Given:

sealed trait X { val x: String }
case class A(x: String) extends X
case class B(x: String) extends X

I defined a copy method at the X trait:

def copy(x: X, newValue: String): X = x match {
  case A(_) => A(newValue)
  case B(_) => B(newValue)
}

However, I thought that I could do better, i.e be precise.

Because, technically, just because an A is input, a B could be output since a B is a sub-class of X.

So I tried:

def copyBetter[T <: X](x: T, newValue: String): T = x match {
 case A(_) => A(newValue)
 case B(_) => B(newValue)
}

But, I got compile-time errors:

<console>:17: error: type mismatch;
 found   : A
 required: T
          case A(_) => A(newValue)
                        ^
<console>:18: error: type mismatch;
 found   : B
 required: T
          case B(_) => B(newValue)
                        ^

How can I implement copyBetter with the given signature?

  • I think I had a similar issue and I solved it returning X, the problem here is that your return type is dynamical and you cannot figure out which type T is gonna be before the invocation, it's a bit different from a normal call to a generic method, in that case you can specify the type beforehand because you know what's gonna be returned, here you can't. – Ende Neu Aug 23 '16 at 14:21
  • I'd take a look at shapeless, just to check if your problem might correspond to that. – Reactormonk Aug 23 '16 at 20:15
up vote 1 down vote accepted

The only way to implement a method with this signature (ignoring null) is def copyBetter[T <: X](x: T, newValue: String): T = x! Why? Because singleton types exist. Given this signature, the following must compile, since x.type is a subtype of X:

val x = A(1)
val y: x.type = copyBetter[x.type](x, 2)

y's type says that y must be the same object as x (or null). Because in your implementation it isn't, this implementation doesn't fit the signature.

  • Because singleton types exist Could you please say more or point me to a link? What's a singleton type? – Kevin Meredith Aug 24 '16 at 2:40
  • x.type in the example is a singleton type. It's the type with exactly two values: x and null. – Alexey Romanov Aug 24 '16 at 6:43

You are not returning a T but an X. A and B extends X but not T.

Try with this signature:

def copyBetter[T <: X](x: T, newValue: String): X = // ...
  • Thanks for this helpful answer. I accepted Zoltan's since he answered 1 minute earlier. – Kevin Meredith Aug 23 '16 at 14:38
  • 1
    Same as Zoltan's answer: there is absolutely no benefit to using this instead of the original copy. – Alexey Romanov Aug 23 '16 at 19:32
  • And there's no benefit since a child of X can always be passed where an argument's type is X? In other words, the constraint does not add anything else than simply writing x: X? – Kevin Meredith Aug 25 '16 at 17:31

I suggest the following:

def copyBetter[T <: X](x: T, newValue: String): X = x match {
  case A(_) => A(newValue)
  case B(_) => B(newValue)
}
  • Now, with this working example, copyBetter's could still accept an A, but return a B. Although the definition would not be rational, I'd argue, it'd compile. Is there no way to get one level higher, i.e. require an input sub-child of X and that same type as an output? – Kevin Meredith Aug 23 '16 at 14:43
  • The compiler cannot know which case x is going to match at runtime, so it selects the most specific supertype - which is X. I don't think there's a way around it. – Zoltán Aug 23 '16 at 16:11
  • 1
    Does it actually compile? _ <: X is only allowed as a type argument (e.g. List[_ <: X]), not as a type itself. I get "Unbound wildcard type": scastie.org/21879. – Alexey Romanov Aug 23 '16 at 20:37
  • I removed the check-box since Alexey is right. I just got the same compile-time error: error: unbound wildcard type. – Kevin Meredith Aug 24 '16 at 14:30
  • @AlexeyRomanov thanks, edited – Zoltán Aug 25 '16 at 7:57

Simple - how do you expect the return type to be T, when it is not even involved in the method body. T is irrelevant, and the return type is the common ancestor of A and B.

Also, shouldn't you be defining it as:

def copy(newValue: String): X = this match {
  case _: A => A(newValue)
  case _: B => B(newValue)
}

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