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Hibernate generates UPDATE statements, which include all columns, regardless of whether I'm changing the value in that columns, eg:

Item i = em.find(Item.class, 12345);

issues this UPDATE statement:

update Item set A = $1, B = $2, C = $3, D = $4 where id = $5

so columns B, C, D are updated, while I didn't change them.

Say, Items are updated frequently and all columns are indexed. The question is: does it make sense to optimize the Hibernate part to something like this:

em.createQuery("update Item i set i.a = :a where i.id = :id")
    .setParameter("a", "a-value")
    .setParameter("id", 12345)

What confuses me most is that the EXPLAIN plans of the 'unoptimized' and the 'optimized' query version are identical!

share|improve this question
Obviously not all JPA implementations would issue such a statement; DataNucleus for example knows which fields are modified, and hence only includes those in the UPDATE statement – DataNucleus Oct 19 '11 at 6:23
up vote 7 down vote accepted

Due to PostgreSQL MVCC, an UPDATE is effectively a DELETE plus an INSERT. (To be precise, the "deleted" row is just invisible to any transaction starting after the delete and vacuumed later.) Therefore, on the database side, including index manipulation, there is in effect no difference between the two statements. It increases network traffic a bit (depending on your data) and needs a bit of parsing.

I studied HOT updates after araqnid's input and ran some tests. Updates on columns that don't actually change the value make no difference whatsoever as far as HOT updates are concerned. My answer holds. See details below.

However, if you use per-column triggers (introduced with v9.0), this my have undesired side effects!

I quote the manual on triggers:

... a command such as UPDATE ... SET x = x ... will fire a trigger on column x, even though the column's value did not change.

Abstraction layers are for convenience. They are useful for SQL-illiterate developers or if the application needs to be portable between different RDBMSes. On the downside, they butcher performance and introduce additional points of failure. I avoid them wherever possible.

Concerning HOT (Heap-only tuple) updates

Heap-Only Tuples were introduced with PostgreSQL 8.3. Important fixes in v8.3.4 and v8.4.9.
I quote the release notes:

UPDATEs and DELETEs leave dead tuples behind, as do failed INSERTs. Previously only VACUUM could reclaim space taken by dead tuples. With HOT dead tuple space can be automatically reclaimed at the time of INSERT or UPDATE if no changes are made to indexed columns. This allows for more consistent performance. Also, HOT avoids adding duplicate index entries.

Emphasis mine. And "no changes" includes cases where columns are updated with the same value as they already hold. I actually tested that just now, as I wasn't sure.

You don't have to rely on theory or take my word for it. See for yourself, postgres provides a couple of functions to check statistics. Run your UPDATE with and without all columns and check if it makes any difference.

-- Number of rows HOT-updated in table:
SELECT pg_stat_get_tuples_hot_updated('table_name'::regclass::oid)

-- Number of rows HOT-updated in table, in the current transaction:
SELECT pg_stat_get_xact_tuples_hot_updated('table_name'::regclass::oid)

Or, more conveniently, use pgAdmin. Select your table and inspect the "Statistics" tab in the main window.

Be aware that HOT updates can only happens when there is room on the same page for the new tuple version. One simple way to force that condition is to test with a small table that holds only a few rows. Page size is 8k normally, so there must bee free space on the page.

share|improve this answer
The heap-only tuples feature introduced around 8.4 actually does optimise UPDATE compared to DELETE+INSERT, since it keeps the index entries pointing the the old version of the row instead of creating new ones. Presumably that depends on the column list in the UPDATE statement to know if the UPDATE can create a heap-only tuple or not. If so, always sending the values for all columns would mean that heap-only tuples were never created for tables that have any indices other than the primary key. – araqnid Oct 18 '11 at 13:59
So you mean update of A will cost me update on index(A), index(B), index(C) and index(D)? – tair Oct 18 '11 at 18:00
@araqnid: I have spend over an hour investigating and testing, as I your comment very interesting (+1). Turns out, HOT updates are not impaired in such a case. The behavior depends on columns actually changed and not so much on the column list in the UPDATE statement. See my amended answer for details. – Erwin Brandstetter Oct 19 '11 at 3:24
ah yes, that is the case. odd that it works one way for HOT and a different way for triggers. You can see the effect using the pageinspect extension too, here's a script to demo that: gist.github.com/1298358 – araqnid Oct 19 '11 at 14:02

You can use hibernate annotation @Entity:

@org.hibernate.annotations.Entity(dynamicUpdate = true)
public class Item

This will update only the changed fields.

share|improve this answer
Thanks! What about performance? – tair Oct 18 '11 at 11:21
This varies from case to case. Hibernate documentation (tinyurl.com/6e6r7yz) recommends you to check performance impact in your particular case: The dynamic-update and dynamic-insert settings... can increase performance in some cases, they can actually decrease performance in others. – Juliano Oct 18 '11 at 11:29
Google says dynamicUpdate will cost extra CPU to generate SQL for statement, because statements are not cached any more :( – tair Oct 18 '11 at 11:32
I think there is a trade-off between overhead on the database side and on the Hibernate side. But as always, you should measure it for your application. – Juliano Oct 18 '11 at 11:41

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