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I have heard a lot of people over the years say that:

"join" operators are preferred over “NOT EXISTS”

Why?

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4  
@duffymo: all guesses wrong. –  Quassnoi Jul 21 '11 at 14:10
1  
Why is this closed? I am curious about the reason too. –  Ziyao Wei Jul 21 '11 at 14:12
    
@Ziayo: probably because of the words "lot of people". If worded "are joins more efficient than NOT EXISTS", that would be a perfect question answerable with "facts, references, or specific expertise". –  Quassnoi Jul 21 '11 at 14:16
1  
AFIAK, this is based on outdated info from when MySQL did not yet optimize this construct, since many many years now, MySQL optimizes this just fine, as do almost all other SQL dialects. –  Johan Jul 21 '11 at 14:17
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3 Answers

up vote 7 down vote accepted

In MySQL, Oracle, SQL Server and PostgreSQL, NOT EXISTS is of the same efficiency or even more efficient than LEFT JOIN / IS NULL.

While it may seem that "the inner query should be executed for each record from the outer query" (which seems to be bad for NOT EXISTS and even worse for NOT IN, since the latter query is not even correlated), it may be optimized just as well as all other queries are optimized, using appropriate anti-join methods.

In SQL Server, actually, LEFT JOIN / IS NULL may be less efficient than NOT EXISTS / NOT IN in case of unindexed or low cardinality column in the inner table.

It is often heard that MySQL is "especially bad in treating subqueries".

This roots from the fact that MySQL is not capable of any join methods other than nested loops, which severely limits its optimization abilities.

The only case when a query would benefit from rewriting subquery as a join would be this:

SELECT  *
FROM    big_table
WHERE   big_table_column IN
        (
        SELECT  small_table_column
        FROM    small_table
        )

small_table will not be queried completely for each record in big_table: though it does not seem to be correlated, it will be implicitly correlated by the query optimizer and in fact rewritten to an EXISTS (using index_subquery to search for the first much if needed if small_table_column is indexed)

But big_table would always be leading, which makes the query complete in big * LOG(small) rather than small * LOG(big) reads.

This could be rewritten as

SELECT  DISTINCT bt.*
FROM    small_table st
JOIN    big_table bt
ON      bt.big_table_column = st.small_table_column

However, this won't improve NOT IN (as opposed to IN). In MySQL, NOT EXISTS and LEFT JOIN / IS NULL are almost the same, since with nested loops the left table should always be leading in a LEFT JOIN.

You may want to read these articles:

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For how long has this been the case? –  Ian Ringrose Jul 21 '11 at 14:57
    
@Ian: what exactly? –  Quassnoi Jul 21 '11 at 14:58
    
@Qnassnoi, that the efficiency is about the same –  Ian Ringrose Jul 21 '11 at 15:29
    
@Ian: for Oracle and SQL Server, at least since I'm in the industry (1997). –  Quassnoi Jul 21 '11 at 16:01
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It may have to do with the optimization process... NOT EXISTS implies a subquery, and "optimizers" usually don't do subqueries justice. On the other hand, joins can be dealt with more easily...

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I think this is a MySQL specific case. MySQL do not optimize subquery in IN / not in / any / not exists clauses, and actually performs the subquery for each row matched by the outer query. Because of this in MySQL, you should use join. In PostgreSQL however, you can just use subquery.

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It does optimize all these clauses. Please read explainextended.com/2009/09/18/… –  Quassnoi Jul 21 '11 at 14:12
    
@Darhazer, you seem stuck in MySQL version 4. –  Johan Jul 21 '11 at 14:18
    
@Johan: ... which also optimized all these constructs. –  Quassnoi Jul 21 '11 at 14:21
    
I'm wrong for exists/not exists queries. But IN subqueries often are slow because of the reason described above. mysqlperformanceblog.com/2010/10/25/… –  Darhazer Jul 21 '11 at 14:28
1  
"often are slow" and "does not optimize" are different things. IN subqueries are optimized (i. e. the inner query is not performed verbatim for each outer row), though not correctly if the IN table is small and the outer table is large. However, NOT IN and IN are completely different things, both logically and in terms of execution. –  Quassnoi Jul 21 '11 at 14:33
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