Given a signature like this one or that one:

def foo[A, F[_]](implicit mon: Monoid[F[A]], pr: Pure[F]): F[A]

Assuming A is Char, is there a way to get a String instead of a List[Char]?

String does not take a type parameter, so I assume it's not possible. What's the next best option? Right now, I use mkString on the result, but that doesn't feel optimal.

I think String is a monoid with zero "" and append +...

| improve this question | | | | |
  • Why do you need Monoid[F[A]] instead of just Monoid[F]? – CheatEx Oct 3 '11 at 10:03
  • @CheatEx, in this case, I'm not the one who wrote foo, I am just the caller. – huynhjl Oct 3 '11 at 12:21

It is possible to persuade String to masquerade as a higher-kinded type, and hence allow functions of the form of foo to be applicable. However, Scala's type inference isn't currently up to the job of inferring foo's type arguments, so you'll have to supply them explicitly,

// Assuming the the definitions of Pure and Monoid from Scalaz

type ConstString = {
  type λ[X] = String

implicit def StringPure = new Pure[ConstString#λ] {
  def pure[A](a: => A) = a.toString

val sm = implicitly[Monoid[String]]
val sp = implicitly[Pure[ConstString#λ]]
val f : String = foo[Char, ConstString#λ](sm, sp) // OK

Note that the Char type argument to foo is unused and can be anything, but must be something: in this case either Char is the natural choice, but Nothing or Any would do as well.

Note that this solution trades on String's special characteristics: values of all types are convertible to Strings so pure[A](a : => A) : String is implementable for all types A. Replicating this idiom for types other than String would most likely have to exploit some mechanism for implementing type-specific cases in the body of pure (eg. a pattern match of some sort).

| improve this answer | | | | |
  • 2
    But implicitly[Pure[ConstString#λ]].pure('a') will return the empty String, so this is not really much use. Is it? – oxbow_lakes Oct 3 '11 at 10:03
  • Sure, you'd need a different definition of Pure[ConstString#λ] to do any useful work. Answer edited to reflect that. – Miles Sabin Oct 3 '11 at 10:32
  • I think I saw a Kestrel! – Daniel C. Sobral Oct 3 '11 at 13:36
  • @DanielC.Sobral Indeed you did :-) – Miles Sabin Oct 3 '11 at 13:43
  • I would suggest a.asInstanceOf[String] to reflect the fact that StringPure is kinda cheating. – retronym Oct 3 '11 at 17:32

The best solution I can think of it is to define an implicit conversion from List[Char] to String.

| improve this answer | | | | |

Your analysis, that scala's type-system will reject String as not being a "higher kinded type" * -> * is correct. That is, the type String is not assignable to F[_] for any F. You could try (I have not checked this) implicit conversions...

def foo[A, F[_], That](implicit mon: Monoid[F[A]], pr: Pure[F], FA_Is_That: F[A] <%< That)

...but this will not be that useful I suspect because you'd have to provide your own bespoke conversions where required but also because the performance would be terrible, assuming this is a hot part of the code.

Or, using the standard library, you could use the CanBuildFrom machinery but it's far from obvious how nicely this will mix with the scalaz-style typeclasses.

def foo[A, F[_], That](implicit mon: Monoid[F[A]], pr: Pure[F], b: CanBuildFrom[A, F[A], That]): That

In the body of the method, of course, you will need to use the builder to construct the return value, as opposed to the Monoid/Pure typeclasses, rendering them somewhat redundant, I suspect.

| improve this answer | | | | |

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.