Postgres query optimization (forcing an index scan)
Below is my query. I am trying to get it to use an index scan, but it will only seq scan.
By the way the metric_data
table has 130 million rows. The metrics
table has about 2000 rows.
metric_data
table columns:
metric_id integer
, t timestamp
, d double precision
, PRIMARY KEY (metric_id, t)
How can I get this query to use my PRIMARY KEY index?
SELECT
S.metric,
D.t,
D.d
FROM metric_data D
INNER JOIN metrics S
ON S.id = D.metric_id
WHERE S.NAME = ANY (ARRAY ['cpu', 'mem'])
AND D.t BETWEEN '2012-02-05 00:00:00'::TIMESTAMP
AND '2012-05-05 00:00:00'::TIMESTAMP;
EXPLAIN:
Hash Join (cost=271.30..3866384.25 rows=294973 width=25)
Hash Cond: (d.metric_id = s.id)
-> Seq Scan on metric_data d (cost=0.00..3753150.28 rows=29336784 width=20)
Filter: ((t >= '2012-02-05 00:00:00'::timestamp without time zone)
AND (t <= '2012-05-05 00:00:00'::timestamp without time zone))
-> Hash (cost=270.44..270.44 rows=68 width=13)
-> Seq Scan on metrics s (cost=0.00..270.44 rows=68 width=13)
Filter: ((sym)::text = ANY ('{cpu,mem}'::text[]))
Solution 1:
For testing purposes you can force the use of the index by "disabling" sequential scans - best in your current session only:
SET enable_seqscan = OFF;
Do not use this on a productive server. Details in the manual here.
I quoted "disabling", because you cannot actually disable sequential table scans. But any other available option is now preferable for Postgres. This will prove that the multicolumn index on (metric_id, t)
can be used - just not as effective as an index on the leading column.
You probably get better results by switching the order of columns in your PRIMARY KEY
(and the index used to implement it behind the curtains with it) to (t, metric_id)
. Or create an additional index with reversed columns like that.
- Is a composite index also good for queries on the first field?
You do not normally have to force better query plans by manual intervention. If setting enable_seqscan = OFF
leads to a much better plan, something is probably not right in your database. Consider this related answer:
- Keep PostgreSQL from sometimes choosing a bad query plan
Solution 2:
You cannot force index scan in this case because it will not make it faster.
You currently have index on metric_data (metric_id, t)
, but server cannot take advantage of this index for your query, because it needs to be able to discriminate by metric_data.t
only (without metric_id
), but there is no such index. Server can use sub-fields in compound indexes, but only starting from the beginning. For example, searching by metric_id
will be able to employ this index.
If you create another index on metric_data (t)
, your query will make use of that index and will work much faster.
Also, you should make sure that you have an index on metrics (id)
.