I would like to know how many comparisons, in the worst case, does Quicksort need to sort an binary array of size n
.
I can't find out what the worst case for this problem. [0 1 0 1 0 1..]
?
Cheers,
eo
Not exactly quicksort, but if you want to sort a binary array you can do it in O(n). Just count how many 1's and 0's you have then write then in the order you want. For example, for the following array:
You can count, in O(n) that you have three 0's and four 1's. Then you just rewrite your array first with the three 0's and then with the four 1's. 


Sorting an array that consists of a small number of unique keys is common in practice. One would like an algorithm that adapts to O(n) time when the number of unique keys is O(1). Which in your case there are just two unique keys. QuickSort is O(nlogn) on average, But O(n^2) on worst case, for your case I've tested the quicksort algorithm on this array And this pseudo code for O(n) algorithm:



std::sort
tostd::partition
.std::partition
guarantees exactlyn
key comparisons. – Raymond Chen Nov 17 '12 at 18:05