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I have a test which fails intermittently because of ordering issues when I iterate over the values in a Map.

Scala helpfully provides a ListMap which makes the tests stable, at the expense of performance. So I abstracted the ImmutableMapFactory as a val and use it in my code.

class C {
  val immutableMapFactory = scala.collection.immutable.Map

  def func = {
    immutableMapFactory(pairs :_*)

Now my plan was to extend C and override immutableMapFactory for tests

class TestableC extends C {
  override val immutableMapFactory = scala.collection.immutable.ListMap

Unsurprising this fails as ListMap does not have the same type as Map. How should I specify the type of the val (or a def) so that I can use the factory wherever I need to create a Map?

share|improve this question
If possible, I suggest making your test resilient to map order. Or build a SortedMap in your test. Overall, that usually makes things cleaner. – leedm777 Oct 25 '11 at 13:26
@dave that's exactly what I'm doing, but I don't want to pay the price of imposing a sort on the real code. – Duncan McGregor Oct 25 '11 at 15:44
up vote 2 down vote accepted

Your problem is in this line:

val immutableMapFactory = scala.collection.immutable.Map

This makes immutableMapFactory equal to the singleton object Map. ListMap (the singleton) is not a subclass of Map (the singleton), so the subsequent override fails.

If you instead take the apply method from Map, and partially apply it to form a first class function (of type (A, B)* => immutable.Map[A,B]) then the technique can be made to work:

import collection.immutable

class Bip {
  def fac[A,B] = immutable.Map.apply[A,B] _

class Bop extends Bip {
  override def fac[A,B] = immutable.ListMap.apply[A,B] _
share|improve this answer
I'm reading this as the same as Daniel's option 1, but with more inference? – Duncan McGregor Oct 25 '11 at 15:53
With more explanation as to why you had the problem in the first place, and why this works as a fix – Kevin Wright Oct 26 '11 at 14:19
It wasn't a charge of plagiarism, and I prefer your version (for lack of (brackety noise ;-)). I do think it a shame that ImmutableMapFactory can't be used as the type though. – Duncan McGregor Oct 26 '11 at 17:08

Two possible ways. First, using def and functions, which I think is a better abstraction.

class C {
  def immutableMapFactory[A,B]: ((A,B)*) => Map[A,B] = scala.collection.immutable.Map.apply _

class TestableC extends C {
  override def immutableMapFactory[A,B] = scala.collection.immutable.ListMap.apply _

Second, using val, and structural types:

class C {
  val immutableMapFactory: { def apply[A,B](t: (A,B)*): Map[A,B] } = scala.collection.immutable.Map

class TestableC extends C {
  override val immutableMapFactory: { def apply[A,B](t: (A,B)*): Map[A,B] } = scala.collection.immutable.ListMap
share|improve this answer
Thank you, I hadn't thought of specifying the type of the function rather than that of the value. – Duncan McGregor Oct 24 '11 at 23:25
Although as I look at it, this solves the problem only for one operation. What if there were more? Isn't the point of object rather than static that I can still swap behaviour given a common interface? Is there really no way to express the common supertype of the ListMap and Map companion objects? – Duncan McGregor Oct 25 '11 at 7:33
@DuncanMcGregor Yes and no. To swap this behavior requires that the object implements an interface. As it happens, there's one such trait -- scala.collection.generic.ImmutableMapFactory -- which, unfortunately, is not co-variant, so you can't replace IMF[ListMap] for IMF[Map]. I'll open a ticket about it, but there might well be variance issues preventing it. – Daniel C. Sobral Oct 25 '11 at 14:07
@DuncanMcGregor Actually, I just tried, and ImmutableMapFactor cannot be co-variant. It breaks the definition of CanBuildFrom. Maybe there's a way around it, but, even if it is possibly, I doubt it would be easy. – Daniel C. Sobral Oct 25 '11 at 14:15
Thanks, I had been trying to specify the type as ImmutableMapFactory, but failing. – Duncan McGregor Oct 25 '11 at 15:50

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