# Ensuring unique elements in array created from merging 2 bigint arrays

What is the most efficient way to ensure the uniqueness of values in a `bigint` array created from merging of 2 other `bigint` arrays?

For example, this operation `select ARRAY[1,2] || ARRAY[2, 3]` should give as a result `1,2,3`. I have checked the extension `intarray` and see it does not work with `bigint`.

You need to write your own function for that.

``````create function concat_unique(p_array_one bigint[], p_array_two bigint[])
returns bigint[]
as
\$\$
select array_agg(x order by x)
from (
select x
from unnest(p_array_one) as t(x)
union
select x
from unnest(p_array_two) as t(x)
) t
\$\$
language sql
immutable;
``````

And then:

``````select concat_unique(array[1,2], array[2,3,4]);
``````

returns

``````concat_unique
-------------
{1,2,3,4}
``````
• Is it an effective operation? The arrays that I merge mostly not so big about 20 - 30 items in each. Let's say up to 100 items each in extreme case. – genichm Aug 8 '19 at 7:49
• I don't see an alternative, so yes that "effective". – a_horse_with_no_name Aug 8 '19 at 7:56

Since you ask for efficient - the function can be optimized:

Nothing in your question demands sorted output. So:

``````CREATE OR REPLACE FUNCTION f_merge_uniq(bigint[], bigint[])
RETURNS bigint[] AS
\$func\$
SELECT ARRAY(
SELECT unnest(\$1)
UNION
SELECT unnest(\$2)
)
\$func\$  LANGUAGE sql IMMUTABLE;
``````

But you can have that sorted, too, at practically no added cost:

``````CREATE OR REPLACE FUNCTION f_merge_uniq_sort(bigint[], bigint[])
RETURNS bigint[] AS
\$func\$
SELECT ARRAY(
SELECT DISTINCT x
FROM (
SELECT unnest(\$1)
UNION ALL
SELECT unnest(\$2)
) sub(x)
ORDER BY 1
)
\$func\$  LANGUAGE sql IMMUTABLE;
``````

db<>fiddle here

Close to twice as fast in planning and execution for multiple reasons:

• If you `UNION` and later `ORDER BY`, Postgres does extra work. Sorting per result row with (`array_agg(x order by x)`) is the worst case. It's even slower for just one result row (like in this case) because there is more overhead. Sorting in the subquery (where possible) is typically more efficient:

• The `DISTINCT` operation can be based on a sort right away. My second function `f_merge_uniq_sort()` achieves that, so it's practically as fast as the first `f_merge_uniq()` even though it returns sorted arrays. (Seems to be even a bit faster in my tests with Postgres 12! Seems that `UNION` is slightly less efficient than `DISTINCT`.)

• An `ARRAY` constructor is faster than `array_agg()`.

• Thanks for a very helpful explanation – genichm Aug 11 '19 at 11:32