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I'm working on PostgreSQL with a Ruby client and I want to partition a table with SHA-1 hash ids like


Process partitioning is where you partition a dataset into N parts and assign each to one of N processes. If you have integer keys in a RDBMS, it is simple:

select * from items_to_be_processed where MOD(id, N) = ASSIGNED_PARTITION

Ryan Smith suggests that if you have string keys, you can use CRC32 on them to get the integer and then the modulus - but, assuming your keys are mostly evenly distributed (like I think it would be with SHA-1 hashes), would this be easier? For N = 4, like:

select * from items_to_be_processed where id < ASSIGNED_PARTITION_1
select * from items_to_be_processed where id < ASSIGNED_PARTITION_2 and id >= ASSIGNED_PARTITION_1
select * from items_to_be_processed where id < ASSIGNED_PARTITION_3 and id >= ASSIGNED_PARTITION_2
select * from items_to_be_processed where id >= ASSIGNED_PARTITION_4

so maybe if N = 2, then

select * from items_to_be_processed where id < '8888888888888888888888888888888888888888'   <- process 1
select * from items_to_be_processed where id >= '8888888888888888888888888888888888888888'  <- process 2

Given N, how do I calculate the partition points (8888888888888888888888888888888888888888 dividing ffffffffffffffffffffffffffffffffffffffff in half, which maybe I didn't even calculate correctly)? Should I do it in SQL (Postgres) or in the Ruby client making the call?

PS. Inspired by the random attribute idea from the MongoDB cookbook.


888... above was't calculated correctly - here's a way to do it in Ruby, thanks to Carl Norum's answer for bringing me closer:

>> 'f'*40
=> "ffffffffffffffffffffffffffffffffffffffff"
>> a = 0xffffffffffffffffffffffffffffffffffffffff
=> 1461501637330902918203684832716283019655932542975
>> b = a / 2
=> 730750818665451459101842416358141509827966271487
>> '%x' % b
=> "7fffffffffffffffffffffffffffffffffffffff"
>> '%x' % (b + 1)
=> "8000000000000000000000000000000000000000"
share|improve this question
A simpler approach would be to consider the first M characters of id which would apparently be a number expressed in hexadecimal. Choose M depending on the number of partitions you need, given they'd be limited to 16^M, a number that quickly gets huge. Then use directly the substring in mod(number_from_substring, N) to obtain the partition number. –  Daniel Vérité Jan 8 '13 at 16:15
You could store the id as binary (bytea) with about half the size of the string. –  Clodoaldo Neto Jan 8 '13 at 16:51

3 Answers 3

up vote 2 down vote accepted

You only need the first n characters of the hash depending on how many partitions. If up to 16 then only the first character:

select *
from items_to_be_processed
where left(id, 1) < '4'

select *
from items_to_be_processed
where left(id, 1) between '4' and '7'

There is no need for a conversion to integer.

Then you can have an index on just the n left characters to make it small and fast:

create index index_name on items_to_be_processed (left(id, 1))

It is necessary to have the left() expression in the where clause to make the planner use the proposed small index contrarily to the comments to this answer. This is how I tested in 9.2:

create table itbp (id char(32));

insert into itbp
select md5(a::text)
from generate_series(1, 100000) s(a)

I used md5 in instead of sha1 just to create a simpler test as there is no sha1 function in the default install of postgresql.

create index itbp_left_1_id_index on itbp (left(id, 1));

analyze itbp;

I did not forget to analyze before testing. Now both the explains:

explain select *
from itbp
where left(id, 1) between '4' and '7'
                                             QUERY PLAN                                              
 Bitmap Heap Scan on itbp  (cost=529.17..1979.74 rows=24663 width=33)
   Recheck Cond: (("left"((id)::text, 1) >= '4'::text) AND ("left"((id)::text, 1) <= '7'::text))
   ->  Bitmap Index Scan on itbp_left_1_id_index  (cost=0.00..523.00 rows=24663 width=0)
         Index Cond: (("left"((id)::text, 1) >= '4'::text) AND ("left"((id)::text, 1) <= '7'::text))

explain select *
from itbp
where id >= '4' and id < '8'
                         QUERY PLAN                         
 Seq Scan on itbp  (cost=0.00..2334.00 rows=24784 width=33)
   Filter: ((id >= '4'::bpchar) AND (id < '8'::bpchar))
share|improve this answer
wow, here's a champion wielder of occam's razor... –  Seamus Abshere Jan 8 '13 at 16:26
@Phrogz Would the planner use the small index I proposed if the left expression were not in the where clause? Is it that smart? I don't have the time to test it now. –  Clodoaldo Neto Jan 8 '13 at 16:38
@Phrogz Check the updated answer. –  Clodoaldo Neto Jan 8 '13 at 17:25
@Clodoaldo Ah, an excellent point on performance. I don't fully understand the output of the query plans, but I'll trust that what you say is true. I'll remove my incorrect comments from your answer now. :) –  Phrogz Jan 8 '13 at 18:57

That's not calculated correctly. Your example is something like taking the base 10 number 9999 and saying that dividing it by 2 yields 5555. Rather:


Is one less than:


Dividing that number into ranges is easy. For your N=2 example, half of the keys are less than:


And half are greater than or equal. For N=4, it's similar:

ASSIGNED_PARTITION_1 = 0x4000000000000000000000000000000000000000
ASSIGNED_PARTITION_2 = 0x8000000000000000000000000000000000000000
ASSIGNED_PARTITION_3 = 0xc000000000000000000000000000000000000000

If you try the partitioning with smaller numbers (like ones you can easily write in base 10), you'll see what's going on.

I'm not sure how the comparisons are going to work out for you - those are big numbers. I'm not a ruby or SQL expert, I'm afraid.

share|improve this answer

What you would like to do is to convert the id into an integer for partitioning purposes. Here is a simple way to do that, assuming that the id values are distributed uniformly, you could use the first two digits to get a value from 0 to 255:

select substring(t.id, 1, 2)::bit(8)::int as IntHash,
from t

You can then define your ranges using modular arithmetic, such as:

select (substring(t.id, 1, 2)::bit(8)::int)%8 as WhichOfEightPartitions
from t

This is assuming that the hash id is stored as a string.

The basic idea for this came from this post, in the response by "tom lane". This is, apparently, undocumented behavior, but it does work on SQLFiddle.

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