# How to hash a string into 8 digits?

Is there anyway that I can hash a random string into a 8 digit number without implementing any algorithms myself?

• hash("your string") % 100000000 Apr 15, 2013 at 6:17
• 8 digit seems to small, and may result in collisions of hashes if you have large number of records. stackoverflow.com/questions/1303021/… Apr 15, 2013 at 6:19
• Use hashlib since hash has another purpose! Jan 31, 2017 at 16:32
• Any finite number of digits will result in collisions for sufficiently large numbers of hash items, that's why you shouldn't treat them as unique keys - it tends to turn into the birthday problem. May 17, 2017 at 22:27
• I've chosen "CityHash" to hash strings to 19 digit long integers (64bit integers), hoping this will lead to less potential collisions than Raymond's suggestion below. en.wikipedia.org/wiki/List_of_hash_functions Jul 21, 2017 at 13:05

Yes, you can use the built-in `hashlib` module or the built-in `hash` function. Then, chop-off the last eight digits using modulo operations or string slicing operations on the integer form of the hash:

``````>>> s = 'she sells sea shells by the sea shore'

>>> # Use hashlib
>>> import hashlib
>>> int(hashlib.sha1(s.encode("utf-8")).hexdigest(), 16) % (10 ** 8)
58097614L

>>> # Use hash()
>>> abs(hash(s)) % (10 ** 8)
82148974
``````
• public service announcement...this technique doesn't actually result in a unique hash value for the string; it computes a hash and then munges into a non-guaranteed-unique value Sep 18, 2015 at 15:03
• public service announcement...except for the special case of perfect hashes over limited set of input values, hash functions aren't supposed to generate guaranteed unique values. Sep 19, 2015 at 15:39
• Did you read the OP's question? He (or she) wanted (or needed) 8 decimal places. Also, the way hash tables work is to hash into a small search space (the sparse table). You seem to not know want hash functions are commonly used for and to not care about the actual question that was asked. Sep 21, 2015 at 3:19
• I read the question. I'm simply observing that over the same input space as SHA-1, your answer is astronomically more likely to produce a collision than not. At least some degree of uniqueness is implicitly required by the question, but your answer is a hash function in the same spirit as one that simply returns 12345678 for every input. I was able to experimentally generate a collision with as few as 1000 inputs using this method. To preserve the same collision probability as SHA-1, you would have to map un-truncated SHA-1's to 8-digit integers. I think that's worthy of a PSA Sep 21, 2015 at 15:58
• Careful, hash(s) is not guarateed to give same results across platforms and runs. Feb 16, 2016 at 21:33

Raymond's answer is great for python2 (though, you don't need the abs() nor the parens around 10 ** 8). However, for python3, there are important caveats. First, you'll need to make sure you are passing an encoded string. These days, in most circumstances, it's probably also better to shy away from sha-1 and use something like sha-256, instead. So, the hashlib approach would be:

``````>>> import hashlib
>>> s = 'your string'
>>> int(hashlib.sha256(s.encode('utf-8')).hexdigest(), 16) % 10**8
80262417
``````

If you want to use the hash() function instead, the important caveat is that, unlike in Python 2.x, in Python 3.x, the result of hash() will only be consistent within a process, not across python invocations. See here:

``````\$ python -V
Python 2.7.5
\$ python -c 'print(hash("foo"))'
-4177197833195190597
\$ python -c 'print(hash("foo"))'
-4177197833195190597

\$ python3 -V
Python 3.4.2
\$ python3 -c 'print(hash("foo"))'
5790391865899772265
\$ python3 -c 'print(hash("foo"))'
-8152690834165248934
``````

This means the hash()-based solution suggested, which can be shortened to just:

`hash(s) % 10**8`

will only return the same value within a given script run:

``````#Python 2:
\$ python2 -c 's="your string"; print(hash(s) % 10**8)'
52304543
\$ python2 -c 's="your string"; print(hash(s) % 10**8)'
52304543

#Python 3:
\$ python3 -c 's="your string"; print(hash(s) % 10**8)'
12954124
\$ python3 -c 's="your string"; print(hash(s) % 10**8)'
32065451
``````

So, depending on if this matters in your application (it did in mine), you'll probably want to stick to the hashlib-based approach.

• It should be noted that this answer has a very important caveat since Python 3.3, to protect against tar-pitting Python 3.3 and above use a random hash seed upon startup. Jan 6, 2018 at 13:20
• If digits are not your main requirement you could also use `hashlib.sha256("hello world".encode('utf-8')).hexdigest()[:8]` witch still will have collisions
– lony
Dec 17, 2018 at 16:41
• They should put that on the box! Nov 21, 2019 at 11:11

Just to complete JJC answer, in python 3.5.3 the behavior is correct if you use hashlib this way:

``````\$ python3 -c '
import hashlib
hash_object = hashlib.sha256(b"Caroline")
hex_dig = hash_object.hexdigest()
print(hex_dig)
'
739061d73d65dcdeb755aa28da4fea16a02b9c99b4c2735f2ebfa016f3e7fded
\$ python3 -c '
import hashlib
hash_object = hashlib.sha256(b"Caroline")
hex_dig = hash_object.hexdigest()
print(hex_dig)
'
739061d73d65dcdeb755aa28da4fea16a02b9c99b4c2735f2ebfa016f3e7fded

\$ python3 -V
Python 3.5.3
``````

I am sharing our nodejs implementation of the solution as implemented by @Raymond Hettinger.

``````var crypto = require('crypto');
var s = 'she sells sea shells by the sea shore';
console.log(BigInt('0x' + crypto.createHash('sha1').update(s).digest('hex'))%(10n ** 8n));
``````
• You're sharing a nodejs solution in a question about python? Mar 5, 2020 at 17:26
• Yes, when we were building the system - the backend processed this using python while the frontend used node.js. Needed to make sure both work seamlessly. Mar 12, 2020 at 5:28