I said:
> 3. Your query now looks like
> SELECT * FROM table WHERE random_id >= random()
> ORDER BY random_id LIMIT 1;
Correction: the above won't give quite the right query because random()
is marked as a volatile function. You can hide the random() call inside
a user-defined function that you (misleadingly) mark stable, or you can
just stick it into a sub-select:
regression=# explain select * from foo WHERE random_id >= (select random())
regression-# ORDER BY random_id LIMIT 1;
QUERY PLAN
-------------------------------------------------------------------------
Limit (cost=0.01..0.15 rows=1 width=8)
InitPlan
-> Result (cost=0.00..0.01 rows=1 width=0)
-> Index Scan using fooi on foo (cost=0.00..45.50 rows=334 width=8)
Index Cond: (random_id >= $0)
(5 rows)
This technique is probably safer against future planner changes,
however:
regression=# create function oneshot_random() returns float8 as
regression-# 'select random()' language sql stable;
CREATE FUNCTION
regression=# explain select * from foo WHERE random_id >= oneshot_random()
regression-# ORDER BY random_id LIMIT 1;
QUERY PLAN
-------------------------------------------------------------------------
Limit (cost=0.00..0.14 rows=1 width=8)
-> Index Scan using fooi on foo (cost=0.00..46.33 rows=334 width=8)
Index Cond: (random_id >= oneshot_random())
(3 rows)
The point here is that an indexscan boundary condition has to use stable
or immutable functions. By marking oneshot_random() stable, you
essentially say that it's okay to evaluate it only once per query,
rather than once at each row.
regards, tom lane