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Example input:

 id | percent   
  1 | 50 
  2 | 35   
  3 | 15   
(3 rows)

How would you write such query, that on average 50% of time i could get the row with id=1, 35% of time row with id=2, and 15% of time row with id=3?

I tried something like SELECT id FROM test ORDER BY p * random() DESC LIMIT 1, but it gives wrong results. After 10,000 runs I get a distribution like: {1=6293, 2=3302, 3=405}, but I expected the distribution to be nearly: {1=5000, 2=3500, 3=1500}.

Any ideas?

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What do you mean by wrong results? – Clodoaldo Neto Oct 23 '12 at 22:29
@Clodoaldo, after 10k runs of above query i get next results ( position to count ): {1=6293, 2=3302, 3=405}, but i expect them to be nearly like that: {1=5000, 2=3500, 3=1500}. – Oleg Golovanov Oct 23 '12 at 22:46
@OlegGolovanov OK, so the query works, but the distribution is wrong. – Craig Ringer Oct 23 '12 at 22:59
Very interesting problem. Thanks for the question. In future it's worth being more specific about things like why something "doesn't work" or has "wrong" results, but otherwise ... good brain food, thanks. – Craig Ringer Oct 23 '12 at 23:53

3 Answers 3

up vote 16 down vote accepted

This should do the trick:

    SELECT random() * (SELECT SUM(percent) FROM YOUR_TABLE) R
    SELECT id, SUM(percent) OVER (ORDER BY id) S, R
) Q

The sub-query Q gives the following result:

1  50
2  85
3  100

We then simply generate a random number in range [0, 100) and pick the first row that is at or beyond that number (the WHERE clause). We use common table expression (WITH) to ensure the random number is calculated only once.

BTW, the SELECT SUM(percent) FROM YOUR_TABLE allows you to have any weights in percent - they don't strictly need to be percentages (i.e. add-up to 100).

[SQL Fiddle]

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... but it doesn't; it produces a different wrong distribution. See!12/b67b6/2 – Craig Ringer Oct 23 '12 at 23:16
@CraigRinger Yes, the problem was probably in repeated generation of the random number. By moving it to common table expression, it is generated only once, giving a much nicer result. – Branko Dimitrijevic Oct 23 '12 at 23:40
That's a nicer, faster query than what I wrote; we took the same approach to solving the problem but your solution is a heck of a lot more efficient than using nested windows to calcluate a weighted range like I did. – Craig Ringer Oct 23 '12 at 23:50
This probably doesn't need to be stated, but the CTE could be avoided if you know beforehand what the sum of your probabilities will be. For instance, if all rows' percent columns always add up to 100%, then we can take out the CTE, remove the cross join, and replace where S >= R with `where S >= random() * 100 – John Fawcett Mar 24 at 20:49
@JohnFawcett Unfortunately, that wouldn't work, since random() would get evaluated (and produce a different value) for each row. But we want it to produce one value, and then pick a row based on that one value. Please see the history of the answer - I got it wrong the first time exactly because of multiple generation of random values until Craig Ringer spotted the problem. – Branko Dimitrijevic Mar 24 at 21:28

Your proposed query appears to work; see this SQLFiddle demo. It creates the wrong distribution though; see below.

To prevent PostgreSQL from optimising the subquery I've wrapped it in a VOLATILE SQL function. PostgreSQL has no way to know that you intend the subquery to run once for every row of the outer query, so if you don't force it to volatile it'll just execute it once. Another possibility - though one that the query planner might optimize out in future - is to make it appear to be a correlated subquery, like this hack that uses an always-true where clause, like this:!12/3039b/9

At a guess (before you updated to explain why it didn't work) your testing methodology was at fault, or you're using this as a subquery in an outer query where PostgreSQL is noticing it isn't a correlated subquery and executing it just once, like in this example. .

UPDATE: The distribution produced isn't what you're expecting. The issue here is that you're skewing the distribution by taking multiple samples of random(); you need a single sample.

This query produces the correct distribution (SQLFiddle):

WITH random_weight(rw) AS (SELECT random() * (SELECT sum(percent) FROM test))
FROM (                   
    sum(percent) OVER (ORDER BY id),
    coalesce(sum(prev_percent) OVER (ORDER BY id),0) FROM (
        lag(percent) OVER () AS prev_percent
      FROM test
    ) x
) weighted_ids(id, weight_upper, weight_lower)
CROSS JOIN random_weight
WHERE rw BETWEEN weight_lower AND weight_upper;

Performance is, needless to say, horrible. It's using two nested sets of windows. What I'm doing is:

  • Creating (id, percent, previous_percent) then using that to create two running sums of weights that are used as range brackets; then
  • Taking a random value, scaling it to the range of weights, and then picking a value that has weights within the target bracket
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looks to me like you proved that it's not working. 3 is coming in at 4% whereas it should be 15%. – digitaljoel Oct 23 '12 at 22:50
@digitaljoel Good point. I was presuming that their helpful "not working" was an issue with uncorrelated subquery optimisation producing the same result across a set, not an unexpected distribution. Hmm. tries to dig up old probability lectures in brain. – Craig Ringer Oct 23 '12 at 22:56
good luck with those lectures, mine vacated years ago. – digitaljoel Oct 23 '12 at 23:28
@digitaljoel Got it; the trouble was multi-sampling of the random number. – Craig Ringer Oct 23 '12 at 23:43

Here is something for you to play with:

select as id1
  , case when is null then 0 else end as id2
  , t1.percent as percent1
  , case when t2.percent is null then 0 else t2.percent end as percent2 
from "Test1" t1 
  left outer join "Test1" t2 on = + 1
where random() * 100 between t1.percent and 
  case when t2.percent is null then 0 else t2.percent end;

Essentially perform a left outer join so that you have two columns to apply a between clause.

Note that it will only work if you get your table ordered in the right way.

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You know it occurred to me that if you include a "sacrificial" row (0,0) in your table then you could simply do an inner join instead, and remove the pesky case statements. It would simplify the query a great deal. – Darren Oct 23 '12 at 23:43

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