The code:

abstract class DataContainer(public val path: String)
val preloaded: MutableMap<Class<out DataContainer>, HashSet<out DataContainer>> = hashMapOf()

I would like to know how to make Kotlin realize that the first out DataContainer is the same type as the second out DataContainer.
So that code like:

fun <D: DataContainer> get(clazz: Class<D>): HashSet<D> = preloaded[clazz] as HashSet<D>

Doesn't require as HashSet<D> (and isn't prone to casting errors). I am new to Kotlin, so do link documentation if I've missed something. Also, this code would be inside an object if it matters.

  • Basically, what you're trying to express is that each key and value in a map has a different type argument, and the type argument for each map key is the same as for the corresponding map value. Unfortunately Kotlin's type system is not rich enough to express such a relationship. You need to use the cast.
    – yole
    Feb 26 '18 at 17:35
  • Java's type system is not rich enough to express this either.
    – yole
    Feb 27 '18 at 7:58

I don't think that what you want is feasible at a language level.

A cast in the get method isn't that bad as long as you can do it safely. The only way I can see to do that safely is to control the put method as well.

If you enforce that each key of type D : DataContainer will be paired with a key of type Set<D>, you can safely cast when getting. For instance you could something like this:

object DataContainerRegistry {

    private val preloaded: MutableMap<Class<out DataContainer>, HashSet<DataContainer>> = hashMapOf()

    fun put(dataContainer: DataContainer) {
        val set = preloaded.getOrDefault(dataContainer::class.java, HashSet())
        preloaded[dataContainer::class.java] = set

    fun <D : DataContainer> get(clazz: Class<D>) = preloaded.getOrDefault(clazz, HashSet()) as Set<D>


The limitations of this method are:

  1. only one class (DataContainerRegistry singleton in my example) will have direct access to the preloaded map
  2. the get method will return only Set, not the mutable interface.

This way you know that nobody will mess up preloaded and each Set contained in it, and you can then cast light-heartedly.


Part of this is a Java language fundamental.

As your example stands, imagine you have a collection of Animal objects. You can put Cat and Dog in there, but when it comes to pull out a Cat specifically, you have to assert that it is indeed a Cat by using the cast.

However if you are willing to constrain a particular instance of your collection to only dealing in Cat or Dog, then this works fine.

So, let's imagine we have those:

abstract class DataContainer(public val path: String)

abstract class CatDataContainer(path: String): DataContainer(path)

abstract class DogDataContainer(path: String): DataContainer(path)

That's just your DataContainer and two subclasses.

If we put a type parameter on a class that owns your map, we can do this:

class TypedContainerHolder1<D: DataContainer> {

    val preloaded: MutableMap<Class<out D>, HashSet<out D>> = hashMapOf()

    fun get(clazz: Class<D>): HashSet<out D>? = preloaded[clazz]

val typedContainerHolder1 = TypedContainerHolder1<CatDataContainer>()

Furthermore, we can arguably improve on that by limiting the map to identical key/value pair types. This also uses Kotlin's delegation.

class TypedContainerHolder2<D: DataContainer> {

    inner class PreloadedMap<MapType : D> : Map<Class<out MapType>, HashSet<out MapType>> by hashMapOf()

    private val preloaded = PreloadedMap<D>()

    fun get(clazz: Class<D>): HashSet<out D>? = preloaded[clazz]

val typedContainerHolder2 = TypedContainerHolder2<DogDataContainer>()

No casts, and a little more type safety once you've set it up. The question is whether your scenario allows this constraint.

  • I don't actually know how many subclasses of DataContainer there are, this is for a library, and the developer creates the subclass. Feb 27 '18 at 19:42
  • That's fine, but you need to figure out whether they need to be held in a mixed collection or not, i.e. a map that holds different subclasses together or a map that only holds ones of the same type, because that's the main thing that decides what you can do here. Feb 27 '18 at 21:13
  • The map will need to hold different subclasses together. What I meant with the first answer is that I would need a TypedContainerHolder for each subclass of DataContainer, I would end up where I started (and with a lot more classes). Feb 28 '18 at 5:50

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