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I'm looking for a way to define a method that returns a type T where T = the type of the subclass.

I know I could possibly do this using abstract types, but dislike the overhead of having to redefine T for each subclass.

Some sample code:

object Helper {
  def help[A <: MyClass](cls: A): Option[A] = { cls.foo() map { _.asInstanceOf[A] } }
}

class MyClass {
  type T <: MyClass
  def foo(): Option[T] = Some(this.asInstanceOf[T])
}

class ChildClass extends MyClass {
   type T = ChildClass
}

Possibly a new language feature has made this easier? Or can I use this.type in some way? It's important to me that I be able to define a helper class that can call into foo in this way.

share|improve this question
up vote 3 down vote accepted

If you are always returning this, then you can indeed have as return type this.type. Or have you tried it already?

this.type is especially useful e.g. when you want to chain calls to the same object, or provide a static guarantee that you will be returning the same object (and not a copy). For instance, Buffers in Scala have the append operation :+, which returns a Buffer[A], and +=, which returns this.type. The former duplicates the mutable sequence; the latter guarantees that you update the original object.

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1  
Any chance you can point me towards some specific syntax that would work given that I need to write Helper.help exactly as is (with the type parameter)? this.type doesn't match A? Also, note that I need to return Option[this.type], and def foo: Option[this.type] = Some(this) doesn't seem to compile. Thanks for your help! – Pandora Lee Jul 29 '11 at 21:12
1  
@Pandora Singleton types are never inferred, you have to specify it explicitly: Some[this.type](this). – Jean-Philippe Pellet Jul 30 '11 at 13:40
    
Thanks very much! I've run into another glitch since my foo function in practice actually calls out to another object's static method --> follow up question here if you have insights :) stackoverflow.com/questions/6886182/… – Pandora Lee Jul 30 '11 at 21:54

I found the following idiom useful:

class MyClass[T] {
  self: T => 
  def foo(): Option[T] = Some(this)
}

class ChildClass extends MyClass[ChildClass]

new ChildClass().foo()
//--> Option[ChildClass] = Some(ChildClass@2487b1)
share|improve this answer
    
Yes, but: • it has to be a trait if you want to allow a whole hierarchy of classes, and • it must be covariant in T. Overall, more constraints than a simple this.type, no? – Jean-Philippe Pellet Jul 29 '11 at 13:55
    
@Jean-Philippe Pellet: Yes, looks like. I'm meditating whether it may have advantages, too, but didn't find one. – Landei Jul 29 '11 at 19:40

To follow up on Jean-Phillippe's answer, who wrote his exactly when I'm writing mine, here's the code:

trait SomeTrait {
  def foo: this.type = this
}

class UsesTrait extends SomeTrait

object Main {
  def main(args: Array[String]) {
    println((new UsesTrait).foo) // prints UsesTrait@<hash value>
  }
}
share|improve this answer
    
Cool, this is helpful. Does this extend to Option[this.type]? def foo: Option[this.type] = Some(this) doesn't seem to compile. – Pandora Lee Jul 29 '11 at 21:32

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