Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

What is the shortest hash (in filename-usable form, like a hexdigest) available in python? My application wants to save cache files for some objects. The objects must have unique repr() so they are used to 'seed' the filename. I want to produce a possibly unique filename for each object (not that many). They should not collide, but if they do my app will simply lack cache for that object (and will have to reindex that object's data, a minor cost for the application).

So, if there is one collision we lose one cache file, but it is the collected savings of caching all objects makes the application startup much faster, so it does not matter much.

Right now I'm actually using abs(hash(repr(obj))); that's right, the string hash! Haven't found any collisions yet, but I would like to have a better hash function. hashlib.md5 is available in the python library, but the hexdigest is really long if put in a filename. Alternatives, with reasonable collision resistance?

Edit: Use case is like this: The data loader gets a new instance of a data-carrying object. Unique types have unique repr. so if a cache file for hash(repr(obj)) exists, I unpickle that cache file and replace obj with the unpickled object. If there was a collision and the cache was a false match I notice. So if we don't have cache or have a false match, I instead init obj (reloading its data).

Conclusions (?)

The str hash in python may be good enough, I was only worried about its collision resistance. But if I can hash 2**16 objects with it, it's going to be more than good enough.

I found out how to take a hex hash (from any hash source) and store it compactly with base64:

# 'h' is a string of hex digits 
bytes = "".join(chr(int(h[i:i+2], 16)) for i in xrange(0, len(h), 2))
hashstr = base64.urlsafe_b64encode(bytes).rstrip("=")
share|improve this question
Why do you care about the length of the filenames? That doesn't matter at all, unless you are using a dumb filesystem – Vinko Vrsalovic Aug 19 '09 at 22:59
It is ugly. And all programmers want to express less with more, and here I know I can, a full cryptographic hash is overkill. – u0b34a0f6ae Aug 19 '09 at 23:14
in the concluding example, for a python hashlib hash, you can use bytes = (..).digest() of course. – u0b34a0f6ae Aug 20 '09 at 15:50
You should not use built-in hash because it's not guaranteed to be persistent across sessions (or architectures, though it may be irrelevant for your case if all cache files are stored locally). In fact, starting with Python 3.3, it's guaranteed to be randomized for strings. You should consider using hand-written functions such as this. – max Oct 2 '12 at 3:19
up vote 32 down vote accepted

The birthday paradox applies: given a good hash function, the expected number of hashes before a collision occurs is about sqrt(N), where N is the number of different values that the hash function can take. (The wikipedia entry I've pointed to gives the exact formula). So, for example, if you want to use no more than 32 bits, your collision worries are serious for around 64K objects (i.e., 2**16 objects -- the square root of the 2**32 different values your hash function can take). How many objects do you expect to have, as an order of magnitude?

Since you mention that a collision is a minor annoyance, I recommend you aim for a hash length that's roughly the square of the number of objects you'll have, or a bit less but not MUCH less than that.

You want to make a filename - is that on a case-sensitive filesystem, as typical on Unix, or do you have to cater for case-insensitive systems too? This matters because you aim for short filenames, but the number of bits per character you can use to represent your hash as a filename changes dramatically on case-sensive vs insensitive systems.

On a case-sensitive system, you can use the standard library's base64 module (I recommend the "urlsafe" version of the encoding, i.e. this function, as avoiding '/' characters that could be present in plain base64 is important in Unix filenames). This gives you 6 usable bits per character, much better than the 4 bits/char in hex.

Even on a case-insensitive system, you can still do better than hex -- use base64.b32encode and get 5 bits per character.

These functions take and return strings; use the struct module to turn numbers into strings if your chosen hash function generates numbers.

If you do have a few tens of thousands of objects I think you'll be fine with builtin hash (32 bits, so 6-7 characters depending on your chosen encoding). For a million objects you'd want 40 bits or so (7 or 8 characters) -- you can fold (xor, don't truncate;-) a sha256 down to a long with a reasonable number of bits, say 128 or so, and use the % operator to cut it further to your desired length before encoding.

share|improve this answer
very good rule for choosing length of hash – u0b34a0f6ae Aug 20 '09 at 11:09

The builtin hash function of strings is fairly collision free, and also fairly short. It has 2**32 values, so it is fairly unlikely that you encounter collisions (if you use its abs value, it will have only 2**31 values).

You have been asking for the shortest hash function. That would certainly be

def hash(s):
  return 0

but I guess you didn't really mean it that way...

share|improve this answer
well I want to avoid collisions :-) – u0b34a0f6ae Aug 19 '09 at 22:58
found on roflcopter.pl/5257 :D – Frizi Sep 4 '11 at 11:58

You can make any hash you like shorter by simply truncating it. md5 is always 32 hex digits, but an arbitrary substring of it (or any other hash) has the proper qualities of a hash: equal values produce equal hashes, and the values are spread around a bunch.

share|improve this answer
The more you truncate the higher the odds of the same hash value for two different files. The question is "what odds are acceptable?" When you truncate, you suffer "false positives": Hashes match, but the objects differ. – S.Lott Aug 20 '09 at 10:08
Yes, exactly. With any hash, you need to decide what risk of collision is acceptable, and assess your risk. – Ned Batchelder Aug 20 '09 at 11:59

I'm sure that there's a CRC32 implementation in Python, but that may be too short (8 hex digits). On the upside, it's very quick.

Found it, binascii.crc32

share|improve this answer
exactly it's very quick which is good. But seeing that it is not recommended as hash function, perhaps string's hash() is just as good? – u0b34a0f6ae Aug 19 '09 at 23:05
CRC isn't recommended as a hash on the grounds that it will generate collisions, and it's relatively easy to do on purpose. This makes it insecure for example for hashing passwords. But it is a hash function, it just generates a very short hash. This means lots more potential collisions. It is fast and small though, it's normal application is sanity checking. If 2^32 options are enough, then CRC32 is fine (or apparently the hash() function in Python generates 2^32 too. Didn't know this, I don't really use Python) – Matthew Scharley Aug 19 '09 at 23:16

If you do have a collision, how are you going to tell that it actually happened?

If I were you, I would use hashlib to sha1() the repr(), and then just get a limited substring of it (first 16 characters, for example).

Unless you are talking about huge numbers of these objects, I would suggest that you just use the full hash. Then the opportunity for collision is so, so, so, so small, that you will never live to see it happen (likely).

Also, if you are dealing with that many files, I'm guessing that your caching technique should be adjusted to accommodate it.

share|improve this answer
I unpickle the cache and notice when something is wrong, so collisions are just the nuisance that of two colliding objects, one is always without cache on application start. But this is a very good suggestion, since sha1 is the type of hash function that doesn't collide much, and slicing in the hash was something I didn't think about. – u0b34a0f6ae Aug 19 '09 at 23:07
Actually, for various mathematical reasons, using a substring of a hash generates far more collisions than just using a shorter hash function. See for example protocols that generate partial SHA1 collisions in realtime as part of the protocol. – Matthew Scharley Aug 19 '09 at 23:12
In the past, we took 1/2 of an MD5, converted it to a 64 bit integer, and stored that in a database (performance was critical in that case, with > 100,000,000 records. – gahooa Aug 19 '09 at 23:13
@Matthew Scharley: Do you have any links to that information -- I'm interested. – gahooa Aug 19 '09 at 23:15

We use hashlib.sha1.hexdigest(), which produces even longer strings, for cache objects with good success. Nobody is actually looking at cache files anyway.

share|improve this answer

Condsidering your use case, if you don't have your heart set on using separate cache files and you are not too far down that development path, you might consider using the shelve module.

This will give you a persistent dictionary (stored in a single dbm file) in which you store your objects. Pickling/unpickling is performed transparently, and you don't have to concern yourself with hashing, collisions, file I/O, etc.

For the shelve dictionary keys, you would just use repr(obj) and let shelve deal with stashing your objects for you. A simple example:

import shelve
cache = shelve.open('cache')
t = (1,2,3)
i = 10
cache[repr(t)] = t
cache[repr(i)] = i
print cache
# {'(1, 2, 3)': (1, 2, 3), '10': 10}

cache = shelve.open('cache')
print cache
#>>> {'(1, 2, 3)': (1, 2, 3), '10': 10}
print cache[repr(10)]
#>>> 10
share|improve this answer

Short hashes mean you may have same hash for two different files. Same may happen for big hashes too, but its way more rare. Maybe these file names should vary based on other references, like microtime (unless these files may be created too quickly).

share|improve this answer

You might also want to look at Ascii85 for even shorter filenames.


Hash with whatever, then encode the hash to a valid filename.

share|improve this answer
md5.md5().digest() gives a 16 byte string which becomes 24 bytes (possibly 22 if '<' and '>' are ignored) which is after ascii85 encoding: '<~e/aM$NrZHgl$s)-m.`nr~>'. But this is not suitable as a filename given the use of characters normally used in file paths ('/', '$','~','>'). I'd avoid use of this. – mhawke Aug 20 '09 at 3:43
You would have to encode it to a valid filename just like you do with Base64. – Mk Remz Aug 20 '09 at 13:19
The base64 encoding of the string '<~e/aM$NrZHgl$s)-m.nr~>'` is the 32 character string PH5lL2FNJE5yWkhnbCRzKS1tLmBucn4+, so you might as well just use an md5 hash. – mhawke Aug 21 '09 at 0:34
md5 digest = 16 bytes || md5 digest -> ascii85 = 20 ascii characters || md5 digest -> base64 = 25 ascii characters || md5 hexdigest = 32 ascii characters – Mk Remz Aug 27 '09 at 0:02

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.