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I'm new to Java 8. I still don't know the API in depth, but I've made a small informal benchmark to compare the performance of the new Streams API vs the good old Collections.

The test consists in filtering a list of Integer, and for each even number, calculate the square root and storing it in a result List of Double.

Here is the code:

    public static void main(String[] args) {
        //Calculating square root of even numbers from 1 to N       
        int min = 1;
        int max = 1000000;

        List<Integer> sourceList = new ArrayList<>();
        for (int i = min; i < max; i++) {
            sourceList.add(i);
        }

        List<Double> result = new LinkedList<>();


        //Collections approach
        long t0 = System.nanoTime();
        long elapsed = 0;
        for (Integer i : sourceList) {
            if(i % 2 == 0){
                result.add(Math.sqrt(i));
            }
        }
        elapsed = System.nanoTime() - t0;       
        System.out.printf("Collections: Elapsed time:\t %d ns \t(%f seconds)%n", elapsed, elapsed / Math.pow(10, 9));


        //Stream approach
        Stream<Integer> stream = sourceList.stream();       
        t0 = System.nanoTime();
        result = stream.filter(i -> i%2 == 0).map(i -> Math.sqrt(i)).collect(Collectors.toList());
        elapsed = System.nanoTime() - t0;       
        System.out.printf("Streams: Elapsed time:\t\t %d ns \t(%f seconds)%n", elapsed, elapsed / Math.pow(10, 9));


        //Parallel stream approach
        stream = sourceList.stream().parallel();        
        t0 = System.nanoTime();
        result = stream.filter(i -> i%2 == 0).map(i -> Math.sqrt(i)).collect(Collectors.toList());
        elapsed = System.nanoTime() - t0;       
        System.out.printf("Parallel streams: Elapsed time:\t %d ns \t(%f seconds)%n", elapsed, elapsed / Math.pow(10, 9));      
    }.

And here are the results for a dual core machine:

    Collections: Elapsed time:   94338247 ns    (0,094338 seconds)
    Streams: Elapsed time:       201112924 ns   (0,201113 seconds)
    Parallel streams: Elapsed time:  357243629 ns   (0,357244 seconds)

For this particular test, streams are about twice as slow as collections, and parallelism doesn't help (or either I'm using it the wrong way?).

Questions:

  • Is this test fair? Have I made any mistake?
  • Are streams slower than collections? Has anyone made a good formal benchmark on this?
  • Which approach should I strive for?

Updated results.

I ran the test 1k times after JVM warmup (1k iterations) as advised by @pveentjer:

    Collections: Average time:      206884437,000000 ns     (0,206884 seconds)
    Streams: Average time:           98366725,000000 ns     (0,098367 seconds)
    Parallel streams: Average time: 167703705,000000 ns     (0,167704 seconds)

In this case streams are more performant. I wonder what would be observed in an app where the filtering function is only called once or twice during runtime.

share|improve this question
    
have you tried it with an IntStream instead? –  Mark Rotteveel Mar 26 '14 at 11:53
2  
Can you please measure properly? If all you are doing is one run, then your benchmarks will of course be off. –  skiwi Mar 26 '14 at 11:55
1  
@MisterSmith Can we have some transparency on how you warmed up your JVM, also with 1K tests? –  skiwi Mar 26 '14 at 12:00
    
And for those interested in writting correct microbenchmarks, heres the question: stackoverflow.com/questions/504103/… –  Mister Smith Mar 26 '14 at 12:00
1  
@assylias Using toList should run in parallel even if it's collecting to a non-thread-safe list, since the different threads will collect to thread-confined intermediate lists before being merged. –  Stuart Marks Mar 26 '14 at 17:22

3 Answers 3

  1. Stop using LinkedList for anything but heavy removing from the middle of the list using iterator.

  2. Stop writing benchmarking code by hand, use JMH.

Proper benchmarks:

@OutputTimeUnit(TimeUnit.NANOSECONDS)
@BenchmarkMode(Mode.AverageTime)
@OperationsPerInvocation(StreamVsVanilla.N)
public class StreamVsVanilla {
    public static final int N = 10000;

    static List<Integer> sourceList = new ArrayList<>();
    static {
        for (int i = 0; i < N; i++) {
            sourceList.add(i);
        }
    }

    @GenerateMicroBenchmark
    public List<Double> vanilla() {
        List<Double> result = new ArrayList<>(sourceList.size() / 2 + 1);
        for (Integer i : sourceList) {
            if (i % 2 == 0){
                result.add(Math.sqrt(i));
            }
        }
        return result;
    }

    @GenerateMicroBenchmark
    public List<Double> stream() {
        return sourceList.stream()
                .filter(i -> i % 2 == 0)
                .map(Math::sqrt)
                .collect(Collectors.toCollection(
                    () -> new ArrayList<>(sourceList.size() / 2 + 1)));
    }
}

Result:

Benchmark                   Mode   Samples         Mean   Mean error    Units
StreamVsVanilla.stream      avgt        10       17.588        0.230    ns/op
StreamVsVanilla.vanilla     avgt        10       10.796        0.063    ns/op

Just as I expected stream implementation is fairly slower. JIT is able to inline all lambda stuff but doesn't produce as perfectly concise code as vanilla version.

Generally, Java 8 streams is not a magic. They couldn't speedup already well-implemented things (with, probably, plain iterations or Java 5's for-each statements replaced with Iterable.forEach() and Collection.removeIf() calls). Streams are more about coding convenience and safety. Convenience -- speed tradeoff is working here.

share|improve this answer
1  
Thanks for taking the time to bench this. I don't think changing LinkedList for ArrayList would change anything, as both tests should add to it, the times should not be affected. Anyway, could you please explain the results? It's hard to tell what you are measuring here (units say ns/op, but what is considered an op?). –  Mister Smith Mar 27 '14 at 16:55
    
@MisterSmith LinkedList is slower. op is one iteration. –  leventov Mar 27 '14 at 17:01
    
Thanks. Still 10-20 ns per iteration is too little compared to the times I obtained. –  Mister Smith Mar 27 '14 at 17:10
7  
Your conclusion about performance, while valid, is overblown. There are plenty of cases where the stream code is faster than the iterative code, largely because per-element access costs is cheaper with streams than with plain iterators. And in many cases, the streams version inlines to something that is equivalent to the hand-written version. Of course, the devil is in the details; any given bit of code might behave differently. –  Brian Goetz May 27 '14 at 17:55
1  
@BrianGoetz agree. See answer edit. –  leventov May 27 '14 at 18:09

1) You see time less than 1 second using you benchmark. That means there can be strong influence of side effects on your results. So, I increased your task 10 times

    int max = 10000000;

and ran your benchmark. My results:

Collections: Elapsed time:   8592999350 ns  (8.592999 seconds)
Streams: Elapsed time:       2068208058 ns  (2.068208 seconds)
Parallel streams: Elapsed time:  7186967071 ns  (7.186967 seconds)

without edit (int max = 1000000) results were

Collections: Elapsed time:   113373057 ns   (0.113373 seconds)
Streams: Elapsed time:       135570440 ns   (0.135570 seconds)
Parallel streams: Elapsed time:  104091980 ns   (0.104092 seconds)

It's like your results: stream is slower than collection. Conclusion: much time were spent for stream initialization/values transmitting.

2) After increasing task stream became faster (that's OK), but parallel stream remained too slow. What's wrong? Note: you have collect(Collectors.toList()) in you command, i.e. there may be a situation when you need to address single Collection by many threads (it's a parallel stream!) That cause synchronization problems and they results into big execution time. The next thing I tried was replacing

collecting to collection -> counting the element count

For streams it can be done by collect(Collectors.counting()). I got results:

Collections: Elapsed time:   41856183 ns    (0.041856 seconds)
Streams: Elapsed time:       546590322 ns   (0.546590 seconds)
Parallel streams: Elapsed time:  1540051478 ns  (1.540051 seconds)

That' s for a big task! (int max = 10000000) Conclusion: collecting items to collection took majority of time. The slowest part is adding to list. BTW, simple ArrayList is used for Collectors.toList().

share|improve this answer
    
You need to microbenchmark this test, meaning it should be first warmed up a lot of times, and then executed a lot of tmes and averaged. –  skiwi Mar 26 '14 at 11:57
    
@skiwi sure, you're right, especially because there is a large deviations in measurements. I've done only basic investigation and don't pretend results to be precise. –  Sergey Fedorov Mar 26 '14 at 13:53
    
The JIT in server mode, kicks in after 10k executions. And then it takes some time to compile the code and swap it. –  pveentjer Mar 26 '14 at 14:28

For what you are trying to do, I would not use regular java api's anyway. There is a ton of boxing/unboxing going on, so there is a huge performance overhead.

Personally I think that a lot of API designed are crap because they create a lot of object litter.

Try to use a primitive arrays of double/int and try to do it single threaded and see what the performance is.

PS: You might want to have a look at JMH to take care of doing the benchmark. It takes care of some of the typical pitfalls like warming up the JVM.

share|improve this answer
    
LinkedLists are even worse than ArrayLists because you need to create all the node objects. The mod operator also is dog slow. I believe something like 10/15 cycles + it drains the instruction pipeline. If you want to do a very fast division by 2, just shift the number 1 bit to the right. These are basic tricks, but I'm sure there are mode advanced tricks to speed things up, but these probably are more problem specific. –  pveentjer Mar 26 '14 at 10:51
    
I'm aware of the boxing. This is just an informal benchmark. The idea is to have the same ammount of boxing/unboxing in both the collections and the streams tests. –  Mister Smith Mar 26 '14 at 10:59
    
First I would make sure that it isn't measuring mistake. Try to run the benchmark a few times before you are doing the real benchmark. Then at least you have the JVM warmup out of the way and the code is correctly JITTED. Without this, you probably make the wrong conclusions. –  pveentjer Mar 26 '14 at 11:03
    
Ok, i'll post new results following your advice. I've had a look at JMH but it requires Maven and it takes some time to config. Thanks anyway. –  Mister Smith Mar 26 '14 at 11:38
    
I think it's best to avoid thinking of benchmark tests in terms of "For what you are trying to do." i.e., usually these kinds of exercises are simplified enough to be demonstrable, but complex enough that they look like they can/should be simplified. –  ryvantage Mar 26 '14 at 12:03

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