highly optimized algo to sort an array consisting of only 0s n 1s

I need to find a highly optimized algo to sort an array consisting of only 0s n 1s.

My version of the solution is to count the no. of zeroes(say x) and ones(say y). Once you do that, place x zeroes in the array followed by y 1s. This makes it O(n).

Any algo that runs better than this??? I was asked this question in interview.

• You do have to scan the complete array once. That makes it O(n). I dont think any other algorithm can better O(n). – Vikas May 17 '12 at 14:41

Since you have to examine each of `n` input elements, you can't improve on `O(n)`.

Also, since your algorithm requires `O(1)` memory, you can't improve on that either (there's nothing asymptotically better than `O(1)`).

we can't do better than O(n), but looks like we can do in one pass

``````low = 0;
high = arr.length - 1;

while (low < high) {
while (arr[low] == 0) {
low ++;
}
while (arr[high] == 1) {
high --;
}
if (low < high) {
//swap arr[low], arr[high]
}
}
``````

If you sum the array, you could have the number of 1's, slightly more efficient, but still O(n).

You can't be more efficient than O(N) because each item needs to be inspected.

What kind of an "array" are we talking about? If we were to count the bits in a 16-bit unsigned integer then several O(1) time algorithms have been developed: see Fast Bit Count Routines.

This is one of the algorithms presented there; the one they call the Nifty Parallel Count:

``````#define MASK_01010101 (((unsigned int)(-1))/3)