If I SELECT IDs then UPDATE using those IDs, then the UPDATE query is faster than if I would UPDATE using the conditions in the SELECT.

To illustrate:

SELECT id FROM table WHERE a IS NULL LIMIT 10; -- 0.00 sec
UPDATE table SET field = value WHERE id IN (...); -- 0.01 sec

The above is about 100 times faster than an UPDATE with the same conditions:

UPDATE table SET field = value WHERE a IS NULL LIMIT 10; -- 0.91 sec


Note: the a column is indexed.

  • 3
    that's weird. Just out of curiosity how does UPDATE table SET field = value WHERE id IN (SELECT id FROM table WHERE a IS NULL LIMIT 10); perform – Conrad Frix Jul 14 '11 at 15:50
  • 1
    @Conrad Frix, can't do that, MySQL doesn't support updating the same table you're selecting from. – rid Jul 14 '11 at 15:51
  • 1
    How did you test the performance of the two? – Michael J.V. Jul 14 '11 at 15:52
  • 4
    1st query uses primary keys for lookups, second doesn't. Of course that the first one is faster. I thought that the summed output of two queries from first example outperformed the third one. – Michael J.V. Jul 14 '11 at 15:59
  • 2
    have you tried EXPLAIN for statements ? it will give you more detail on execution of statements, either it uses index or no. "The SELECT code has many optimisations stages that is not done on UPDATE, because UPDATE only uses one table. In some very rare cases this may change how SELECT is done" – Igoris Azanovas Jul 17 '11 at 19:36

Most likely the second UPDATE statement locks much more rows, while the first one uses unique key and locks only the rows it's going to update.

  • I wish I could upvote you more than once. It is spot on. – Denis de Bernardy Jul 18 '11 at 2:49
  • 1
    It's not clear if you are right, but the idea is nice :) – Karolis Jul 19 '11 at 14:06
  • 3
    Yeah, Radu can test - start transaction, run the query, do not commit, and check how many rows are locked – Maxim Krizhanovsky Jul 20 '11 at 7:45

The two queries are not identical. You only know that the IDs are unique in the table.

UPDATE ... LIMIT 10 will update at most 10 records.

UPDATE ... WHERE id IN (SELECT ... LIMIT 10) may update more than 10 records if there are duplicate ids.

  • And even more importantly, as point out by darhazer, update ... limit 10 will lock more rows than needed. – Denis de Bernardy Jul 18 '11 at 2:53

I don't think there can be a one straight-forward answer to your "why?" without doing some sort of analysis and research.

The SELECT queries are normally cached, which means that if you run the same SELECT query multiple times, the execution time of the first query is normally greater than the following queries. Please note that this behavior can only be experienced where the SELECT is heavy and not in scenarios where even the first SELECT is much faster. So, in your example it might be that the SELECT took 0.00s because of the caching. The UPDATE queries are using different WHERE clauses and hence it is likely that their execution times are different.

Though the column a is indexed, but it is not necessary that MySQL must be using the index when doing the SELECT or the UPDATE. Please study the EXPLAIN outputs. Also, see the output of SHOW INDEX and check if the "Comment" column reads "disabled" for any indexes? You may read more here - http://dev.mysql.com/doc/refman/5.0/en/show-index.html and http://dev.mysql.com/doc/refman/5.0/en/mysql-indexes.html.

Also, if we ignore the SELECT for a while and focus only on the UPDATE queries, it is obvious that they aren't both using the same WHERE condition - the first one runs on id column and the latter on a. Though both columns are indexed but it does not necessarily mean that all the table indexes perform alike. It is possible that some index is more efficient than the other depending on the size of the index or the datatype of the indexed column or if it is a single- or multiple-column index. There sure might be other reasons but I ain't an expert on it.

Also, I think that the second UPDATE is doing more work in the sense that it might be putting more row-level locks compared to the first UPDATE. It is true that both UPDATES are finally updating the same number of rows. But where in the first update, it is 10 rows that are locked, I think in the second UPDATE, all rows with a as NULL (which is more than 10) are locked before doing the UPDATE. Perhaps MySQL first applies the locking and then runs the LIMIT clause to update only limited records.

Hope the above explanation makes sense!


Do you have a composite index or separate indexes?

If it is a composite index of id and a columns,

In 2nd update statement the a column's index would not be used. The reason is that only the left most prefix indexes are used (unless if a is the PRIMARY KEY)

So if you want the a column's index to be used, you need in include id in your WHERE clause as well, with id first then a.

Also it depends on what storage engine you are using since MySQL does indexes at the engine level, not server.

You can try this:

UPDATE table SET field = value WHERE id IN (...) AND a IS NULL LIMIT 10;

By doing this id is in the left most index followed by a

Also from your comments, the lookups are much faster because if you are using InnoDB, updating columns would mean that the InnoDB storage engine would have to move indexes to a different page node, or have to split a page if the page is already full, since InnoDB stores indexes in sequential order. This process is VERY slow and expensive, and gets even slower if your indexes are fragmented, or if your table is very big


The comment by Michael J.V is the best description. This answer assumes a is a column that is not indexed and 'id' is.

The WHERE clause in the first UPDATE command is working off the primary key of the table, id

The WHERE clause in the second UPDATE command is working off a non-indexed column. This makes the finding of the columns to be updated significantly slower.

Never underestimate the power of indexes. A table will perform better if the indexes are used correctly than a table a tenth the size with no indexing.

  • 1
    Updated the question to explicitly say that the a column is indeed indexed. Also, if it wasn't indexed, then why is the SELECT fast? It's using the same condition as the UPDATE, looking up the a column. – rid Jul 17 '11 at 0:14

Regarding "MySQL doesn't support updating the same table you're selecting from"

UPDATE table SET field = value 

Just do this:

UPDATE table SET field = value 
WHERE id IN (select id from (SELECT id FROM table WHERE a IS NULL LIMIT 10));

The accepted answer seems right but is incomplete, there are major differences.

As much as I understand, and I'm not a SQL expert:

The first query you SELECT N rows and UPDATE them using the primary key.
That's very fast as you have a direct access to all rows based on the fastest possible index.

The second query you UPDATE N rows using LIMIT That will lock all rows and release again after the update is finished.

The big difference is that you have a RACE CONDITION in case 1) and an atomic UPDATE in case 2)

If you have two or more simultanous calls of the case 1) query you'll have the situation that you select the SAME id's from the table. Both calls will update the same IDs simultanously, overwriting each other. This is called "race condition".

The second case is avoiding that issue, mysql will lock all rows during the update. If a second session is doing the same command it will have a wait time until the rows are unlocked. So no race condition is possible at the expense of lost time.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.