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Why does this code not type check?

def foo: Either[String, List[Int]] = {  
  val x = null: Either[String, String]

  x match {
    case l @ Left(_) => l
    case Right(_) => Right(List(3))

Specifically, why can't/doesn't the compiler reify the type of Left[A,X] and Either[A,B]?

This happened in scala 2.8.2 and scala 2.9.2

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Why not use case Left(v) => Left(v), or x.right.map(r => List(3))? –  robinst Aug 7 '12 at 15:02
Interesting! Replacing case l @ Left(a) => l by case l @ Left(a) => Left(a) makes Scala 2.9.2 happy. What Scala version(s) did you try? –  Malte Schwerhoff Aug 7 '12 at 15:02
Yes, that's because Left(a) has type Left[String, Nothing], which is a subtype of Either[String, List[Int]]. Or as I wrote above, use right.map to avoid the whole match expression. –  robinst Aug 7 '12 at 15:12
@robinst Because my useage of either isn't a simple if left this, if right that –  MrBones Aug 7 '12 at 15:20
@mhs - In the latter case, you are re-creating the Left as Left[A, Nothing](a). But l is typed as l @ Left[String, String](a). –  Rex Kerr Aug 7 '12 at 15:37

1 Answer 1

up vote 8 down vote accepted

There is a genuine conflict here:

Left[String, String] <: Either[String, List[Int]]

is not true. Left is typed on both left and right parameters, and even though there is no actual difference between the two (so casting would be safe), this is not what you have told the compiler. So, of course, it will complain.

There are other weaknesses in type inference in pattern matching, but this is not one of them.

Edit: one can imagine an alternate singly-parameterized implementation of Left in which

Left[String] <: Either[String, Nothing] <: Either[String, List[Int]]

which would throw away type information. Methods like swap would be tricker to use, but it would allow the pattern given by the OP. However, the type-preserving form was used in the standard implementation in Scala.

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Why is either typed on both parameters then? Would it not be a better idea to have Left[A] <: Either[A, Any] ? –  MrBones Aug 7 '12 at 15:24
@MrBones - You could have a singly-typed Left, but then when working with Lefts you would forget what the corresponding Right was. There are arguments for doing it each way; if your Lefts know what the Rights should hold, then you can map to Right more easily in a type-safe way. But, as you've seen here, if the Left knows what the Right should be, the type system will complain when you try to use a Left with a differently-typed right data type. Neither is the "right" way; there are just different tradeoffs. –  Rex Kerr Aug 7 '12 at 15:36
The reason is that in an ideal world, Left and Right would not be types, but constructors. The fact that inheritance is being used to encode an algebraic data type is the problem. In short, the left and right constructors (and extractors) are relevant for constructing and inspecting instances, but should not be considered types; the only type is Either. What you're doing in your example is actually typecasing, which is usually a design smell. My advice would be to use either.fold instead; this will enforce good practice. –  Kris Nuttycombe Aug 7 '12 at 17:58
@KrisNuttycombe - I don't find that world ideal. Sometimes I like my types to tell me whether I have a Left or a Right; sometimes it's a nuisance. –  Rex Kerr Aug 7 '12 at 18:22
If your types can tell you it's a Left[A] or a Right[B], then whatever's using that knowledge can just use the unwrapped A or B directly. This will make for better compositionality. –  Kris Nuttycombe Aug 8 '12 at 19:07

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