The Hamming distance between two integers is the number of positions at which the corresponding bits are different.
Now your job is to find the total Hamming distance between all pairs of the given numbers.
Example:
Input: 4, 14, 2
Output: 6
Explanation: In binary representation, the 4 is 0100, 14 is 1110, and 2 is 0010 (just
showing the four bits relevant in this case). So the answer will be:
HammingDistance(4, 14) + HammingDistance(4, 2) + HammingDistance(14, 2) = 2 + 2 + 2 = 6.
Note:
0
to 10^9
10^4
.# @lc code=start
using LeetCode
function total_hamming_distance(nums)
res, n = 0, length(nums)
for i in 0:30
c = 0
for num in nums
c += (num >> i) & 1
end
res += c * (n - c)
end
return res
end
# @lc code=end
total_hamming_distance (generic function with 1 method)
This notebook was generated using Literate.jl.