597

After reading it, this is not a duplicate of Explicit vs Implicit SQL Joins. The answer may be related (or even the same) but the question is different.


What is the difference and what should go in each?

If I understand the theory correctly, the query optimizer should be able to use both interchangeably.

17 Answers 17

777

They are not the same thing.

Consider these queries:

SELECT *
FROM Orders
LEFT JOIN OrderLines ON OrderLines.OrderID=Orders.ID
WHERE Orders.ID = 12345

and

SELECT *
FROM Orders
LEFT JOIN OrderLines ON OrderLines.OrderID=Orders.ID 
    AND Orders.ID = 12345

The first will return an order and its lines, if any, for order number 12345. The second will return all orders, but only order 12345 will have any lines associated with it.

With an INNER JOIN, the clauses are effectively equivalent. However, just because they are functionally the same, in that they produce the same results, does not mean the two kinds of clauses have the same semantic meaning.

  • 70
    will you get better performance by putting the where clause in the "on" clause for an inner join? – FistOfFury Dec 7 '12 at 16:01
  • 87
    @FistOfFury Sql Server uses a query optimizer procedure that compiles and evaluates your code to produce the best execution plan it can. It's not perfect, but most of the time it won't matter and you'll get the same execution plan either way. – Joel Coehoorn Dec 7 '12 at 17:29
  • 15
    In Postgres I noted that they were NOT equivalent and resulted in different query plans. If you use ON, it resulted in the use of materialize. If you used WHERE, it used a hash. The materialize had a worse case that was 10x more costly than the hash. This was using a set of IDs rather than a single ID. – JamesHutchison Mar 29 '16 at 17:15
  • 9
    @JamesHutchison It's tough to make reliable performance generalizations based on observed behaviors like this. What was true one day tends to be wrong the next, because this is an implementation detail rather than documented behavior. Database teams are always looking for places to improve optimizer performance. I'll be surprised if the ON behavior doesn't improve to match the WHERE. It may not even show up anywhere in release notes from version to version other than something like "general performance improvements. – Joel Coehoorn Jun 22 '16 at 15:11
  • 4
    @FiHoran That's not how Sql Server works. It will agressively pre-filter based on items from the WHERE clause when statistics show it can be helpful. – Joel Coehoorn Mar 16 '18 at 1:02
276
  • Does not matter for inner joins
  • Matters for outer joins

    a. WHERE clause: After joining. Records will be filtered after join has taken place.

    b. ON clause - Before joining. Records (from right table) will be filtered before joining. This may end up as null in the result (since OUTER join).



Example: Consider the below tables:

    1. documents:
     | id    | name        |
     --------|-------------|
     | 1     | Document1   |
     | 2     | Document2   |
     | 3     | Document3   |
     | 4     | Document4   |
     | 5     | Document5   |


    2. downloads:
     | id   | document_id   | username |
     |------|---------------|----------|
     | 1    | 1             | sandeep  |
     | 2    | 1             | simi     |
     | 3    | 2             | sandeep  |
     | 4    | 2             | reya     |
     | 5    | 3             | simi     |

a) Inside WHERE clause:

  SELECT documents.name, downloads.id
    FROM documents
    LEFT OUTER JOIN downloads
      ON documents.id = downloads.document_id
    WHERE username = 'sandeep'

 For above query the intermediate join table will look like this.

    | id(from documents) | name         | id (from downloads) | document_id | username |
    |--------------------|--------------|---------------------|-------------|----------|
    | 1                  | Document1    | 1                   | 1           | sandeep  |
    | 1                  | Document1    | 2                   | 1           | simi     |
    | 2                  | Document2    | 3                   | 2           | sandeep  |
    | 2                  | Document2    | 4                   | 2           | reya     |
    | 3                  | Document3    | 5                   | 3           | simi     |
    | 4                  | Document4    | NULL                | NULL        | NULL     |
    | 5                  | Document5    | NULL                | NULL        | NULL     |

  After applying the `WHERE` clause and selecting the listed attributes, the result will be: 

   | name         | id |
   |--------------|----|
   | Document1    | 1  |
   | Document2    | 3  | 

b) Inside JOIN clause

  SELECT documents.name, downloads.id
  FROM documents
    LEFT OUTER JOIN downloads
      ON documents.id = downloads.document_id
        AND username = 'sandeep'

For above query the intermediate join table will look like this.

    | id(from documents) | name         | id (from downloads) | document_id | username |
    |--------------------|--------------|---------------------|-------------|----------|
    | 1                  | Document1    | 1                   | 1           | sandeep  |
    | 2                  | Document2    | 3                   | 2           | sandeep  |
    | 3                  | Document3    | NULL                | NULL        | NULL     |
    | 4                  | Document4    | NULL                | NULL        | NULL     |
    | 5                  | Document5    | NULL                | NULL        | NULL     |

Notice how the rows in `documents` that did not match both the conditions are populated with `NULL` values.

After Selecting the listed attributes, the result will be: 

   | name       | id   |
   |------------|------|
   |  Document1 | 1    |
   |  Document2 | 3    | 
   |  Document3 | NULL |
   |  Document4 | NULL | 
   |  Document5 | NULL | 
  • 24
    IMO this is the best answer because it clearly demonstrates what is going on 'under the hood' of the other popular answers. – psrpsrpsr May 15 '17 at 18:51
140

On INNER JOINs they are interchangeable, and the optimizer will rearrange them at will.

On OUTER JOINs, they are not necessarily interchangeable, depending on which side of the join they depend on.

I put them in either place depending on the readability.

41

The way I do it is:

  • Always put the join conditions in the ON clause if you are doing an INNER JOIN. So, do not add any WHERE conditions to the ON clause, put them in the WHERE clause.

  • If you are doing a LEFT JOIN, add any WHERE conditions to the ON clause for the table in the right side of the join. This is a must, because adding a WHERE clause that references the right side of the join will convert the join to an INNER JOIN.

    The exception is when you are looking for the records that are not in a particular table. You would add the reference to a unique identifier (that is not ever NULL) in the RIGHT JOIN table to the WHERE clause this way: WHERE t2.idfield IS NULL. So, the only time you should reference a table on the right side of the join is to find those records which are not in the table.

  • 7
    This is the best answer I have read on this so far. Totally makes sense once your brain understands a left join is going to return all rows in the left table and you have to filter it later. – Nick Larsen Aug 10 '13 at 20:21
30

On an inner join, they mean the same thing. However you will get different results in an outer join depending on if you put the join condition in the WHERE vs the ON clause. Take a look at this related question and this answer (by me).

I think it makes the most sense to be in the habit of always putting the join condition in the ON clause (unless it is an outer join and you actually do want it in the where clause) as it makes it clearer to anyone reading your query what conditions the tables are being joined on, and also it helps prevent the WHERE clause from being dozens of lines long.

22

This article clearly explains the difference. It also explains the "ON joined_condition vs WHERE joined_condition or joined_alias is null".

The WHERE clause filters the result of the FROM clause along with the JOINs while the ON clause is used to produce the table result between the FROM and the JOIN tables.

  1. If you want to produce a table result that joins two tables, then you should the ON clause to determine how the tables are joined. Of course, this can also filter rows from the original table in case of an INNER JOIN, for instance.
  2. If you want to filter the product of joining both sides, then you should use the WHERE clause.
11

There is great difference between where clause vs. on clause, when it comes to left join.

Here is example:

mysql> desc t1; 
+-------+-------------+------+-----+---------+-------+
| Field | Type        | Null | Key | Default | Extra |
+-------+-------------+------+-----+---------+-------+
| id    | int(11)     | NO   |     | NULL    |       |
| fid   | int(11)     | NO   |     | NULL    |       |
| v     | varchar(20) | NO   |     | NULL    |       |
+-------+-------------+------+-----+---------+-------+

There fid is id of table t2.

mysql> desc t2;
+-------+-------------+------+-----+---------+-------+
| Field | Type        | Null | Key | Default | Extra |
+-------+-------------+------+-----+---------+-------+
| id    | int(11)     | NO   |     | NULL    |       |
| v     | varchar(10) | NO   |     | NULL    |       |
+-------+-------------+------+-----+---------+-------+
2 rows in set (0.00 sec)

Query on "on clause" :

mysql> SELECT * FROM `t1` left join t2 on fid = t2.id AND t1.v = 'K' 
    -> ;
+----+-----+---+------+------+
| id | fid | v | id   | v    |
+----+-----+---+------+------+
|  1 |   1 | H | NULL | NULL |
|  2 |   1 | B | NULL | NULL |
|  3 |   2 | H | NULL | NULL |
|  4 |   7 | K | NULL | NULL |
|  5 |   5 | L | NULL | NULL |
+----+-----+---+------+------+
5 rows in set (0.00 sec)

Query on "where clause":

mysql> SELECT * FROM `t1` left join t2 on fid = t2.id where t1.v = 'K';
+----+-----+---+------+------+
| id | fid | v | id   | v    |
+----+-----+---+------+------+
|  4 |   7 | K | NULL | NULL |
+----+-----+---+------+------+
1 row in set (0.00 sec)

It is clear that, the first query returns a record from t1 and its dependent row from t2, if any, for row t1.v = 'K'.

The second query returns rows from t1, but only for t1.v = 'K' will have any associated row with it.

8

In terms of the optimizer, it shouldn't make a difference whether you define your join clauses with ON or WHERE.

However, IMHO, I think it's much clearer to use the ON clause when performing joins. That way you have a specific section of you query that dictates how the join is handled versus intermixed with the rest of the WHERE clauses.

1

I think it's the join sequence effect. In the upper left join case, SQL do Left join first and then do where filter. In the downer case, find Orders.ID=12345 first, and then do join.

1

For an inner join, WHERE and ON can be used interchangeably. In fact, it's possible to use ON in a correlated subquery. For example:

update mytable
set myscore=100
where exists (
select 1 from table1
inner join table2
on (table2.key = mytable.key)
inner join table3
on (table3.key = table2.key and table3.key = table1.key)
...
)

This is (IMHO) utterly confusing to a human, and it's very easy to forget to link table1 to anything (because the "driver" table doesn't have an "on" clause), but it's legal.

1

for better performance tables should have a special indexed column to use for JOINS .

so if the column you condition on is not one of those indexed columns then i suspect it is better to keep it in WHERE .

so you JOIN using the indexed columns, then after JOIN you run the condition on the none indexed column .

1

Normally, filtering is processed in the WHERE clause once the two tables have already been joined. It’s possible, though that you might want to filter one or both of the tables before joining them. i.e, the where clause applies to the whole result set whereas the on clause only applies to the join in question.

  • This is just not so since DBMSs "normally" optimize. – philipxy Apr 9 at 14:24
1

In SQL, the 'WHERE' and 'ON' clause,are kind of Conditional Statemants, but the major difference between them are, the 'Where' Clause is used in Select/Update Statements for specifying the Conditions, whereas the 'ON' Clause is used in Joins, where it verifies or checks if the Records are Matched in the target and source tables, before the Tables are Joined

For Example: - 'WHERE'

SELECT * FROM employee WHERE employee_id=101

For Example: - 'ON'

There are two tables employee and employee_details, the matching columns are employee_id.

SELECT * FROM employee 
INNER JOIN employee_details 
ON employee.employee_id = employee_details.employee_id

Hope I have answered your Question. Revert for any clarifications.

1

Let's consider those tables :

A

id | SomeData

B

id | id_A | SomeOtherData

id_A being a foreign key to table A

Writting this query :

SELECT *
FROM A
LEFT JOIN B
ON A.id = B.id_A;

Will provide this result :

/ : part of the result
                                       B
                      +---------------------------------+
            A         |                                 |
+---------------------+-------+                         |
|/////////////////////|///////|                         |
|/////////////////////|///////|                         |
|/////////////////////|///////|                         |
|/////////////////////|///////|                         |
|/////////////////////+-------+-------------------------+
|/////////////////////////////|
+-----------------------------+

What is in A but not in B means that there is null values for B.


Now, let's consider a specific part in B.id_A, and highlight it from the previous result :

/ : part of the result
* : part of the result with the specific B.id_A
                                       B
                      +---------------------------------+
            A         |                                 |
+---------------------+-------+                         |
|/////////////////////|///////|                         |
|/////////////////////|///////|                         |
|/////////////////////+---+///|                         |
|/////////////////////|***|///|                         |
|/////////////////////+---+---+-------------------------+
|/////////////////////////////|
+-----------------------------+

Writting this query :

SELECT *
FROM A
LEFT JOIN B
ON A.id = B.id_A
AND B.id_A = SpecificPart;

Will provide this result :

/ : part of the result
* : part of the result with the specific B.id_A
                                       B
                      +---------------------------------+
            A         |                                 |
+---------------------+-------+                         |
|/////////////////////|       |                         |
|/////////////////////|       |                         |
|/////////////////////+---+   |                         |
|/////////////////////|***|   |                         |
|/////////////////////+---+---+-------------------------+
|/////////////////////////////|
+-----------------------------+

Because this removes in the inner join the values that aren't in B.id_A = SpecificPart


Now, let's change the query to this :

SELECT *
FROM A
LEFT JOIN B
ON A.id = B.id_A
WHERE B.id_A = SpecificPart;

The result is now :

/ : part of the result
* : part of the result with the specific B.id_A
                                       B
                      +---------------------------------+
            A         |                                 |
+---------------------+-------+                         |
|                     |       |                         |
|                     |       |                         |
|                     +---+   |                         |
|                     |***|   |                         |
|                     +---+---+-------------------------+
|                             |
+-----------------------------+

Because the whole result is filtered against B.id_A = SpecificPart removing the parts B.id_A = NULL, that are in the A that aren't in B

1

Are you trying to join data or filter data?

For readability it makes the most sense to isolate these use cases to ON and WHERE respectively.

  • join data in ON
  • filter data in WHERE

It can become very difficult to read a query where the JOIN condition and a filtering condition exist in the WHERE clause.

Performance wise you should not see a difference, though different types of SQL sometimes handle query planning differently so it can be worth trying ¯\_(ツ)_/¯ (Do be aware of caching effecting the query speed)

Also as others have noted, if you use an outer join you will get different results if you place the filter condition in the ON clause because it only effects one of the tables.

I wrote a more in depth post about this here: https://dataschool.com/learn/difference-between-where-and-on-in-sql

0

I think this distinction can best be explained via the logical order of operations in SQL, which is, simplified:

  • FROM (including joins)
  • WHERE
  • GROUP BY
  • Aggregations
  • HAVING
  • WINDOW
  • SELECT
  • DISTINCT
  • UNION, INTERSECT, EXCEPT
  • ORDER BY
  • OFFSET
  • FETCH

Joins are not a clause of the select statement, but an operator inside of FROM. As such, all ON clauses belonging to the corresponding JOIN operator have "already happened" logically by the time logical processing reaches the WHERE clause. This means that in the case of a LEFT JOIN, for example, the outer join's semantics has already happend by the time the WHERE clause is applied.

I've explained the following example more in depth in this blog post. When running this query:

SELECT a.actor_id, a.first_name, a.last_name, count(fa.film_id)
FROM actor a
LEFT JOIN film_actor fa ON a.actor_id = fa.actor_id
WHERE film_id < 10
GROUP BY a.actor_id, a.first_name, a.last_name
ORDER BY count(fa.film_id) ASC;

The LEFT JOIN doesn't really have any useful effect, because even if an actor did not play in a film, the actor will be filtered, as its FILM_ID will be NULL and the WHERE clause will filter such a row. The result is something like:

ACTOR_ID  FIRST_NAME  LAST_NAME  COUNT
--------------------------------------
194       MERYL       ALLEN      1
198       MARY        KEITEL     1
30        SANDRA      PECK       1
85        MINNIE      ZELLWEGER  1
123       JULIANNE    DENCH      1

I.e. just as if we inner joined the two tables. If we move the filter predicate in the ON clause, it now becomes a criteria for the outer join:

SELECT a.actor_id, a.first_name, a.last_name, count(fa.film_id)
FROM actor a
LEFT JOIN film_actor fa ON a.actor_id = fa.actor_id
  AND film_id < 10
GROUP BY a.actor_id, a.first_name, a.last_name
ORDER BY count(fa.film_id) ASC;

Meaning the result will contain actors without any films, or without any films with FILM_ID < 10

ACTOR_ID  FIRST_NAME  LAST_NAME     COUNT
-----------------------------------------
3         ED          CHASE         0
4         JENNIFER    DAVIS         0
5         JOHNNY      LOLLOBRIGIDA  0
6         BETTE       NICHOLSON     0
...
1         PENELOPE    GUINESS       1
200       THORA       TEMPLE        1
2         NICK        WAHLBERG      1
198       MARY        KEITEL        1

In short

Always put your predicate where it makes most sense, logically.

-5

this is my solution.

SELECT song_ID,songs.fullname, singers.fullname
FROM music JOIN songs ON songs.ID = music.song_ID  
JOIN singers ON singers.ID = music.singer_ID
GROUP BY songs.fullname

You must have the GROUP BY to get it to work.

Hope this help.

  • 10
    Grouping on only songs.fullname while you are also selecting song_id and singers.fullname is going to be a problem in most databases. – btilly Feb 9 '11 at 4:46

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