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.

Say I'm defining a simple 2D point class in Scala, and I want to be able to construct it with various types:

class Point(x:Float, y:Float) {
    this(x:Double, y:Double) = this(x.toFloat, y.toFloat)
    this(x:Int, y:Int) = this(x.toFloat, y.toFloat)
    // etc...
}

I want to boil this down using a template, such as:

class Point(x:Float, y:Float) {
    this[T](x:T, y:T) = this(x.toFloat, y.toFloat)
}

I know this won't work anyway, since T could be a type for which toFloat isn't defined, but the compiler error I get is:

no type parameters allowed here

Is this just unsupported in Scala? If so, why, and is there any simple way to get around this?

share|improve this question
add comment

2 Answers

up vote 13 down vote accepted

Scala's class constructors (unlike Java's) can't take type parameters, only the class itself can. As to why Scala made this design choice, I assume the main reason is simplicity.

If you want a secondary "builder" method that is generic, the natural thing to do is define it on the companion object. For example,

object Point {
  def build[T : Numeric](x: T, y: T) = {
    val n = implicitly[Numeric[T]]
    new Point(n.toFloat(x), n.toFloat(y))
  }
}

class Point(val x:Float, val y:Float)

val p = Point.build(1, 2) // Companion object's builder
p.x + p.y

Here I've used the Numeric typeclass to get a generic toFloat method.

share|improve this answer
1  
If you call this method apply then you could write, val p = Point(1,2), no? –  Emil Sit Sep 7 '11 at 3:57
1  
Yes, and that's how case classes do it. –  Kipton Barros Sep 7 '11 at 4:06
add comment

I played with this for awhile, getting as "close" as...

class Point(x:Float, y:Float) {
  def this[T <: Any { def toFloat: Float }](x:T, y:T) = this(x.toFloat, y.toFloat)
}

...which results in "error: no type parameters allowed here" (just as per the post) and then I realized...

If the initializer could take type parameters it would be ambiguous with the class parameters, if any. Not that this couldn't be worked about in the language specification... but it is a more complex case at the very least. There might also be Java interoperability issues.

Imagine:

class Foo[T](x: T) {
   def this[X](z: X) = ...
}
new Foo[Int](42) // T is Int? X is ...? Or ...?

Personally I wish Scala followed an Eiffel-like pattern (only named constructors or "factory methods"), but alas, that would not be Scala.

Happy coding.

share|improve this answer
add comment

Your Answer

 
discard

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.