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As peers the example below, I am trying to make a case class that can hold items of type SomeResult[T] without having to know what T is. This works fine in the case of Rawr, which can hold a Set of SomeResult[_], however when I add a second field to try and work with on the same principle (i.e. a single element who's content we don't care about, and a set of elements), I get the following error

[error] /Users/matthewdedetrich/temp/src/main/scala/Main.scala:15: type arguments [_$2] do not conform to class SomeResult's type parameter bounds [A <: T]
[error] case class Bleh(oneThing:SomeResult[_],moreThings:Set[SomeResult[_]]) // This doesn't

Here is the sample code

trait T {

}

case class First(int:Int) extends T
case class Second(int:Int) extends T


case class SomeResult[A <: T](name:String, t:A)

case class Rawr(multipleThings:Set[SomeResult[_]]) // This works

case class Bleh(oneThing:SomeResult[_],moreThings:Set[SomeResult[_]]) // This doesn't

There is a suggestion to use a [+A <: T] as a type bound instead of a wildcard, however the following code doesn't work when doing this

val t = Set(First(3),Second(5))

def someFunc[A <: T](thing:A) = {
    thing match {
      case First(_) => SomeResult("a",First(10))
      case Second(_) => SomeResult("b",Second(15))
      case _ => throw new IllegalArgumentException("rawr")
    }
  }

  val z = t.map{
    case x:First => someFunc(First(5))
    case y:Second => someFunc(Second(5))
    case _ => throw new IllegalArgumentException("rawr")
  }

  val z2 = Rawr(z)

Which then provides the error

[error]  found   : scala.collection.immutable.Set[SomeResult[Product with Serializable with T]]
[error]  required: Set[SomeResult[T]]
[error] Note: SomeResult[Product with Serializable with T] <: SomeResult[T], but trait Set is invariant in type A.
[error] You may wish to investigate a wildcard type such as `_ <: SomeResult[T]`. (SLS 3.2.10)

Which is why I used wildcard types in the first place. Funnily enough, if you try to provide a return type to sumFunc, you get the exact same problem (where the scala compiler error suggests that you should use Wildcard types)

EDIT 2: I have actually managed to get the code to compile by doing this

  def someFunc[A <: T](thing:A):SomeResult[A] = {
    thing match {
      case First(_) => SomeResult("a",First(10)).asInstanceOf[SomeResult[A]]
      case Second(_) => SomeResult("b",Second(15)).asInstanceOf[SomeResult[A]]
      case _ => throw new IllegalArgumentException("rawr")
    }
  }

  def z[A <: T]:Set[SomeResult[A]] = t.map{
    case x:First => someFunc(First(5)).asInstanceOf[SomeResult[A]]
    case y:Second => someFunc(Second(5)).asInstanceOf[SomeResult[A]]
    case _ => throw new IllegalArgumentException("rawr")
  }

Im not sure if its "idiomatic" or "right", but its the only way to get the Serializable with Product out of the type signature. I have no idea why Scala infers this when the result type is clearly a subtype of T

share|improve this question
    
Second code snippet seems to be missing something (t is from where?), or is it supposed to go into SomeResult (even after putting it there I didn't get same error)? I would definitely recommend explicitly specifying return type of someFunc and a type of z, you might get a better idea of what is wrong. –  monnef Aug 19 at 16:37
    
Updated the post, also explicitly specifying the return result of someFunc doesn't work –  mdedetrich Aug 20 at 0:16
    
Updated answer (gist: replacing A -> T in return types). –  monnef Aug 20 at 11:21

2 Answers 2

up vote 2 down vote accepted

Why don't just use T instead of _?:

case class Bleh(oneThing:SomeResult[T],moreThings:Set[SomeResult[T]]) // Compiles

Then e.g. Bleh(SomeResult("", First(0)), Set()) works fine.

Naming a trait as T is a bit unfortunate, it's easily confused with type parameter.

Answer to EDIT2:
Slightly edited and working:

val t: Set[T] = Set(First(3), Second(5))

def someFunc[A <: T](thing: A): SomeResult[T] = {
  thing match {
    case First(_) => SomeResult("a", First(10))
    case Second(_) => SomeResult("b", Second(15))
    case _ => throw new IllegalArgumentException("rawr")
  }
}

def z[A <: T]: Set[SomeResult[T]] = t.map {
  case x: First => someFunc(First(5))
  case y: Second => someFunc(Second(5))
  case _ => throw new IllegalArgumentException("rawr")
}

You were forcing a type A to Set, but Set is invariant (compiler was unable to make a Set[T] when got t of type First/Second [old method signatures was with A]).

share|improve this answer
    
Because then you can't put in different subtypes of T in the same case class instance. –  mdedetrich Aug 19 at 9:11
    
Same instance - what you mean by that (your case class is immutable)? Or you mean different subtypes of T in set? But that works: Bleh(SomeResult("",First(0)), Set(SomeResult("",First(1)),SomeResult("",Second(2)))) –  monnef Aug 19 at 9:17
    
The following code doesn't work with that signature val someResult1 = SomeResult("s",First(4)); val someResult2 = SomeResult("s",Second(5)); val c = Rawr(Set(someResult1,someResult2)) –  mdedetrich Aug 19 at 9:19
    
That's a variance issue of SomeResult, try case class SomeResult[+A <: T](name:String, t:A) (without it compiler can't convert SomeResult[First] to SomeResult[T] so it cannot create Seq[SomeResult[T]]). –  monnef Aug 19 at 9:24
    
Check the edit, I can't make my code work in a certain situation when using type bounds –  mdedetrich Aug 19 at 15:01

just to avoid confusion, these examples don't actually require existentials. Replacing T with trout to avoid confusion, as the foobarbazzing of First Second SomeResult was bad enough for my tiny brain.

sealed trait trout {}

case class First(int:Int) extends trout
case class Second(int:Int) extends trout


case class SomeResult[A >: trout](name:String, t:A)

case class Rawr(multipleThings:Set[SomeResult[_]])

case class Bleh[T >: trout](oneThing:SomeResult[T],moreThings:Set[SomeResult[_]])

val von = SomeResult("Kilgore", First(99))
val ro = SomeResult("Mishka", Second(33))
val mika = SomeResult("Rivold", First(52))

// want this:
val troutses = List(von, ro, mika)


val result1 = troutses.map {
    case SomeResult(_, First(_)) => SomeResult("a", First(10))
    case SomeResult(_, Second(_)) => SomeResult("b", Second(15))
  }

// but this version:
def someFunc[A >: trout](thing: A): SomeResult[_] = {
  thing match {
    case First(_) => SomeResult("a", First(10))
    case Second(_) => SomeResult("b", Second(15))
  }
}
val indexSet = Set(First(3), Second(5))

val z = indexSet.map {
  case First(_) => someFunc(First(5))
  case Second(_) => someFunc(Second(5))
}

val z2 = Rawr(z)

All of this works fine.

-- TurdCollector

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