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The query is basically:

SELECT DISTINCT "my_table"."foo" from "my_table" WHERE...

Pretending that I'm 100% certain the DISTINCT portion of the query is the reason it runs slowly, I've omitted the rest of the query to avoid confusion, since it is the distinct portion's slowness that I'm primarily concerned with (distinct is always a source of slowness).

The table in question has 2.5 million rows of data. The DISTINCT is needed for purposes not listed here (because I don't want back a modified query, but rather just general information about making distinct queries run faster at the DBMS level, if possible).

How can I make DISTINCT run quicker (using Postgres 9, specifically) without altering the SQL (ie, I can't alter this SQL coming in, but have access to optimize something at the DB level)?

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7  
'I'm 100% certain that the DISTINCT portion of the query is the reason it runs slowly' => No you are not, unless you are the DBMS optimizer, or Jon Skeet. –  Cyril Gandon Jul 6 '11 at 15:22
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The full query would be needed to give an answer. Usually, one uses distinct for bad reasons. –  Denis de Bernardy Jul 6 '11 at 15:33
    
@orokusaki : A query is a whole thing. It is not a distinct on a side, a join on an other side, and a group by on the third side. It is not because your query is faster whithout the distinct that the distinct is the problem... You can't answer a question like that. Or yes you can : use Index. –  Cyril Gandon Jul 6 '11 at 15:40
    
@orokusaki: it really depends. Frequently, the use of distinct in a query reflects a sub-optimal join somewhere. Not always, but frequently enough. In such cases, the idea is to rewrite the query so that the sub-statement is in a sub-query that returns unique rows (or is checked using the in() clause). –  Denis de Bernardy Jul 6 '11 at 16:09
    
@Denis- there is a sub-optimal join, with regards to performance, but it's impossible to avoid. I'm filtering on a M2M relationship (get all users that have [x, y, or z] in their list of foos (m2m). –  orokusaki Jul 6 '11 at 17:36

3 Answers 3

up vote 5 down vote accepted

Your DISTINCT is causing it to sort the output rows in order to find duplicates. If you put an index on the column(s) selected by the query, the database may be able to read them out in index order and save the sort step. A lot will depend on the details of the query and the tables involved-- your saying you "know the problem is with the DISTINCT" really limits the scope of available answers.

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I know it limits the scope of answers, which is why I did it. I'm looking only for answers that happen at the DB level, which is what you gave me (+1). –  orokusaki Jul 6 '11 at 15:32
2  
An index alone isn't enough. I have an index on my distinct column, and yet the query still takes several minutes to search 8 million rows to find 4 distinct values. –  Cerin Jan 27 '14 at 14:50
    
See stackoverflow.com/a/14732410/32453 putting the select distinct query in a subquery and counting that worked for me, bizarrely. –  rogerdpack Nov 17 '14 at 22:31

Oftentimes, you can make such queries run faster by working around the distinct via a group by:

select my_table.foo 
from my_table 
where [whatever where conditions you want]
group by foo;
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I can't modify the SQL, which is why I left most of the query out. –  orokusaki Jul 6 '11 at 15:33
    
Well, either get the users (either the developers writing the app that's running these queries or the users who are running these queries ad hoc) to switch their SQL. If you can't do that, then you might be able to get some mileage out of indexing my_table on foo. –  Jack Maney Jul 6 '11 at 15:36
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This was a great solution for me. I initially thought it was the large offset making my queries run slow, but after switching from DISTINCT to GROUP BY, they ran 20 times faster. Thanks! –  xaisoft Aug 8 '13 at 18:38
4  
Thanks for the great tip Jack! Swapping SELECT DISTINCT for GROUP BY reduced the runtime of my particular query from 649ms down to 87ms, almost 7.5x faster. My INNER JOIN is between a table containing ~30,000 rows (from which I wanted the matching rows) and another join table containing ~322,000 rows (which I was using to filter the first). I had already added indexes to all the columns used on both sides of my INNER JOIN and single WHERE clause, so I was hoping to find another optimization that would help speed up the query, and this worked very well in this particular case. –  bluebinary Oct 30 '13 at 19:34

You can try increasing the work_mem setting, depending on the size of Your dataset It can cause switching the query plan to hash aggregates, which are usually faster. But before setting it too high globally, first read up on it, You can easily blow up Your server, because the max_connections setting acts as a multiplier to this number, which means that if you were to set work_mem = 128MB and you set max_connections = 100 (the default), you should have more than 12.8GB of RAM, because you're essentially telling the server that it can use that much for performing queries (not even considering any other memory use by Postgres or otherwise).

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thanks, I'll read up on it –  orokusaki Jul 8 '11 at 13:40

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