select 5种子句:注意顺序
where / group by /having / order by / limit /
清空表中的数据:truncate 表名;
导入表结构(不含数据): create table 表2 like 表1;
删除表:drop table 表名;
导入数据:insert into g2 select * from stu order by name, fenshu desc;
//从临时表中查询=========子查询
select * from (select * from stu order by name, fenshu desc) as tmp group by name;
where 表达式 把表达式放在行中,看表达式是否为真;
列 当成 “变量” 来理解 可以运算
查询结果 当成“临时表” 来理解
子查询:3种:
where型子查询:把内层的查询结果作为外层子查询的条件
select * from stu where fenshu=(select max(fenshu) from stu);
select * from stu where fenshu in (select max(fenshu) from stu group by name);
from 型子查询:把内层的查询结果当成临时表供外层继续查询:
select * from (select * from stu order by name, fenshu desc) as tmp group by name; //必须有as tmp做别名,否则报错;
exists型子查询:(难点)
把外层的查询结果拿到内层,看内层的查询是否成立;
select * from stu where exists (select * from goods where goods.cat_id = category.cat_id);
select 查询5子句之order by:
根据字段进行排序而已:
若要倒序排列则用“desc”来声明一下即可
显示声明升序排列用“asc”来声明;
select name, fenshu from stu order by fenshu, name desc;
limit关键字;起到限制条目作用;
limit [offset],N
offset:偏移量, 默认是0;
N:取出的条目
取第3行之后的4行;
select * from stu order by fenshu desc limit 3, 4;
select 查询5子句之having查询:(用于在缓冲区的查询,而不能在表中(即mysql的文件)查询)
select good_id, goods_name, market_price - shop_price as sheng from goods where
market_price > 200;
select good_id, goods_name, market_price -shop_price as sheng from goods having
sheng > 200;
select good_id, goods_name, market_price -shop_price as sheng from goods where cat_id = 3 having sheng >200;
select cat_id.sum(shop*goods_number) as huokuan from group by cat_id;
select cat_id.sum(shop*goods_number) as huokuan from group by cat_id having huokuan > 20000;
#每个人的平均分
select name, avg(scores) from stu group by name;
#每个人的挂科情况;
select name.scores < 60 from stu;
#每个人的挂科科目数目:
select name, sum(score < 60) from stu group by name;
select name, sum(score<60), avg(scores) as pj from stu group by name;
