2

I've created the contrived example below to show what I'm trying to accomplish. I'm looking for a factory that will spit out a class which is parameterized with the specific type of request it will process. I thought I understood generics but now I'm doubting myself. :)

object SourceFactory {
  def apply[T <: Source[_ <: RequestContext]](x: String): Source[_ <: RequestContext] = { 
    x match {
      case "a" => new FooSource
    }   
  }
}

object RequestContextFactory {
  def apply[T >: RequestContext](x: String): T = { 
    x match {
      case "a" => FooRequestContext()
    }   
  }
}

abstract class RequestContext
case class FooRequestContext() extends RequestContext

abstract class Source[T <: RequestContext] {
  def get(ctx: T): Unit
}

class FooSource extends Source[FooRequestContext] {
  def get(ctx: FooRequestContext): Unit = {}
}

object Test extends App {
  val source = SourceFactory("a")
  val ctx = RequestContextFactory("a")

  source.get(ctx)
}

Results in:

Compiler exception error: line 32: type mismatch; found : Evaluator__da15fb805d29b29227bc28ccae6cd07d2c04cb40_1274353927.Test.ctx.type (with underlying type RequestContext) required: _$2 source.get(ctx)

Thanks in advance for the help!

1 Answer 1

1

Scala has absolutely no way to infer T in either SourceFactory.apply or RequestContextFactory.apply, because it doesn't appear in the arguments. You are calling SourceFactory[Nothing] and RequestContextFactory[RequestContext] (and the second only because of a probable typo in def apply[T >: RequestContext]).

You can give T explicitly:

object SourceFactory {
  def apply[T <: RequestContext](x: String): Source[T] = { 
    (x match {
      case "a" => new FooSource
    }).asInstanceOf[Source[T]]
  }
}

object RequestContextFactory {
  def apply[T <: RequestContext](x: String): T = { 
    (x match {
      case "a" => FooRequestContext()
    }).asInstanceOf[T]   
  }
}

object Test extends App {
  val source = SourceFactory[FooRequestContext]("a")
  val ctx = RequestContextFactory[FooRequestContext]("a")

  source.get(ctx)
}

Note how you end up needing casts: this should hint that this is a bad design! The problem is that your return type depends on the value of the argument. Scala does support a form of this called path-dependent types, but it isn't applicable here. You could also try to remove the type parameters and use only existentials:

object SourceFactory {
  def apply(x: String): Source[_ <: RequestContext] = { 
    x match {
      case "a" => new FooSource
    }
  }
}

object RequestContextFactory {
  def apply(x: String): RequestContext = { // equivalent to _ <: RequestContext
    x match {
      case "a" => FooRequestContext()
    }
  }
}

object Test extends App {
  val source = SourceFactory("a")
  val ctx = RequestContextFactory("a")

  source.get(ctx)
}

Not there are no casts in SourceFactory or ResourceContextFactory, but neither is there any relationship between their return types, so source.get(ctx) won't compile!

What might actually work, depending on your requirements, is to pair the return values into a single type:

case class SourceAndRequestContext[T <: RequestContext](src: Source[T], ctx: T) {
  def get() = src.get(ctx)
}

object SourceAndRequestContextFactory {
  def apply(x: String): SourceAndRequestContext[_ <: RequestContext] = x match {
    case "a" => SourceAndRequestContext(new FooSource, FooRequestContext())
  }
}
0

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