I want to use unique hashes for each model rather than ids.

I implemented the following function to use it across the board easily.

import random,hashlib
from base64 import urlsafe_b64encode

def set_unique_random_value(model_object,field_name='hash_uuid',length=5,use_sha=True,urlencode=False):
    while 1:
        uuid_number = str(random.random())[2:]
        uuid = hashlib.sha256(uuid_number).hexdigest() if use_sha else uuid_number
        uuid = uuid[:length]
        if urlencode:
            uuid = urlsafe_b64encode(uuid)[:-1]
        hash_id_dict = {field_name:uuid}
        except model_object.__class__.DoesNotExist:

I'm seeking feedback, how else could I do it? How can I improve it? What is good bad and ugly about it?

  • Could you please clarify: Do you need random hashes, or unique-across-time-and-space hashes? I ask because often users just want the former but use the terms "unique" and "random" interchangeably. – nikola Mar 26 '10 at 13:19
  • Could you post an update of how you fixed it? I'm searching for a solution. – Thomas Schwärzl Oct 2 '12 at 11:37
  • That's crazy to generate a unique id. If doing uuid just generate a uuid and don't change the length or anything. Set your model to use that field as the primary key. Just generate a uuid on save, don't even worry about collisions. – dalore Jan 12 '15 at 14:16

I do not like this bit:

uuid = uuid[:5]

In the best scenario (uuid are uniformly distributed) you will get a collision with probability greater than 0.5 after 1k of elements!

It is because of the birthday problem. In a brief it is proven that the probability of collision exceeds 0.5 when number of elements is larger than square root from number of possible labels.

You have 0xFFFFF=10^6 labels (different numbers) so after a 1000 of generated values you will start having collisions.

Even if you enlarge length to -1 you have still problem here:


You will start having collisions after 3 * 10^6 (the same calculations follows).

I think your best bet is to use uuid that is more likely to be unique, here is an example

>>> import uuid
>>> uuid.uuid1().hex

Update If you do not trust math just run the following sample to see the collision:

 >>> len(set(hashlib.sha256(str(i)).hexdigest()[:5] for i in range(0,2000)))
 1999 # it should obviously print 2000 if there wasn't any collision
  • 4
    The birthday problem actually applies to random number generation. However, Python's uuid package does not concern random-number generation in specific. Actually, uuid1() from your example is nowhere near random as in cryptographically secure. Just pointing this out in case someone might get the idea to equate Python's uuid package with random number generation. – nikola Mar 26 '10 at 13:23

The ugly:

import random

From the documentation:

This module implements pseudo-random number generators for various distributions.

If anything, please use os.urandom

Return a string of n random bytes suitable for cryptographic use.

This is how I use it in my models:

import os
from binascii import hexlify

def _createId():
    return hexlify(os.urandom(16))

class Book(models.Model):
    id_book = models.CharField(max_length=32, primary_key=True, default=_createId)
  • One think to notice is that urandom is much slower than pseudo random so if you don't need it for cryptographic reason it may not be worth using. On my mac osx it is 21 times slower. Consider: >>> timeit.Timer('import random; random.random()').timeit(100000) 0.1538231372833252 >>> timeit.Timer('import os; os.urandom(2)').timeit(100000) 3.1858959197998047 – Piotr Czapla Mar 26 '10 at 17:45
  • I've just checked that uuid is even slower :) – Piotr Czapla Mar 26 '10 at 17:50
  • This is dangerous! If you have a key collision then your new record will silently overwrite your existing record. – sherbang Mar 1 '13 at 0:09
  • 3
    No, primary keys are required to be unique, so in case of a collision you'll get an IntegrityError. Nothing silent about that one. – nikola Mar 1 '13 at 20:36
  • You should use the uuid package. At least the implementations of uuid1, uuid2, ..., uuid5 follow a standardized norm. – Flavian Hautbois Oct 21 '14 at 9:03

Django 1.8+ has a built-in UUIDField. Here's the suggested implementation, using the standard library's uuid module, from the docs:

import uuid
from django.db import models

class MyUUIDModel(models.Model):
    id = models.UUIDField(primary_key=True, default=uuid.uuid4, editable=False)
    # other fields

For older django versions you can use the django-uuidfield package.


Use your database engine's UUID support instead of making up your own hash. Almost everything beyond SQLite supports them, so there's little reason to not use them.


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