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I have a query that I'm running (generated by Django's ORM) that is taking hours to run. The report_rank table has about 50 million rows, and the report_profile table has about 100k rows.

The report_rank table is in a one to many relation to report_profile. I'm trying to retrieve the latest report_rank for each report_profile.

I'm running Postgres 9.1 on an extra large Amazon EC2 server with plenty of available RAM (2GB/15GB used). Disk IO is pretty bad of course.

I have indexes on report_rank.created as well as on all foreign key fields.

What can I do to speed this query up? I'd be happy to try a different approach with the query if it will be performant, or to tune any database configuration parameters needed.

EXPLAIN 
SELECT "report_rank"."id", "report_rank"."keyword_id", "report_rank"."site_id"
     , "report_rank"."rank", "report_rank"."url", "report_rank"."competition"
     , "report_rank"."source", "report_rank"."country", "report_rank"."created"
     , MAX(T7."created") AS "max" 
FROM "report_rank" 
LEFT OUTER JOIN "report_site" 
  ON ("report_rank"."site_id" = "report_site"."id") 
INNER JOIN "report_profile" 
  ON ("report_site"."id" = "report_profile"."site_id") 
INNER JOIN "crm_client" 
  ON ("report_profile"."client_id" = "crm_client"."id") 
INNER JOIN "auth_user" 
  ON ("crm_client"."user_id" = "auth_user"."id") 
LEFT OUTER JOIN "report_rank" T7 
  ON ("report_site"."id" = T7."site_id") 
WHERE ("auth_user"."is_active" = True  AND "crm_client"."is_deleted" = False ) 
GROUP BY "report_rank"."id", "report_rank"."keyword_id", "report_rank"."site_id"
     , "report_rank"."rank", "report_rank"."url", "report_rank"."competition"
     , "report_rank"."source", "report_rank"."country", "report_rank"."created" 
HAVING MAX(T7."created") =  "report_rank"."created";

Output of EXPLAIN:

GroupAggregate  (cost=1136244292.46..1276589375.47 rows=48133327 width=72)
  Filter: (max(t7.created) = report_rank.created)
  ->  Sort  (cost=1136244292.46..1147889577.16 rows=4658113881 width=72)
        Sort Key: report_rank.id, report_rank.keyword_id, report_rank.site_id, report_rank.rank, report_rank.url, report_rank.competition, report_rank.source, report_rank.country, report_rank.created
        ->  Hash Join  (cost=1323766.36..6107863.59 rows=4658113881 width=72)
              Hash Cond: (report_rank.site_id = report_site.id)
              ->  Seq Scan on report_rank  (cost=0.00..1076119.27 rows=48133327 width=64)
              ->  Hash  (cost=1312601.51..1312601.51 rows=893188 width=16)
                    ->  Hash Right Join  (cost=47050.38..1312601.51 rows=893188 width=16)
                          Hash Cond: (t7.site_id = report_site.id)
                          ->  Seq Scan on report_rank t7  (cost=0.00..1076119.27 rows=48133327 width=12)
                          ->  Hash  (cost=46692.28..46692.28 rows=28648 width=8)
                                ->  Nested Loop  (cost=2201.98..46692.28 rows=28648 width=8)
                                      ->  Hash Join  (cost=2201.98..5733.23 rows=28648 width=4)
                                            Hash Cond: (crm_client.user_id = auth_user.id)
                                            ->  Hash Join  (cost=2040.73..5006.71 rows=44606 width=8)
                                                  Hash Cond: (report_profile.client_id = crm_client.id)
                                                  ->  Seq Scan on report_profile  (cost=0.00..1706.09 rows=93009 width=8)
                                                  ->  Hash  (cost=1761.98..1761.98 rows=22300 width=8)
                                                        ->  Seq Scan on crm_client  (cost=0.00..1761.98 rows=22300 width=8)
                                                              Filter: (NOT is_deleted)
                                            ->  Hash  (cost=126.85..126.85 rows=2752 width=4)
                                                  ->  Seq Scan on auth_user  (cost=0.00..126.85 rows=2752 width=4)
                                                        Filter: is_active
                                      ->  Index Scan using report_site_pkey on report_site  (cost=0.00..1.42 rows=1 width=4)
                                            Index Cond: (id = report_profile.site_id)

(26 rows)

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3 Answers 3

The major point is most likely that you JOIN and GROUP over everything just to get max(created). Get this value separately.

You mentioned all the indexes that are needed here: on report_rank.createdand on the foreign keys. You are doing alright there. (If you are interested in better than alright, keep reading!)

The LEFT JOIN report_site will be forced to a plain JOIN by the WHERE clause. I substituted a plain JOIN. I also simplified your syntax a lot.

My first draft was not accurate, I rewrote it with a CTE (WITH clause) and included the missing WHERE conditions.

Solution for multiple rows

report_rank.created is not unique and you want all the latest rows.

WITH x AS (
    SELECT max(r0.created) AS max_created
    FROM   report_rank r0
    WHERE  EXISTS (
        SELECT *
        FROM   report_site    s0 ON s0.id      = r0.site_id 
        JOIN   report_profile p0 ON p0.site_id = s0.id
        JOIN   crm_client     c0 ON c0.id      = p0.client_id
        JOIN   auth_user      u0 ON u0.id      = c0.user_id
        WHERE  s0.id = r0.site_id
        AND    u0.is_active
        AND    c0.is_deleted = FALSE)
        )
SELECT r.id
      ,r.keyword_id
      ,r.site_id
      ,r.rank
      ,r.url
      ,r.competition
      ,r.source
      ,r.country
      ,x.max_created    -- identical to r.created
FROM   x
JOIN   report_rank r ON r.created = x.max_created
WHERE  EXISTS (
    SELECT *
    FROM   report_site    s ON s.id      = r.site_id 
    JOIN   report_profile p ON p.site_id = s.id
    JOIN   crm_client     c ON c.id      = p.client_id
    JOIN   auth_user      u ON u.id      = c.user_id
    WHERE  s.id = r.site_id
    AND    u.is_active
    AND    c.is_deleted = FALSE);

Solution for one row

If report_rank.created is unique or you are satisfied with any 1 row with max(created):

SELECT r.id
      ,r.keyword_id
      ,r.site_id
      ,r.rank
      ,r.url
      ,r.competition
      ,r.source
      ,r.country
      ,r.created AS max_created 
FROM   report_rank r
WHERE  -- r.created > f_report_rank_cap() AND 
       EXISTS (
    SELECT 1
    FROM   report_site    s ON s.id      = r.site_id 
    JOIN   report_profile p ON p.site_id = s.id
    JOIN   crm_client     c ON c.id      = p.client_id
    JOIN   auth_user      u ON u.id      = c.user_id
    WHERE  s.id = r.site_id
    AND    u.is_active
    AND    c.is_deleted = FALSE)
ORDER  BY r.created DESC
LIMIT  1;

Should be faster, still.

Ultimate Speed: dynamically adjusted partial index

You probably have noticed the commented part in the last query:

r.created > f_report_rank_cap()

You mentioned 50 mio. rows. That's a lot. If you really want to speed things up, here is how:

  • Create a primitive function that returns a timestamp that is guaranteed to be older than the wanted row(s) while being as young as possible.
  • Create a partial index on younger rows only.
  • Use an additional WHERE condition in your big query that matches the index.
  • Create another function that updates these objects to the latest row with dynamic DDL.
    (Minus a secure margin in case the newest row(s) get deleted / deactivated.)
  • Invoke this secondary function at low load times (with a cronjob) or on demand. As often as you want, can't do harm.

Here is a complete working demo. I put it all into a schema, so the general public can test easily. @erikcw, you'll have to remove the schema part and activate a commented part as instructed below.

-- DROP SCHEMA x CASCADE;
CREATE SCHEMA x;

CREATE TABLE x.report_rank(created timestamp);
INSERT INTO x.report_rank VALUES ('2011-11-11 11:11'),(now());

-- create function initially
CREATE OR REPLACE FUNCTION x.f_report_rank_cap()
    RETURNS timestamp AS
$y$
BEGIN 
   RETURN '-infinity'; -- Start low, timestamp will be updated
END;
$y$
  LANGUAGE plpgsql COST 1 IMMUTABLE;

-- function to update partial index & function
CREATE OR REPLACE FUNCTION x.f_report_rank_set_cap()
  RETURNS void AS
$BODY$
DECLARE
   _secure_margin CONSTANT interval := interval '1d'; -- adjust to your case
   _cap timestamp;  -- cap older rows than this
BEGIN

SELECT max(created) - _secure_margin
FROM   x.report_rank
WHERE  created >= x.f_report_rank_cap()
/*  not needed for the demo; @erikcw needs to activate this
AND    EXISTS (
    SELECT *
    FROM   report_site    s
    JOIN   report_profile p ON p.site_id = s.id
    JOIN   crm_client     c ON c.id      = p.client_id
    JOIN   auth_user      u ON u.id      = c.user_id
    WHERE  s.id = r.site_id
    AND    u.is_active
    AND    c.is_deleted = FALSE)
*/
INTO   _cap;

IF FOUND THEN
    -- recreate function -- you have to create it manually once!
    EXECUTE '
    CREATE OR REPLACE FUNCTION x.f_report_rank_cap()
      RETURNS timestamp AS
    $y$
    BEGIN 

    RETURN '''|| _cap::text ||'''::timestamp;

    END;
    $y$
      LANGUAGE plpgsql IMMUTABLE';

    -- drop index
    EXECUTE 'DROP INDEX IF EXISTS x.report_rank_recent_idx;';

    -- create new index
    EXECUTE '
    CREATE INDEX report_rank_recent_idx
    ON     x.report_rank (created)
    WHERE  created > ''' || _cap ||'''';
END IF;

END;
$BODY$
  LANGUAGE plpgsql VOLATILE;

COMMENT ON FUNCTION x.f_report_rank_set_cap()
IS 'Dynamically generate partial index on report_rank
    and function f_report_rank_cap().';

Call:

SELECT x.f_report_rank_set_cap();

See:

SELECT x.f_report_rank_cap();

Now, un-comment the clause r.created > f_report_rank_cap() in the query above and observe the difference.
Verify that the index gets used with EXPLAIN ANALYZE.

share|improve this answer
    
That (at least) looks readable! –  wildplasser Nov 11 '11 at 0:01
    
Sorry, I took the freedom to edit. –  wildplasser Nov 11 '11 at 0:03
1  
I don't think this is strictly equivalent but it's definitely more readable! –  ypercube Nov 11 '11 at 0:03
    
You are both right of course, it was a work in progress. @wilplasser, maybe you can hold your horses, the edit confused me quite a bit. Don't be so quick to edit an answer while the author might still be at it. –  Erwin Brandstetter Nov 11 '11 at 0:25
    
here comes the CTE ... Sorry, won't happen again. I just cant stand horizontal scrolling (it were only some lousy dependant expressions, but you have to scroll to find that out ...) –  wildplasser Nov 11 '11 at 0:27
-- modelled after Erwin's version
-- does the x query really return only one row?

SELECT r.id, r.keyword_id, r.site_id
    , r.rank, r.url, r.competition, r.source
    , r.country, r.created, x.max_created
-- UPDATE3: I forgot one, too
FROM report_rank r
LEFT   JOIN report_site s  ON (r.site_id = s.id) 
JOIN   report_profile   p  ON (s.id = p.site_id) 
JOIN   crm_client       c  ON (p.client_id = c.id) 
JOIN   auth_user        u  ON (c.user_id = u.id)
-- UPDATE2: t7 has left the building
WHERE  u.is_active
AND    c.is_deleted = FALSE
AND NOT EXISTS (SELECT * FROM report_rank x
       -- WHERE 1=1 -- uncorrelated subquery ??
       -- UPDATE1: no it's not. Erwin seems to have forgotten the t7 join
       WHERE r.id = x.site_id
       AND x.created > r.created
       ) 
;
share|improve this answer
    
This is better I think. The joins to u and c should go inside the subquery, too, I think. –  ypercube Nov 11 '11 at 0:23
1  
I'm still not sure about the equivalence of Erwin's version (or mine) with the original one. To the OP: please reduce your query to a readable version. –  wildplasser Nov 11 '11 at 0:26
    
You would need to repeat the WHERE conditions in the subquery. (I had that wrong in my first draft, too.) Else, if the latest entry is deleted or inactive, no rows will be returned. Other than that, NOT EXISTS ( .. x>r) is a nifty trick. –  Erwin Brandstetter Nov 11 '11 at 1:11
    
I'm quitting. Best way in that case would probably be to condense all meat into a CTE and perform a self-join on that. The max() trick is still valid, though (NOT exists WHERE_bigger outperforms max() in a subquery, most of the time) Anyway: I'm out of here. Oh, and yes: I basically parasited on your rewrite. –  wildplasser Nov 11 '11 at 1:17

Alternative interpretation

I was busy optimizing the query you presented and missed a piece of what you wrote:

I'm trying to retrieve the latest report_rank for each report_profile.

Which is something different entirely to what your query is trying to do.

First, let me demonstrate how I distilled the query from what you posted.
I removed the "" and noise words, used aliases and trimmed the format, arriving at this:

SELECT r.id, r.keyword_id, r.site_id, r.rank, r.url, r.competition
      ,r.source, r.country, r.created
      ,MAX(t7.created) AS max 
FROM   report_rank      r
LEFT   JOIN report_site s  ON (s.id      = r.site_id) 
JOIN   report_profile   p  ON (p.site_id = s.id) 
JOIN   crm_client       c  ON (c.id      = p.client_id) 
JOIN   auth_user        u  ON (u.id      = c.user_id) 
LEFT   JOIN report_rank t7 ON (t.site_id = s.id) 
WHERE  u.is_active
AND    c.is_deleted = False
GROUP  BY
       r.id
      ,r.keyword_id
      ,r.site_id
      ,r.rank
      ,r.url, r.competition
      ,r.source
      ,r.country
      ,r.created 
HAVING MAX(t7.created) =  r.created;
  • What you are trying to do with T7 and HAVING cannot work on principal, I pruned that.
  • LEFT JOIN will be forced to a plain JOIN in both cases. I substituted accordingly.
  • From your query I deduced that report_site is in a 1:n relationship to both report_rank and report_profile, and that's how those two are linked. Therefore, report_profile that belong to the same report_site share the same latest report_rank. You might as well group by report_site. But I sticked to the question asked.
  • I eliminated report_site from the query. It's irrelevant, as long as it exists, which I assert.
  • Since PostgreSQL 9.1 it's enough to GROUP BY the primary key per table. I simplified accordingly.
  • For simplification I selected all columns of report_rank

With all that, I arrived at this basic query:

SELECT r.*
FROM   report_rank    r
JOIN   report_profile p USING (site_id) 
JOIN   crm_client     c ON (c.id = p.client_id) 
JOIN   auth_user      u ON (u.id = c.user_id) 
WHERE  u.is_active
AND    c.is_deleted = FALSE
GROUP  BY r.id;

Building on this, I created a solution with the ...

Latest report_rank for each report_profile

WITH p AS (
    SELECT p.id AS profile_id
          ,p.site_id
    FROM   report_profile p
    WHERE  EXISTS (
        SELECT *
        FROM   crm_client c
        JOIN   auth_user  u ON u.id = c.user_id
        WHERE  c.id = p.client_id
        AND    c.is_deleted = FALSE
        AND    u.is_active
        )
    ) x AS (
    SELECT p.profile_id
          ,r.*
    FROM   p
    JOIN   report_rank r USING (site_id)
    )
SELECT *
FROM   x
WHERE  NOT EXISTS (
    SELECT *
    FROM   x r
    WHERE  r.profile_id = x.profile_id
    AND    r.created > x.created
    );
  • I assume there is a report_profile.id though you did not mention it.
  • In the 1st CTE I get a unique SET of valid profiles.
  • In the 2nd CTE I join with report_rank to produce the resulting rows
  • In the final query I eliminate all but the latest report_rank per report_profile
  • Can be one or more row, if created is not unique.
  • The solution with the partial index in my other answer is not applicable with this variant.

Finally, advice for performance optimization from the PostgreSQL wiki:

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