Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

Why is it that I mostly hear about quicksort being the fastest overall sorting algorithm when timsort (according to wikipedia) seem to perform much better? Google didn't seem to turn up any kind of comparison.

share|improve this question
With a little more thought and some references, this could be a good question. –  Michael Petrotta Oct 14 '11 at 15:54
Because people choose to ignore that quicksort is O(n^2) worst case. –  Patrick87 Oct 14 '11 at 15:55
One possible answer would be: You speak to the wrong persons. But as an other answer already implied: qsort is much older, so its used in far more libraries - and you know: Never touch a running system. If the average running time (meaning: in the use cases of the people using it) is not much worse than the run time of a different algorithm (like timsort) the people are too lazy (or have better things to do) than to change something, that does the same in the same time. And in some applications (it seems e.g. python) timsort is already default. –  flolo Oct 14 '11 at 16:10
@Patrick87: The truth is much different. You are ignoring the O(n) best case. It's not about worst cases that basically never happen, it's about best cases that actually do. timsort does a good job when it encounters a sorted range. –  Rob Neuhaus Oct 14 '11 at 16:12
@rrenaud worst cases "basically" never happen, but they do "actually" happen, sometimes. It is an important consideration, especially when hitting a worst case O(n<sup>2</sup>) means bad things happen. –  brc Oct 14 '11 at 16:14

3 Answers 3

up vote 7 down vote accepted

TimSort is highly optimization mergesort, it is stable and faster than old mergesort.

when comparing with quicksort, it has two advantages:

  1. It is unbelievably fast for nearly sorted data sequence (including reverse sorted data);
  2. The worst case is still O(N*LOG(N)).

To be honest, I don't think #1 is a advantage, but it did impress me.

Here are QuickSort's advantages

  1. QuickSort is very very simple, even a highly tuned implementation, we can write down its pseduo codes within 20 lines;
  2. QuickSort is fastest in most cases;
  3. The memory consumption is LOG(N).

Currently, Java 7 SDK implements timsort and a new quicksort variant: i.e. Dual Pivot QuickSort.

If you need stable sort, try timsort, otherwise start with quicksort.

share|improve this answer

More or less, it has to do with the fact that Timsort is a hybrid sorting algorithm. This means that while the two underlying sorts it uses (Mergesort and Insertion sort) are both worse than Quicksort for many kinds of data, Timsort only uses them when it is advantageous to do so.

On a slightly deeper level, as Patrick87 states, quicksort is a worst-case O(n2) algorithm. Choosing a good pivot isn't hard, but guaranteeing an O(n log n) quicksort comes at the cost of generally slower sorting on average.

For more detail on Timsort, see this answer, and the linked blog post. It basically assumes that most data is already partially sorted, and constructs "runs" of sorted data that allow for efficient merges using mergesort.

share|improve this answer

Generally speaking quicksort is best algorithm for primitive array. This is due to memory locality and cache.

JDK7 uses TimSort for Object array. Object array only holds object reference. The object itself is stored in Heap. To compare object, we need to read object from heap. This is like reading from one part of the heap for one object, then randomly reading object from another part of heap. There will be a lot of cache miss. I guess for this reason memory locality is not important any more. This is may be why JDK only uses TimSort for Object array instead if primitive array.

This is only my guess.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.