We're using Postgresql 9.1.4 as our db server. I've been trying to speed up my test suite so I've stared profiling the db a bit to see exactly what's going on. We are using database_cleaner to truncate tables at the end of tests. YES I know transactions are faster, I can't use them in certain circumstances so I'm not concerned with that.

What I AM concerned with, is why TRUNCATION takes so long (longer than using DELETE) and why it takes EVEN LONGER on my CI server.

Right now, locally (on a Macbook Air) a full test suite takes 28 minutes. Tailing the logs, each time we truncate tables... ie:

TRUNCATE TABLE table1, table2  -- ... etc

it takes over 1 second to perform the truncation. Tailing the logs on our CI server (Ubuntu 10.04 LTS), take takes a full 8 seconds to truncate the tables and a build takes 84 minutes.

When I switched over to the :deletion strategy, my local build took 20 minutes and the CI server went down to 44 minutes. This is a significant difference and I'm really blown away as to why this might be. I've tuned the DB on the CI server, it has 16gb system ram, 4gb shared_buffers... and an SSD. All the good stuff. How is it possible:

a. that it's SO much slower than my Macbook Air with 2gb of ram
b. that TRUNCATION is so much slower than DELETE when the postgresql docs state explicitly that it should be much faster.

Any thoughts?

  • Are you running the tests and database on macbook, and tests and database on CI server? Are tests and database on the same machine? Jul 10, 2012 at 18:31
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    Btw, you are doing it wrong... you cannot clear database AFTER the test. You should do it BEFORE running the test. You cannot be sure that the database is cleared after tests. Jul 10, 2012 at 18:32
  • What postgresql.conf parameters are in use? I'm wondering if you're running with fsync=off (ok if you don't mind losing all your data, like in testing) in which case the balance between DELETE and TRUNCATE could be different. I'd also be interested in your shared_buffers . Jul 10, 2012 at 23:47
  • When you mean "using transactions" do you mean opening a transaction, doing some tests, then rolling it back? Because in my view that's only half a test. So much can happen at COMMIT time if you're using SERIALIZABLE transactions, DEFERRABLE INITIALLY DEFERRED constraints, etc, that committing test changes seems wise. Jul 10, 2012 at 23:48
  • How long is "etc" btw, ie how many tables are being truncated in one go? Are they very small tables, or do they contain a bit of data? I won't be too shocked if tiny tables are quicker to DELETE FROM than TRUNCATE as TRUNCATE has to allocate a new backing file, write the headers, swap the old one with it, flush the buffer caches for the table, and fsync. I suspect the docs probably need to be updated to reflect that TRUNCATE is lots faster with big tables, but not necessarily with tiny/empty ones. Jul 10, 2012 at 23:51

4 Answers 4


This has come up a few times recently, both on SO and on the PostgreSQL mailing lists.

The TL;DR for your last two points:

(a) The bigger shared_buffers may be why TRUNCATE is slower on the CI server. Different fsync configuration or the use of rotational media instead of SSDs could also be at fault.

(b) TRUNCATE has a fixed cost, but not necessarily slower than DELETE, plus it does more work. See the detailed explanation that follows.

UPDATE: A significant discussion on pgsql-performance arose from this post. See this thread.

UPDATE 2: Improvements have been added to 9.2beta3 that should help with this, see this post.

Detailed explanation of TRUNCATE vs DELETE FROM:

While not an expert on the topic, my understanding is that TRUNCATE has a nearly fixed cost per table, while DELETE is at least O(n) for n rows; worse if there are any foreign keys referencing the table being deleted.

I always assumed that the fixed cost of a TRUNCATE was lower than the cost of a DELETE on a near-empty table, but this isn't true at all.

TRUNCATE table; does more than DELETE FROM table;

The state of the database after a TRUNCATE table is much the same as if you'd instead run:

  • DELETE FROM table;
  • VACCUUM (FULL, ANALYZE) table; (9.0+ only, see footnote)

... though of course TRUNCATE doesn't actually achieve its effects with a DELETE and a VACUUM.

The point is that DELETE and TRUNCATE do different things, so you're not just comparing two commands with identical outcomes.

A DELETE FROM table; allows dead rows and bloat to remain, allows the indexes to carry dead entries, doesn't update the table statistics used by the query planner, etc.

A TRUNCATE gives you a completely new table and indexes as if they were just CREATEed. It's like you deleted all the records, reindexed the table and did a VACUUM FULL.

If you don't care if there's crud left in the table because you're about to go and fill it up again, you may be better off using DELETE FROM table;.

Because you aren't running VACUUM you will find that dead rows and index entries accumulate as bloat that must be scanned then ignored; this slows all your queries down. If your tests don't actually create and delete all that much data you may not notice or care, and you can always do a VACUUM or two part-way through your test run if you do. Better, let aggressive autovacuum settings ensure that autovacuum does it for you in the background.

You can still TRUNCATE all your tables after the whole test suite runs to make sure no effects build up across many runs. On 9.0 and newer, VACUUM (FULL, ANALYZE); globally on the table is at least as good if not better, and it's a whole lot easier.

IIRC Pg has a few optimisations that mean it might notice when your transaction is the only one that can see the table and immediately mark the blocks as free anyway. In testing, when I've wanted to create bloat I've had to have more than one concurrent connection to do it. I wouldn't rely on this, though.

DELETE FROM table; is very cheap for small tables with no f/k refs

To DELETE all records from a table with no foreign key references to it, all Pg has to do a sequential table scan and set the xmax of the tuples encountered. This is a very cheap operation - basically a linear read and a semi-linear write. AFAIK it doesn't have to touch the indexes; they continue to point to the dead tuples until they're cleaned up by a later VACUUM that also marks blocks in the table containing only dead tuples as free.

DELETE only gets expensive if there are lots of records, if there are lots of foreign key references that must be checked, or if you count the subsequent VACUUM (FULL, ANALYZE) table; needed to match TRUNCATE's effects within the cost of your DELETE .

In my tests here, a DELETE FROM table; was typically 4x faster than TRUNCATE at 0.5ms vs 2ms. That's a test DB on an SSD, running with fsync=off because I don't care if I lose all this data. Of course, DELETE FROM table; isn't doing all the same work, and if I follow up with a VACUUM (FULL, ANALYZE) table; it's a much more expensive 21ms, so the DELETE is only a win if I don't actually need the table pristine.

TRUNCATE table; does a lot more fixed-cost work and housekeeping than DELETE

By contrast, a TRUNCATE has to do a lot of work. It must allocate new files for the table, its TOAST table if any, and every index the table has. Headers must be written into those files and the system catalogs may need updating too (not sure on that point, haven't checked). It then has to replace the old files with the new ones or remove the old ones, and has to ensure the file system has caught up with the changes with a synchronization operation - fsync() or similar - that usually flushes all buffers to the disk. I'm not sure whether the the sync is skipped if you're running with the (data-eating) option fsync=off .

I learned recently that TRUNCATE must also flush all PostgreSQL's buffers related to the old table. This can take a non-trivial amount of time with huge shared_buffers. I suspect this is why it's slower on your CI server.

The balance

Anyway, you can see that a TRUNCATE of a table that has an associated TOAST table (most do) and several indexes could take a few moments. Not long, but longer than a DELETE from a near-empty table.

Consequently, you might be better off doing a DELETE FROM table;.


Note: on DBs before 9.0, CLUSTER table_id_seq ON table; ANALYZE table; or VACUUM FULL ANALYZE table; REINDEX table; would be a closer equivalent to TRUNCATE. The VACUUM FULL impl changed to a much better one in 9.0.

  • 4
    And they have different types of locks als well: table lock vs row lock. Jul 11, 2012 at 4:57
  • Thanks for the comprehensive answer! According to the docs >> It [TRUNCATE] has the same effect as an unqualified DELETE on each table, but since it does not actually scan the tables it is faster. Furthermore, it reclaims disk space immediately, rather than requiring a subsequent VACUUM operation. >> So I don't think it actually vacuums after a truncate. Are you suggesting also that the fact taht I have 4GB shared_buffers is actually a detriment to performance?
    – brad
    Jul 11, 2012 at 18:19
  • @brad For the specific case of TRUNCATE, yes, I'm saying that my understanding is that big shared_buffers may slow things down. I haven't tested this myself but that's how it sounds from ML discussion. And no, there is no VACCUM done after a truncate - while truncate has the effect of a DELETE FROM followed by a VACUUM FULL ANALYZE;, it doesn't actually work that way or perform those steps. Jul 12, 2012 at 1:46
  • thanks for the link to that ML btw... it's great to see the conversations that surround topics such as this
    – brad
    Jul 12, 2012 at 13:56
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    @BrianPreslopsky rollbacks. if your txn aborts, server or client crashes etc. Poof, data gone. Mar 31, 2019 at 1:27

Brad, just to let you know. I've looked fairly deeply into a very similar question.

Related question: 30 tables with few rows - TRUNCATE the fastest way to empty them and reset attached sequences?

Please also look at this issue and this pull request:



Also this thread: http://archives.postgresql.org/pgsql-performance/2012-07/msg00047.php

I am sorry for writing this as an answer, but I didn't find any comment links, maybe because there are too much comments already there.

  • hey thanks stanislaw. I actually saw those posts which prompted me to upgrade db cleaner to use the mass truncation. That, however, did little to help me. Still on PG it seems the deletion strategy is significantly faster, which is what I've ended up using.
    – brad
    Jul 16, 2012 at 1:10

I've encountered similar issue lately, i.e.:

  1. The time to run test suite which used DatabaseCleaner varied widely between different systems with comparable hardware,
  2. Changing DatabaseCleaner strategy to :deletion provided ~10x improvement.

The root cause of the slowness was a filesystem with journaling (ext4) used for database storage. During TRUNCATE operation the journaling daemon (jbd2) was using ~90% of disk IO capacity. I am not sure if this is a bug, an edge case or actually normal behaviour in these circumstances. This explains however why TRUNCATE was a lot slower than DELETE - it generated a lot more disk writes. As I did not want to actually use DELETE I resorted to setting fsync=off and it was enough to mitigate this issue (data safety was not important in this case).


A couple of alternate approaches to consider:

  • Create a empty database with static "fixture" data in it, and run the tests in that. When you are done, just just drop the database, which should be fast.
  • Create a new table called "test_ids_to_delete" that contains columns for table names and primary key ids. Update your deletion logic to insert the ids/table names in this table instead, which will be much faster than running deletes. Then, write a script to run "offline" to actually delete the data, either after a entire test run has finished, or overnight.

The former is a "clean room" approach, while latter means there will be some test data will persist in database for longer. The "dirty" approach with offline deletes is what I'm using for a test suite with about 20,000 tests. Yes, there are sometimes problems due to having "extra" test data in the dev database but at times. But sometimes this "dirtiness" has helped us find and fixed bug because the "messiness" better simulated a real-world situation, in a way that clean-room approach never will.

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