1.单表查询
# ### part1 单表查询 # sql 查询语句的完整语法 '''select..from..where..group by..having..order by..limit..''' #一.where 条件的使用 '''功能:对表中的数据进行筛选和过滤''' ''' 语法: 1.判断的符号 = > >= < <= != <> 不等于 2.拼接条件的关键字 and or not 3.查询的区间范围值 between between 小值 and 大值 [小值,大值]查询两者之间这个范围内所有数据 4.查询具体某个值的范围 in in(1,2,3) 指定范围 5.模糊查询 like "%" "_" 通配符 like "%a" 匹配以a结尾的任意长度的字符串 like "a%" 匹配以a开头的任意长度的字符串 like "%a%"匹配含有a字母的任意长度的字符串 like "_a" 个数一共2个字符,必须以a结尾,前面的字符随意 like "a__"个数一共3个字符,必须以a开头,后面的字符随意 ''' #(1) 单条件的查询 #查询部分是sale的所有员工姓名 select emp_name from employee where post = "sale"; #(2)多条件的查询 #部分是teacher,收入大于10000的所有数据 select * from employee where post = "teacher" and salary >10000; #(3)关键字 between..and.. #收入在1万到2万之间的所有员工姓名和收入 select emp_name,salary from employee where salary between 10000 and 20000; #收入不在1万到2万之间的所有员工姓名和收入 select emp_name,salary from employee where salary not between 10000 and 20000; #(4) null 关键字 在查询的时候,要用is进行判定,不要用= #查询post_comment 是空的所有数据 select * from employee where post_comment is null; select * from employee where post_comment is not null; #(5)关键字 in 在..之中查询 #查询收入是3000,4000,5000,8300所有员工的姓名和收入 select emp_name,salary from employee where salary in(3000,4000,5000,8300); #不在 not in select emp_name,salary from employee where salary not in (3000,4000,5000,8300); #(6)模糊查询 like "%" '_'通配符 #(1)"%"通配符 以on结尾的员工名搜一下 select emp_name,age,post from employee where emp_name like '%on'; #(2) "_"通配符 可以限定具体的长度 select emp_name,age,post from employee where emp_name like "a_e_"; #(7) concat( as 起别名) select concat("姓名:",emp_name,"工资:",salary) as aa from employee; #concat_ws(拼接的符号,参数1,参数2,参数3,...) select concat_ws(":",emp_name,salary) as bb from employee; #计算年薪 可以在mysql中使用四则运算符(+ - * /) select concat_ws(":",emp_name,salary*12) as cc from employee; #二.group by 子句 分组分类 '''group by 字段 对数据进行分类,by后面接什么字段,select就搜索什么字段''' select sex from employee group by sex; select post from employee group by post; #group_concat 按照分类的形式进行字段的拼接 select group_concat(emp_name),post from employee where id >5 group by post; #配合聚合函数使用 #count 统计总数 * 所有 select count(*) from employee; #max 统计最大值 select max(salary) from employee; #min 统计最小值 select min(salary) from employee; #avg 统计平均值 select avg(salary) from employee; #sum 统计总和 select sum(salary) from employee; #一般情况下 分组 + 聚合函数 配合使用 #1。查询部分名以及各部分的平均薪资 select post,avg(salary) from employee group by post; #2.查询部分名以及个部分的最高薪资 select post,max(salary) from employee group by post; #3.查询部门名以及个部分的最低薪资 select post,min(salary) from employee group by post; #4.查询公司内男员工和女员工的个数 select sex,count(*) from employee group by sex; #5.查询部分名以及部门包含的所有员工名字 select group_concat(emp_name) from employee group by post; #可以group by 两个字段,即可搜索两个字段 select emp_name,post from employee group by post,emp_name; #三.having 数据在分类分组之后,进行二次数据过滤,一般是配合group by使用,分组之后再过滤 #找出各部门平均薪资,并且大于10000以上的所有部门 select post,avg(salary) from employee group by post having avg(salary) > 10000; #1.查询各岗位内包含的员工个数小于2的岗位名、查询岗位内包含员工名字、个数 select post,group_concat(emp_name),count(*) from employee group by having count(*) < 2; #2.查询各岗位平均薪资小于10000的岗位名、平均工资 select post,avg(salary) from employee group by post having avg(salary) <10000; #3.查询各岗位平均薪资大于10000且小于20000的岗位名、平均工资 select post,avg(salary) from employee group by post having avg(salary) between 10000 and 20000; #四.order by 排序,按照什么字段进行排序 #asc 升序:从小到大(默认) #desc 降序:从大到小 select * from employee order by age;(asc 可以不写) select * from employee order by age desc; #1.查询所欲员工信息,先按照age升序排序如果age相同则按照hire_date降序排序 select emp_name,age,hire_date,post from employee order by age,hire_date desc; #2.查询各岗位平均薪资大于10000的岗位名、平均工资,结果按平均薪资升序排列 select post,avg(salary) from employee group by post having avg(salary) > 10000 order by avg(salary) asc; #3.查询各岗位平均薪资大于10000的岗位名、平均工资,结果按平均薪资降序排列 select post,avg(salary) from employee group by post having avg(salary) > 10000 order by avg(salary) desc; #五.limit 限制查询条数(数据分页) '''limit m,n m代表从第几条数据查询,n代表查询几条,m=0 代表的是第一条''' select * from employee limit 0,5; #从第一条数据开始搜,搜5条 select * from employee limit 5,5; #从第六条数据开始搜,搜5条 #只查询一条数据 select * from employee limit 1; #找数据库当中最后一条数据 select * from employee order by id limit 1; #找数据库当中最后三条数据 select * from employee order by id limit 3; #六(了解) 可以使用正则表达式查询数据(不推荐使用,效率不高) select * from employee where emp_name regexp ".*?on$"; #.*?不识别 select * from employee where employee regexp "^程"; select * from employee where employee regexp "^程.*金";
2.多表查询
# ### part2 多表查询 #内连接:(内联查询 inner join) -> 两表或者多表满足条件的所有数据查询出来(两表之间共有的数据) ''' #两表查询 select 字段 from 表1 inner join 表2 on 必要的关联条件 #多表查询 select 字段 from 表1 inner join 表2 on 必要的关联条件1 inner join 表3 on 必要的关联条件2... ''' #基本语法 inner join on .. on 后面接必要的关联条件 select * from employee inner join department on employee.dep_id = department.id; #用as 起别名(推荐) select * from employee as e inner join department as d on e.dep_id = d.id; #as 可以省略掉 select * from employee e inner join department d on e.dep_id = d.id; #where 默认实现的就是内联查询的效果 select * from employee,department where employee.dep_id = department.id; select * from employee as e,department as d where e.dep_id = d.id; #外连接 #(1)左连接(左联查询left join)以左表为主,右表为辅,完整查询左表所有数据,右表没有的数据补null select * from employee left join department on employee.dep_id = department.id; #(2)右连接(右联查询right join)以右表为主,左表为辅,完整查询右表所有数据,左表没有的数据补null select * from employee right join department on employee.dep_id = department.id; #(3)全连接(全连接union) 所有的数据都合并起来 select * from employee left join department on employee.dep_id = department.id union select * from employee right join department on employee.dep_id = department.id;
3.子查询
# ###part3 子查询 ''' 子查询:嵌套查询 (1)sql语句当中有嵌套了另外一条sql语句,用括号()包起来,表达一个整体 (2)一般应用在from子句后面表达一张表,where子句后面表达一个条件 (3)查询速度从快到慢:单表查询 -> 联表查询 -> 子查询 ''' #一.找出平均年龄大于25岁以上的部分 #(1)普通where写法 select d.id,d.name from employee as e,department as d where e.dep_id = d.id group by d.id,d.name having avg(e.age) > 25; #(2) inner join select d.id,d.name from employee as e inner join department as d on e.dep_id = d.id group by d.id,d.name having avg(e.age) > 25; #(3)子查询 #1.先选出平均年龄大于25的部分id select dep_id from employee group by dep_id having avg(age) > 25; #2.通过部门id,找部门的名字 select name from department where id in(201,202); #3.综合拼接 select id,name from department where id in (select name from department where id in(201,202)) #二。查看技术部门员工姓名 #(1) 普通where 查询 select e.name,d.name from department as d,employee as e where d.id = e.dep_id and d.name = '技术'; #(2) inner join 写法 select e.name,d.name from department as d inner join employee as e on d.id = e.dep_id where d.name = "技术"; #(3)子查询 #1.找技术部门对应id select id from department where name = "技术"; #2.通过id找员工姓名 select name from employee where dep_id = 200; #3.综合拼接 select name,dep_id from employee where dep_id = (select id from department where name = "技术"); #三.查看哪个部门没有员工 #联表写法(把null的数据露出来,员工的部门dep_id 为null,代表这个部门没人) select d.id,d.name from department as d left join employee as e on d.id = e.dep_id where e.dep_id is null; #子查询 #1.先查询,员工在哪些部门(所有员工的分类分别是200 201 202 204) select dep_id from employee group by dep_id #2.把不在部门的数据找出来 select id from department where id not in(200,201,202,204); #综合拼接 select id,name from department where id not in(select id from department where id not in(200,201,202,204)); #四.查询大于平均年龄的员工名与年龄 #假设平均年龄20岁 select name,age from employee where age >20 #找平均年龄 select avg(age) from employee; #综合拼接 select name,age from employee where age>(select avg(age) from employee); #五。把大于其本部门平均年龄的员工名和姓名查出来 #1.先计算各部门平均年龄是多少 select dep_id,avg(age) from employee group by dep_id; #2.把查询的各部门的平均年龄和过去的employee联表,变成更大的表,方便做一次单查询 select * from employee as t1 inner join (1号查询到的数据) as t2 on t1.dep_id = t2.dep_id; #3.综合拼接 select * from employee as t1 inner join (select dep_id,avg(age) as avg_age from employee group by dep_id) as t2 on t1.dep_id = t2.dep_id; #4.做最后的数据筛选age >平均年龄 select * from employee as t1 inner join (select dep_id,avg(age) as avg_age from employee group by dep_id) as t2 on t1.dep_id = t2.dep_id where t1.age > t2.avg_age; # 六.查询每个部门最新入职的那位员工 # 利用上一套数据表进行查询; #1.找每个部门最大的入职时间 select post,max(hire_date) as max_data from employee group by post; #2.把子查询搜出来的数据和employee联合成一张更大的表,做一次单标查询 select t1.emp_name,t1.hire_date from employee t1 inner join (1号查出来的数据) as t2 on t1.post = t2.post where t1.hire_date = t2.max_data; #3.综合拼接 select t1.emp_name,t1.hire_date from employee t1 inner join (select post,max(hire_date) as max_data from employee group by post) as t2 on t1.post = t2.post where t1.hire_date = t2.max_data; #七.dai EXISTS关键字的子查询 ''' exists 关键字,表达存在 如果内层sql 能够查到数据,返回True,外层sql执行查询语句 如果内层sql不能查到数据,返回False,外层sql不执行查询语句 ''' select * from employee where exists(select * from employee where id = 1);#能 select * from employee where exists(select * from employee where id = 100);#不能 ''' 子查询总结: 子查询可以单独作为一个临时数据,临时的表,临时的字段 一般用在from where select 子句后面 可以通过查询出来的临时数据和另外的表联合,变成一张更大的表,在做单表查询查到想要的数据 '''
4.补充
# ### 补充 #关于约束的添加和删除 #1.添加/删除 约束 not null #alter table t1 modify id int not null; alter table t1 modify id int; #2.添加/删除 unique 唯一索引 #alter table 表名 add unique(id) alter table t1 add unique(id) alter table t1 drop index id #3.添加/删除 primary key #alter table 表名 add primary key(id); alter table t1 add primary key(id); alter table t1 add primary key; #4.添加/删除 foreign key 外键(先通过desc 表 找到外键名字,然后再删) alter table student1 drop foreign key student1_ibfk_1; #删除 alter table student1 add foreign key(classid) references class1(id);#添加