6

I believe that a generic class may make one of its methods available only assuming that its type parameters conform to some additional restrictions, something like (syntax improvised on the spot):

trait Col[T] extends Traversable[T] {
    def sum[T<:Int] :T = (0/:this)(_+_)
}

I guess I could use implicit parameters as evidence... Is there a language feature for this?

3

In this case you can only use an implicit parameter, as the type gets determined before the method call.

trait Col[T] extends Traversable[T] {
  def sum(implicit num: Numeric[T]) :T = ???
}

If the method you are calling would be parameterized, you could use context bounds, which are just syntactic sugar for the implicit parameter bound to the type parameter:

def foo[A](implicit ev: Something[A]) = ???

is equivalent to

def foo[A : Something] = ???
  • Thanks, I wasn't aware that [T :Evidence] is a general notation, I used it only with TypeTags. How do I access the actual implicit parameter from a method written this way? Also, won't declaration def sum[T :Numeric] overshadow trait type parameter T? – Turin Jul 23 '13 at 14:14
  • Usually you use this notation, when you use other methods that expect a parameter of that kind in the body, but you can also get it by calling implicitly[Something[A]]. For some types there may even be getters, like for ClassTag there is scala.reflect.classTag[A] that implicitly takes the ClassTag instance and just returns it. You can also just create your own methods or apply methods of this kind on the companions of the type you implicitly pass in. – drexin Jul 23 '13 at 14:19
  • Thx, I'll play with it. – Turin Jul 23 '13 at 14:35
7

You can also use a type bound on the type parameter, which is enforced by an implicit argument:

trait Col[T] extends Traversable[T] {
    def sum(implicit ev: T <:< Int) :T = (0/:this)(_+_)
}

<:< is actually a class, expressed in infix notation, defined in Predef.scala and explained in many places, including here

<:< means 'must be a subtype of'

You can also use =:= 'must be equal to' and X <%< Y 'must be viewable as' (ie. there is an implicit conversion to X from Y)

For a more detailed explanation of type constraints, see this SO question.

1

there is another option involving implicit classes conversions

trait Col[T] extends Traversable[T] 

implicit class ColInt[T <: Int](val v : Col[T]) extends AnyVal {
    def sum : T = (0 /: v)(_ + _)
}

in this context you don't need the empty trait Col anymore, so you could further comprimize it to this:

implicit class ColInt[T <: Int](val v : Traversable[T]) extends AnyVal {
    def sum : T = (0 /: v)(_ + _)
}

The advantage of this method is, that it tells the compiler, that type T is really a subtype of Int, so List[T] <: List[Int] is still valid in this context, and no explicit conversion needs to be added. The implicit parameter adds implicit conversions that wouldn't work on List[T], because it only introduces an implicit conversion from T to Int, not from List[T] to List[Int]

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