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as a simplified version of my code:

abstract class GenX
case class X1 extends GenX
case class X2 extends GenX
...

class A {
 val ab : LinkedList[X1] = LinkedList()
 val ac : LinkedList[X2] = LinkedList()
 ...
 def addX[T <: GenX]( x : GenX, clazz : T) =
   getList(clazz) append LinkedList(x) // HERE complains

 def getList(T <: GenX) (clazz : T) : LinkedList[_<: GenX] = clazz match {
  case X1 => ab
  case X2 => ac
  ...
  }
}

my intention is that when a GenX needs to be added to A, it can pass its class as argument for a generic addition like

case class X1 extends GenX{
 def addToA(a : A) = a.addX(this, this getClass)
}

the problem now is that compiler complains bout x being of GenX type and not _$1 <: GenX type

I dont get it.

share|improve this question
1  
a personal note, i dont think that def addToA(a : A) = a.ab append LinkedList(this) is a good solution, for encapsulation issues – Illiax Oct 9 '13 at 20:06
up vote 4 down vote accepted

First, with regard to appending, I would suggest using something like a ListBuffer rather than a LinkedList, it has a much friendlier API for appending.

Next, your declaration of the clazz argument declares it to be of type T (subtype of GenX), not Class[T]. You are better off just matching on x, anyway.

Finally, x is declared as of type GenX, and for all the compiler can tell is potentially a different subclass of GenX from clazz or the subclass type of the selected list, hence the actual compilation error you would have received.

Here is a version of A that should achieve what you are trying for:

import scala.collection.mutable.ListBuffer

class A {
  val ab : ListBuffer[X1] = ListBuffer()
  val ac : ListBuffer[X2] = ListBuffer()
  // ...

  def addX(x: GenX) = x match {
    case x1: X1 => ab += x1
    case x2: X2 => ac += x2
    // ...
  }         
}
share|improve this answer
    
Thanks! that solved my problem. I was so concentrated on the problem, i didnt realize i could mix addX and getList. Just to know, what would have been the returning type of getList with your version because : ListBuffer[GenX] is a compiling error, but i think it actually is a ListBuffer[GenX]. – Illiax Oct 9 '13 at 22:04
1  
Something that looks pretty weird at first glance, I think. When I tried the above in the REPL, a.addX(x) gave back a result of (approx) ListBuffer[_ >: X1 with X2 <: GenX]. I think this should be interpreted as though there are brackets around the X1 with X2 part (and this would extend out to ... with X3 with ... for more subtypes of GenX involved). – Shadowlands Oct 9 '13 at 22:11
    
oh, pretty nasty stuff it is then. I wanted to know the returning type because now i need a removeX(x : GenX) and it is basically the same code except from += xn. but if it is that wired, i'll just go with a copy&paste changing the end of each case. Thanks again – Illiax Oct 9 '13 at 22:21

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