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.

Is it possible to create, in Scala, a type which is parametrized by a value? Instead of defining a partial type List[A] and parametrize it with List[Int], I'd like to define a partial type (in pseudo-code) Element[Symbol] and parametrize it with Element['td]. In this example, the type represent an XML element: Element['td] informs the Scala type checker that we have a <td> element, and you can imagine that one could have APIs that specifically expect or return <td> elements.

(Subclassing, as inclass Td extends Element, is not a very satisfactory solution, as it doesn't prevent two pieces of code, maybe written by independent developers, from declaring different subclasses for <td>, which will then be considered to be different types by the Scala type checker.)

share|improve this question
I don't think that's possible. –  alpha123 Aug 23 '11 at 1:44
Probably using a lot of inner classes and path-dependent types? –  soc Aug 23 '11 at 11:39

4 Answers 4

up vote 4 down vote accepted

If you really want to parameterize a type by a value, you need a dependently typed programming language such as Agda.

share|improve this answer
Scala is a dependently typed programming language. Even if it wasn't singleton types get you close enough: since values can be lifted to types, we can encode a type depending on a value as a type depending on the corresponding singleton type of the value. –  Miles Sabin Jun 10 '12 at 19:34
@Miles Sabin: While that might technically be true, I don't see how you would, for instance, create a list type that has an Int parameter for its length. Any ideas? –  Kim Stebel Jun 11 '12 at 12:13
Singleton types for Ints are present internally in the Scala type checker, but don't currently have any syntax (see existentialtype.net/2008/07/21/literally-dependent-types for a patch and discussion). But for any reference types this is entirely possible ... see my answer below. –  Miles Sabin Jun 11 '12 at 22:36
Having these types in the type system still doesn't mean you can make sure, for instance, that the length method of a list will indeed return the length by means of the type system. As long as such trivial things aren't possible, calling Scala dependently typed is a bit of a misnomer imho. –  Kim Stebel Jun 23 '12 at 9:51
To quote the article you linked to: "not full-blown dependent types" –  Kim Stebel Jun 23 '12 at 9:54

Just some ideas to play with... Objects are values and they have a type.

trait XmlElement
object Td extends XmlElement

Then, you can have a parameterized class and use it on that specific type.

class Element[T <: XmlElement] { ... }
val elementOnTd = new Element[Td.type]
// elementOnTd can only be used with Td.

If there is only a fixed number of elements you want to support then you can make a sealed trait and your library will only work with those objects (though that seems pretty limiting)

sealed trait XmlElement
object Td extends XmlElement
object Tr extends XmlElement
// can't have anything other than `Td` and `Tr` !

The other thing you can play with is that inner classes of objects don't have the same type. So you can also do something along the line object Td { class Element { ... } } and Td.Element won't have the same type as Tr.Element.

share|improve this answer

It sounds like what you really want is not so much to parameterize a type by a value (like you could in C++) but to force various developers to agree on a common implementation.

I don't think that that is a problem the language would solve for you. Even if you force there to only be one way to have a <td> type, isn't there still discretion in what, exactly, that <td> type is?

If you really do want to parameterize a type by a value, you'll probably have to do something like:

object TD {

ie make it actually be a type, now you can write Element[TD]. Though that still has the problem that someone else could write object TD { } in another package and there'd be two of them.

You could try and emulate full dependent types using something like

object A { }
object B { }
object C { }

object TyString[Car,Cdr] { }

So that "TD" would be represented as


But you probably don't want to go there ;)

(I've heard that Scala was going to implement something called "singleton literals", but did that ever happen? You were supposed to be able to write "td".type, but Scala 2.9.1 doesn't accept that syntax).

share|improve this answer
About your last comment, the following works for me: val x = "string"; null: x.type. But if x is declared as a var instead of val, the compiler gives an error that x is not a stable identifier. –  Kipton Barros Aug 23 '11 at 3:15
Very interesting. I can see a way in which we could use singleton types. But I am puzzled: if I can write val s = 's; val x: s.type = s why can't I write val s = 's; val x: s.type = 's (which leads to a type mismatch; found : Symbol, required: s.type)? –  avernet Aug 23 '11 at 18:46

Singleton types will give you want you're asking for,

scala> class Element[+T]
defined class Element

scala> val td = 'td
td: Symbol = 'td

scala> val p = 'p
p: Symbol = 'p

scala> def acceptAll[T](e : Element[T]) = e
acceptAll: [T](e: Element[T])Element[T]

scala> def acceptTd(e : Element[td.type]) = e
acceptTd: (e: Element[td.type])Element[td.type]

scala> acceptAll(new Element[p.type])       // OK
res3: Element[Symbol] = Element@628b54f4

scala> acceptAll(new Element[td.type])      // OK
res4: Element[Symbol] = Element@6e7eee36

scala> acceptTd(new Element[td.type])       // OK
res2: Element[td.type] = Element@547fa706

scala> acceptTd(new Element[p.type])        // Doesn't compile
<console>:12: error: type mismatch;
 found   : Element[p.type]
 required: Element[td.type]
              acceptTd(new Element[p.type])

However, they're not giving you anything you couldn't already have had by creating a (sealed) family of types to represent element names. Note that there's nothing special about the use of Scala Symbols here: any stable identifier of a reference type gives rise to a unique singleton type which can be used in the same way.

share|improve this answer

Your Answer


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.