Introsort begins with quicksort and switches to heapsort when the recursion depth exceeds a level based on the number of elements being sorted. What is that number? Is there a specific range or a limiting value?
The point at which the Introsort algorithm switches from Quicksort to Heapsort is determined by depth_limit:
depth_limit = 2 · ⎣log_{2}(l)⎦
Where l is the length of the sequence that is to be sorted, so l=n for the whole sequence. With each recursive call depth_limit is decremented by one. When depth_limit reaches 0, it switches from Quicksort to Heapsort.

By your logic the Heapsort will never happen as the depth limit will never be reached. – this Oct 12 '13 at 4:53


Read my comment below; another example: Array of 10000 members would have a depth limit of (13*2), if the array if approximately split in half on every recursion then on the 14th level the subarrays will have 0 elements. – this Oct 12 '13 at 13:23

4@self. Well, splitting in half is the bestcase; in worstcase the sequence will get split into (1,N1). In that case depth_limit reaches 0. – Gumbo Oct 12 '13 at 14:14
I just tried reading the introductory Wikipedia article. It says
It counts the recursion depth. If a logarithmic depth is exceeded, the algorithm switches to Heapsort from Quicksort to keep the worst case outcome of Quicksort down
and through the Musser's original paper on Introsort.
It says that introsort is slower than heapsort because it performs 2*log(2,N) computations before it switches to heapsort.
My understanding is that recursion depth is 2*log(2,N)
For N=300 elements to sort, it will be 2*8 = 16

If using depth limit of 16 on an arry of 300 elements at approximately the 10th depth level the subarray will have 0 elements. – this Oct 12 '13 at 4:55