I have an array of N numbers which are same.I am applying Quick sort on it. What should be the time complexity of the sorting in this case.
I goggled around this question but did not get the exact explanation.
I have an array of N numbers which are same.I am applying Quick sort on it. What should be the time complexity of the sorting in this case. I goggled around this question but did not get the exact explanation. 

A naive quicksort algorithm will be A smarter pivot selection algorithm is:
However, most ordinary quicksort algorithms partition the numbers into those less than or greater than the pivot. Those equal to the pivot are arbitrarily bundled with those greater or less than the pivot. In the case of all numbers being equal, each partition will yield only a single partition  thus only reducing the size of the remaining partition by 1 each time. To avoid this, a quicksort algorithm would need to partition the numbers into 3 sets  those less than, greater than, and equal to the pivot. 


It will always do the same count of comparisions (if you use pure quicksort), because it has to check all numbers (unless you add some special function, that will check for special cases like this one). But it doesn't have to switch any numbers, so it is best case scenario, therefor it's complexity should be (n log n). 


O(n^2)
. This is the case even if it has a smarter pivot selection algorithm. To avoidO(n^2)
, a quicksort algorithm needs to partition the numbers into 3 sets for each pivot (less than, equal to, greater than). – ronalchn Sep 23 '12 at 1:05