Title:
The Hamming distance between two integers is the number of positions at which the corresponding bits are different.
Given two integers x and y, calculate the Hamming distance.
Example 1:
Input: x = 1, y = 4
Output: 2
Explanation:
1 (0 0 0 1)
4 (0 1 0 0)
↑ ↑
The above arrows point to positions where the corresponding bits are different.
Note:
0 ≤ x, y < 231.
Analysis of Title:
The example is clearly. To sum up, Hamming Distance is the different of x and y in binary.
Test case:
1
4
Python:
class Solution(object):
def hammingDistance(self, x, y):
"""
:type x: int
:type y: int
:rtype: int
"""
return bin(x^y).count("1")
Analysis of Code:
1. x^y Although '^' is a binary operationx, python well auto change int into binary, and then back-change to int, so x^y=1^4=001^100=101=5
2.bin(5) is str