1
create table test(
    id serial primary key,
    tagged smallint[]
);

There is gin index on tagged column, with _int2_ops operator class:

CREATE INDEX ix ON test USING GIN(col _int2_ops);

When I run this query:

select * from test
where tagged @> ARRAY[11]
order by id limit 100;

EXPLAIN ANALYZE shows:

Limit  (cost=0.43..19524.39 rows=100 width=36) (actual time=25024.124..25027.263 rows=100 loops=1)
  ->  Index Scan using test_pkey on test  (cost=0.43..508404.37 rows=2604 width=36) (actual time=25024.121..25027.251 rows=100 loops=1)
        Filter: ((tagged)::integer[] @> '{11}'::integer[])
        Rows Removed by Filter: 2399999
Planning time: 6.912 ms
Execution time: 25027.307 ms

Bold emphasis mine. Why is the tagged column converted to integer[] type? I think this is the reason why GIN the index isn't used and the query runs slow.

I tried WHERE tagged @> ARRAY[11]::smallint[] but got this error:

operator is not unique: smallint[] @> smallint[]

If I do the same but use tagged int[] and create index as

CREATE INDEX ix ON test USING GIN(tagged gin__int_ops);

then the above query uses the GIN index:

"->  Bitmap Index Scan on ix  (cost=0.00..1575.53 rows=2604 width=0) (actual time=382.840..382.840 rows=2604480 loops=1)"
"   Index Cond: (tagged @> '{11}'::integer[])"

This is a bit faster than previous, but It takes on average 10 second - still too slow. I want to try smallint[] instead of int[], maybe that will be faster ...

  • Beacuse of order by id limit 100 the planner thinks that using the primary key will be faster than the gin index. The cast to int[] does not matter. – klin Sep 30 '16 at 19:54
  • @klin please see update – OTAR Sep 30 '16 at 20:01
  • Really interesting, there is something to it. – klin Sep 30 '16 at 20:10
1

Solution

Most probably, the solution is to schema-qualify the operator:

SELECT *
FROM   test
WHERE  tagged OPERATOR(pg_catalog.@>) '{11}'::int2[]
ORDER  BY id
LIMIT  100;

Why?

It's a problem of operator resolution (in combination with type resolution and cast context).

In standard Postgres, there is only a single candidate operator anyarray @> anyarray, that's the one you want.

Your setup would work just fine if you had not installed the additional module intarray (my assumption), which provides another operator for integer[] @> integer[].

Hence, another solution would be to use integer[] instead and have a GIN index with the gin__int_ops operator class. Or try the (default for intarray) gist__int_ops index. Either might be faster, but both don't allow NULL values.
Or you could rename the intarray operator @> to disambiguate. (I would not do that. Upgrade and portability issues ensue.)

For expressions involving at least one operand of type integer[], Postgres knows which operator to pick: the intarray operator. But then the index is not applicable, because the intarray operator only operates on integer (int4) not int2. And indexes are strictly bound to operators:

But for int2[] @> int2[], Postgres is unable to decide the best operator. Both seem equally applicable. Since the default operator is provided in the pg_catalog schema and the intarray operator is provided in the public schema (by default - or wherever you installed the extension), you can help solve the conundrum by schema-qualifying the operator with the OPERATOR() construct. Related:

The error message you get is a bit misleading. But if you look closely, there is a HINT line added which hints (tada!) in the right direction:

ERROR:  operator is not unique: smallint[] @> smallint[]
LINE 1: SELECT NULL::int2[] @> NULL::int2[]
                            ^
HINT:  Could not choose a best candidate operator. You might need to add explicit type casts.

You can investigate existing operator candidates for @> with:

SELECT o.oid, *, oprleft::regtype, oprright::regtype, n.nspname
FROM   pg_operator o
JOIN   pg_namespace n ON n.oid = o.oprnamespace
WHERE  oprname = '@>';

Another alternative solution would be to temporarily(!) set a different search_path, so only the desired operator is found. In the same transaction:

SET LOCAL search_path = pg_catalog;
SELECT ...

But then you have to schema-qualify all tables in the query.

About cast context:

You could change the castcontext of int2 -> int4. But I strongly advise against it. Too many possible side effects:

  • Complete and helpful answer, as always – OTAR Oct 1 '16 at 6:32

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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