I am trying to materialize an instance of the (simplified) trait

trait TC[F[_]] {
  def apply[A](fa: F[A]): F[A]

using Scala macros. The signature of the macro therefore is

def materialize[F[_]](c: Context)(
  implicit fT: c.WeakTypeTag[F[_]]): c.Expr[TC[F]]

Type constructor F[_] now needs to be applied to the type parameter A for two reasons:

  1. To write the signature of apply above for a particular F (like Foo[A])
  2. To inspect the members of the type Foo[A] in order to specify an interesting body of apply

Is there any way to create the type corresponding to the method type parameter A that can than be used in appliedType? It appears difficult for me, since the method apply and its type parameter A are also just being generated as trees.

I tried to take WeakTypeTag[TC[F]] as additional argument to the macro call and received the paramter type by

val paramT = wfg.tpe.member("apply": TermName).tpe.typeParams.head.tpe

but then using paramT in q"... def apply[$paramT] ..." does result in

java.lang.IllegalArgumentException: can't splice "A" as type parameter

so this appears also to be no solution.

  • Are you using scala 2.10? – Eugene Burmako Aug 8 '14 at 7:10
  • Also, speaking of java.lang.IllegalArgumentException: can't splice "A" as type parameter, could you share the full code? – Eugene Burmako Aug 8 '14 at 7:11
  • Hey Eugene, I have been using 2.10, but switching between 2.10 and 2.11.2 did not make any difference as far as I noticed. The full (finally working) code now lives here – b-studios Aug 8 '14 at 14:16
  • Have you tried appliedType? – Eugene Burmako Aug 12 '14 at 12:44

I solved the problem by changing the definition of the above trait to

trait TC[F[_]] {
  type ApplyF[A] = F[A]
  def apply[A](fa: ApplyF[A]): ApplyF[A]

and typechecking the tree for a dummy value:

typecheck(q"""new TC[Foo] {
  def apply[A](fa: ApplyF[A]): ApplyF[A] = ???

The typechecked result then could be destructed and transformed (by means of tree transformers) to fill in the ???. This did not solve the problem completely, yielding the type error:

found   : A(in method apply)(in method apply)(in method apply)...
required: A(in method apply)(in method apply)(in method apply)...

While calling untypecheck before returning the tree did not help - inspection of the resulting tree however showed that the expected result is valid (type correct) Scala code. Thus, the last step that made the macro finally fly was to call


It feels completely unnecessary, but it seems that this was the only way to get rid of conflicting type information.

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.