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.

I want a random selection of rows in PostgreSQL, I tried this:

select * from table where random() < 0.01;

But some other recommend this:

select * from table order by random() limit 1000;

I have a very large table with 500 Million rows, I want it to be fast.

Which approach is better? What are the differences? What is the best way to select random rows?

share|improve this question
Hi Jack, thanks for your response, the execution time is slower in order by, but I would like to know which is the different if any... –  nanounanue Dec 29 '11 at 23:36
Uhhh...you're welcome. So, have you tried benchmarking the different approaches? –  Jack Maney Dec 29 '11 at 23:36
There are also much faster ways. It all depends on your requirements and what you have to work with. Do you need exactly 1000 rows? Does the table have a numeric id? With no / few / many gaps? How important is speed? How many requests per time unit? Does every request need a different set or can they be the same for a defined time slice? –  Erwin Brandstetter Dec 29 '11 at 23:53
Hi Erwin, I need 1M rows or in that order. I am doing some data mining research, so 1M rows, is the set for training... The table has a numeric id, and there are gaps but they are little. Me and another two guys are the only users of the database. –  nanounanue Dec 30 '11 at 0:01

5 Answers 5

up vote 52 down vote accepted

Given your specifications (plus additional info in the comments),

  • You have a numeric id column with only few gaps.
  • Obviously no or few write operations.
  • Your id column has to be indexed! A primary key serves nicely.

The query below is much faster. It does not need a sequential scan of the big table, only an index scan.

First, get estimates for the main query:

SELECT count(*) AS ct              -- optional
     , min(id)  AS min_id
     , max(id)  AS max_id
     , max(id) - min(id) AS id_span
FROM   bigtbl;

The only moderately expensive part is the count(*). Given above specifications, you don't need it. An estimate will do just fine, available at almost no cost (detailed explanation here):

SELECT reltuples AS ct FROM pg_class WHERE oid = 'schema_name.bigtbl'::regclass;

As long as ct is not smaller than id_span by orders of magnitude, the query will outperform other approaches.

WITH params AS (
    SELECT 1       AS min_id           -- minimum id <= current min id
         , 5100000 AS id_span          -- rounded up. (max_id - min_id + buffer)
    SELECT p.min_id + trunc(random() * p.id_span)::integer AS id
    FROM   params p
          ,generate_series(1, 1100) g  -- 1000 + buffer
    GROUP  BY 1                        -- trim duplicates
    ) r
JOIN   bigtbl USING (id)
LIMIT  1000;                           -- trim surplus
  • Generate random numbers in the id space. You have "few gaps", so add 10 % (enough to easily cover the blanks) to the number of rows to retrieve.

  • Each id can be picked multiple times by chance (though very unlikely with a big id space), so group the generated numbers (or use DISTINCT).

  • Join the ids to the big table. This should be very fast with the index in place.

  • Finally trim surplus ids that have not been eaten by dupes and gaps. Every row has a completely equal chance to be picked.

Short version

You can simplify this query. The CTE in the query above is just for educational purposes:

    SELECT DISTINCT 1 + trunc(random() * 5100000)::integer AS id
    FROM   generate_series(1, 1100) g
    ) r
JOIN   bigtbl USING (id)
LIMIT  1000;

Possible alternative

IF your requirements allow identical sets for repeated calls (and we are talking about repeated calls) I would consider a materialized view. Execute above query once and write the result to a table. Users get a quasi random selection at lightening speed. Refresh your random pick at intervals or events of your choosing.

share|improve this answer
Where is defined the t table ? Should it r instead of t ? –  Luc M Jan 1 '12 at 17:13
@LucM: It is defined here: JOIN bigtbl t, which is short for JOIN bigtbl AS t. t is a table alias for bigtbl. Its purpose is to shorten the syntax but it would not be needed in this particular case. I simplified the query in my answer and added a simple version. –  Erwin Brandstetter Jan 1 '12 at 17:18
Thanks. I didn't see it the first time. –  Luc M Jan 3 '12 at 15:47
What's the purpose of the range of values from generate_series(1,1100)? –  Awesome-o Feb 24 '14 at 6:12
@Awesome-o: The goal is to retrieve 1000 rows, I start with an extra 10 % to compensate for a few gaps or (unlikely but possible) duplicate random numbers ... the explanation is in my answer. –  Erwin Brandstetter Feb 24 '14 at 12:53

You can examine and compare the execution plan of both by using

EXPLAIN select * from table where random() < 0.01;
EXPLAIN select * from table order by random() limit 1000;

A quick test on a large table1 shows, that the ORDER BY first sorts the complete table and then picks the first 1000 items. Sorting a large table not only reads that table but also involves reading and writing temporary files. The where random() < 0.1 only scans the complete table once.

For large tables this might not what you want as even one complete table scan might take to long.

A third proposal would be

select * from table where random() < 0.01 limit 1000;

This one stops the table scan as soon as 1000 rows have been found and therefore returns sooner. Of course this bogs down the randomness a bit, but perhaps this is good enough in your case.

Edit: Besides of this considerations, you might check out the already asked questions for this. Using the query [postgresql] random returns quite a few hits.

And a linked article of depez outlining several more approaches:

1 "large" as in "the complete table will not fit into the memory".

share|improve this answer
Good point about writing the temporary file for doing the ordering. That's a big hit indeed. I guess we could do random() < 0.02 and then shuffle that list, then limit 1000! The sort will be less expensive on a few thousand rows (lol). –  Donald Miner Dec 29 '11 at 23:54
The "select * from table where random() < 0.05 limit 500;" is one of the easier methods for postgresql. We made use of this in one of our projects where we needed to select 5% of the results and no more then 500 rows at a time for processing. –  tgharold Jan 29 '14 at 15:10

The one with the ORDER BY is going to be the slower one.

select * from table where random() < 0.01; goes record by record, and decides to randomly filter it or not. This is going to be O(N) because it only needs to check each record once.

select * from table order by random() limit 1000; is going to sort the entire table, then pick the first 1000. Aside of any voodoo magic behind the scenes, the order by is O(N * log N).

The downside to the random() < 0.01 one is that you'll get a variable number of output records.

Note, there is a better way to shuffling a set of data than sorting by random: The Fisher-Yates Shuffle, which runs in O(N). Implementing the shuffle in SQL sounds like quite the challenge, though.

share|improve this answer
Grat explanation :) I will see (only for curiosity) the fisher-yates shuffle ... –  nanounanue Dec 30 '11 at 0:02

postgresql order by random, select rows in random order:

select your_columns from your_table ORDER BY random()

postgresql order by random with a distinct:

select * from 
  (select distinct your_columns from your_table) table_alias
ORDER BY random()

postgresql order by random limit one row:

select your_columns from your_table ORDER BY random() limit 1
share|improve this answer

A variation of the materialized view "Possible alternative" outlined by Erwin Brandstetter is possible.

Say, for example, that you don't want duplicates in the randomized values that are returned. So you will need to set a boolean value on the primary table containing your (non-randomized) set of values.

Assuming this is the input table:

id_values  id  |   used
           1   |   FALSE
           2   |   FALSE
           3   |   FALSE
           4   |   FALSE
           5   |   FALSE

Populate the ID_VALUES table as needed. Then, as described by Erwin, create a materialized view that randomizes the ID_VALUES table once:

CREATE MATERIALIZED VIEW id_values_randomized AS
  FROM id_values
  ORDER BY random();

Note that the materialized view does not contain the used column, because this will quickly become out-of-date. Nor does the view need to contain other columns that may be in the id_values table.

In order to obtain (and "consume") random values, use an UPDATE-RETURNING on id_values, selecting id_values from id_values_randomized with a join, and applying the desired criteria to obtain only relevant possibilities. For example:

UPDATE id_values
SET used = TRUE
WHERE id_values.id IN 
  (SELECT i.id
    FROM id_values_randomized r INNER JOIN id_values i ON i.id = r.id
    WHERE (NOT i.used)
    LIMIT 5)

Change LIMIT as necessary -- if you only need one random value at a time, change LIMIT to 1.

With the proper indexes on id_values, I believe the UPDATE-RETURNING should execute very quickly with little load. It returns randomized values with one database round-trip. The criteria for "eligible" rows can be as complex as required. New rows can be added to the id_values table at any time, and they will become accessible to the application as soon as the materialized view is refreshed (which can likely be run at an off-peak time). Creation and refresh of the materialized view will be slow, but it only needs to be executed when new id's are added to the id_values table.

share|improve this answer

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.