一.基本概念
关于sql语句中的连接(join)关键字,是较为常用而又不太容易理解的关键字,下面这个例子给出了一个简单的解释 –建表user1,user2:
table1 : create table user2(id int, user_name varchar(10), over varchar(10));
insert into user1 values(1, ‘tangseng', ‘dtgdf'); insert into user1 values(2, ‘sunwukong', ‘dzsf'); insert into user1 values(1, ‘zhubajie', ‘jt编程客栈sz'); insert into user1 values(1, ‘shaseng', ‘jslh'); table2 : create table user2(id int, user_name varchar(10), over varchar(10)); insert into user2 values(1, ‘sunwukong', ‘chengfo'); insert into user2 values(2, ‘niumowang', ‘chengyao'); insert into user2 values(3, ‘jiaomowang', ‘chengyao'); insert into user2 values(4, ‘pengmowang', ‘chengyao');
SQL标准中Join的类型
1. 内连接(inner join或join)
(1).概念:内联接是基于连接谓词将两张表的列结合在一起,产生新的结果表
(2).内连接维恩图:
(3).sql语句
select a.id, a.user_name, b.over from user1 a inner join user2 b on a.user_name=b.user_name;
结果:
2. 外连接
外连接包括左向外联接、右向外联接或完整外部联接
a.左外连接:left join 或 left outer join
(1)概念:左向外联接的结果集包括 LEFT OUTER 子句中指定的左表的所有行,而不仅仅是联接列所匹配的行。如果左表的某行在右表中没有匹配行,则在相关联的结果集行中右表的所有选择列表列均为空值(null)。(2)左外连接维恩图:
(3)sql语句:
select a.id, a.user_name, b.over from user1 a left join user2 b on a.user_name=b.user_name;
结果:
b.右外连接:right join 或 right outer join
(1)右向外联接是左向外联接的反向联接。将返回右表的所有行。如果右编程客栈表的某行在左表中没有匹配行,则将为左表返回空值。 (2)右外连接维恩图:(3)sql语句
select b.user_name, b.over, a.over from user1 a right join user2 b on a.user_name=b.user_name;
结果:
c.全外连接:full join 或 full outer join
(1)完整外部联接返回左表和右表中的所有行。当某行在另一个表中没有匹配行时,则另一个表的选择列表列包含空值。如果表之间有匹配行,则整个结果集行包含基表的数据值。
(2)右外连接维恩图:(3)sql语句
select a.id, a.user_name, b.over from user1 a full join user2 b on a.user_name=b.user_name
在mysql中查询全连接会报1064的错误,mysql不支持全连接查询,代替语句:
select a.user_name,a.over,b.over from user1 a left join user2 b on a.user_name = b.user_name union all select b.user_name,b.over ,a.over from user1 a right join user2 b on a.user_name = b.user_name;
结果:
3. 笛卡尔连接(交叉连接)
1.概念:没有 WHERE 子句的交叉联接将产生联接编程客栈所涉及的表的笛卡尔积。第一个表的行数乘以第二个表的行数等于笛卡尔积结果集的大小。(user1和user2交叉连接产生4*4=16条记录)
2.交叉连接:cross join (不带条件on) 3.sql语句: select a.user_name,b.user_name, a.over, b.over from user1 a cross join user2 b;二.使用技巧
1. 使用join更新表
我们使用下面语句将user1表中同时存在user1表和user2表中记录的over字段更新为 ‘qtda'。update user1 set over='qtds'where user1.user_name in 开发者_mssql2008(select b.user_name from user1 a inner join user2 b on a.user_name = b.user_name);
这条语句在sql server, oracle中都可以正确执行,在mysql却报错,mysql不支持更新子查询的表,那么我们使用下面语句可以在做到。
update user1 a join (select b.user_name from user1 a join user2 b on a.user_name = b.user_name) b on a.user_name = b.user_name set a.over = ‘qtds'
2. 使用join优化子查询
子查询效率比较低效,使用下面语句进行查询
select a.user_name, a.over,(select over from user2 b where a.user_name=b.user_name) as over2 from user1 a; 使用join优化子查询,可以实现同样的效果 select a.user_name, a.over, b.over as over2 from user1 a left join user2 b on a.user_name = b.user_name;3. 使用join优化聚合子查询
引入一张新表:user_kills
create table user_kills(user_id int, 编程客栈timestr varchar(20), kills int(10)); insert into user_kills values(2, ‘2015-5-12', 20); insert into user_kills values(2, ‘2015-5-15', 18); insert into user_kills values(3, ‘2015-5-11', 16); insert into user_kills values(3, ‘2015-5-14', 13); insert into user_kills values(3, ‘2015-5-16', 17); insert into user_kills values(4, ‘2015-5-12', 16); insert into user_kills values(4, ‘2015-5-10', 13);查询user1中每人对应user_kills表中kills最大的日期,使用聚合子查询语句:
select a.user_name,b.timestr, b.kills from user1 a join user_kills b on a
.id = b.user_id where b.kills = (select MAX(c.kills) from user_kills c where c.user_id = b.user_id);使用join优化聚合子查询(避免子查询)
select a.user_name, b.timestr, b.kills from user1 a join user_kills b on
a.id = b.user_id join user_kills c on c.user_id = b.user_id group by a.user_name, b.timestr, b.kills having b.kills = max(c.kills);结果:
4. 实现分组选择数据
要求查询出user1中每个人kills对多的前两天。
首先,我们可以通过下面语句查询出某个人kills最多的两天;select a.user_name, b.timestr, b.kills from user1 a johttp://www.devze.comin user_kills b on
a.id = b.user_id where a.user_name ='sunwukong' order by b.kills desc limit 2;那么如何通过一个语句查询出所有人kills最多的两天的呢?看下面的语句:
WITH tmp AS (select a.user_name, b.timestr, b.kills, ROW_NUMBER() over(partition by a.user_name order by b.kills) cnt from user1 a join user_kills b on a.id = b.user_id) select * from tmp where cnt <= 2;
上面的语句在sql server和oracle都是支持的,但是mysql不支持分组排序函数ROW_NUMBER(),下面提供一种替代方法:
select d.user_name,c.timestr, kills from (select user_id, timestr, kills, (select count(*) from user_kills b where b.user_id = a.user_id and a.kills <= b.kills) as cnt from user_kills a group by user_id, timestr, kills) c join user1 d on c.user_id = d.id where cnt <= 2;
结果:
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