Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm having a little trouble understanding the following phenomenon:

trait Trait[A] {
  def traitType: String

object Trait {
  implicit val stringTrait: Trait[String] = new Trait[String] {
    def traitType: String = "string"

  implicit val intTrait: Trait[Int] = new Trait[Int] {
    def traitType: String = "int"

class Media[A] {
  // works
  def mediaType(implicit t: Trait[A]): String = t.traitType
  // does not compile
  def mediaType: String = implicitly[Trait[A]].traitType

object Main {
  def main(args: Array[String]) {
    val a = new Media[String]
    val b = new Media[Int]


In the above snippet I show 2 different implementations of the mediaType method (I comment one of them out when compiling the code). However the version using implicitly does not compile? I get the following error message:

impl.scala:19: error: could not find implicit value for parameter e: Trait[A]
  def mediaType: String = implicitly[Trait[A]].traitType
one error found

I do understand that there is no implicit value of Trait[A] available. I don't understand why A does not get resolved to the type Media gets instantiated with. I think I'm thinking too much in terms of C++ templates here and I would be very grateful if someone could give me a pointer into the right direction.

Regards, raichoo

share|improve this question

2 Answers 2

up vote 7 down vote accepted

Compiler needs evidence, that there exist implicit Trait instance for the A. In first mediaType implementation you declare this requirement. But in the second implementation, from the compiler's point of view, there is no such guarantee. So in order to make it work you should ask users of Media class to provide it. You can make this with context bound:

class Media[A : Trait] {
  def mediaType: String = implicitly[Trait[A]].traitType

This can also be written more explicitly:

class Media[A](implicit val evidence: Trait[A]) {
  def mediaType: String = implicitly[Trait[A]].traitType

So in other words default constructor requires implicit evidence and users would not be able to instantiate Media class without providing it (explicitly or implicitly).

share|improve this answer
Thanks, I think I got it. –  raichoo May 20 '11 at 21:03
So the class picks up the Trait[A] value from the implicit context where it's instantiated? –  Cristian Vrabie Aug 8 '13 at 13:44
(as opposed to the mediaType method with implicit parameter which would pick up the value from context where it is called) –  Cristian Vrabie Aug 8 '13 at 14:06

If you want this version to compile:

def mediaType: String = implicitly[Trait[A]].traitType

then the implicit instance of Trait[A] needs to be passed along, e.g. when a new instance of Media is created. Try defining Media as follows instead:

class Media[A](implicit private val t: Trait[A]) {
  def mediaType: String = t.traitType

An almost equivalent definition using a context bound is this one:

class Media[A: Trait] {
  def mediaType: String = implicitly[Trait[A]].traitType

That being said, if what you're trying to do is keep more information about the type parameter of a parametrized type, you may want to use Manifests instead of your own mechanism. They would provide you with full type information on A at runtime, including if A is itself a parametrized type:

scala> class Media[A](implicit val aManifest: Manifest[A])
defined class Media

scala> new Media[Int].aManifest
res0: Manifest[Int] = Int

scala> new Media[Seq[(Int, String)]].aManifest        
res1: Manifest[Seq[(Int, String)]] = scala.collection.Seq[scala.Tuple2[Int, java.lang.String]]
share|improve this answer
The above code is just an example. I know about Manifests, thanks :) –  raichoo May 20 '11 at 21:02
@raichoo Yes, I'd just like to avoid that new users read your question, feel “inspired,” and start deriving their own Manifest-like variant from it… –  Jean-Philippe Pellet May 20 '11 at 21:06
Good point, didn't think about that. –  raichoo May 20 '11 at 21:36

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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