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I'm trying to create a generic class like this:

class A[T](v: Option[T]) {
  def this(v: T) = this(Some(v))
  def this() = this(None)
  def getV = v 

Then I do some testing:

scala> new A getV
res21: Option[Nothing] = None
scala> new A(8) getV
res22: Option[Int] = Some(8)

So far so good. But as soon as I try to call the main constructor, I get this:

scala> new A(Some(8)) getV
<console>:9: error: ambiguous reference to overloaded definition,
both constructor A in class A of type (v: T)A[T]
and  constructor A in class A of type (v: Option[T])A[T]
match argument types (Some[Int])
       new A(Some(8)) getV

scala> new A(None) getV
<console>:9: error: ambiguous reference to overloaded definition,
both constructor A in class A of type (v: T)A[T]
and  constructor A in class A of type (v: Option[T])A[T]
match argument types (None.type)
       new A(None) getV

What's so "ambiguous" between those two constructors? Or (let me guess) it's yet another thing I do not know about Scala's type system? :)

Sure, if I use non-generic class everything works as expected. My B class works just fine:

class B(v: Option[String]) {
  def this(v: String) = this(Some(v))
  def this() = this(None)
  def getV = v 

scala> new B("ABC") getV
res26: Option[String] = Some(ABC)
scala> new B getV
res27: Option[String] = None
scala> new B(Some("ABC")) getV
res28: Option[String] = Some(ABC)
scala> new B(None) getV
res29: Option[String] = None
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Got it. Tricky one, yet so obvious after I noticed the problem :) –  Vilius Normantas Jul 22 '11 at 11:34

2 Answers 2

up vote 7 down vote accepted

The new A(Some(8)) can be either:

  • new instance of A[Int] via primary constructor,
  • new instance of A[Option[Int]] via alternate constructor.

You can specify the type explicitly, like new A[Int](Some(8)).

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The problem has already been identified. What about a solution that doesn't require typing?

Solution: implicit conversions with priority.

The problem with implicit conversions is that you probably don't want to write implicit def everything_is_optional[A](a: A) = Some(a) because this breaks your type system for options (in that you'll get promotion without noticing). Maybe you want this, but personally, I like the type system to tell me when I've gotten confused about whether something is an option or not. So we need some sort of other wrapper. Like so:

// Might want to do this for more than just one class, so generalize
class Implicator[A,B](val value: A) {
  def to[C] = this.asInstanceOf[Implicator[A,C]]

class X[A](i: Implicator[Option[A],X[A]]) {
  private val v = i.value
  def getV = v
trait LowPriorityX {
  implicit def everything_for_x[A](a: A) = new Implicator(Option(a)).to[X[A]]
object X extends LowPriorityX {
  implicit def option_for_x[A](oa: Option[A]) = new Implicator(oa).to[X[A]]

Now we can try this out (make sure to enter the above in :paste mode if you use the REPL, or enter it all inside an object and import the object, so that object X is interpreted as the companion object for class X:

scala> new X(5)
res0: X[Int] = X@26473f4c

scala> new X(Some(5))
res1: X[Int] = X@1d944379

So we get our desired behavior at the expense of a bit of extra code and an implicit conversion.

I'm almost positive there's a type encoding scheme that will work also, but I haven't had time to finish it, plus I lost my enthusiasm for it once I noticed that the compiler insists on creating and boxing the implicit used for type bounding in such schemes, even though it's only needed for type checking.

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