And what can be done about it?

I have run some tests and it seems that Scala Hashmap is much slower than a Java HashMap. Please prove me wrong!

For me the whole point of Hashmap is to get quick access to a value from a given key. So I find myself resorting to using a Java HashMap when speed matters, which is a bit sad. I'm not experienced enough to say for sure but it seems that the more you mix Java and Scala the more problems you are likely to face.

test("that scala hashmap is slower than java") {
    val javaMap = new util.HashMap[Int,Int](){
      for (i <- 1 to 20)

    import collection.JavaConverters._
    val scalaMap = javaMap.asScala.toMap

    // check is a scala hashmap
    assert(scalaMap.getClass.getSuperclass === classOf[scala.collection.immutable.HashMap[Int,Int]])

    def slow = {
      val start = System.nanoTime()
      for (i <- 1 to 1000) {
        for (i <- 1 to 20) {
      System.nanoTime() - start

    def fast = {
      val start = System.nanoTime()
      for (i <- 1 to 1000) {
        for (i <- 1 to 20) {
      System.nanoTime() - start

    val elapses: IndexedSeq[(Long, Long)] = {
      (1 to 1000).map({_ => (slow,fast)})

    var elapsedSlow = 0L
    var elapsedFast = 0L
    for ((eSlow,eFast) <- elapses) {
      elapsedSlow += eSlow
      elapsedFast += eFast

    assert(elapsedSlow > elapsedFast)

    val fraction : Double = elapsedFast.toDouble/elapsedSlow
    println(s"slower by factor of: $fraction")

Am I missing something?

Answer Summary

As of now, when comparing Java 8 to Scala 2.11, it appears that Java HashMap is notably speedier at lookups (for a low number of keys) than the Scala offerings - with the exception of LongMap (if your keys are Ints/Longs).

The performance difference is not so great that it should matter in most use cases. Hopefully Scala will improve the speed of their Maps. In the mean time, if you need performance (with non-integer keys) use Java.

Int keys, n=20
Long(60), Java(93), Open(170), MutableSc(243), ImmutableSc(317)

case object keys, n=20
Java(195), AnyRef(230)

  • If you are going to use a Java map I recommend using import scala.collection.JavaConversions._
    – MS-H
    Commented Mar 10, 2015 at 10:54

3 Answers 3


First of all: doing JVM benchmarks using nanoTime is extremely error-prone. Use a microbenchmarking framework such as Thyme, Caliper or JMH

Second: you are comparing a mutable java hash map with an immutable scala hash map. Immutable collections can be remarkably fast, but there are some cases where they will never be as fast as mutable data structures.

Here is a proper microbenchmark of mutable java hash map vs. immutable scala hash map: https://gist.github.com/rklaehn/26c277b2b5666ec4b372

As you can see, the scala immutable map is a bit faster than the java mutable map. Note that this will not be the case once you go to larger maps, because an immutable data structure has to do some compromises to enable structural sharing. I would guess that in both cases, the dominant performance issue is boxing of the ints to Integer.

Update: if you really want a mutable hash hap with ints as keys, the right choice from the scala collections library is scala.collection.mutable.LongMap. This uses a long as key, and has much better performance than the generic Map because it does not have to box the value. See results from the gist.

Update 2: If your key extends from AnyRef (like e.g. a String), your best bet for a high performance mutable map is scala.collection.mutable.AnyRefMap

  • 4
    Can you explain and/or cite a source as to why using System.nanoTime() is extremely error-prone?
    – William
    Commented Feb 26, 2015 at 20:34
  • 2
    Here's a pretty good presentation about the pitfalls of relying upon System.nanoTime() for benchmarking (and the difficulties with JVM benchmarking in general): shipilev.net/blog/2014/nanotrusting-nanotime Commented Feb 26, 2015 at 21:36
  • 2
    basically the issues are: you need to give the JVM enough time for optimizing the code (so-called warmup), you need to make sure that the benchmark is not optimized away entirely. That is why a benchmark method must always return a result. Commented Feb 27, 2015 at 9:28
  • @Rüdiger Thank you for an excellent response, however, I have tried out your test, with one amendment: I removed the accumulation computation: r += javaMap.get(i) so it is instead r = javaMap.get(i) in each case. I also added the OpenHashMap out of interest. The results do not match your own! I get: Java 127.9 vs Scala Immutable 534.5, and Java 126.8 vs Scala Long 88.59, Java 126.2 vs Scala Open 245.2. So Scala only wins when using a LongMap and is significantly worse in the other cases. But I think the reason for this comes down to the one given by @mohit
    – MS-H
    Commented Feb 27, 2015 at 14:46
  • @RüdigerKlaehn - OP runs each function 1000 times. His each function runs get calls another 1000 times. OP then aggregates the result from both the functions and then divides it to get the factor which is same as taking average. JVM is warmed up by running the functions multiple times and the functions return the times, so why is his method wrong?
    – mohit
    Commented Feb 27, 2015 at 15:38

Instead of calling apply i.e scalaMap(i), if you do scalaMap.get(i) then it is as fast as javaMap.get(i)

From source, the code for apply is

def apply(key: A): B = get(key) match {
    case None => default(key)
    case Some(value) => value

which shows that apply method first calls the get method and then pattern matches on it. Having an extra hop for each call in case of an option does have performance penalty and has already been discussed on SO(can't find the link though)

  • Have you tried? I got similar benchmark result as apply.
    – Arie Xiao
    Commented Feb 26, 2015 at 15:06
  • @ArieShaw Yes, I tried. I am using scala-2.11 and there was hardly any performance penalty. Sometimes, scalaMap was faster(courtesy of JVM)
    – mohit
    Commented Feb 26, 2015 at 15:08
  • @mohit Thanks, I should have thought of that! Though I think that the main reason this slows you down is the creation of an object: Some - rather than the pattern matching.
    – MS-H
    Commented Feb 27, 2015 at 15:23
  • @MS-H - calling scalaMap.get(i) and javaMap.get(i) didn't show difference whenever I tested. Calling apply had a good performance penalty. If there was no pattern match after apply, then it was same as calling get directly. The extra step is the pattern match which makes me think that this is what causing the slowness.
    – mohit
    Commented Feb 27, 2015 at 15:34
  • 1
    Some is created in the get method itself. case statement simply calls the unapply..
    – Dragonborn
    Commented Sep 7, 2015 at 6:26

Scala 2.13 (June 2019) do introduce new, faster HashMap/Set implementations

Both immutable (d5ae93e) and mutable (#7348) versions were completely replaced. - They substantially outperform the old implementations in most scenarios. - The mutable versions now perform on par with the Java standard library's implementations.

For the immutable HashSet and HashMap:

The reimplementations are based upon Compressed Hash-Array Mapped Prefix-trees (CHAMP).

See paper "Optimizing Hash-Array Mapped Tries for Fast and Lean Immutable JVM Collections" by Steindorfer and Vinju (OOPSLA'15) for more details and descriptions of low-level performance optimizations (a pre-print of the paper is available).

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