@Tregoreg raised a question in the comment to his offered bounty:
I didn't find the current answers working. Using GIN index on
array-typed column does not increase the performance of ANY()
operator. Is there really no solution?
@Frank's accepted answer tells you to use array operators, which is still correct for Postgres 11. The manual:
... the standard distribution of PostgreSQL includes a GIN operator
class for arrays, which supports indexed queries using these
The complete list of built-in operator classes for GIN indexes in the standard distribution is here.
In Postgres indexes are bound to operators (which are implemented for certain types), not data types alone or functions or anything else. That's a heritage from the original Berkeley design of Postgres and very hard to change now. And it's generally working just fine. Here is a thread on pgsql-bugs with Tom Lane commenting on this.
Some PostGis functions (like
ST_DWithin()) seem to violate this principal, but that is not so. Those functions are rewritten internally to use respective operators.
The indexed expression must be to the left of the operator. For most operators (including all of the above) the query planner can achieve this by flipping operands if you place the indexed expression to the right - given that a
COMMUTATOR has been defined. The
ANY construct can be used in combination with various operators and is not an operator itself. When used as
constant = ANY (array_expression) only indexes supporting the
= operator on array elements would qualify and we would need a commutator for
= ANY(). GIN indexes are out.
Postgres is not currently smart enough to derive a GIN-indexable expression from it. For starters,
constant = ANY (array_expression) is not completely equivalent to
array_expression @> ARRAY[constant]. Array operators return an error if any NULL elements are involved, while the
ANY construct can deal with NULL on either side. And there are different results for data type mismatches.
While working with
integer arrays (
NULL values (like your example implies) consider the additional module
intarray, that provides specialized, faster operators and index support. See:
As for the
UNIQUE constraint in your question that went unanswered: That's implemented with a btree index on the whole array value (like you suspected) and does not help with the search for elements at all. Details: