I was wondering the same thing. I found two alternative ways of doing this, but the one you suggested was faster.
I informally benchmarked against one of our larger tables. I limited the query to the first 4 million rows. I alternated between the two queries in order to avoid giving one a unfair advantage due to db caching.
Going through epoch/unix time
(EXTRACT(epoch FROM ht.time) / EXTRACT(epoch FROM interval '5 min'))::int
* EXTRACT(epoch FROM interval '5 min')
) FROM huge_table AS ht LIMIT 4000000
(Note this produces
timestamptzeven if you used a time zone unaware datatype)
- Run 1: 39.368 seconds
- Run 3: 39.526 seconds
- Run 5: 39.883 seconds
Using date_trunc and date_part
+ date_part('minute', ht.time)::int / 5 * interval '5 min'
FROM huge_table AS ht LIMIT 4000000
- Run 2: 34.189 seconds
- Run 4: 37.028 seconds
- Run 6: 32.397 seconds
- DB version: PostgreSQL 9.6.2 on x86_64-pc-linux-gnu, compiled by gcc (Ubuntu 4.8.2-19ubuntu1) 4.8.2, 64-bit
- Cores: Intel® Xeon®, E5-1650v2, Hexa-Core
- RAM: 64 GB, DDR3 ECC RAM
Your version seems to be faster. But not fast enough for my specific use case. The advantage of not having to specify the hour makes the epoch version more versatile and produces simpler parameterization in client side code. It handles
2 hour intervals just as well as
5 minute intervals without having to bump the
date_trunc time unit argument up. On a end note, I wish this time unit argument was changed to a time interval argument instead.