I have a table in a PostgreSQL database called
feeds_up. It looks like:
| feed_url | isup | hasproblems | observed timestamp with tz | id (pk)| |----------|------|-------------|-------------------------------|--------| | http://b.| t | f | 2013-02-27 16:34:46.327401+11 | 15235 | | http://f.| f | t | 2013-02-27 16:31:25.415126+11 | 15236 |
It has something like 300k rows, growing at ~20 rows every five minutes. I have a query which runs very often (every page load)
select distinct on (feed_url) feed_url, isUp, hasProblems from feeds_up where observed <= '2013-02-27T05:38:00.000Z' order by feed_url, observed desc;
I put an example time there, that time is parametrized. The explain analyse is on explain.depesz.com. It takes about 8s. Crazy!
There's only about 20 unique values for
feed_url, so this seems really inefficient. I thought I'd be stupid and try a FOR loop in a function.
CREATE OR REPLACE FUNCTION feedStatusAtDate(theTime timestamp with time zone) RETURNS SETOF feeds_up AS $BODY$ DECLARE url feeds_list%rowtype; BEGIN FOR url IN SELECT * FROM feeds_list LOOP RETURN QUERY SELECT * FROM feeds_up WHERE observed <= theTime AND feed_url = url.feed_url ORDER BY observed DESC LIMIT 1; END LOOP; END; $BODY$ language plpgsql; select * from feedStatusAtDate('2013-02-27T05:38:00.000Z');
That takes just 307ms!
Using a FOR loop in SQL rubs me the wrong way, how can I make a nice query—like the first one—that is efficient? Is that possible? Or is this the kind of thing where a FOR loop really is best?
Postgres version: PostgreSQL 9.1.5 on i686-pc-linux-gnu, compiled by gcc (SUSE Linux) 4.3.4 [gcc-4_3-branch revision 152973], 32-bit
Indexes on feeds_up:
CREATE INDEX feeds_up_url ON feeds_up USING btree (feed_url COLLATE pg_catalog."default"); CREATE INDEX feeds_up_url_observed ON feeds_up USING btree (feed_url COLLATE pg_catalog."default", observed DESC); CREATE INDEX feeds_up_observed ON public.feeds_up USING btree (observed DESC);