Instead of creating a new table, you can also re-insert unique rows into the same table after truncating it. Do it all in one transaction. Optionally, you can drop the temporary table at the end of the transaction automatically with
ON COMMIT DROP. See below.
This approach is only useful where there are lots of rows to delete from all over the table. For just a few duplicates, use a plain
You mentioned millions of rows. To make the operation fast you want to allocate enough temporary buffers for the session. The setting has to be adjusted before any temp buffer is used in your current session. Find out the size of your table:
temp_buffers accordingly. Round up generously because in-memory representation needs a bit more RAM.
SET temp_buffers = 200MB; -- example value
-- CREATE TEMPORARY TABLE t_tmp ON COMMIT DROP AS -- drop temp table at commit
CREATE TEMPORARY TABLE t_tmp AS -- retain temp table after commit
SELECT DISTINCT * FROM tbl; -- DISTINCT folds duplicates
INSERT INTO tbl
SELECT * FROM t_tmp;
-- ORDER BY id; -- optionally "cluster" your data while being at it.
This method can be superior to creating a new table if depending objects exist. Views, indexes, foreign keys or other objects referencing the table.
TRUNCATE makes you begin with a clean slate anyway (new file in the background) and is much faster than
DELETE FROM tbl with big tables (
DELETE can actually be faster with small tables).
For big tables, it is regularly faster to drop indexes and foreign keys, refill the table and recreate these objects. As far as fk constraints are concerned you have to be certain the new data is valid of course or you'll run into an exception on trying to create the fk.
TRUNCATE requires more aggressive locking than
DELETE. This may be an issue for tables with heavy, concurrent load.
If you have no depending objects at all, you might create a new table and delete the old one, but you hardly gain anything over this universal approach.
For very big tables that would not fit into available RAM, creating a new table will be considerably faster. You'll have to weigh this against possible troubles / overhead with depending objects.