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Is there an established way of measuring (or getting an existing measure) of a JDK class method complexity? Is javap representative of time complexity and to what degree. In particular, I am interested in the complexity of Arrays.sort() but also some other collections manipulation methods.

E.g. I am trying to compare two implementations for performance, one is using Arrays.sort() and one doesn't. The javap disassembly for that doesn't returns a lot more steps (twice as many) but I am not sure if the one that does excludes the Arrays.sort() steps. IOW, does javap of one method include a recursive measure of the methods invoked within or just for that method?

Also, is there a way, without modifying and recompiling the Java code itself, to find how many loop iterations were done when a certain base Java method was invoked on specific parameters? E.g. measure the number of iterations of Arrays.sort('A', 'r', 'T', 'f')?

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3 Answers 3

up vote 3 down vote accepted

I would not expect javap to be even a little bit representative of actual speed.

The Javadoc specifies the algorithmic complexity, but if you care about constant factors there is absolutely no way to realistically compare constant factors except with actual benchmarks.

You can't get any information on what was done when Arrays.sort is called on a primitive array, but by passing a custom Comparator that counts the number of calls, you can count the number of comparisons made when sorting an object array. (That said, object arrays are sorted with a different sorting algorithm -- specifically a stable one -- and primitive arrays are sorted with a Quicksort variant.)

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they don't have any downloads listed for Caliper on that page –  amphibient Mar 28 '13 at 20:12
    
Caliper's a bit in flux at the moment; they're doing a total rewrite -- but the point remains that you need to actually run sorts and time them. –  Louis Wasserman Mar 28 '13 at 20:13
    
so basically do sampling with actual data? –  amphibient Mar 28 '13 at 20:14
    
That's correct. Java does so much optimization in the JIT that any guess just by looking at code will almost certainly be terribly off. –  Louis Wasserman Mar 28 '13 at 20:45
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System.nanoTime() is the proper way to measure "elapsed time." –  Louis Wasserman Mar 28 '13 at 21:08

you can use the output from javap to determine where loops occur you want to find the goto instruction. This post gives a comprehensive explanation of that identification.

From the post:

Before considering any loop start/exit instrumentation, you should look into the definitions of what entry, exit and successors are. Although a loop will only have one entry point, it may have multiple exit points and/or multiple successors, typically caused by break statements (sometimes with labels), return statements and/or exceptions (explicitly caught or not). While you haven't given details regarding the kind of instrumentations you're investigating, it's certainly worth considering where you want to insert code (if that's what you want to do). Typically, some instrumentation may have to be done before each exit statement or instead of each successor statement (in which case you'll have to move the original statement).

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but does javap of one method include a recursive measure of the methods invoked within or just for that method? –  amphibient Mar 28 '13 at 19:45
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@amphibient great question. That i do not know, but it does interest me from a research perspective. –  Woot4Moo Mar 28 '13 at 19:54
    
@amphibient: just for that method. –  Louis Wasserman Mar 28 '13 at 19:56

Arrays.sort() for primitives uses tuned quicksort. For Object uses mergesort (but this is depends on implementation).

From: Arrays

For example, the algorithm used by sort(Object[]) does not have to be a mergesort, but it does have to be stable

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@downvoter:You should comment.The OP asks about comparing sorting methods.What is the problem by explaining what are the sorting methods actually used as an answer? –  Cratylus Mar 28 '13 at 20:22
    
the OP got a downvote too. i have no clue why –  amphibient Mar 28 '13 at 21:00

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