I'm creating some parameterized classes C[T] and I want to make some requirements of the characteristics of the type T to be able to be a parameter of my class. It would be simple if I just wanted to say that T inherited from traits or classes (as we do with Ordering). But I want it to implement some functions as well.

For example, I've seen that many pre-defined types implement MinValue and MaxValue, I would like my type T to implement these too. I've received some advice to just define an implicit function. But I wouldn't like that all the users were obliged to implement this function for these when it is already implemented. I could implement them at my code too, but it seems just to be a poor quick fix.

For example, when defining heaps, I would like to allowd users to construct a empty Heap. In these cases I want to inicialize value with the minimum value the type T could have. Obviously this code does not works.

class Heap[T](val value:T,val heaps:List[Heap[T]]){
    def this()=this(T.MinValue,List())

I also would love to receive some advice about really good online Scala 2.8 references.


A bunch of things, all loosely related by virtue of sharing a few methods (though with different return types). Sure sounds like ad-hoc polymorphism to me!

roll on the type class...

class HasMinMax[T] {
  def maxValue: T
  def minValue: T

implicit object IntHasMinMax extends HasMinMax[Int] {
  def maxValue = Int.MaxValue
  def minValue = Int.MinValue

implicit object DoubleHasMinMax extends HasMinMax[Double] {
  def maxValue = Double.MaxValue
  def minValue = Double.MinValue

// etc

class C[T : HasMinMax](param : T) {
  val bounds = implicitly[HasMinMax[T]]
  // now use bounds.minValue or bounds.minValue as required


The [T : HasMinMax] notation is a context bound, and is syntactic sugar for:

class C[T](param : T)(implicit bounds: HasMinMax[T]) {
  // now use bounds.minValue or bounds.minValue as required
| improve this answer | |
  • This works OK for normal functions. But I'm having troubles on using it inside a constructor... It's saying that bounds was not found – Bruna Dec 3 '10 at 11:07
  • I added the expansion to my definition, that should work for you – Kevin Wright Dec 3 '10 at 12:26

You can either use type bounds:

trait Base

class C[T <: Base]

enabling C to be parametrized with any type T which is a subtype of Base.

Or you can use implicit parameters to express requirements:

trait Requirement[T] {
  def requiredFunctionExample(t: T): T

class C[T](implicit req: Requirement[T])

Thus, objects of class C can only be constructed if there exists an implementation of the Requirement trait for the type T you wish to parametrize them with. You can place implementations of Requirement for different types T in, for instance, a package object, thus bringing them into scope whenever the corresponding package is imported.

| improve this answer | |
  • Ok! But that's not what I'm looking for. I don't wanna redefine MinValue and MaxValue in a trait when it's already defined. More than that, I would like, Int, Double, Char... to be these parametre T but none of them extends the trait I'm creating. – Bruna Dec 2 '10 at 18:36
  • The problem is that MinValue and MaxValue do not have the same types for Int, Char, ..., they have different signatures, so they are different methods. This means you'd probably have to create a requirement trait with an abstract method returning, for instance, Any, and then redefine it for the base types. I hope I understood you correctly.. – axel22 Dec 2 '10 at 18:43

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