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Could you please explain why the following code is not working as expected.

The actor is not printing the message


class Base {
  def f() = { "This is Base" }

class Sub extends Base {
  override def f() = { "This is Sub" }

case class myCase(x: Base)

import scala.actors._

object myActor extends Actor {

  def act()
    loop {
      react {
        case myCase(x) => x.f()
        case msg => "unknown"

  def main(args: Array[String]): Unit = {
    this ! myCase(new Base)
    this ! myCase(new Sub)
share|improve this question

1 Answer 1

up vote 4 down vote accepted

Answering the question

The problem has nothing whatsoever to do with inheritance or case classes (I have re-titled the question to reflect this). The code does not print anything for two reasons:

  1. Because your code does not actually make any calls to println! Replace:

    case myCase(x) => x.f()


    case myCase(x) => println( x.f() )
  2. Because you do not start your actor. I think your program would make more sense if the actor were an inner class:

    object myActor extends App {
      class MyActor extends Actor {
        def act() {
          loop {
            react {
              ...             // <-- You need to print stuff
      val a = new MyActor
      a.start()             // <-- You need to start it
      a ! myCase(new Base)
      a ! myCase(new Sub)

Advice: case classes and inheritance

I would, however, offer the advice that using inheritance in the presence of case classes is a bad idea. I usually use the approach of declaring common behaviour/state in a trait:

sealed trait Base {
  def f(): Unit

case class Sub() extends Base

Why is it a bad idea? Well, one of the contracts that case-classes give you is a rigid definition of equivalence (that is, an equals and hashCode implementation). In the presence of inheritance, this could well be misleading. That is, your code will probably not do what you expect. Consider the following;

scala> abstract class Base { val x: Int }
defined class Base

scala> case class Sub(s: String) extends Base { val x = util.Random.nextInt(100) }
defined class Sub

Now if I create 2 instances...

scala> Sub("Hey")
res2: Sub = Sub(Hey)

scala> Sub("Hey")
res3: Sub = Sub(Hey)

They are equivalent

scala> res2 == res3
res4: Boolean = true

But they do not have the same state

scala> res2.x
res5: Int = 28

scala> res3.x
res7: Int = 15

Note, I am not saying this is a bug. I'm just saying it's an area where you might find that you introduce a bug in your code because you have made the assumption that any state of the case class is included in its equivalence.

share|improve this answer
Thanks. I appreciate it. –  Nabegh Apr 30 '12 at 11:18
Thanks for the advice. I am new to Scala and the concept of Trait is still not clear to me. –  Nabegh Apr 30 '12 at 11:31
If you are coming from a Java background, a trait is just an interface which can contain implementation. This has a profound impact on the language because it means that API designers can design a very rich library without incurring a heavy penalty to implementors. That is, any implementor of java.util.Collection must implement 13 methods - an implementor of Traversable must implement only one (for which they then get > 90 other methods for free). I rarely (never, in fact) use abstract classes. –  oxbow_lakes Apr 30 '12 at 11:50
If a trait is an interface which can contain implementation which can also be extended, then what makes it different from the abstract class? –  Nabegh Apr 30 '12 at 19:05
You can inherit from multiple traits, but you can only extend one superclass –  oxbow_lakes May 7 '12 at 15:10

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