I have a table
cats with 42,795,120 rows.
Apparently this is a lot of rows. So when I do:
/* owner_cats is a many-to-many join table */ DELETE FROM cats WHERE cats.id_cat IN ( SELECT owner_cats.id_cat FROM owner_cats WHERE owner_cats.id_owner = 1)
the query times out :(
(edit: I need to increase my
CommandTimeout value, default is only 30 seconds)
I can't use
TRUNCATE TABLE cats because I don't want to blow away cats from other owners.
I'm using SQL Server 2005 with "Recovery model" set to "Simple."
So, I thought about doing something like this (executing this SQL from an application btw):
DELETE TOP (25) PERCENT FROM cats WHERE cats.id_cat IN ( SELECT owner_cats.id_cat FROM owner_cats WHERE owner_cats.id_owner = 1) DELETE TOP(50) PERCENT FROM cats WHERE cats.id_cat IN ( SELECT owner_cats.id_cat FROM owner_cats WHERE owner_cats.id_owner = 1) DELETE FROM cats WHERE cats.id_cat IN ( SELECT owner_cats.id_cat FROM owner_cats WHERE owner_cats.id_owner = 1)
My question is: what is the threshold of the number of rows I can
DELETE in SQL Server 2005?
Or, if my approach is not optimal, please suggest a better approach. Thanks.
This post didn't help me enough:
Okay, I just realized after reading the above link again that I did not have indexes on these tables. Also, some of you have already pointed out that issue in the comments below. Keep in mind this is a fictitious schema, so even
id_cat is not a PK, because in my real life schema, it's not a unique field.
I will put indexes on:
I guess I'm still getting the hang of this data warehousing, and obviously I need indexes on all the
JOIN fields right?
However, it takes hours for me to do this batch load process. I'm already doing it as a
SqlBulkCopy (in chunks, not 42 mil all at once). I have some indexes and PKs. I read the following posts which confirms my theory that the indexes are slowing down even a bulk copy:
- SqlBulkCopy slow as molasses
- What’s the fastest way to bulk insert a lot of data in SQL Server (C# client)
So I'm going to
DROP my indexes before the copy and then re
CREATE them when it's done.
Because of the long load times, it's going to take me awhile to test these suggestions. I'll report back with the results.
DELETE FROM cats c WHERE EXISTS (SELECT 1 FROM owner_cats o WHERE o.id_cat = c.id_cat AND o.id_owner = 1)
And still with no indexes, for 42 million rows, it took 13:21 min:sec versus 22:08 with the way described above. However, for 13 million rows, took him 2:13 versus 2:10 my old way. It's a neat idea, but I still need to use indexes!
Something is terribly wrong! Now with the indexes on, my first delete query above took 1:9 hrs:min (yes an hour!) versus 22:08 min:sec and 13:21 min:sec versus 2:10 min:sec for 42 mil rows and 13 mil rows respectively. I'm going to try Tom's query with the indexes now, but this is heading in the wrong direction. Please help.
Tom's delete took 1:06 hrs:min for 42 mil rows and 10:50 min:sec for 13 mil rows with indexes versus 13:21 min:sec and 2:13 min:sec respectively. Deletes are taking longer on my database when I use indexes by an order of magnitude! I think I know why, my database .mdf and .ldf grew from 3.5 GB to 40.6 GB during the first (42 mil) delete! What am I doing wrong?
For lack of any other options, I have come up with what I feel is a lackluster solution (hopefully temporary):
- Increase timeout for database connection to 1 hour (
CommandTimeout=60000;default was 30 sec)
- Use Tom's query:
DELETE FROM WHERE EXISTS (SELECT 1 ...)because it performed a little faster
DROPall indexes and PKs before running delete statement (???)
CREATEall indexes and PKs
Seems crazy, but at least it's faster than using
TRUNCATE and starting over my load from the beginning with the first
owner_id, because one of my
owner_id takes 2:30 hrs:min to load versus 17:22 min:sec for the delete process I just described with 42 mil rows. (Note: if my load process throws an exception, I start over for that
owner_id, but I don't want to blow away previous
owner_id, so I don't want to
owner_cats table, which is why I'm trying to use
Anymore help would still be appreciated :)
cats.id_cathave indexes on them? Is
owner_cats.id_catthe primary key?