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i need your help with this Scala issue that i have.

I have a hierarchy of classes: Vehicle that has only common variables of every vehicle and then 3 subclasses: Car, Truck and MotorCycle, everyone with its own specific variables. I am using pattern matching in an auxiliary object method to do some transformations depending of the type of vehicle:

object Transformation {
    def someTransformation(vehicle:Vehicle):Vehicle = {
        vehicle match {
            case Car(<<<vars>>>) => Car(<<< transformed vars>>>)
            case Truck(<<<vars>>>) => Truck(<<< transformed vars>>>)
            case MotorCycle(<<<vars>>>) => MotorCycle(<<< transformed vars>>>)
        }
    }
}

my problem is when i have to test it, as i am returning a Vehicle (lets say a mixin), i have to cast every time it appears in order to access to the private vars of the vehicle involved. I want a way to leave this code as it is and in tests access private members without casting, knowing that the vehicle i received as param is the same type as the vehicle i returned. This can be addressed by generics?, how?

THANK YOU, i hope its understandable.

  • I'm guessing you don't really mean private members of the class, just subclass-specific? – Kraylog Dec 18 '17 at 12:38
  • exactly Nimrod Argov – Guido Pujadas Dec 18 '17 at 12:42
1

I think what you want to do is place a restriction on the return type of the function someTransformation. You want someTransformation to only return the type of vehicle that it is called on.

Here's how you can do this with context bounds:

trait Vehicle
case class Car(a: Int) extends Vehicle
case class Truck(b: Int) with Vehicle
case class MotorCycle(c: Int) with Vehicle

object Transformation {
  trait Transformer[V <: Vehicle] {
    def transform(v: V): V
  }

  implicit val carTransformer = new Transformer[Car] {
    override def transform(c: Car): Car = Car(c.a + 1)
  }

  implicit val truckTransformer = new Transformer[Truck] {
    override def transform(t: Truck): Truck = Truck(t.b + 10)
  }

  implicit val motorCycleTransformer = new Transformer[MotorCycle] {
    override def transform(m: MotorCycle): MotorCycle = MotorCycle(m.c + 100)
  }

  def someTransformation[V <: Vehicle : Transformer](v: V): V = {
    implicitly[Transformer[V]].transform(v)
  }
}

Transformation.someTransformation(Car(1)) // results in Car(2)
Transformation.someTransformation(Truck(1)) // results in Truck(11)
Transformation.someTransformation(MotorCycle(1)) // results in MotorCycle(101)

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