I am working on dual pivot quick sort I found here (page no-20 in slide)


Yaroslavskiy needs = 1.9 n ln n on average.

Classic Quicksort needs = 2 n ln n comparisons!


Swaps for Yaroslavskiy’s algorithm = 0.6 n ln n

Swaps for classic Quicksort=0.3 n ln n


Data type-----comp-------swap

int -------------591ns---------802ns


double -------873ns----------1047ns

char ----------593ns-----------837ns

/* note :- above results in nanosecond and performed in java lang using intel core 2 duo */

if we combine the cost of swap and comparison than Classic Quicksort beats Yaroslavskiy Quicksort except in case of string where we use array of pointer to swap which require 88 nanosecond.Here Yaroslavskiy’s algorithm take advantage of 1.9 n ln n comparison because comparison is too much expensive compare to swap in case of string.

i want to know why java uses Yaroslavskiy Quicksort ? is main focus of inbuilt library sort are string what if it is not good on others data type?

  • Where does java use this algorithm? Collections.sort uses modified mergesort as per javadoc – Zavior Feb 16 '14 at 14:02
  • google it i can provide u public domain code docjar.com/html/api/java/util/DualPivotQuicksort.java.html – asd Feb 16 '14 at 14:05
  • "The algorithm offers O(n log(n)) performance on many data sets that cause other quicksorts to degrade to quadratic performance, and is typically faster than traditional (one-pivot) Quicksort implementations." I would guess this is why. Other than that, you would have to ask the people who included it in the library. – Zavior Feb 16 '14 at 14:07
  • @Zavior Collections.sort might use mergesort, but Arrays.sort (those operating on arrays of primitive types) uses quicksort. It has to do with the stability of the sort - stable vs unstable sort on primitives containers makes no difference in the result, but it does on objects. – Dukeling Feb 16 '14 at 14:09
  • @Zavior yes it is correct but only for worst case what about avg case?where single pivot is better than dual for other data type except string – asd Feb 16 '14 at 14:11

I don't know where you got your numbers from. According to this page:

It is proved that for the Dual-Pivot Quicksort the average number of comparisons is 2*n*ln(n), the average number of swaps is 0.8*n*ln(n), whereas classical Quicksort algorithm has 2*n*ln(n) and 1*n*ln(n) respectively.

It looks like dual-pivot is always better.


I tested dual java's pivot quicksort against many other quicksorts. It was 10~15% faster at minimum. Besides doublepivotness, it uses a lot of other optimisations:

  • 5-point pivot selection
  • insertion sort degration for small subarrays
  • data properties detection (instead of shuffling)

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