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Why doesn't the following implicit conversion work even though explicitly calling the function works?

scala> implicit def view[A, C](xs: C)(implicit ev: C <:< Iterable[A]) = new { def bar = 0 } 
view: [A, C](xs: C)(implicit ev: <:<[C,scala.collection.immutable.Iterable[A]])java.lang.Object{def bar: Int}

scala> List(1) bar
<console>:147: error: Cannot prove that List[Int] <:< scala.collection.immutable.Iterable[A].
              List(1) bar
                  ^

scala> view(List(1)) bar
res37: Int = 0
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2 Answers

I'm not really answering your question (i.e., I'm answering to "how do I make this work" but not to the "why does it not work"); anyway hopefully this will help someone else make some progress towards an answer.

So... In the first case, the compiler can't infer correctly that A is an Int, given that C is a List[Int]. Honestly I'm more surprised that passing the List explicitly actually works, since the relationship between A and C is so indirect (you have a A and a C, since C is a subtype of Iterable[A] and since C is a List[Int], then A must be an Int; not a very straightforward inference...).

You can make it work by being more explicit about the relationship between C and A, like this:

scala> implicit def view[A, C[A]](xs: C[A])(implicit ev: C[A] <:< Iterable[A]) = 
       new { def bar = 0 }
view: [A, C[A]](xs: C[A])(implicit ev: <:<[C[A],Iterable[A]])java.lang.Object{def bar: Int}

scala> List(1) bar
res0: Int = 0

or (given that you're not using A):

scala> implicit def view[C](xs: C)(implicit ev: C <:< Iterable[_]) = 
       new { def bar = 0 }

scala> List(1) bar
res1: Int = 0
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However, this constrains xs's type to be an applied unary type constructor; all other types are excluded. See an explanation here at suereth.blogspot.com/2011/06/generic-quicksort-in-scala.html. –  Yang Dec 12 '11 at 21:30
    
whoa, that's some black-belt level type-fu there! I see that my "solution" is actually breaking the carefully constructed type signature of your method, but I will need some time to ingest the rest of the post you've sent... However, FWIW, my second definition of view still works with non-unary type constructors. I've tested it with class Foo(t: List[Int]) extends Iterable[Int] {def iterator : Iterator[Int] = t.iterator }, that has no type parameters, and (new Foo(List(1))).view bar works. –  Paolo Falabella Dec 13 '11 at 9:25
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Simply put, as the error message suggests, it cannot infer A. There's no information the compiler can use to infer what A must be, so it must assume it can be anything.

You might retort that it can infer A from C <:< Iterable[A], but that would turn the problem on its head: instead of using <:< to check constraints, it would use the constraints to infer the type of A! That logic is not sound.

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But with most unification-like provers, information has to flow in both directions and are resolved in the middle. Consider the explicit call, which does work and infers A. –  Yang Jan 12 '12 at 0:55
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