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I am using a library with a class that has a definition that looks like this:

abstract class ParentClass[X, Y <: ParentClass[X, Y, M], M <: OtherClass[X, M]]

This class has subclasses that extend this class like so:

abstract class ChildClass[B, C <: ChildClass[B, C, D], D <: OtherChildClass[B, D]] extends ParentClass[B, C, D]

And that subclass has subclasses that extend it in this manner:

class SomeClass extends ChildClass[F, SomeClass, SomeOtherClass]

How would I go about handling generics for ParentClass? For example, if I wanted to create an Array of objects that share the same ancestor type ParentClass, I could do this:

getArrayOfParentClass(): Array[ParentClass[_, _, _]]

But this doesn't respect the type bounds proposed in the class definition.
It seems like existential types are one of the main solutions for F-Bounded Polymorphic types, but I can't seem to figure out a solution using existential types that handles this case, nor have I seen any examples with regards to existential types with classes that have more than 1 type parameter. I imagine it would work something like this, but haven't been able to quite figure it out:

// Doesn't compile
getArrayOfParentClass(): Array[X forSome {type X <: ParentClass[A, X, M forSome {type M <: OtherClass[A, M]}]
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The syntax you want is

Array[X forSome { type X <: ParentClass[A, X, M]; type M <: OtherClass[A, M] }]

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