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I would like to derive from Scala's immutable Map. It is defined as such:

trait Map[A, +B]

Unfortunately, my implementation needs to be invariant in B. I tried the following, but without success:

def +(kv : (A, B)) : MyMap[A, B] = { ... }

override def +[B1 >: B](kv : (A, B1)) : MyMap[A, B1] =
    throw new IllegalArgumentException()

Maybe there is a trick with @uncheckedVariance?

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Maybe you could use a member map instead of deriving? –  Owen Aug 17 '11 at 20:27
Also, why does it need to be invariant? I thought (I don't know much Scala though) the only time you need invariance is if it can be both a source and a sink, but maps are immutable so it can't be a sink. –  Owen Aug 17 '11 at 20:41
I want to implement a bi-directional Map. Not a big deal if I implement Map, and just delegate to the two internal Maps defining forward and backward mapping, but I need invariance in that case. –  Sebastien Diot Aug 17 '11 at 20:45
Maybe you could have a light interface for BiMap (mostly "modify" methods that returns new BiMap), not extending Map, and give full access to the internal, immutable maps. –  Didier Dupont Aug 17 '11 at 23:32

2 Answers 2

up vote 1 down vote accepted

Getting rid of covariance altogether would of course be unsound, and is not allowed. Given m: Map[A, String], and v : Any, you can do val mm : Map[A, Any] = m + v. This is what Map definition says, and all implementors must follow. Your class may be invariant, but it must implement the full covariant interface of Map.

Now redefining + to throw an error is a different story (not very sound yet). The problem with your new + method is that after generics erasure, it has the same signature than the other + method. There is a trick: add in implicit parameter, so that you have two parameters in the signature, which makes it different from the first one.

def +(kv : (A,B))(implicit useless: A <:< A) : MyMap[A,B]

(it doesn't really matter what implicit parameter you're looking for, as long as one is found. implicit useless: Ordering[String] works just as well)

Doing that, you have the usual problem with overloading. If you add a B without the compiler knowing it to be so, the failing method will be called. It might be better to perform a type check there so that B instances are accepted whatever. That would require getting a Manifest[B] in your map.

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The trouble is that if you derive an invariant version from an immutable map, you'll break type safety. For example:

val dm = DiotMap(1 -> "abc")
val m: Map[Int, Any] = dm

This declaration is valid, because Map is covariant. If your collection cannot handle covariance, what will happen when I use m?

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