# Hamming distance between two strings in Python

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 Jan 13, 2019 at 20:21
– iz_
Jan 13, 2019 at 20:25
• Some references: hashlib, hexdigest, and encode. Feb 24, 2023 at 3:41
• 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

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

DNA1 = list("GAGCCTACTAACGGGAT")
DNA2 = list("CATCGTAATGACGGCCT")

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):
result=0
if len(s1)!=len(s2):
print("String are not equal")
else:
for x,(i,j) in enumerate(zip(s1,s2)):
if i!=j:
print(f'char not math{i,j}in {x}')
result+=1
return result
s1="rover"
s2="river"
print(hamming(s1,s2))
``````

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