In Worst case Quicksort recursion Depth requires Stack space of O(n). Why it doesn't cause a stack overflow for large set in the worst case? (reversed sequence)
If you recurse on both sides of the pivot then it does cause stack overflow for sufficiently large data in the worst case. That's why nobody uses a naive QuickSort in production code. There is a simple change you can make to the algorithm to prevent There are further changes you can make to avoid 


It could cause a stack overflow in the case of a reversed sequence (the worest case). Because an array could be too large for the internal function stack. (99,000,000 elements, for example) You could just replace recursion with a



It does. Why would you assume that it doesn’t? (But note that the worst case input for quicksort depends on the pivot you chose. It’s not generally the reversed sequence – and in fact, for a naive choice of pivot another worstcase input is an already sorted sequence, it doesn’t have to be reversed.) But library implementations of sort algorithms are actually rarely quicksort nowadays, precisely for this reason. For instance, the C++ 


1/n!
(how many times have you seen a code where an already sorted array is resorted? too much...), while I doubt the probability of the worst case array when chosing the middle element will be much greater then1/n!
if any. That said  if you are afraid of attacks  then any arbitrary selection should be avoided. – amit Oct 19 '12 at 12:31