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What I need is something like

Map[DateTime, Any]

but all the values must be of any one specific type. For example it is not to be that one value is an Int, another is a Double and the third is a String - all the records are to be of the same specific type downcasted to Any.

I am going to take the map as an argument into a semi-type-agnostic function, determine the type with match/case and perform a particular algorithm. The function is actually going to support some types and throw an exception if the type provided is not supported.

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I bet some clever use of Manifest can cause compiler errors for unsupported types instead of runtime errors. –  dave Feb 23 '12 at 14:51

1 Answer 1

I'm not sure what you want; you seem to want something that is almost exactly what generics do, but apparently with some difference in the details that I haven't understood. So I'll guess:

If your complaint is that maps' add can widen the type of values:

scala> val m = Map(5 -> "fish")
m: scala.collection.immutable.Map[Int,java.lang.String] = Map(5 -> fish)


scala> m + ("foo" -> "dish")  // Type mismatch on key
<console>:9: error: type mismatch;
 found   : (java.lang.String, java.lang.String)
 required: (Int, ?)
              m + ("foo" -> "dish")

scala> m + (2 -> 44)  // Type mismatch on value
m + (2 -> 44)
res2: scala.collection.immutable.Map[Int,Any] = Map(5 -> fish, 2 -> 44)

then you can use generics and multiple arguments to thwart changes to the type of the value in methods you provide:

def add[A,B](m: Map[A,B])(a: A, b: B) = m + (a -> b)


scala> add(m)(2, 44) 
<console>:10: error: type mismatch;
 found   : Int(44)
 required: java.lang.String
              add(m)(2, 44)

Here, the types of A and B are bound to whatever is in the map before it reaches the second parameter block. So you won't have to worry about contravariance of the map value type.

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I know about generics, but I don't want def semiAgnostic[A](m: Map[DateTime,A]) in this case. I want def semiAgnostic(m: Map[DateTime,A]):Map[DateTime,B] where A is to be detected automatically inside the function and B is to be detected automatically inside whatever function further consumes the result. Using match/case to specialize from Any makes such an approach possible but in this case Map[DateTime,Any] would allow unexpected sets in (while constrainting input as strongly as possible is always desired). –  Ivan Feb 23 '12 at 9:17
    
The API consumer is to be able to use the function simply by calling it as semiAgnostic(in: Map[DateTime,Int]) or semiAgnostic(in: Map[DateTime,Double]) or semiAgnostic(in: Map[DateTime,SomeCutomClass]) without specifying the value type as [A]. This is a problem of usability: the DSL needs to be as readable and redundancy-free as possible as the audience is not meant to be constrainted by programming experience requirements. –  Ivan Feb 23 '12 at 9:23
    
I am curious if a type can be used as a parameter, not a specifier. Something[A], Something[B] and simply Something being different types instead of one type with a type specifier as a property seem to limit flexibility significantly. –  Ivan Feb 23 '12 at 9:53
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Scala's type inference will already infer the A in your example. –  Submonoid Feb 23 '12 at 15:19
    
@Ivan - Your comments don't make sense to me, at least not if we're talking about Scala. You are probably misunderstanding something, but I can't be sure. It seems like you've complained that you don't want generics because you want something that works like generics, and that the API consumer has to be able to call the functions the way they can with generics, except that you think generics are a problem. –  Rex Kerr Feb 23 '12 at 18:28

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