What sort does Java Collections.sort(nodes) use?

I think it is MergeSort, which is O(n log n).

However, the following output disagrees:

``````-1,0000000099000391,0000000099000427
1,0000000099000427,0000000099000346
5,0000000099000391,0000000099000346
1,0000000099000427,0000000099000345
5,0000000099000391,0000000099000345
1,0000000099000346,0000000099000345
``````

I am sorting a nodelist of 4 nodes by sequence number, and the sort is doing 6 comparisons. I am puzzled because 6 > (4 log(4)). Can someone explain this to me?

P.S. It is mergesort, but I still don't understand my results.

Thanks for the answers everyone. Thank you Tom for correcting my math.

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(Collections.sort in JDK7 should do few comparisons for partially sorted data. Josh Bloch has ported Python's Tim sort (a version of merge sort).) –  Tom Hawtin - tackline Apr 15 '09 at 19:16
If it were log base 2 (notation??), 4 log[2] 4 = 4 log[2](2^2) = 4.2 log[2] 2 = 4.2.1 = 8. (If I remember by sixth form maths correctly.) But, yes, there's a constant there. –  Tom Hawtin - tackline Apr 15 '09 at 19:22
so I guess JDK7 uses timsort by default? –  rogerdpack Apr 6 '12 at 16:12

O(n log n) doesn't mean that the number of comparisons will be equal to or less than n log n, just that the time taken will scale proportionally to n log n. Try doing tests with 8 nodes, or 16 nodes, or 32 nodes, and checking out the timing.

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Ah, I see. I was assuming that it was number of comparisons. My mistake. Thanks! –  Kyle Jones Apr 15 '09 at 19:13
That's a pretty small number of comparisons, you could comfortably multiply those by 1000 for better results. –  Dana the Sane Apr 15 '09 at 19:20
True, but his example was with 4 initially :) –  ajm Apr 15 '09 at 19:21

You sorted four nodes, so you didn't get merge sort; sort switched to insertion sort.

In Java, the Arrays.sort() methods use merge sort or a tuned quicksort depending on the datatypes and for implementation efficiency switch to insertion sort when fewer than seven array elements are being sorted. (Wikipedia, emphasis added)

Arrays.sort is used indirectly by the Collections classes.

A recently accepted bug report indicates that the Sun implementation of Java will use Python's timsort in the future: http://bugs.sun.com/bugdatabase/view_bug.do?bug_id=6804124

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Also mentioned in the OpenJDK Forum: Core Libraries Round Table last thursday. mediacast.sun.com/users/robilad/media/… [MP3!] –  Tom Hawtin - tackline Apr 15 '09 at 19:24
Interesting read, thanks. –  Dana the Sane Apr 15 '09 at 19:30
Quicksort beats merge sort. Java uses quicksort as sorting algorithm. –  DarthVader Oct 4 '09 at 19:40
The constants on quicksort is really small, because it s in place. Timsort, is a hybrid of merge sort and insertion sort, which uses insertion sort at merge stage, doesnt gain too much for this. The constant is still to high compared to quicksort. –  DarthVader Oct 4 '09 at 19:41

An algorithm A(n) that processes an amount of data n is in O(f(n)), for some function f, if there exist two strictly positive constants C_inf and C_sup such that:

C_inf . f(n) < ExpectedValue(OperationCount(A(n))) < C_sup . f(n)

Two things to note:

• The actual constants C could be anything, and do depend on the relative costs of operations (depending on the language, the VM, the architecture, or your actual definition of an operation). On some platforms, for instance, + and * have the same cost, on some other the later is an order of magnitude slower.

• The quantity ascribed as "in O(f(n))" is an expected operation count, based on some probably arbitrary model of the data you are dealing with. For instance, if your data is almost completely sorted, a merge-sort algorithm is going to be mostly O(n), not O(n . Log(n)).

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For an arbitrary sized n-bit integer, + will typically be O(n) and * IIRC O(n log n). There are "fun" things you can do to algorithms to just use huge integers and relatively few (big-O) operations. –  Tom Hawtin - tackline Apr 15 '09 at 19:28
Quicksort is the canonical example of an algorithm which is mostly O(n log n), but can go O(n^2) (for instance sorted input with first element as pivot). –  Tom Hawtin - tackline Apr 15 '09 at 19:30
Yes... for all those complexity estimation tasks, the devil is in the model. For it to be any use, you generally also have to take into account the worst-case complexity, not just the expected cost. And it's often a b**ch to find the worst-case... –  Varkhan Apr 15 '09 at 19:34