Python has a built-in hash() function that's very fast and perfect for most uses:
You can then make it unsigned:
>>> hashu=lambda word: ctypes.c_uint64(hash(word)).value
You can then turn it into a 16 byte hex string:
Or an N*2 byte string, where N is <= 8:
>>> hashn=lambda word, N : (hashu(word)%(2**(N*8))).to_bytes(N,"big").hex()
..etc. And if you want N to be larger than 8 bytes, you can just hash twice. Python's built-in is so vastly faster, it's never worth using hashlib for anything unless you need security... not just collision resistance.
>>> hashnbig=lambda word, N : ((hashu(word)+2**64*hashu(word+"2"))%(2**(N*8))).to_bytes(N,"big").hex()
And finally, use the urlsafe base64 encoding to make a much better string than "hex" gives you
>>> hashnbigu=lambda word, N : urlsafe_b64encode(((hashu(word)+2**64*hash(word+"2"))%(2**(N*8))).to_bytes(N,"big")).decode("utf8").rstrip("=")
Be warned that in Python 3.3 and up, this function is
randomized and won't work for some use cases. You can disable this with PYTHONHASHSEED=0
See https://github.com/flier/pyfasthash for fast, stable hashes that
won't break your CPU for non-cryptographic applications.
Don't use this lambda style in real code... write it out! And
stuffing things like 2**32 in your code, instead of making them
constants is bad form.
In the end 8 bytes of collision resistance is OK for a smaller
applications.... with less than a million entries, you've got
collision odds of < 0.0000001%. That's a 12 byte b64 encoded
string. But it might not be enough for larger apps.
16 bytes is enough for a UUID/OID in a cache, etc.