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Let's say I have this trait

trait Ctx[C, V[_]]

I am unable to construct any method signature that takes a Ctx of which the second type parameter is unspecified (wildcard). E.g. this:

def test(c: Ctx[_, _]) = ()

doesn't compile ("error: _$2 takes no type parameters, expected: one"). Neither can I do

def test(c: Ctx[_, _[_]]) = ()

("error: _$2 does not take type parameters"). What am I missing?

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You may have found a bug with existential types here. I'd check the trac database and read the existential types section in the Scala Language Specification to make sure that higher-kinded existential types are possible. –  jsuereth Nov 22 '10 at 0:48
I updated my answer - may be the latest revision can be helpful. –  huynhjl Nov 22 '10 at 16:11
@jsuereth lampsvn.epfl.ch/trac/scala/ticket/2308 (I think higher kinds existential is related to higher kinds wildcard). The whole bug report is interesting. –  huynhjl Nov 23 '10 at 4:25

3 Answers 3

up vote 2 down vote accepted

I'm able to define this one:

def test[V[X]](c:Ctx[_,V]) {}

And it seems to work ok with type inference:

scala> trait Ctx[ C, V[ _ ]]
defined trait Ctx

scala> def test[V[X]](c:Ctx[_,V]) {}
test: [V[X]](c: Ctx[_, V])Unit

scala> class P extends Ctx[Int, List]
defined class P

scala> new P
res0: P = P@1f49969

scala> test(res0)

Edit: I suspect it won't be practical to replace Ctx to use an abstract type, but this is what I was able to do:

trait Ctx[C] { type V[X] }
class CtxOption[C] extends Ctx[C] { type V[X] = Option[X] }
class CtxList[C] extends Ctx[C] { type V[X] = List[X] }

def test(ctx:Ctx[_]) { println(ctx) }

val ctxOptInt = new CtxOption[Int]
val ctxListStr = new CtxList[String]


val list = collection.mutable.ListBuffer[Ctx[_]]()
list += ctxOptInt
list += ctxListStr

Using an abstract type for V spares you the complicated (or impossible) task of figuring the type parameter syntax for a wildcard type constructor. Additionally as demonstrated in the ListBuffer example you can then handle objects where the V is a different type constructor (Option and List in my example). The first solution I provided would not allow you to do that.

Edit 2: How about?

trait AbstractCtx[C] { type W[X] }
trait Ctx[C,V[_]] extends AbstractCtx[C] { type W[X] = V[X] }
def test(ctx:AbstractCtx[_]) { println(ctx) }
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ok, so i need to use generics. i just wonder why that is, as i don't need them for first-order types... i still hope there is a way to express [] somehow, but this is at least a viable workaround. –  0__ Nov 21 '10 at 16:22

You need to pass a type constructor for the second argument of Ctx. Scala is not able to infer the correct kind if you just pass _. Neither is it possible to define a type constructor with wildcards (i.e. _[_]] on the fly. Note that in your first example _$2 in the error message refers to the type passed as second argument to Ctx as a whole. In the second example however _$2 refers to the the first wildcard type in _[_]. See the location indicator in the error messages:

<console>:6: error: _$2 does not take type parameters
       def test( c: Ctx[ _, _[ _ ]]) {}

The following works since here V is a type constructor of the right kind expected by Ctx.

def test[V[_]]( c: Ctx[ _, V]) {}
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It's all explained here. Focus on the "Common Pitfalls" section at the bottom.

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I do not see anything that answers the question –  EECOLOR Jan 11 at 21:55
The blog post contains all pieces of information necessary to fully understand this problem. Since this topic is so complicated that it requires rather a blog post than an SO answer. You can barely find a better resource than the one I linked to. At least I understood this problem after reading that. –  lisak Jan 12 at 10:17
Although the post you linked is interesting and valuable I can not figure out how the original question could be answered using the information in the post. –  EECOLOR Jan 12 at 14:22

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