DELETE. Forget the cursor.
Unless your table is huge and you are deleting a large percentage of rows, there is no point in doing it in batches. And there is hardly any point even then. The only reasons I can think of would be to allow
VACUUM to remove dead tuples earlier, which might help in special cases. Or to evade locking contention (possible deadlocks?), but that begs the question why rows to be deleted should be locked by concurrent transactions in the first place.
Locks are per row for this. There is no conflict with concurrent
UPDATE to different rows. (If you have UPDATEs targeting some of the same rows, you have a bigger problem.) And writers don't block readers anyway on Postgres.
You can create an SQL cursor with the
WITH HOLD option and then use it with
DELETE ... WHERE CURRENT OF in separate transactions. But you would have to throw in
FOR UPDATE, locking all affected rows anyway. Rarely makes sense, except when you want to lock all affected rows quickly but still do something with them before deleting and there may be smarter ways ...
It can make sense to partition a big
UPDATE - in separate transactions - so that dead tuples can be reused in H.O.T. updates (after a manual
VACUUM or autovacuum has kicked in). But that hardly applies to
DELETE operations which do not reuse space. Also,
DELETE is a lot faster than
In the unlikely event that you still need to do it in batches, still don't use a cursor. Use something like:
WITH cte AS (
SELECT id -- your PK
WHERE date < $something -- your condition
-- ORDER BY ??? -- optional, see below
FOR UPDATE -- SKIP LOCKED ?
DELETE FROM tbl
WHERE tbl.id = cte.id;
Repeat until no rows are found.
If your data is (mostly) physically sorted in a certain way, it can pay to order rows accordingly (the quoted
ORDER BY). The
ORDER BY imposes a cost of its own, but each
DELETE may be able to access far fewer data pages with clustered rows and be faster that way. Depends on the use case; if
ORDER BY can use an index, the outlook is better.