Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Hi I'm hosted on Heroku running postgresql 9.1.6 on a their Ika plan (7,5gb ram). I have a table called cars. I need to do the following:

SELECT COUNT(*) FROM "cars" WHERE "cars"."reference_id" = 'toyota_hilux'

Now this takes an awful lot of time (64 sec!!!)

Aggregate  (cost=2849.52..2849.52 rows=1 width=0) (actual time=63388.390..63388.391 rows=1 loops=1)
  ->  Bitmap Heap Scan on cars  (cost=24.76..2848.78 rows=1464 width=0) (actual time=1169.581..63387.361 rows=739 loops=1)
        Recheck Cond: ((reference_id)::text = 'toyota_hilux'::text)
        ->  Bitmap Index Scan on index_cars_on_reference_id  (cost=0.00..24.69 rows=1464 width=0) (actual time=547.530..547.530 rows=832 loops=1)
              Index Cond: ((reference_id)::text = 'toyota_hilux'::text)
Total runtime: 64112.412 ms

A little background:

The table holds around 3.2m rows, and the column that I'm trying to count on, has the following setup:

reference_id character varying(50);

and index:

CREATE INDEX index_cars_on_reference_id
  ON cars
  USING btree
  (reference_id COLLATE pg_catalog."default" );

What am I doing wrong? I expect that this performance is not what I should expect - or should I?

share|improve this question
afaik , you should expect thus, as any where clause compels a full table scan irrespective of the criteria/indexes –  Satya Oct 22 '12 at 15:12
hmmm but how can I then take advantage of the index on reference_id that is already there? And btw, why is it using it in the explain then? –  Niels Kristian Oct 22 '12 at 15:14
this might be helpful.. –  Mike Christensen Oct 22 '12 at 15:26
It seems that you're experiencing the high latency of many disk seeks (bitmap heap scan) over scattered data pages. You may try to reexecute the query a 2nd time immediately to see the difference when the data is in cache. Also the BUFFERS option of EXPLAIN ANALYZE would be useful here. –  Daniel Vérité Oct 22 '12 at 15:49
@MikeChristensen: the wiki pages is only for counting all rows in a table without any (where) condition. Counting with a condition is a completely different thing. –  a_horse_with_no_name Oct 22 '12 at 16:22

1 Answer 1

up vote 5 down vote accepted

What @Satya claims in his comment is not quite true. In the presence of a matching index, the planner only chooses a full table scan if table statistics imply it would return more than around 5 % (depends) of the table, because it is then faster to scan the whole table.

As you see from your own question this is not the case for your query. It uses a Bitmap Index Scan followed by a Bitmap Heap Scan. Though I would have expected a plain index scan. (?)

I notice two more things in your explain output:
The first scan find 832 rows, while the second reduces the count to 739. This would indicate that you have many dead tuples in your index.

Check the execution time after each step with EXPLAIN ANALYZE and maybe add the results to your question:

First, rerun the query with EXPLAIN ANALYZE two or three times to populate the cache. What's the result of the last run compared to the first?




If you have lots of write operations on the table, I would set a fill factor lower than 100. Like:

ALTER TABLE cars SET (fillfactor=90);

Lower if your row size is big or you have a lot of write operations. Then:


This will take a while. Rerun.

Or, if you can afford to do this (and other important queries do not have contradicting requirements):

CLUSTER cars USING index_cars_on_reference_id;

This rewrites the table in the physical order of the index, which should make this kind of query much faster.

Normalize schema

If you need this to be really fast, create a table car_type with a serial primary key and reference it from the table cars. This will shrink the necessary index to a fraction of what it is now.

Goes without saying that you make a backup before you try any of this.

CREATE temp TABLE car_type (
   car_type_id serial PRIMARY KEY
 , car_type text

INSERT INTO car_type (car_type)
SELECT DISTINCT car_type_id FROM cars ORDER BY car_type_id;

ANALYZE car_type;

CREATE UNIQUE INDEX car_type_uni_idx ON car_type (car_type); -- unique types

ALTER TABLE cars RENAME COLUMN car_type_id TO car_type; -- rename old col
ALTER TABLE cars ADD COLUMN car_type_id int; -- add new int col

UPDATE cars c
SET car_type_id = ct.car_type_id
FROM car_type ct
WHERE ct.car_type = c.car_type;

ALTER TABLE cars DROP COLUMN car_type; -- drop old varchar col

CREATE INDEX cars_car_type_id_idx ON cars (car_type_id);    

ADD CONSTRAINT cars_car_type_id_fkey FOREIGN KEY (car_type_id )
REFERENCES car_type (car_type_id) ON UPDATE CASCADE; -- add fk


Or, if you want to go all-out:

CLUSTER cars USING cars_car_type_id_idx;

Your query would now look like this:

SELECT count(*)
FROM   cars
WHERE  car_type_id = (SELECT car_type_id FROM car_type
                      WHERE car_type = 'toyota_hilux')

And should be even faster. Mainly because index and table are smaller now, but also because integer handling is faster than varchar handling. The gain will not be dramatic over the clustered table on the varchar column, though.

A welcome side effect: if you have to rename a type, it's a tiny UPDATE to one row now, not messing with the big table at all.

share|improve this answer
Any difference in the final query if the cat_type table was joined in instead of being in a subquery? –  Clodoaldo Neto Oct 22 '12 at 16:36
@Clodoaldo: If you just want to count one type (like in the example), the sub-query should be faster. But doesn't matter much. –  Erwin Brandstetter Oct 22 '12 at 16:38
This is a great answer! I'll try it out. Do you @ErwinBrandstetter think that that it means anything to the performance of this count, that the cars table actually has 170 columns? I don't that much about postgres' intervals, but my guess is that I wouldn't expect it since I'm not explicitly touching these columns in this query... –  Niels Kristian Oct 22 '12 at 19:47
@NielsKristian 170 columns is probably a normalization problem. Open another question about it posting the table structure. –  Clodoaldo Neto Oct 22 '12 at 20:43
@NielsKristian: What Clodoaldo said, plus: yes, very big row means that only few rows fit on a data page. As a consequence, many more data pages have to be visited to count and this is the most important factor for performance. –  Erwin Brandstetter Oct 22 '12 at 20:57

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.