# Python XOR hammingDistance

The problem is

Given two integers x and y, calculate the Hamming distance.

Note: 0 ≤ x, y < 231.

I tried to use the ^ operator and just count the number of 1s in the resulting str. However it did not pass all the testing cases. For instance. 93^73 returns `11188` when it's supposed to return something else.

Here is my code:

``````#hamming distance
class Solution(object):
def hammingDistance(x, y):
"""
:type x: int
:type y: int
:rtype: int
"""
bin_x=int(bin(x)[2:])
bin_y=int(bin(y)[2:])
print(bin_x)
print(bin_y)
print(str(bin_x^bin_y))
#.count('1'))
hammingDistance(93,73)
``````
• nvm I should just do `return(str(bin(x^y)).count('1'))` – Eliza Jul 21 '18 at 19:06

Your code here is incorrect: you should not convert the binary string into an integer (certainly not using base 10). For example, since `bin(16)[2:]` equals the string `'1000'`, you can see that `int(bin(16)[2:])` equals the actual integer 1000, which is not what you want!
In Python, the `^` operator for integers already does the looking at their binary representations for you. For example, in Python, `20 ^ 25` directly evaluates to `13`, the correct answer, because
• the binary representation of 20 is `10100`
• the binary representation of 25 is `11001`
• the binary representation of 13 is `01101`
Now you can finish your approach by using Python's `count` function to count the number of `1` characters in the string. For example, `'01101'.count('1')` evaluates to `3`.
• Thanks!!! Haha. Actually, I looked up the document after lunch and realized that bitwise operators apply to int type as well just I just did `return(str(bin(x^y)).count('1'))` – Eliza Jul 21 '18 at 19:09