I am having trouble while trying to understand the concept of semi-join and how it is different from conventional join. I have tried some article already but not satisfied with the explanation, could someone please help me to understand it?


3 Answers 3


Simple example. Let's select students with grades using left outer join:

FROM  students s
      LEFT JOIN grades g ON g.student_id = s.id
WHERE g.student_id IS NOT NULL

Now the same with left semi-join:

FROM  students s
              WHERE g.student_id = s.id)

The latter is generally more efficient (depending on concrete DBMS and query optimizer).

  • 1
    Why does it always say SELECT 1 in the first part of a WHERE EXISTS statement?
    – Brent B
    Oct 4, 2018 at 20:20
  • 4
    @BrentB something has to be SELECTed, but there's no need for actual data (a decent optimizer should be able to optimize away any alternative like SELECT * so it's more of reinforcing the intent for human peers that there's no use of the data) Jun 7, 2019 at 23:45
  • 1
    Why is it much more efficient? Jul 24, 2019 at 1:38
  • 8
    @JamesWierzba A query optimizer might recognize that they are identical and use the same query plan to run either query. However, conceptually, in the first query, you would first find all of the grades for each student and then delete any students which had no grades and then remove duplicate students until you’re left with unique ones. In the second query, you go student by student and check if there is at least one grade for that student. So no need to enumerate all grades or deduplicate the student IDs at the end. Again, an optimizer might be smart enough to use the same algorithm for both
    – binki
    Sep 11, 2019 at 16:03
  • 1
    x left join y on c where y.a is not null is x inner join y on c. Left join is unneeded & misleading in the 1st query. "much more efficient" False. Depends on the DBMS optimizer/implementation, and the optimization is simple.
    – philipxy
    Jan 24 at 23:19

As far as I know SQL dialects that support SEMIJOIN/ANTISEMI are U-SQL/Cloudera Impala.


Semijoins are U-SQL’s way filter a rowset based on the inclusion of its rows in another rowset. Other SQL dialects express this with the SELECT * FROM A WHERE A.key IN (SELECT B.key FROM B) pattern.

More info Semi Join and Anti Join Should Have Their Own Syntax in SQL:

“Semi” means that we don’t really join the right hand side, we only check if a join would yield results for any given tuple.

-- IN
FROM Employee
WHERE DeptName IN (
  SELECT DeptName
  FROM Dept

FROM Employee
  FROM Dept
  WHERE Employee.DeptName = Dept.DeptName


Another dialect that supports SEMI/ANTISEMI join is KQL:

kind=leftsemi (or kind=rightsemi)

Returns all the records from the left side that have matches from the right. The result table contains columns from the left side only.

let t1 = datatable(key:long, value:string)  
[1, "a",  
2, "b",
3, "c"];
let t2 = datatable(key:long)
t1 | join kind=leftsemi (t2) on key



key  value
1    a
3    c

As I understand, a semi join is a left join or right join:

What's the difference between INNER JOIN, LEFT JOIN, RIGHT JOIN and FULL JOIN?

So the difference between a left (semi) join and a "conventional" join is that you only retrieve the data of the left table (where you have a match on your join condition). Whereas with a full (outer) join (I think thats what you mean by conventional join), you retrieve the data of both tables where your condition matches.

  • 11
    A left or right join is called an outer join. A semi-join is not the same thing at all: it returns a set of rows in one table that is constrained by the existence of data in some other table, without actually drawing any data from that other table. It's implemented by EXISTS as shown in Iurii Ant's answer. See Relational Algebra (Semijoin) for the theory or this excellent article for a SQL Server-specific introduction. Oct 23, 2017 at 21:26
  • Why this wrong answer it still selected as correct? Oct 3, 2018 at 10:48
  • Nowhere near correct. Semi Join is Either implemented by EXISTS or by WHERE IN. In both cases, it behaves as a filter where the elements to be a check against can come from another table (or the same table as the upper select). Oct 5, 2020 at 10:37

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