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I have a trivial quicksort implementation that goes by:

template <typename IteratorType>
void quicksort(IteratorType begin, IteratorType end)
  if (begin != end)
    const auto pivot = *(begin + distance(begin, end) / 2);
    const IteratorType sep = std::partition(begin, end, [pivot](typename IteratorType::value_type v){ return (v < pivot); });

    if (sep != begin)
      quicksort(begin, sep);

    if (sep != end)
      quicksort(sep + 1, end);

Testing it on a 1000000 elements array takes about forever (6300 ms) before sometimes dying of recursion, while std::sort takes like 30 ms.

Surely I don't expect my crappy implementation to be as fast as std::sort but how can there be such a huge difference ?

I understand std::sort uses something more complicated than a simple quicksort (I believe it is introsort) that prevents going too far the recursion level and stuff. But still, is there something obvious I'm missing that could explain such a huge difference ?

Varying the size of the arraw shows that the difference factor is not constant, actually it seems to grow like .

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marked as duplicate by inf, 0x499602D2, pmr, Matthieu M., Blastfurnace Apr 28 '13 at 17:42

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

The implementation for libstdc++ begins on line 5207 of std_algo.h. –  Joseph Mansfield Apr 28 '13 at 13:39
@bamboon: I actually have read this question (and its answers). I'm not sure it is exactly similar. My main concern is about explaining the differences at the implementation level rather than at the functional level. –  ereOn Apr 28 '13 at 13:42
Well, you have a pretty standard quicksort implementation which even has O(n^2) worst-case runtime into which you might trap. Also, the question might be a better fit for codereview.stackexchange.com. –  inf Apr 28 '13 at 13:45
Hmm, I don't think that I can help much about that, just flag it. –  inf Apr 28 '13 at 13:48

2 Answers 2

up vote 1 down vote accepted

Check out better pivot selection first (commonly, median of 3 is used) and eliminate one branch of the recursion to save stack space.

Pivot selection has the biggest impact on the overall algorithmic performance, since it makes the difference between N*log(n) and N^2.

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Assuming the code is correct (quicksort can be tricky) then I guess the big difference is that you are not using a faster sort when the number of elements is small. For instance it's common to use selection sort when the number of elements to be sorted is less than some smallish number.

That rinky-dink C++11 code makes me suspicious as well, although I'll freely admit knowing nothing about it.

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Yes, this is a good point, but it's insertion sort, not selection sort, which is used there. This is because selection sort is always in O(N^2) for the number of comparisons, while insertion sort has a best case in O(N). –  ltjax Apr 28 '13 at 14:32

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