My queries get very slow when I add a limit 1.

I have a table object_values with timestamped values for objects:

 timestamp |  objectID |  value
 2014-01-27|       234 | ksghdf

Per object I want to get the latest value:

SELECT * FROM object_values WHERE (objectID = 53708) ORDER BY timestamp DESC LIMIT 1;

(I cancelled the query after more than 10 minutes)

This query is very slow when there are no values for a given objectID (it is fast if there are results). If I remove the limit it tells me nearly instantaneous that there are no results:

SELECT * FROM object_values WHERE (objectID = 53708) ORDER BY timestamp DESC;  
Time: 0.463 ms

An explain shows me that the query without limit uses the index, where as the query with limit 1 does not make use of the index:

Slow query:

explain SELECT * FROM object_values WHERE (objectID = 53708) ORDER BY timestamp DESC limit 1;  
Limit  (cost=0.00..2350.44 rows=1 width=126)
->  Index Scan Backward using object_values_timestamp on object_values  (cost=0.00..3995743.59 rows=1700 width=126)
     Filter: (objectID = 53708)`

Fast query:

explain SELECT * FROM object_values WHERE (objectID = 53708) ORDER BY timestamp DESC;
                                                  QUERY PLAN
 Sort  (cost=6540.86..6545.11 rows=1700 width=126)
   Sort Key: timestamp
   ->  Index Scan using object_values_objectID on working_hours_t  (cost=0.00..6449.65 rows=1700 width=126)
         Index Cond: (objectID = 53708)

The table contains 44,884,559 rows and 66,762 distinct objectIDs.
I have separate indexes on both fields: timestamp and objectID.
I have done a vacuum analyze on the table and I have reindexed the table.

Additionally the slow query becomes fast when I set the limit to 3 or higher:

explain SELECT * FROM object_values WHERE (objectID = 53708) ORDER BY timestamp DESC limit 3;
                                                     QUERY PLAN
 Limit  (cost=6471.62..6471.63 rows=3 width=126)
   ->  Sort  (cost=6471.62..6475.87 rows=1700 width=126)
         Sort Key: timestamp
         ->  Index Scan using object_values_objectID on object_values  (cost=0.00..6449.65 rows=1700 width=126)
               Index Cond: (objectID = 53708)

In general I assume it has to do with the planner making wrong assumptions about the exectution costs and therefore chooses for a slower execution plan.

Is this the real reason? Is there a solution for this?

  • Has this issue been raised on pg-bugs and been resolved in the latest version of postgres? – Sidharth Samant May 17 '19 at 10:42
  • @ShiwanginiShishulkar - I'm asking – Sidharth Samant Nov 22 '19 at 17:52

You're running into an issue which relates, I think, to the lack of statistics on row correlations. Consider reporting it to pg-bugs for reference if this is using the latest version Postgres.

The interpretation I'd suggest for your plans is:

  • limit 1 makes Postgres look for a single row, and in doing so it assumes that your object_id is common enough that it'll show up reasonably quickly in an index scan.

    Based on the stats you gave its thinking probably is that it'll need to read ~70 rows on average to find one row that fits; it just doesn't realize that object_id and timestamp correlate to the point where it's actually going to read a large portion of the table.

  • limit 3, in contrast, makes it realize that it's uncommon enough, so it seriously considers (and ends up…) top-n sorting an expected 1700 rows with the object_id you want, on grounds that doing so is likely cheaper.

    For instance, it might know that the distribution of these rows is so that they're all packed in the same area on the disk.

  • no limit clause means it'll fetch the 1700 anyways, so it goes straight for the index on object_id.

Solution, btw: add an index on (object_id, timestamp) or (object_id, timestamp desc).

  • 1
    For the 'limit 1' case did you mean table scan? You wrote index scan – harmic Jan 27 '14 at 20:49
  • @harmic: OP has an index scan there… not necessarily of the whole table, but certainly of a lot of more of it than what PG thought. – Denis de Bernardy Jan 27 '14 at 20:53
  • You're right! I only read OP's text where he said it wasn't using the index. But it chooses to scan the timestamp index; weird choice – harmic Jan 27 '14 at 22:25
  • @harmic: Not weird, it entirely depends on OP's stats. If PG thinks (as it probably does) that it'll find a row early enough, it'll index scan the entire table with a query like that. I've seen it do that many times… :-( – Denis de Bernardy Jan 27 '14 at 23:42
  • 1
    I think what Denis means is that both are increasing as you add rows to the table. If it is a created_on timestamp, and not an updated_on, then that means that they are strictly correlated--larger IDs will always be paired with larger timestamps. If it's changed on update, there is still at least a "default" correlation that may degrade over time (as rows are updated). – Joshua Dec 11 '14 at 20:22

You can avoid this issue by adding an unneeded ORDER BY clause to the query.

SELECT * FROM object_values WHERE (objectID = 53708) ORDER BY timestamp, objectID DESC limit 1;
  • 2
    HA! That is awesome! Completely fixes it! – BrianC Feb 21 '17 at 16:29
  • 2
    This answer actually works, unlike the answer and all the comments above. – mianos Mar 20 '17 at 10:26
  • That's amazing! Just boost my query and can use it in runtime. Thanks! – Nikolay Shabak Mar 22 '17 at 13:57
  • 5
    Good one. Would it be possible to get an explanation of why it is so? – Boro Dec 2 '19 at 16:27
  • 2
    Discussion of this bug on pg list: postgresql.org/message-id/flat/… – John Bachir Apr 8 '20 at 17:53

I started having similar symptoms on an update-heavy table, and what was needed in my case was

analyze $table_name;

In this case the statistics needed to be refreshed, which then fixed the slow query plans that were occurring.
Supporting docs: https://www.postgresql.org/docs/current/sql-analyze.html

  • Wow this is game changer when you create indexes or try to find the best query in local development! Thanks a lot! – Fred Hors Oct 12 '20 at 10:16
  • This didn't help in our case. Great idea if your DB is changing a lot though! :) – rogerdpack Feb 23 at 16:51

Not a fix, but sure enough switching from limit 1 to limit 50 (for me) and returning the first result row is way faster...Postgres 9.x in this instance. Just thought I'd mention it as a workaround mentioned by the OP.

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