Can I get a compile-time list of all of the case objects which derive from a sealed parent in Scala?

scala

As has been discussed many times on SO, a Scala match will warn you if you don't exhaustively list all of the types deriving from a sealed class.

What I want is a compile-time generated Iterable of the case objects deriving from a particular parent. Alternatively, I'd be happy with a way to make the compiler tell me I don't have all of the necessary types in some Iterable. I don't want a run-time, reflection-based approach.

As an example of the second approach, I'd like to have the following rough code generate a compile error where indicated.

sealed trait Parent
case object A extends Parent
case object B extends Parent
case object C extends Parent

// I want a compiler error here because C is not included in the Seq()
val m = Seq(A, B).map(somethingUseful)

Feel free to answer by telling me it's not possible. It just seems like it should be possible at some level because the compiler must be doing essentially the same work when determining a match is non-exhaustive.

Thinking about it another way, I'd take something like the Enumeration.values() method except applied to case objects. Certainly, I could add something similar to the code above with a manually maintained list of values to the parent's companion object, but that seems needlessly error-prone when the compiler could do that for me.

// Manually maintained list of values
object Parent { 
    val values = Seq(A, B, C)
}

Update. Since 2.10.0-M7 we're exposing the methods mentioned in this answer as a part of public API. isSealed is ClassSymbol.isSealed and sealedDescendants is ClassSymbol.knownDirectSubclasses.

This is not going to be an answer to your question.

But, if you're willing to settle for something more like Enumeration.values(), and you're using a recent milestone of 2.10, and you're willing to muck about with some ugly casting-to-internal-APIs business, you can write the following:

import scala.reflect.runtime.universe._

def sealedDescendants[Root: TypeTag]: Option[Set[Symbol]] = {
  val symbol = typeOf[Root].typeSymbol
  val internal = symbol.asInstanceOf[scala.reflect.internal.Symbols#Symbol]
  if (internal.isSealed)
    Some(internal.sealedDescendants.map(_.asInstanceOf[Symbol]) - symbol)
  else None
}

Now if you've got a hierarchy like this:

object Test {
  sealed trait Parent
  case object A extends Parent
  case object B extends Parent
  case object C extends Parent
}

You can get the type symbols for the members of the sealed type hierarchy like this:

scala> sealedDescendants[Test.Parent] getOrElse Set.empty
res1: Set[reflect.runtime.universe.Symbol] = Set(object A, object B, object C)

It's hideous, but I don't think you're going to get what you actually want without writing a compiler plugin.


Here's a working example using macros on 2.10.0-M6:

(update: to make this example work in 2.10.0-M7, you need to replace c.TypeTag with c.AbsTypeTag; to make this example work in 2.10.0-RC1, c.AbsTypeTag needs to be replaced with c.WeakTypeTag)

import scala.reflect.makro.Context

object SealednessMacros {
  def exhaustive[P](ps: Seq[P]): Seq[P] = macro exhaustive_impl[P]

  def exhaustive_impl[P: c.TypeTag](c: Context)(ps: c.Expr[Seq[P]]) = {
    import c.universe._

    val symbol = typeOf[P].typeSymbol

    val seen = ps.tree match {
      case Apply(_, xs) => xs.map {
        case Select(_, name) => symbol.owner.typeSignature.member(name)
        case _ => throw new Exception("Can't check this expression!")
      }
      case _ => throw new Exception("Can't check this expression!")
    }

    val internal = symbol.asInstanceOf[scala.reflect.internal.Symbols#Symbol]    
    if (!internal.isSealed) throw new Exception("This isn't a sealed type.")

    val descendants = internal.sealedDescendants.map(_.asInstanceOf[Symbol])

    val objs = (descendants - symbol).map(
      s => s.owner.typeSignature.member(s.name.toTermName)
    )

    if (seen.toSet == objs) ps else throw new Exception("Not exhaustive!")
  }
}

This obviously isn't very robust (for example, it assumes that you only have objects in the hierarchy, and it'll fail on A :: B :: C :: Nil), and it still requires some unpleasant casting, but it works as a quick proof-of-concept.

First we compile this file with macros enabled:

scalac -language:experimental.macros SealednessMacros.scala

Now if we try to compile a file like this:

object MyADT {
  sealed trait Parent
  case object A extends Parent
  case object B extends Parent
  case object C extends Parent
}

object Test extends App {
  import MyADT._
  import SealednessMacros._

  exhaustive[Parent](Seq(A, B, C))
  exhaustive[Parent](Seq(C, A, B))
  exhaustive[Parent](Seq(A, B))
}

We'll get a compile-time error on the Seq with the missing C:

Test.scala:14: error: exception during macro expansion: 
java.lang.Exception: Not exhaustive!
        at SealednessMacros$.exhaustive_impl(SealednessMacros.scala:29)

  exhaustive[Parent](Seq(A, B))
                    ^
one error found

Note that we need to help the compiler out with an explicit type parameter indicating the parent.

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