It is inefficient and unnecessary to read the
tab2 table twice, as in some of the other answers. You can use what is commonly referred to as
MAX..KEEP, but what is confusingly documented as the
FIRST function (here).
This query uses the feature to give you the results you are looking for:
max(t2.emp_id) keep ( dense_rank first order by t1.salary desc ) emp_id,
max(t2.first_name) keep ( dense_rank first order by t1.salary desc ) first_name,
FROM tab1 t1
INNER JOIN tab2 t2 ON t2.emp_id = t1.emp_id
GROUP BY t2.gender;
Notice that it reads each table only once.
| GENDER | EMP_ID + FIRST_NAME | MAX(T1.SALARY) |
| female | 2 + bbbb | 3000 |
| male | 3 + cccc | 3645 |
I will assert that this is the most efficient means of getting the results you seek.
[I don't like to make statements like that without wriggle room (or "weasel words", if you like), since there is so much out there we all need to learn. But, if there is a faster way to do this query, learning it would be worth enduring a public correction on SO. :) ]
Incidentally, if you had a
GENDERS table, like this...
create table genders ( gender varchar2(10) );
insert into genders values ('male');
insert into genders values ('female');
Then this would also be a reasonable solution in 12c and later:
from genders g
CROSS APPLY ( SELECT t2.emp_id,
FROM tab1 t1
INNER JOIN tab2 t2 on t2.emp_id = t1.emp_id
WHERE t2.gender = g.gender
ORDER BY t1.salary DESC
FETCH FIRST 1 ROW ONLY ) ca
The benefits of this alternate approach are:
- less repetition of the
MAX..KEEP syntax, which can get burdensome if you want not just
first_name but a bunch of other columns as well
- it can benefit from indexes that help the query in the
CROSS APPLY. In your case, an index on
GENDER is not likely to be selective enough to help, but it's something to keep in mind for other situations.