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As part of a school exercise I would like to compare and contrast sorting algorithms as a Java exercise.

I implemented the sorting algorithms myself and we sort objects of a class Person which implements the Comparable interface.

So far so good, but what I can't explain is why during the first call to my sorting methods, the sorting takes longer than on subsequent calls?
The output bellow represents my results.
Best, Worst and Avg refer to the unsorted array that is passed to the sorting method:

  • Best: the array is already sorted
  • Worst: the array is sorted in reverse order
  • Avg: the objects in the array are at random order

This is my output:

1-call of the sorting methods 
InsertionSort Best:1799ms    Worst:78ms  Avg:789ms   
MergeSort     Best:10ms      Worst:3ms   Avg:5ms     

2-call of the sorting methods 
InsertionSort Best:1065ms    Worst:39ms  Avg:691ms   
MergeSort     Best:3ms       Worst:2ms   Avg:5ms     

3-call of the sorting methods 
InsertionSort Best:1066ms    Worst:39ms  Avg:692ms   
MergeSort     Best:3ms       Worst:2ms   Avg:5ms     

4-call of the sorting methods 
InsertionSort Best:1065ms    Worst:39ms  Avg:691ms   
MergeSort     Best:3ms       Worst:2ms   Avg:5ms     

Is the JVM doing any optimizations on subsequent calls?
I am puzzled and would greatly appreciate any help!

Edit: Thanks for suggestions and answers so far! To make a few points clear - each of the calls in my output refer to the time it take for a complete sorting!
After each sorting I make a new call with UNSORTED arrays again!

My source code can be downloaded as an eclipse project as a zip file, at the following Dropbox link: dropbox link to eclipse

P.S. I have no experience with profilers - if you could point me to a tutorial or so that would be great.

share|improve this question
Can you post the code? – Alex Weitz Mar 12 at 17:12
Did you re-shuffle your data between runs? – user1676075 Mar 12 at 17:13
This is hard to say without any code; and for example; it might depend on how you do measure. There are quite some pitfalls that one can ran into regarding performance measurement. Sometimes for example, the Java just-in-time compiler does interesting things. – Jägermeister Mar 12 at 17:16
I will suggest using a Profiler. – user3437460 Mar 12 at 17:17
Hi - yes I am re-shuffling the data between runs – erik.eilif Mar 12 at 18:05

There are many things at work here, as the variety of responses indicate.

But the first run's long runtime is probably explained by JIT (just-in-time) compilation. As discussed here, your algorithm will run in the JVM for a while as interpreted bytecode. When the Hotspot monitor determines that your sort's loops are costly, the JVM will compile them to native code. After that, they'll run considerably faster. The first run is getting the disadvantage of running in the interpreter for a while plus the extra costs of compilation. This is why "warming up" is a common term in Java benchmarks.

The differences in performance on different inputs are tied to the sort algorithm. Many algorithms behave differently based on initial data organization, and many are deliberately organized to do well on initially sorted or nearly sorted data. Here is a brilliant demonstration for the case of nearly sorted input. E.g. insertion sort is quadratic time in general, but linear time on nearly sorted input (actually O((k+1)n) for input of size n where elements are no more than k positions from correctly sorted).

Then there is the branch prediction issue already referenced by link. Modern processors have various mechanisms that attempt to "guess" which way a branch (essentially an "if" statement at the machine level) will go based on recent history gathered as the program runs. The cost of a bad guess is high. The goodness of the guess is likely to be affected by both algorithm and data details.

share|improve this answer
wow - thank you! I don't understand all of your answer but i will read up on JIT. Thank you Gene! – erik.eilif Mar 12 at 18:20

Processing a sorted array is faster than processing an un-sorted one due to Branch Prediction.
This has been covered extensively in the most famous Stack Overflow question.

share|improve this answer
hi, i know this, but it is not my question! I think you read through my post too quickly. – erik.eilif Mar 12 at 18:24
Hi Erik, I thought that's exactly was the case. If I was (somewhat) wrong I apologize, but from how the question is phrased this seems to be the answer. Branch Prediction is the reason sorting second time round is faster (question title verbatim) :) – Idos Mar 12 at 18:28
hi Idos, no need to apologize! Maybe my questions is a bit unclear - english is not my native language! I understood you answer that there is a differnence if I try to sort an unsorted or already sorted array - and this i understand! However - are you saying that if I send an unsorted array to a method to sort it, and after it is finished I send the same original UNSORTED array again to the method, then it will be faster due to branch prediction? I dont know much about branch predicition :( – erik.eilif Mar 12 at 18:34

It is faster in the second round of sorting because there is less data to run through. Take this array as an example:


The algorithm runs through the first set of numbers like so: if 4 is greater than 2, switch places. If 4 > 9, switch places, and so on. The next time they run through the algorithm, there is one less time to run through, because they know that the end term is the greatest number. I hope that this helps you out.

share|improve this answer
If it is due to lesser data to run in 2nd iteration, all subsequent iterations shall run in much shorter time than the previous. But apparently, it is not the case here. – user3437460 Mar 12 at 17:13
hi, thanks but your answer is not the case in my questions. The timings i post are the COMPLETE time for sorting, not iterations in the sorting algorithm. – erik.eilif Mar 12 at 18:21

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