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The question is not about AnyRef.clone(), it is about case with similar semantic.

I'd like to define an interface for classes that may create copy of itself:

trait Cloneable {
  def clone() : this.type
}

class Test(val store : Int) extends Cloneable {
  def clone() = new Test(store)
}

Path-dependent this.type would not work since this.type is different for the Test class type and for a class extending the Test. The descendant should then override clone method to match its own type.

How should I define type requirement for the Cloneable trait?

I've peeked into scala collections and found here tip: define TestLike trait, that handles type restrictions, and class Test that embodies corresponding trait.

I'd like to avoid unnecessary clumsiness if possible


trying self-recurring pattern as suggested:

trait Cloneable[A <: Cloneable[A]] {
  def clone() : A
}

class Store[A <: Cloneable[A]](val store : Int) extends Cloneable[A] {
  override def clone() : A = new Store[A](store)
}

failed with error:

Cloneable.scala:6: error: type mismatch;
 found   : Store[A]
 required: A
  override def clone() : A = new Store[A](store)

another issue in the recurring template: premature finalization

class Store(val store : Int) extends Cloneable[Store] {
  override def clone() = new Store(store)
}

class SubStore(store : Int, val stash : Double) extends Store(store)

val ss1 = new SubStore(1, 0.5)
val ss2 = ss1.clone()
assert(ss2.isInstanceOf[SubStore])

The issue with SubStore is with type system ignoring absent clone() method in the SubStore class although SubStore is the Cloneable descendant via Store. But the Store finalize Cloneable interface with type parameter Store and all its descendants lacks proper clone() method restriction

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Not beautiful, but Scala's version of the C++ "CRTP" (curiously recurring template pattern): trait Cloneable[A :< Cloneable[A]] { def clone(): A }. –  Mysterious Dan Aug 20 '13 at 20:34
    
I've got an issue applying recurring template patter, and posted it in the updated questing –  ayvango Aug 20 '13 at 20:45
    
class Store extends Cloneable[Store], override def clone(): Store –  senia Aug 20 '13 at 20:52
    
updated question with new issue –  ayvango Aug 20 '13 at 21:00
    
In your last code snippet override def clone() : A = new Store[A](store), where A comes from? And Store doesn't take type parameters. And what is premature finalization? –  pedrofurla Aug 20 '13 at 21:16

1 Answer 1

Scala type variance allows to you implement what you need in a simple way, but you have to move away from inheritance and go to typeclasses.

trait Cloner[A]{
  def cloneObject(input:A):A
}
trait CloningFunctions{
  def cloneObject[A](input:A)(implicit cloner:Cloner[A]) = cloner.cloneObject(input)
}

object CloningFunctions extends CloningFunctions

class MyClass1(val b:Int)
class MyClass2(val a:Int,b:Int) extends MyClass1(b)

object Example {

  implicit val cloner = new Cloner[MyClass1]{
    def cloneObject(input: MyClass1): MyClass1 = new MyClass1(input.b)
  }

  import CloningFunctions._

  cloneObject(new MyClass2(3,4))

}

The idea here is that since Cloner[A] is invariant in type A, the following code won't compile:

could not find implicit value for parameter cloner: Cloner[MyClass2] cloneObject(new MyClass2(3,4))

because you have a Cloner[MyClass1] but not a Cloner[MyClass2] in scope.

While cloneObject(new MyClass1(3)) will compile.

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