I need to find the Hamming distance between two strings:

chaine1 = 6fb17381822a6ca9b02153d031d5d3da

chaine2 = a242eace2c57f7a16e8e872ed2f2287d

The XOR function didn't work, and my search on the web was not very successful.

I tried to modify something I found on the web, but there's some invalid syntax...:

assert len (chaine1) == len(chaine2)

return sum(chaine1 != chaine2 for chaine1, chaine2 in zip(chaine1, chaine2))

if __name__=="__main__":
chaine1 = hashlib.md5("chaine1".encode()).hexdigest()

chaine2 = hashlib.md5("chaine2".encode()).hexdigest()
print hamming_distance(chaine1, chaine2)

How could I proceed?

  • What have you tried? Read How to Ask
    – DeepSpace
    Jan 13, 2019 at 20:21
  • Please edit your question instead of posting code in the comments.
    – iz_
    Jan 13, 2019 at 20:25
  • Some references: hashlib, hexdigest, and encode. Feb 24, 2023 at 3:41
  • 1
    Presumably, "def hamming_distance(chaine1, chaine2):" is missing from the beginning of the code, and the actual code was properly indented (not as posted here). But the OP has left the building: "Last seen more than 4 years ago" Feb 24, 2023 at 3:47

3 Answers 3


Following is a program calculating the Hamming distance using two different ways.

import hashlib

def hamming_distance(chaine1, chaine2):
    return sum(c1 != c2 for c1, c2 in zip(chaine1, chaine2))

def hamming_distance2(chaine1, chaine2):
    return len(list(filter(lambda x : ord(x[0])^ord(x[1]), zip(chaine1, chaine2))))

if __name__=="__main__":    
    chaine1 = hashlib.md5("chaine1".encode()).hexdigest()
    chaine2 = hashlib.md5("chaine2".encode()).hexdigest()
    #chaine1 = "6fb17381822a6ca9b02153d031d5d3da"
    #chaine2 = "a242eace2c57f7a16e8e872ed2f2287d"
    assert len(chaine1) == len(chaine2)
    print(hamming_distance(chaine1, chaine2))
    print(hamming_distance2(chaine1, chaine2))

The reason why you get Invalid syntax: ... is probably you don't have any indentations, which are required in Python.

from scipy.spatial import distance


d = round(distance.hamming(DNA1, DNA2) * len(DNA1))
print(d)  # 7

First we should review the definition of the Hamming distance between two strings:

The Hamming distance between two strings of equal length is the number of positions at which these strings vary. In more technical terms, it is a measure of the minimum number of changes required to turn one string into another.

Let's get a solution for it.

def hamming(s1,s2):
if len(s1)!=len(s2):
    print("String are not equal")
    for x,(i,j) in enumerate(zip(s1,s2)):
        if i!=j:
            print(f'char not math{i,j}in {x}')
return result

Result: char not match ('o', 'i') in 1

  • This is also badly indented. Where did you copy it from? Code is often poorly rendered in blog posts (even if the source is correct). Feb 24, 2023 at 3:34

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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