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I am trying to write a generic method that wraps anything that has an scalaz.IsEmpty typeclass instance into an Option. It should return None for empty values, and wrap it into Some if it is non-empty. Here's what I've come up so far:

import scalaz._
import Scalaz._

def asOption0[C](c: C)(implicit ev: IsEmpty[({ type B[A] = C })#B]) =
  if (ev.isEmpty(c)) None else Some(c)

def asOption1[A, C[_]](c: C[A])(implicit ev: IsEmpty[C]) =
  if (ev.isEmpty(c)) None else Some(c)

asOption0 works for primitive types like String (by using a type lambda to indicate that C has the shape B[_]) and asOption1 works for types with an unary type constructor like List:

scala> asOption0("")
res1: Option[String] = None

scala> asOption1(List(1,2,3))
res0: Option[List[Int]] = Some(List(1, 2, 3))

scala> asOption0(List(1,2,3))
<console>:17: error: could not find implicit value for parameter
                     ev: scalaz.IsEmpty[[A]List[Int]]

scala> asOption1("hello")
<console>:17: error: could not find implicit value for parameter
                     ev: scalaz.IsEmpty[Comparable]

Is it possible to write one method that works for String, List, and types of higher kind at the same time?

share|improve this question
I see you changed your question. Could you explain what you exactly want to achieve? – EECOLOR Feb 19 '13 at 19:43
@EECOLOR I changed the title to better match the last sentence of my question. I'd like to have a solution that works for any type of any kind, and not only for * and * -> *. That another "explicit" implicit conversion seems to be necessary for e.g. Map is unsatisfying. I do have the feeling that just providing the appropriate typeclass instance should be enough to use asOption. Sorry for the previous misleading title! – Frank S. Thomas Feb 19 '13 at 20:14
I edited my answer to add another solution. This however might still not be what you are looking for. If it is not, could you try to explain what you are looking for? – EECOLOR Feb 19 '13 at 21:15
@EECOLOR It seems that I found one answer to my question by using scalaz.Unapply. This solution does not require any additional implicit conversions but only an instance of IsEmpty. – Frank S. Thomas Feb 20 '13 at 18:35
scala> asOption0(List(1,2,3))
<console>:17: error: could not find implicit value for parameter
                     ev: scalaz.IsEmpty[[A]List[Int]]

This error tells you that it can not find an IsEmpty instance for a list, and that is because the type parameter doesn't matter. Scalaz has an implicit for any list, regardless of the type parameter.

The method requests an IsEmpty[List[Int]] and Scalaz only has one available for IsEmpty[List[_]]. Since IsEmpty doesn't care about the contents of list, we just make the asOption0 method happy by supplying a more detailed version of IsEmpty:

def asOption0[C](c: C)(implicit ev: IsEmpty[({ type B[_] = C })#B]) =
  if (ev.isEmpty(c)) None else Some(c)  

implicit def detailedIsEmpty[A, C[_]](implicit ev: IsEmpty[C]) =
  ev.asInstanceOf[IsEmpty[({ type B[_] = C[A] })#B]]

asOption0("test")             //> res0: Option[String] = Some(test)
asOption0(List(1, 2, 3))      //> res1: Option[List[Int]] = Some(List(1, 2, 3))
asOption0("")                 //> res2: Option[String] = None
asOption0(List[Int]())        //> res3: Option[List[Int]] = None


I took another look at the problem and found a solution that seems a bit cleaner. I fear it's not the result the OP is looking for.

trait IsEmptyLike[F] {
  def isEmpty(fa: F): Boolean

object IsEmptyLike {

  implicit def case0[A](implicit ev: IsEmpty[({ type B[_] = A })#B]) =
    new IsEmptyLike[A] {
      def isEmpty(fa: A): Boolean = ev.isEmpty(fa)
  implicit def case1[A[_], B](implicit ev: IsEmpty[A]) =
    new IsEmptyLike[A[B]] {
      def isEmpty(fa: A[B]): Boolean = ev.isEmpty(fa)
  implicit def case2[A[_, _], B, C](implicit ev: IsEmpty[({ type D[X] = A[B, X] })#D]) =
    new IsEmptyLike[A[B, C]] {
      def isEmpty(fa: A[B, C]): Boolean = ev.isEmpty(fa)

def asOption[C](c: C)(implicit ev: IsEmptyLike[C]) =
  if (ev.isEmpty(c)) None else Some(c)
share|improve this answer
An implicit conversion of an implicit parameter... interesting! I've never seen that. If asOption0 should also work for e.g. Map, another conversion seems to be required: But this raises the question why Scalaz provides an instance of IsEmpty[({type F[V] = Map[K,V]})#F] instead of IsEmpty[({type F[_] = Map[K,V]})#F] for Map. – Frank S. Thomas Feb 18 '13 at 19:20
up vote 2 down vote accepted

With the help of scalaz.Unapply it is possible to write a generic asOption that works for many different types (those that are supported by Unapply) and that does not require any additional implicit conversions:

import scalaz._
import Scalaz._

def asOption[MA](ma: MA)(implicit U: Unapply[IsEmpty, MA]): Option[MA] =
  if (U.TC.isEmpty(U(ma))) None else Some(ma)

asOption("")              //> res0: Option[String] = None
asOption("hello")         //> res1: Option[String] = Some(hello)

asOption(List[Int]())     //> res2: Option[List[Int]] = None
asOption(List(1,2))       //> res3: Option[List[Int]] = Some(List(1, 2))

asOption(Map[Int,Int]())  //> res4: Option[Map[Int,Int]] = None
asOption(Map(1 -> 2))     //> res5: Option[Map[Int,Int]] = Some(Map(1 -> 2))

Here is the first part of Unapply's docstring:

Represents a type MA that has been destructured into as a type constructor M[_] applied to type A, along with a corresponding type class instance TC[M].

The implicit conversions in the companion object provide a means to obtain type class instances for partially applied type constructors, in lieu of direct compiler support as described in SI-2712.

share|improve this answer
Very nice solution! – EECOLOR Feb 20 '13 at 19:26

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