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I am trying to implement a result cache (Loader class) that maps hashable instances of class Resolver[T] to Result instances, where T is has type of Result. Of course a user is given the possibility to specialize the the Result class providing extra methods that are application specific. The point is that using the Loader.get method the user has also to specify the resulting type:

    val s = Loader.get(new SpecializedResolver()).asInstanceOf[SpecializedResult]

What I want is to avoid the cast and make it implicit so the code should be something like:

    val implicitS = Loader.get(new SpecializedResolver())

The code I have at the moment is the following:

import scala.language.existentials

abstract class Result {
  def computed: Boolean

abstract class Resolver[T <: Result] {
    def result(): T forSome {type T <: Result}

class SpecializedResult extends Result {
  def computed = true
  def special() = 42

class SpecializedResolver extends Resolver[SpecializedResult] {
  def result = new SpecializedResult

object Loader {
  val cache = collection.mutable.Map[K forSome {type K <: Resolver[_]}, V forSome {type V <: Result}]()

  def get[K <: Resolver[_]](k: K): V forSome {type V <: Result} = {
    cache.getOrElseUpdate(k, { k.result } )

object Runner {
  def main(args: Array[String]) {
    val s = Loader.get(new SpecializedResolver()).asInstanceOf[SpecializedResult]
    println("Value is: %d".format(s.special))

    val implicitS = Loader.get(new SpecializedResolver())
    // test.scala:34: error: value special is not a member of Result
    println("Value is: %d".format(implicitS.special))

Since I am relatevely new to the scala language my question is: is it even possible to achieve this implicit cast by using higher-kinded-types feature that scala provides? I took a look at the talk 'High Wizardry in the Land of Scala' where the speaker Daniel Spiewak introduces a higher-order HOMap that does something similar but I still don't well understand how to adapt his solution to my case.

share|improve this question
I think what you want is encoded in Shapeless – pedrofurla Aug 17 '13 at 13:53
up vote 3 down vote accepted

First of all, you don't need all the existentials here. In some cases they're just overly verbose—K forSome { type K <: Resolver[_] }, for example, is exactly the same as K <: Resolver[_]. In other cases they introduce behavior that seems to be unintended. For example:

class FooResult extends Result { def computed = true }
class BarResult extends Result { def computed = true }

object Foo extends Resolver[FooResult] { def result() = new BarResult }

This compiles just fine, because the T in the return type of result shadows the class's type parameter T.

Next, have you considered lazy values here? They'd take care of this kind of caching for you—you just define result as lazy val result = ... in your Resolver implementations and the result will be computed exactly once (when it's first needed).

If you decide you need to handle this caching manually, this is a situation where you may be able to justify bullying the compiler with a cast. For example, given the following setup:

trait Result { def computed: Boolean }
trait Resolver[T <: Result] { def result(): T }

We can write:

object Loader {
  private[this] val cache = collection.mutable.Map.empty[Resolver[_], Result]

  def get[V <: Result](k: Resolver[V]): V =
    cache.getOrElseUpdate(k, k.result()).asInstanceOf[V]


We know that the types will work out, since there's only one way for pairs to get into the map.

Update: My Loader solution here is essentially the same as Sergey's (note though that it's a good idea to lock down the map, and that you don't need brackets around the call to result, since the second parameter of getOrElseUpdate is by-name). I'm leaving my answer anyway because the first half is the important part.

share|improve this answer
This is exactly the same answer that I want to post, if I have more time and better English :) Don't remove it! – Sergey Passichenko Aug 17 '13 at 14:14
Thanks for the answer. Regarding the point of using lazy variables I was aware of this feature, but the point is that Result instances are shared by different classes in different contexts that's why I need a specific caching solution. Regarding the existential you are right I was abusing them for no specific reason. So thanks for the explanation in the first half of your post. Really appreciated :) – nopper Aug 17 '13 at 14:21

In your case you can use simple solution (only changed code):

abstract class Resolver[T <: Result] {
    def result(): T
object Loader {
  val cache = collection.mutable.Map[Resolver[_], Any] ()

  def get[K <: Result](k: Resolver[K]): K = {
    cache.getOrElseUpdate(k, { k.result } ).asInstanceOf[K]
share|improve this answer
Thanks a lot. Seems to work :) – nopper Aug 17 '13 at 14:05

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