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I am experimenting with existential types.

I was playing with a function that expects a sequence where the elements of that seq are all the same type. I had ..

def bar[X](as: Seq[A[X]]) = true

Where ...

// parametised type to use in the question
trait A[T]

I then came across the "forSome" syntax and found I could achieve the same constraint with it.

I wrote the following for comparison purposes ...

// useful types 
trait A[T]
class AI extends A[Int]
class AS extends A[String]

// define two functions that both have the same constraint.
// ie the arg must be a Sequence with all elements of the same parameterised type

def foo(as: Seq[A[X]] forSome { type X }) = true

def bar[X](as: Seq[A[X]]) = true

// these compile because all the elements are the same type (AI)
foo(Seq(new AI, new AI))
bar(Seq(new AI, new AI))

// both these fail compilation as expected because 
// the X param of X[A] is different (AS vs AI)
foo(Seq(new AI, new AS))
bar(Seq(new AI, new AS))

What I am trying to understand is - am I missing something? What is the benefit of one signature over the other.

One obvious diff is that the compilation errors are different.

scala> foo(Seq(new AI, new AS))
<console>:12: error: type mismatch;
 found   : Seq[A[_ >: String with Int]]
 required: Seq[A[X]] forSome { type X }

              foo(Seq(new AI, new AS))

scala> bar(Seq(new AI, new AS))
<console>:12: error: no type parameters for method bar: (as: Seq[A[X]])Boolean e
xist so that it can be applied to arguments (Seq[A[_ >: String with Int]])
 --- because ---
argument expression's type is not compatible with formal parameter type;
 found   : Seq[A[_ >: String with Int]]
 required: Seq[A[?X]]
              bar(Seq(new AI, new AS))
<console>:12: error: type mismatch;
 found   : Seq[A[_ >: String with Int]]
 required: Seq[A[X]]
              bar(Seq(new AI, new AS))

share|improve this question
The scope of the forSome is important. Did you try Seq[A[X] forSome { type X }]? One possibly useful way to think about existential types and forSome is to think of it as a pair of a type and a value of that type. So a value of type sometype forSome { type A } is a pair of the type A along with some value whose type can depend on A. If you want a heterogeneous list, you need that pair to vary at each element in the Seq, and your version has a single A for the entire Seq. –  Mysterious Dan Apr 26 '13 at 19:55
To take it a step further, if you think of existentials as pairs with types, and universals (your bar[X] generic) as functions with types, your foo and bar types are isomorphic, by currying/uncurrying. This relationship is a lot clearer in a language with dependent types like Agda, but if you squint hard enough you might see it in Scala too. –  Mysterious Dan Apr 26 '13 at 19:58

1 Answer 1

The difference is that in foo you may not refer to type X, whereas in bar you can:

// fails
def foo(as: Seq[A[X]] forSome { type X }) = Set.empty[X]

// btw the same:
def foo(as: Seq[A[_]]) = Set.empty[???]  // <-- what would you put here?

// OK
def bar[X](as: Seq[A[X]]) = Set.empty[X]
share|improve this answer

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