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I'm trying to get a minimal form of dependent types in Scala. If I have

class A[T <: Int]

val x: Int = 7

I can

val a = new A[x.type]

Now is it possible to recover x from its singleton x.type?

Or, if that's not possible, is it possible to associate a stable identifier with a type somehow, and then extract it?

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2 Answers 2

up vote 6 down vote accepted

No, you can't recover x from x.type because of JVM type erasure. For example, how would this be implemented?

def f[A]: A = ???

At the JVM bytecode level, there's no way that f can find value x: A given A = x.type because it doesn't have anything to work with: all type parameters are lost at run-time, and anyway, the x value is not available on f's parameter stack.

For the same reason, to get a stable-ID of a type, you'd have to reify it as a Manifest value. But when I tried, I get a strange result,

def f[A : Manifest] = implicitly[Manifest[A]]
val x = "hi"
val y = "ho"
println(f[x.type]) // hi.type
println(f[y.type]) // ho.type
f[x.type] == f[y.type] // true !?

I'm not sure why these two type manifests are equal---they even have different toString representations. Could this be a Scala bug? Update: According to the ScalaDoc, The type-relation operators <:< and =:= should be considered approximations only, as there are numerous aspects of type conformance which are not yet adequately represented in manifests.

To summarize, the reification of type information into run-time values doesn't happen automatically on the JVM. Scala's Manifest is supposed to fill the gap, but I guess it doesn't work with dependent types.

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That makes sense. Is there any conceivable way to encode a value at the type level? I'm working with a library (squeryl) that uses reflection and makes decisions based on types. –  Owen Sep 8 '11 at 5:54
Depends what you mean by encode. In a certain sense, x.type does encode the value x, even though this value cannot be reified at run-time from the type alone. Also, I'm not sure how reflection (run-time inspection of values) corresponds to type level encoding. Do you mean classOf[T]? Sorry, I'm not familiar with squeryl. Maybe you can give a more specific question? –  Kipton Barros Sep 8 '11 at 5:58
Squeryl inspects the types of fields and decides appropriate database columns. So "field type", which should really be a value, is moved up to the type level. I supposed I may try and solve my problem by bringing things back to the value level. –  Owen Sep 8 '11 at 6:03
Yeah, for that use case, you have to deal with the limitations of the JVM. The JVM provides only the "class type" of the field, so, for example, List[Int] gets shortened to just List. Also, the JVM knows nothing about things like dependent types. –  Kipton Barros Sep 8 '11 at 6:07

To answer your second question, "associating a stable identifier to a type", one way to do it is to use type classes. Let's say I want to associate a string description to types, I can do it as follows:

trait Tag[A] {
  val desc : String

implicit object StringTag extends Tag[String] {
  val desc = "character string"

implicit object IntTag extends Tag[Int] {
  val desc = "32-bit integer"

Now, to recover such tags, enter the implicit magic:

def printTag[T : Tag] {
  val tag = implicitly[Tag[T]]
  println("Type is described as : " + tag.desc)


printTag[String] // prints "Type is described as : character string"
printTag[Double] // compile-time error: no implicit value found of type Tag[Double]

You can even generate tags as needed, using implicit functions. For instance:

implicit def liftTagToList[T : Tag] = new Tag[List[T]] {
  val underlying = implicitly[Tag[T]].desc
  val desc = "list of " + underlying + "s"

I can now do the following:

// prints "Type is described as : list of character strings"

and even:

// prints "Type is described as : list of list of character stringss"

Please forgive the pluralization.

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Note that you can even customize the compile-time error that occurs if no implicit value is found (as in the case of Double above), using the implicitNotFound annotation on the Tag trait. –  Philippe Sep 8 '11 at 18:26
Very nice. I realized this won't help me with Squeryl since it's actually inspecting the class not the type, but I'll keep this trick in mind. –  Owen Sep 8 '11 at 18:44

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