大数据开发面试必知必会的SQL 30题!!!
原文链接: https://blog.csdn.net/weixin_45366499/article/details/116355430 作者: 一蓑烟雨任平生
(1)查询每个区域的用户数
(2)查询每个区域的男女用户数
(3)查询姓张的用户数
(4)筛选出id3~id5的用户
(5)筛选出绩效不达标的员工
(6)筛选出姓张的且绩效不达标的员工
(7)查询获得销售冠军超过两次的人
(8)查询某部门一年的月销售额最高涨幅
(9)查询每个季度绩效得分大于70分的员工
(10)删除重复值
(11)行列互换
(12)多列比较
(13)对成绩进行分组
(14)周累计数据获取
(15)周环比数据获取
(16)查询获奖员工信息
(17)计算用户留存情况
(18)筛选最受欢迎的课程
(19)筛选出每个年级最受欢迎的三门课程
(20)求累积和
(21)获取新增用户数
(22)获取用户首次购买时间
(23)同时获取用户和订单数据
(24)随机抽样
(25)获取沉默用户数
(26)获取新用户的订单数
(27)获取借款到期名单
(28)获取即将到期的借款信息
(29)获取历史逾期借款信息
(30)获取部门工资最高的员工
开发工具:
mysql-8.0
DataGrip
(1)查询每个区域的用户数
数据源:stu_table.csv
id,name,class,sex
4,张文华,二区,男
3,李思雨,一区,女
1,王小凤,一区,女
7,李智瑞,三区,男
6,徐文杰,二区,男
8,徐雨秋,三区,男
5,张青云,二区,女
9,孙皓然,三区,男
10,李春山,三区,男
2,刘诗迪,一区,女
需求:我们想知道每个区域有多少用户
解题思路:首先需要对区域进行分组,使用的是group by,然后对每个组内的用户进行计数聚合运算,使用的是count,最后运行结果如下表所示。
select class, count(id) as stu_sumfrom test.stu_tablegroup by class;
运行结果:
(2)查询每个区域的男女用户数
数据源:stu_table.csv 需求:我们想知道每个区域内男生、女生分别有多少个。
select class,sex,count(sex) from test.stu_table group by class,sex;
select
class ,
count(case when sex = '男' then class end ) as '男',
count(case when sex = '女' then class end ) as '女'
from
test.stu_table
group by class;
select
sex ,
count(case when class = '一区' then sex end ) as '一区',
count(case when class = '二区' then sex end ) as '二区',
count(case when class = '三区' then sex end ) as '三区'
from
test.stu_table
group by sex;
运行结果:
(3)查询姓张的用户数
数据源:stu_table.csv 需求:我们想知道这张表中姓张的用户有多少个?
select count(id) as stu_numfrom test.stu_tablewhere name like '张%';
运行结果:
(4)筛选出id3~id5的用户
数据源:stu_table.csv 需求:我们想要获取id按照从小到大的顺序排列以后id3~id5的用户的信息。
select * from test.stu_table order by id limit 2,3;
运行结果:
(5)筛选出绩效不达标的员工
数据源:score_table.csv
id,namr,group,score1,王小凤,一部,882,刘诗迪,一部,703,李思雨,一部,924,张文华,二部,555,张青云,二部,776,徐文杰,二部,777,李智瑞,三部,568,徐雨秋,三部,919,孙皓然,三部,9310,李春山,三部,57
需求:我们想把绩效不达标(绩效得分小于60分)的员工的信息筛选出来。
select * from test.score_table where score < 60;
运行结果:
(6)筛选出姓张的且绩效不达标的员工
数据源:score_table.csv
需求:我们现在想根据这张表筛选出姓张的且绩效不达标的员工的信息。
select * from test.score_table where score < 60 and name like '张%';
运行结果:
(7)查询获得销售冠军超过两次的人
数据源:month_table.csv
id,name,month_num
E002,王小凤,1
E001,张文华,2
E003,孙皓然,3
E001,张文华,4
E002,王小凤,5
E001,张文华,6
E004,李智瑞,7
E002,王小凤,8
E003,孙皓然,9
需求:现在需要查询获得销售冠军的次数超过2次的人及其获得销售冠军的次数。
select id, name, count(month_num) as numfrom test.month_tablegroup by id, namehaving num > 2;
运行结果:
(8)查询某部门一年的月销售额最高涨幅
数据源:sale_table.csv
year_num,month_num,sales
2019,1,2854
2019,2,4772
2019,3,3542
2019,4,1336
2019,5,3544
2018,1,2293
2018,2,2559
2018,3,2597
2018,4,2363
需求:现在我们想查询2019年的月销售额最高涨幅是多少。
select year_num, max(sales) as max_sales, min(sales) as min_sales, (max(sales) - min(sales)) as cha, ((max(sales) - min(sales)) / min(sales)) as growthfrom test.sale_tablegroup by year_num;
运行结果:
(9)查询每个季度绩效得分大于70分的员工
数据源:score_info_table.csv
id,name,subject,score
1,王小凤,第一季度,88
1,王小凤,第二季度,55
1,王小凤,第三季度,72
3,徐雨秋,第一季度,92
3,徐雨秋,第二季度,77
3,徐雨秋,第三季度,93
2,张文华,第一季度,70
2,张文华,第二季度,77
2,张文华,第三季度,91
解题思路:我们要查询的是每个季度绩效得分都大于70分的员工,只要能够保证每个季度每位员工的最小绩效得分是大于70分的,就可以说明这位员工的每个季度绩效得分都大于70分。
需求:现在我们想要通过这张表查询每个季度绩效得分都大于70分的员工。
select id, name, min(score) as min_scorefrom test.score_info_tablegroup by id, namehaving min_score > 70;
运行结果:
(10)删除重复值
数据源:stu_info_table.csv
id,name,t_1,t_2
1,王小凤,产品技术部,B端产品
2,刘诗迪,产品技术部,C端产品
3,李思雨,产品技术部,B端产品
5,张青云,销售运营部,数据分析
4,张文华,销售运营部,销售管理
6,徐文杰,销售运营部,销售管理
7,李智瑞,产品技术部,B端产品
8,徐雨秋,销售运营部,销售管理
9,孙皓然,产品技术部,B端产品
需求:现在我们想获取该公司一级部门及二级部门的信息,即哪些一级部门下包含哪些二级部门
select t_1, t_2from test.stu_info_tablegroup by t_1, t_2order by t_1;
运行结果:
(11)行列互换
数据源:row_col_table.csv
year_num,month_num,sales
2019,1,100
2019,2,200
2019,3,300
2019,4,400
2020,1,200
2020,2,400
2020,3,600
2020,4,800
需求:我们需要把如上表所示的纵向存储数据的方式改成如下表所示的横向存储数据的方式。
解题思路:首先按照year_num分组,利用case when xxx then sales end条件控制语句,当month_num = 1时返回sales,以此类推,得到列值。
select * from test.row_col_table;select year_num, sum(case when month_num = 1 then sales end ) as m1, sum(case when month_num = 2 then sales end ) as m2, sum(case when month_num = 3 then sales end ) as m3, sum(case when month_num = 4 then sales end ) as m4from test.row_col_table group by year_num;
运行结果:
(12)多列比较
数据源:col_table.csv
col_1,col_2,col_3
5,10,7
1,10,6
9,3,5
5,2,9
10,4,3
5,2,9
5,8,6
8,8,6
需求:我们需要根据这三列数据生成一列结果列,结果列的生成规则为:如果col_1列大于col_2列,则结果为col_1列的数据;如果col_2列大于col_3列,则结果为col_3列的数据,否则结果为col_2列的数据。
解题思路:多列比较其实就是一个多重判断的过程,借助case when即可实现,先判断col_1 列和col_2列的关系,然后判断col_2列和col_3列的关系。这里需要注意的是,判断的执行顺序是先执行第一行case when,然后执行第二行case when,最后运行结果如下表所示。
select col_1, col_2, col_3, (case when col_1 > col_2 then col_1 when col_2 > col_3 then col_3 end ) as result_colfrom test.col_table;
运行结果:
(13)对成绩进行分组
数据源:subject_table.csv
id,score
1,56
2,91
3,67
4,54
5,56
6,69
7,61
8,83
9,99
需求:我们想知道60分以下(不包含60分)、60~80分(不包含80分)、80~100分三个成绩段内分别有多少个学生
解题思路:写法一通过case when写法,分别求出各个分数段的个数作为列;写法二利用的是case when,完成成绩分段以后再对分段结果进行group by,接着在组内计数获得每个成绩段内的学生数
select * from test.subject_table;select count(case when score >= 80 then score end ) as '80~100分', count(case when score >= 60 and score < 80 then score end ) as '60~80分', count(case when score < 60 then score end ) as '60分以下'from test.subject_table;
select (case when score >= 80 then '80~100分' when score >= 60 and score < 80 then '60~80分' when score < 60 then '60分以下' end ) as score_bin , count(case when score >= 80 then score when score >= 60 and score < 80 then score when score < 60 then score end) as countfrom test.subject_table group by score_bin;
运行结果:
(14)周累计数据获取
数据源:order_table.csv
order_id,order_date
1,2019/1/8
2,2019/1/9
3,2019/1/10
4,2019/1/11
5,2020/1/8
6,2020/1/9
7,2020/1/10
8,2020/1/11
9,2020/1/12
需求:现在每天需要获取本周累计的订单数,本周累计是指本周一到获取数据当天,比如,今天是周三,那么本周累计就是周一到周三,该怎么实现呢?
解题思路:我们要获取本周累计的订单数,只需要把本周的订单明细筛选出来,然后对订单ID进行计数即可。
select * from test.order_table;
update order_table set order_date = '2021/04/24' where order_id = 6;update order_table set order_date = '2021/04/28' where order_id = 7;update order_table set order_date = '2021/04/29' where order_id = 8;update order_table set order_date = '2021/04/30' where order_id = 9;
select date_format(order_date,'%Y-%m-%d') from test.order_table;select weekofyear(date_format(order_date,'%Y-%m-%d')) from test.order_table;select weekofyear(current_date) as '本周';select year(order_date) as '年' from test.order_table;select week(order_date) as '周' from test.order_table;
select year(order_date) as '年', week(order_date) as '周', count(order_id)from test.order_tablewhere year(order_date) = year(current_date) and week(order_date) = weekofyear(current_date)group by year(order_date), week(order_date);
运行结果:
(15)周环比数据获取
数据源:order_table.csv
需求:获取当日的订单数和当日的环比订单数(即昨日的数据)
select
count(case when date(order_date) = date (current_date) then order_id end ) as order_count,
count(case when date_sub(date (current_date),interval 1 day ) = order_date then order_id end) as last_order_count
from
test.order_table;
运行结果:
(16)查询获奖员工信息
数据源:16_table1.csv、16_table2.csv
id,name1,王小凤2,刘诗迪3,李思雨4,张文华5,张青云6,徐文杰7,李智瑞8,徐雨秋9,孙皓然
id,name
1,王小凤
2,刘诗迪
3,李思雨
7,李智瑞
8,徐雨秋
9,孙皓然
需求:现在我们想通过table1表获取获奖员工的更多信息。
select * from test.`16_table1` inner join `16_table2` `16t2` on `16_table1`.id = `16t2`.id;
运行结果:
(17)计算用户留存情况
数据源:user_login.csv
uid,login_time
1,2021/4/21 6:00
1,2021/4/24 10:00
1,2021/4/25 19:00
2,2021/4/22 10:00
2,2021/4/28 9:00
2,2021/4/29 14:00
3,2021/4/27 8:00
3,2021/4/28 10:00
需求:我们想看用户的次日留存数、三日留存数、七日留存数(只要用户首次登录以后再登录就算留存下来了),该怎么实现呢?
解题思路:本题有两种解题思路,先看思路一:按照用户时间求出七日留存,首先按uid分组,求出每个uid的第一次登陆时间和最后一次登陆时间,算出中间间隔的时间,如果间隔为1就是次日留存,间隔为3就是3日留存,间隔为7就是7日留存,以此类推分别求出他们的数量。思路二:按照当日时间求出七日留存,如果用户登陆的时间正好等于当前日期前一天的日期,则去重统计uid数量即为次日留存数,以此类推分别求出三日留存、七日留存。
select count(case when user_day_value.day_value = 1 then uid end ) as '次日留存', count(case when user_day_value.day_value = 3 then uid end ) as '三日留存', count(case when user_day_value.day_value = 7 then uid end ) as '七日留存'from (select uid, max(login_time), min(login_time), datediff(date (max(login_time)) , date (min(login_time))) as day_value from test.user_login group by uid) as user_day_value;
select count(distinct case when date(login_time) = date_sub(date (current_date),interval 1 day) then uid end ) as '次日留存', count(distinct case when date(login_time) > date_sub(date (current_date),interval 3 day) then uid end ) as '三日留存', count(distinct case when date(login_time) > date_sub(date (current_date),interval 7 day) then uid end ) as '七日留存'from test.user_login;
运行结果:写法一:
写法二:
(18)筛选最受欢迎的课程
数据源:course_table.csv
id,name,grade,course
1,王小凤,一年级,心理学
2,刘诗迪,二年级,心理学
3,李思雨,三年级,社会学
4,张文华,一年级,心理学
5,张青云,二年级,心理学
6,徐文杰,三年级,计算机
7,李智瑞,一年级,心理学
8,徐雨秋,二年级,计算机
9,孙皓然,三年级,社会学
10,李春山,一年级,社会学
需求:现在我们想知道最受欢迎的课程是哪一门。
解题思路:解法一通过按照course分组,按照course_count降序排序,取第一个值即为最受欢迎的课程,但是这种写法在一定程度上不严谨,比如说course_count最大值一样多,也就所说的并列第一,那么使用第一种方法就不能把所有最喜欢的课程都取出来。来看看第二种写法,通过使用rank窗口函数得出并列第一的值,通过where = 1,即可以全部取出最受欢迎的课程。
select * from test.course_table;
select course, count(course) as course_countfrom test.course_tablegroup by courseorder by course_count desc limit 1;
select course, course_countfrom (select course, count(course) as course_count, rank() over (order by count(course) desc ) as rank_num from test.course_table group by course) as twhere rank_num = 1;
运行结果:
(19)筛选出每个年级最受欢迎的三门课程
数据源:course_table.csv 需求:现在我们想知道每个年级最受欢迎的三门课程
解题思路:通过运用窗口函数,分组求Top N
select
*
from
(select
a.grade,
a.course,
a.count_num,
row_number() over (partition by grade order by count_num desc) as count_rank
from
(select grade,
course,
count(course) over (partition by grade,course) as count_num
from test.course_table) as a
group by a.grade,a.course,a.count_num) as b
where
b.count_rank < 4 ;
select * from test.course_table;
select
*
from
(select
a.grade,
a.course,
a.count_num,
row_number() over (partition by grade order by count_num desc) as count_rank from
(select
grade,
course ,
count(id) as count_num
from
test.course_table
group by
grade,
course) as a) as b
where b.count_rank < 4;
运行结果:
根据此题也可以求出每个年级最受欢迎的课程,这里我不用窗口函数,使用连接子查询:
select *from (select grade, course , count(id) as count_num from test.course_table group by grade, course) as t1where t1.count_num = (select t2.count_num from (select grade, course , count(id) as count_num from test.course_table group by grade, course) as t2 where t1.grade = t2.grade order by t2.count_num desc limit 1);
运行结果:
(20)求累积和
数据源:consum_order_table.csv
order_id,uid,amount
201901,1,10
201902,2,20
201903,3,15
201904,3,15
201905,4,20
201906,4,20
201907,5,25
201908,5,25
201909,6,30
201910,6,30
201911,7,35
201912,7,35
需求:现在我们想看下80%的订单金额最少是由多少用户贡献的
解题思路:第一步按uid分组,求出每个uid的amount和,第二步在生成累积和的时候需要按照订单金额进行降序排列,这样就可以得到最少的人数,第三步利用子查询获取到全部的订单金额,求出小于总额80%的uid的数量
select count(uid)from (select uid, sum_amount, sum(sum_amount) over (order by sum_amount desc ) as consume_amount from (select uid, sum(amount) as sum_amount from test.consum_order_table group by uid) as uid_table) as twhere t.consume_amount < (select (sum(amount) * 0.8) as sum_80 from test.consum_order_table);
运行结果:
(21)获取新增用户数
数据源:user_reg_table.csv
uid,reg_time
1,2019/12/25 10:00
2,2019/12/26 10:00
3,2019/12/27 10:00
4,2019/12/28 10:00
5,2019/12/29 10:00
6,2019/12/30 10:00
7,2019/12/31 10:00
8,2020/1/1 10:00
9,2020/1/2 10:00
10,2020/1/3 10:00
11,2020/1/4 10:00
需求:我们想获取某一天的新增用户数,以及该天对应的过去7天内每天的平均新增用户数
解题思路:我们以2020-1-1那一天为例,首先通过case when 让reg_time = 设定的那一天,求出uid的数量即为某一天的新增用户数。然后求出2020-1-1向前7天的reg_time,求出uid的数量除以7即可得出过去7天内每天的平均新增用户数
set @day_date = '2020-01-01';select count(case when date (reg_time) = @day_date then uid end ) as new_count, (count(uid) / 7) as 7_avg_count
from test.user_reg_tablewhere date (reg_time) between date_sub(@day_date,interval 6 day) and @day_date;
运行结果:
(22)获取用户首次购买时间
数据源:first_order_table.csv
order_id,uid,order_time
201901,1,2020-01-01 10:00:00
201902,2,2020-01-02 10:00:00
201903,3,2020-01-03 10:00:00
201904,1,2020-01-04 10:00:00
201905,2,2020-01-05 10:00:00
201906,3,2020-01-06 10:00:00
201907,1,2020-01-07 10:00:00
201908,2,2020-01-08 10:00:00
201909,3,2020-01-09 10:00:00
201910,1,2020-01-10 10:00:00
201911,2,2020-01-11 10:00:00
需求:我们想获取每个用户的首次购买时间,以及首次购买时间是否在最近7天内
解题思路:首先按uid分组,求出每个uid的首次订单时间,然后通过case when判断首次订单时间是否大于当日七天之前的时间,如果大于则首次购买时间在最近7天内,如果小于则首次购买时间不在最近7天内
select uid, min(order_time) as first_time, (case when date_sub(current_date(),interval 7 day ) < min(date(order_time)) then 'yes' else 'no' end) as is_7_dayfrom test.first_order_tablegroup by uid;
运行结果:
(23)同时获取用户和订单数据
数据源:user_reg_table.csv、first_order_table.csv
需求:现在我们想获取过去7天每天的新增用户数、订单数、下单用户数
解题思路:首先求过去7天每天新增用户数,再求过去7天每天新增订单数、下单用户数,两个表join即可得到需求
set @day = '2020-01-04';
select
a.tdate,
a.count_uid,
b.order_count,
b.uesr_count
from
(select
date (reg_time) as tdate,
count(uid) over(partition by date (reg_time)) as count_uid
from
test.user_reg_table
where
date (reg_time) between date_sub(@day,interval 7 day) and @day) as a
left join
(select
date (order_time) as tdate,
count(order_id) as order_count ,
count(uid) as uesr_count
from
test.first_order_table
where
date (order_time) between date_sub(@day,interval 7 day) and @day
group by date (order_time)) as b
on a.tdate = b.tdate;
运行结果:
(24)随机抽样
数据源:user_reg_table.csv、first_order_table.csv
需求:现在我们想从用户表中随机抽取5个用户,并获取这5个用户的历史购买订单数
解题思路:我们要随机抽取5个用户并获取他们的历史购买订单数,首先需要生成每个用户的历史购买订单数,然后从中随机抽取5个。具体的思路为利用rand()函数生成随机数,然后利用order by进行排序,最后利用limit将前5条数据显示出来,运行结果如下表所示。
select user_reg_table.uid, t.order_countfrom test.user_reg_table
left join (select uid, count(order_id) as order_count from test.first_order_table group by uid) as t
on user_reg_table.uid = t.uidorder by rand() limit 5;
运行结果:
(25)获取沉默用户数
数据源:user_reg_table.csv、first_order_table.csv
需求:现在我们想获取沉默用户的数量,沉默的定义是已注册但最近30天内没有购买记录的用户
解题思路:先求出最近三十天已经有购买记录的用户,再求出所有已经注册的用户。两个表连接,得出第一列为所有已经注册的用户,第二列则为最近三十天购买记录的用户,如果不能连接为null,最后求出null值的个数即为最近30天有购买记录的用户
select
count(t1.uid) as slient_count
from
test.user_reg_table as t1
left join
(select
uid
from
test.first_order_table
where
date (order_time)
between current_date and date_sub(current_date,interval 30 day)
group by uid) t2
on
t1.uid = t2.uid
where
t2.uid is null;
运行结果:
(26)获取新用户的订单数
数据源:user_reg_table.csv、first_order_table.csv
需求:现在我们想获取最近7天注册的新用户在最近7天内的订单数是多少
解题思路:第一步,求出最近7天注册的新用户,第二步,求出最近7天下订单的用户和订单数,第三步,两表连接,第二列为null值为最近7天新注册没下订单的用户,否则为下订单的用户,求出第三列的个数即为获取最近7天注册的新用户在最近7天内的订单数
select sum(t2.order_count)from
(select uid from test.user_reg_table where date (reg_time) between current_date and date_sub(current_date,interval 7 day )) as t1
left join
(select uid, count(order_id) as order_count from test.first_order_table where date (order_time) between current_date and date_sub(current_date,interval 7 day ) group by uid) as t2
on t1.uid = t2.uid;
运行结果:
(27)获取借款到期名单
数据源:loan_table.csv
id,loan_time,expire_time,reback_time,amount,status
1,2019/12/1,2019/12/31,,2208,0
2,2019/12/1,2019/12/31,2019/12/31,5283,1
3,2019/12/5,2020/1/4,,5397,0
4,2019/12/5,2020/1/4,,4506,0
5,2019/12/10,2020/1/9,,3244,0
6,2019/12/10,2020/1/9,2020/1/12,4541,1
7,2020/1/1,2020/1/31,2020/1/10,3580,1
8,2020/1/1,2020/1/31,,7045,0
9,2020/1/5,2020/2/4,,2067,0
10,2020/1/5,2020/2/4,,7225,0
需求:这张表包含id、loan_time(借款时间)、expire_time(到期时间)、reback_time(还款时间)、amount(金额)和status(还款状态,1表示已还款、0表示未还款)六个字段,我们想获取每天到期的借款笔数、借款金额和平均借款天数
select count(id) as loan_count , sum(amount) as loan_amount, avg(datediff(reback_time,loan_time)) as avg_dayfrom test.loan_tablewhere date (loan_time) = current_date;
运行结果:
(28)获取即将到期的借款信息
数据源:loan_table.csv
需求:我们想知道有多少笔借款会在未来7天内到期,以及其中有多少笔是已经还款的
解题思路:先获取今日到未来7天所有的还款日期,求出count(id)即为借款会在未来7天内到期的数量,在计算出目前状态为还款的数量。
select
count(id) as loan_count,
count(case when status = 1 then id end ) as reback_count
from
test.loan_table
where
expire_time between current_date and date_add(current_date,interval 7 day );
运行结果:
(29)获取历史逾期借款信息
数据源:loan_table.csv
需求:我们想知道历史逾期的借款笔数和金额,以及至今还逾期的借款笔数和金额
解题思路:这里面的关键信息在于,逾期怎么判断,对到期时间和还款时间进行比较,如果是逾期且现在已经还款的,可以直接比较到期时间和还款时间,如果还款时间大于到期时间,则说明是逾期的;还有一种是逾期且至今还未还款的,这种情况是没有还款时间的,也就是还款时间为空,但是到期时间是在今天之前,说明已经到期但是未还款。
select count(id) as loan_count, sum(amount) as loan_amount, count(case when status = 0 then id end ) as no_reback_count, sum(case when status = 0 then amount end ) as no_reback_amountfrom test.loan_tablewhere (current_date > expire_time and reback_time is null) or (reback_time > loan_table.expire_time);
运行结果:
(30)获取部门工资最高的员工
数据源:Employee.csv、Department.csv
Id,Name,Salary,DepartmentId
1,Joe,70000,1
2,Jim,90000,1
3,Henry,80000,2
4,Sam,60000,2
5,Max,90000,1
Id,Name1,IT2,Sales
需求1:如何求出Employee表薪水最高的员工(含重复值)
select
a.Id,
Name,
Salary
from
test.Employee a
inner join
(select
Id
from
test.Employee
where
Salary = (select max(Salary) from test.Employee)) b on a.Id = b.Id;
select
Name,
Salary
from
(select
Name,
Salary,rank() over (order by Salary desc ) as rank_num
from test.Employee) as t
where t.rank_num = 1;
运行结果:
需求2:求出部门工资最高的员工(含重复值)
select t2.Department, t2.Employee, t2.Salaryfrom (select Department, Employee, Salary, rank() over (partition by Department order by Salary desc ) as rank_num from (select a.Name as Employee, a.Salary as Salary , b.Name as Department from test.Employee as a left join test.Department as b on a.DepartmentId = b.Id) as t) as t2where rank_num = 1;
运行结果: