELECT sid,sname FROM student WHERE sid in (SELECT student_id FROM score WHERE course_id=2 and num=100); --4、查询平均成绩大于八十分的同学的姓名和平均成绩,如下: SELECT sname,平均成绩 from (SELECT sid,sname from student) s INNER JOIN (SELECT student_id,avg(num) 平均成绩 from score GROUP BY student_id HAVING avg(num)>80) c ON sid=student_id; --5、查询所有学生的学号,姓名,选课数,总成绩 SELECT s.sid,s.sname,x.课程数,x.总成绩 FROM (SELECT sid,sname FROM student) s INNER JOIN (SELECT student_id,COUNT(course_id) 课程数,SUM(num) 总成绩 from score GROUP BY student_id) x ON sid=student_id; --6、查询姓李老师的个数 SELECT COUNT(tid) FROM teacher WHERE tname like ‘李%‘; --7、查询没有报李平老师课的学生姓名 SELECT DISTINCT sname FROM student WHERE sid not in (SELECT DISTINCT student_id FROM score WHERE course_id in (SELECT cid from course WHERE teacher_id=2)); --8、查询物理课程比生物课程高的学生的学号 SELECT sw.student_id from (SELECT student_id,num from score WHERE course_id=(SELECT cid FROM course WHERE cname=‘物理‘)) wl INNER JOIN ( SELECT student_id,num from score WHERE course_id=(SELECT cid FROM course WHERE cname=‘生物‘)) sw ON wl.num>sw.num and wl.student_id=sw.student_id; --9、查询没有同时选修物理课程和体育课程的学生姓名 SELECT sname FROM student WHERE sid NOT in (SELECT wl.student_id FROM (SELECT student_id,course_id from score WHERE course_id=(SELECT cid FROM course WHERE cname=‘物理‘)) wl INNER JOIN (SELECT student_id,course_id from score WHERE course_id=(SELECT cid FROM course WHERE cname=‘体育‘)) ty ON wl.student_id=ty.student_id); --10、查询挂科超过两门(包括两门)的学生姓名和班级 SELECT sname,caption FROM class INNER JOIN (SELECT sname,class_id from student INNER JOIN (SELECT student_id,COUNT(student_id) 挂科次数 FROM score WHERE num<60 GROUP BY student_id) gk ON sid=student_id and 挂科次数>1) s ON cid=class_id; --11 、查询选修了所有课程的学生姓名 --方法一: SELECT sname FROM student WHERE sid in (SELECT c.student_id FROM (SELECT a.student_id FROM (SELECT * from score WHERE course_id=1) a INNER JOIN (SELECT * from score WHERE course_id=2) b ON a.student_id=b.student_id) c INNER JOIN (SELECT a.student_id FROM (SELECT * from score WHERE course_id=2) a INNER JOIN (SELECT * from score WHERE course_id=3) b ON a.student_id=b.student_id) d ON c.student_id=d.student_id); --方法二: SELECT sname FROM student WHERE sid in (SELECT student_id FROM score GROUP BY student_id HAVING COUNT(course_id)=(SELECT COUNT(cid) FROM course)); --12、查询李平老师教的课程的所有成绩记录 SELECT sid,sname,cname,num FROM course INNER JOIN (SELECT student.sid,sname,course_id,num FROM student INNER JOIN (SELECT * FROM score WHERE course_id in (SELECT cid FROM course WHERE teacher_id=(SELECT tid FROM teacher WHERE tid=2))) a ON student.sid=a.student_id) a WHERE cid=a.course_id; --13、查询全部学生都选修了的课程号和课程名:没有 SELECT * from (SELECT course_id,COUNT(student_id) 报名人数 FROM score GROUP BY course_id) a INNER JOIN (SELECT COUNT(sid) 学生总数 FROM student) b WHERE 报名人数=学生总数; --14、查询每门课程被选修的次数 SELECT cname,选修次数 FROM course INNER JOIN (SELECT course_id,COUNT(student_id) 选修次数 FROM score GROUP BY course_id) a WHERE cid=course_id --15、查询之选修了一门课程的学生姓名和学号 SELECT sname,sid FROM student INNER JOIN (SELECT student_id FROM score GROUP BY student_id HAVING COUNT(course_id)=1) a WHERE sid=student_id --16、查询所有学生考出的成绩并按从高到低排序(成绩去重) SELECT DISTINCT num FROM score ORDER BY num DESC --17、查询平均成绩大于85的学生姓名和平均成绩 SELECT sname,平均成绩 from (SELECT sid,sname from student) s INNER JOIN (SELECT student_id,avg(num) 平均成绩 from score GROUP BY student_id HAVING avg(num)>85) c ON sid=student_id; --18、查询生物成绩不及格的学生姓名和对应生物分数 SELECT sname,num FROM student INNER JOIN (SELECT student_id,num FROM score WHERE course_id=(SELECT cid FROM course WHERE cname=‘生物‘) AND num<60) a ON sid=student_id --19、查询在所有选修了李平老师课程的学生中,这些课程(李平老师的课程,不是所有课程)平均成绩最高的学生姓名 SELECT sname FROM student INNER JOIN (SELECT student_id,AVG(num) FROM score WHERE course_id IN (SELECT cid FROM course WHERE teacher_id=(SELECT tid FROM teacher WHERE tname=‘李平老师‘)) GROUP BY student_id ORDER BY AVG(num) DESC LIMIT 1) a WHERE sid=student_id
数据库总结
标签:数据库系统 作用 db_name 括号 employees blob类型 打印 sele 种类