Thanks for the reminder about explain verbose, that's helpful.
But optimization does massively change the number of calls of a volatile
function in a naive evaluation of a query:
`explain analyze verbose select data1 from table1_silly_view where id >=10
and id <= 100;`
does an index scan and only runs the volatile function for rows in the view
where id >= 10 and id <=100
Subquery Scan on table1_silly_view (cost=0.29..33.77 rows=91 width=8)
(actual time=2.552..206.563 rows=91 loops=1)
Output: table1_silly_view.data1
-> Index Scan using table1_pkey on public.table1 (cost=0.29..32.86
rows=91 width=20) (actual time=2.550..206.425 rows=91 loops=1)
Output: NULL::integer, table1.data1, something_silly(table1.id)
Index Cond: ((table1.id >= 10) AND (table1.id <= 100))
Planning time: 0.526 ms
Execution time: 206.724 ms
whereas
`explain analyze verbose select data1 from table1_silly_view where id in (
select id from table1 where id >= 10 and id <=100);`
does a full sequential scan, over the view, producing whatever side effects
the volatile function does for every row in the view even though they
produce the same output and have what should be equivalent quals.
Hash Semi Join (cost=11.24..2793.50 rows=91 width=8) (actual
time=23.603..22759.297 rows=91 loops=1)
Output: table1_1.data1
Hash Cond: (table1_1.id = table1.id)
-> Seq Scan on public.table1 table1_1 (cost=0.00..2655.00 rows=1
width=20) (actual time=2.468..22720.942 rows=1 loops=1)
Output: table1_1.id, table1_1.data1, something_silly(table1_1.id)
-> Hash (cost=10.11..10.11 rows=91 width=4) (actual time=0.484..0.484
rows=91 loops=1)
Output: table1.id
Buckets: 1024 Batches: 1 Memory Usage: 12kB
-> Index Only Scan using table1_pkey on public.table1
(cost=0.29..10.11 rows=91 width=4) (actual time=0.383..0.430 rows=91
loops=1)
Output: table1.id
Index Cond: ((table1.id >= 10) AND (table1.id <= 100))
Heap Fetches: 91
Planning time: 0.877 ms
Execution time: 22759.448 ms
I recognize that it is an anti-pattern to put a volatile function call in a
view, and don't know that there's a better way of dealing with it, as not
using indexes in a view that has a volatile function call in it at all
seems like a very bad choice, but still think it might be something to
document better.
-David
On Wed, Jul 12, 2017 at 3:23 PM Tom Lane wrote:
> David Kohn writes:
> > I encountered some unexpected behavior when debugging a query that was
> > taking longer than expected, basically, a volatile function that makes a
> > column in a view is called even when that column is not selected in the
> > query, making it so that the function is called for every row in the
> view,
> > I'm not sure that that would necessarily be the expected behavior, as it
> > was my understanding that columns that are not selected are not
> evaluated,
> > for instance if there was a join in a view that produced some columns and
> > said columns were not selected, I would expect it to be optimized away.
>
> No, this is the expected behavior; we don't like optimization to change
> the number of calls of a volatile function from what would occur in naive
> evaluation of the query. If that prospect doesn't bother you, it's
> likely because your function isn't really volatile ...
>
> > The other problem is that the function call does not appear in the query
> > plan.
>
> I think "explain verbose" will fix that for you.
>
> regards, tom lane
>