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I have a bunch of code that uses a Map[String, Float]. So I'd like to do

type DocumentVector = Map[String, Float]
...
var vec = new DocumentVector

but this does not compile. I get the message:

trait Map is abstract; cannot be instantiated
[error]       var vec = new DocumentVector

Ok, I think I understand what is going on here. Map is not a concrete class, it just produces an object via (). So I could do:

object DocumentVector { def apply() = { Map[String, Float]() } }
...
var vec = DocumentVector()

That works, though it's a bit clunky. But now I want to nest the types. I'd like to write:

type DocumentVector = Map[String, Float]
type DocumentSetVectors = Map[DocumentID, DocumentVector]

but this gives same "cannot be instantiated" problem. So I could try:

object DocumentVector { def apply() = { Map[String, Float]() } }
object DocumentSetVectors { def apply() = { Map[DocumentID, DocumentVector]() } }

but DocumentVector isn't actually a type, just an object with an apply() method, so the second line won't compile.

I feel like I'm missing something basic here...

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4 Answers 4

Just be specific about which kind of Map you want

scala> type DocumentVector = scala.collection.immutable.HashMap[String,Float]
defined type alias DocumentVector

scala> new DocumentVector                                                    
res0: scala.collection.immutable.HashMap[String,Float] = Map()

Unless you need the flexibility of the abstract Map type in which case there is no better solution than having a type alias separated from a factory (which could be a plain method, no need for an Object with apply).

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But then I can't do something like v:DocumentVector = otherDocumentVector.mapValues(somefn) because these concrete types seem to be incompatible with most of the Scala functional primitives. –  Jonathan Stray Jul 12 '12 at 21:35

I agree with @missingfaktor, but I would implement it a little different, so that it feels like using a trait with a companion:

type DocumentVector = Map[String, Float]
val DocumentVector = Map[String, Float] _

// Exiting paste mode, now interpreting.

defined type alias DocumentVector
DocumentVector: (String, Float)* => scala.collection.immutable.Map[String,Float] = <function1>

scala> val x: DocumentVector = DocumentVector("" -> 2.0f)
x: DocumentVector = Map("" -> 2.0)
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+1, I think this is the best solution –  missingfaktor Jul 13 '12 at 9:09
    
Thanks. Here is what I eventually got to -- same effect, more complex syntax? With a companion object? type DocumentVector = Map[String, Float] object DocumentVector { def apply() = { Map[String, Float]() } } –  Jonathan Stray Jul 14 '12 at 22:03
    
To actually get the same effect you have to add a parameter of type (String, Float)* to your apply method and pass it to the Map() call. –  drexin Jul 14 '12 at 23:25
    
But that would only be needed if you want to be able to pass initializers in the constructor, right? –  Jonathan Stray Jul 15 '12 at 15:09
    
Yes, that's correct. –  drexin Jul 15 '12 at 15:21

How about plain methods?

type DocumentVector = Map[String, Float]
def newDocumentVector = Map[String, Float]()
type DocumentSetVectors = Map[DocumentID, DocumentVector]
def newDocumentSetVectors = Map[DocumentID, DocumentVector]() 
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This could be one possible solution

package object Properties {
  import scala.collection.generic.ImmutableMapFactory
  import scala.collection.immutable.HashMap

  type Properties = HashMap[String, Float]
  object Properties extends ImmutableMapFactory[Properties] {
    def empty[String, Float] = new Properties()
  }
}
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