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The access on Manifest seems to be tricky from a trait in scala.

How could this code compile in scala ?

trait SomeTraitOf[+A] {

  def newInstanceOfA : A = /*  necessary code to make it work */


(Related, it works fine as a parametized class :

class SomeTraitOf[A : Manifest] {

  def newInstanceOfA(implicit m : Manifest[A]) : A =


but not with a covariant type parameter (+A))

Edit : The real stuff

sealed trait RootPeerProxy[+A] extends Proxy {

  def peer: A
  def self = peer
  def peerManifest[B >: A](): Option[Manifest[B]]
  private[scalavaadin] def newInstance() : Option[A]

trait PeerProxy[+A] extends RootPeerProxy[A] {
  override def peerManifest[B >: A](): Option[Manifest[B]]
  override def peer(): A = this.newInstance match {
    case None => {throw new IllegalStateException("oups")} 
    case Some(a) => a
  private[scalavaadin] override def newInstance() : Option[A] = peerManifest map { m =>    m.erasure.newInstance.asInstanceOf[A] }

Since traits cannot provide manifest for the parametized trait, the class implementing the trait should, but I am not getting it.

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1 Answer 1

up vote 4 down vote accepted

About covariance:

Since Manifest[A] is invariant in the parameter A, you can't do what you want directly. The usual strategy is to weaken the return type,

trait SomeTraitOf[+A] {
  def newInstance[B >: A](implicit m: Manifest[B]): B = {

You can use the trait as follows,

class Parent
class Child extends Parent
val childBuilder = new SomeTraitOf[Child] {}
val parentBuilder: SomeTraitOf[Parent] = childBuilder
parentBuilder.newInstance // returns a Parent!

About View Bounds:

From your comment below, I guess you're also asking about "view bounds", which are just a concise way of declaring an implicit parameter. Your declaration

class SomeTraitOf[A : Manifest] { ...

basically translates to

class SomeTraitOf[A]()(implicit m0: Manifest[A]) { ....

Traits can't have view bounds because they can't take any (value) parameters. But that's not really a problem here, because in your example

class SomeTraitOf[A : Manifest] {
  def newInstanceOfA(implicit m : Manifest[A]) : A =

you're not using the view bound! (You're using the parameter m instead.) If you wanted to use the view bound, you could do it this way:

class SomeTraitOf[A : Manifest] {
  def newInstanceOfA : A =
share|improve this answer
class SomeTraitOf[+A : Manifest] { def newInstanceOfA[B >: A](implicit m : Manifest[B]) : B = m.erasure.newInstance.asInstanceOf[B] } works fine, but trait does not carry manifest information. –  jwinandy Aug 1 '11 at 0:39
Ok, I get it, I cannot use it directly in the trait, like def peer() : A = newInstance, but it works fine outside. –  jwinandy Aug 1 '11 at 0:43
I'm not sure I understand your question, but I updated my answer with more information. –  Kipton Barros Aug 1 '11 at 1:01
I am making some trait to Proxy an existing API (Vaadin) in Scala. I do not want to write tons of code, so, I may want to have a clean solution for default Peer constructor in a PeerProxy. –  jwinandy Aug 1 '11 at 1:19
You can take a look if you want at other parts of the code here : github.com/un-jon/scala-vaadin/tree/master/core/src/main/scala/… –  jwinandy Aug 1 '11 at 1:20

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