Java 6's Arrays.sort method uses Quicksort for arrays of primitives and merge sort for arrays of objects. I believe that most of time Quicksort is faster than merge sort and costs less memory. My experiments support that, although both algorithms are O(n log(n)). So why are different algorithms used for different types?

up vote 158 down vote accepted

The most likely reason: quicksort is not stable, i.e. equal entries can change their relative position during the sort; among other things, this means that if you sort an already sorted array, it may not stay unchanged.

Since primitive types have no identity (there is no way to distinguish two ints with the same value), this does not matter for them. But for reference types, it could cause problems for some applications. Therefore, a stable merge sort is used for those.

OTOH, a reason not to use the (guaranteed n*log(n)) stable merge sort for primitive types might be that it requires making a clone of the array. For reference types, where the referred objects usually take up far more memory than the array of references, this generally does not matter. But for primitive types, cloning the array outright doubles the memory usage.

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    Another reason to use quicksort is that on the average case, quicksort is faster than mergesort. Although quicksort does more compares than mergesort, it does much less array accesses. 3-way quicksort can also achieve linear time if the input contains a lot of duplicated entries which is not unusual in practical applications (My guess is that dual pivot quick-sort also has this property ). – Jingguo Yao Feb 14 '16 at 6:53
  • For primitive types it doesn't clone the array, it can sort them in place, so I think the only reason is the stability contract, basically... – rogerdpack Jul 3 at 18:24

According to Java 7 API docs cited in this answer, Arrays#Sort() for object arrays now uses TimSort, which is a hybrid of MergeSort and InsertionSort. On the other hand, Arrays#sort() for primitive arrays now uses Dual-Pivot QuickSort. These changes were implemented starting in Java SE 7.

  • It is not an answer, why 2 different algorithms have been chosen. – Alexandr Oct 17 at 4:23

One reason I can think of is that quicksort has a worst case time complexity of O(n^2) while mergesort retains worst case time of O(n log n). For object arrays there is a fair expectation that there will be multiple duplicate object references which is one case where quicksort does worst.

There is a decent visual comparison of various algorithms, pay particular attention to the right-most graph for different algorithms.

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    +1 for my favorite site on the internet for today. – Justin L. Sep 14 '10 at 9:52
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    The java quicksort is a modified quicksort that does not derade to O(n^2), from the docs "This algorithm offers n*log(n) performance on many data sets that cause other quicksorts to degrade to quadratic performance" – sbridges Jan 7 '12 at 17:46
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    "On many data sets" is not the same as "on all"... – Puce Mar 1 '13 at 10:22

I was taking Coursera class on Algorithms and in one of the lectures Professor Bob Sedgewick mentioning the assessment for Java system sort:

"If a programmer is using objects, maybe space is not a critically important consideration and the extra space used by a merge sort maybe not a problem. And if a programmer is using primitive types, maybe the performance is the most important thing so they use quick sort."

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    It is not the main reason. Right after that sentence there was a question, embedded into video about "Why for reference types is used MergeSort?" (because it's stable). I think Sedgewick didn't mention that in video to leave it for question. – likern Jul 26 '15 at 17:48

Java's Arrays.sort method uses quicksort, insertion sort and mergesort. There is even both a single and dual pivot quicksort implemented in the OpenJDK code. The fastest sorting algorithm depends on the circumstances and the winners are: insertion sort for small arrays (47 currently chosen), mergesort for mostly sorted arrays, and quicksort for the remaining arrays so Java's Array.sort() tries to choose the best algorithm to apply based on those criteria.

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