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Is it possible to write a method in Scala which returns an object of a type-parameterized class with different type paramter ? Something like this:

class A[T]

def f(switch: Boolean): A = if(switch) new A[Int] else new A[String]

Please note: The Code above is fictional to show the type of problem; The code above does not make semantically sense.

The code above will not compile because return type A is not parameterized.

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4 Answers 4

up vote 6 down vote accepted

You can, and you can even do it with type-safety with the aid of implicit arguments that encapsulate the pairings:

class TypeMapping[+A,B] {
  def newListB = List.empty[B]
}
trait Logical
object True extends Logical
object False extends Logical

implicit val mapFalseToInt = new TypeMapping[False.type,Int]
implicit val mapTrueToString = new TypeMapping[True.type,String]

def f[A <: Logical,B](switch: A)(implicit tmap: TypeMapping[A,B]) = tmap.newListB

scala> f(True)
res2: List[String] = List()

scala> f(False)
res3: List[Int] = List()

You do have to explicitly map from boolean values to the custom True and False values.

(I have chosen List as the target class just as an example; you could pick anything or even make it generic with a little more work.)

(Edit: as oxbow_lakes points out, if you need all possible return values to be represented on the same code path, then this alone won't do it, because the superclass of List[Int] and List[String] is List[Any], which isn't much help. In that case, you should use an Either. My solution is for a single function that will be used only in the True or False contexts, and can maintain the type information there.)

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Very interesting; do you use this sort of thing in practice (as it's a lot of boilerplate)? I'd almost argue that the mechanics required to get this sort of thing to work are a useful pointer that there is a design deficit at the heart of it. –  oxbow_lakes Jun 25 '12 at 15:47
    
@oxbow_lakes - Actually, yes, I do use this in practice, though only rarely, when it is very important that I keep my types straight in this way. –  Rex Kerr Jun 25 '12 at 15:50
    
It almost seems like it would have been easier to have 2 methods: fInt and fString (at least in this simplified example!) –  oxbow_lakes Jun 25 '12 at 15:51
    
@oxbow_lakes - Indeed, it usually is, which is why I use this rarely. Actually, I've never used it in exactly this form; there's always something more complicated going on. For example, in one case I had a set of not-entirely-trivial type selection rules, and rather than propagating a half dozen different function names through three or four layers of nesting, it was easier to set up a framework like this. –  Rex Kerr Jun 25 '12 at 16:01
    
@RexKerr Thank you for this working example. By reading your post, I had a feeling, that it is not intented to do something I wanted in Scala ? I see your workaround works, but Scala itself does not provide to do it in a direct way ? –  John Threepwood Jun 25 '12 at 21:37

One way of expressing this would be by using Either;

def f(switch: Boolean) = if (switch) Left(new A[Int]) else Right(newA[String])

This of course returns an Either[A[Int], A[String]]. You certainly cannot (at the moment) declare a method which returns some parameterized type P, with some subset of type parameters (i.e. only Int or String).

The language ceylon has union types and I understand the intention is to add these to scala in the near future, in which case, you could define a method:

def f(switch: Boolean): A[Int|String] = ...
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Thank your for your example code. I did not know the Left/Right statements before. Although this solution is a workaround, the used feature looks interesting to me. –  John Threepwood Jun 25 '12 at 21:40
1  
Is there another class/feature, like Either, which can take more alternatives (writing Either[Either[..], Either[..]] looks a bit ugly) ? –  John Threepwood Jun 25 '12 at 21:49

Well, you could do something like that.

scala> class A {
     |   type T
     | }
defined class A

scala> def f(b: Boolean): A = if(b) new A { type T = Int } else new A { type T = String }
f: (b: Boolean)A

But this is pointless. Types are a compile time information, and that information is getting lost here.

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As Rex's answer demonstrates, if you use a type-level boolean, the information wouldn't be lost. –  missingfaktor Jun 25 '12 at 16:27

How about an absolutely minimal change to the "fictional code"? If we just add [_] after the "fictional" return type, the code will compile:

class A[T]
def f(switch: Boolean):A[_] = if(switch) new A[Int] else new A[String]

It is worth noting that A[_] is not the same as A[Any]. A[T] does not need to be defined covariant for the code to compile. Unfortunately, information about the type gets lost.

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This evaluates only to Any and not to A. –  sschaef Jun 25 '12 at 15:40
3  
This wouldn't work at all; you have just defined a type-parameter which happens to be called List –  oxbow_lakes Jun 25 '12 at 15:41
    
Oops, it was meant to be a return type, not type parameter. Fixed now! –  Oleg Mirzov Jun 25 '12 at 19:00

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