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A following C code uses enum and array as efficient "map" from enum to anything:

enum Color { ColorRed, ColorGreen, ColorBlue, ColorSize};


void f() {
  int x[ColorSize];
  x[ColorRed]   = 12;
  x[ColorGreen] = 33;
  x[ColorBlue]  = 4;
  return x[ColorGreen];
}

Is this possible with Scala?
I.e. to have a "map" from case class to something, implemented as efficient array and not as tree or as hashmap. Yet I would like to be able to index only with a paricular type not with Int.

Update: In short I would like to have Scala Array indexed by some kind of enum (case class or Enumeration).

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I guess I'm confused by the terminology. You'd like an array, but one that is indexed by enum rather than int? –  Synesso Jan 28 '11 at 6:30
1  
An array is indexed by integers, always. If it's indexed by objects then it's some kind of hash table. –  pelotom Jan 28 '11 at 6:40
    
@Synesso: You are right. I updated the question. –  Łukasz Lew Jan 28 '11 at 6:44
    
@pelotom, that's my point. –  Synesso Jan 29 '11 at 7:12
    
@Synesso my comment was directed at @Łukasz Lew –  pelotom Jan 29 '11 at 8:18
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3 Answers

up vote 3 down vote accepted

For small enumerations you can "simulate" the C behavior:

abstract sealed class Color(val index: Int)

object Color {
  implicit def col2int(color:Color) = color.index
}

case object ColorRed extends Color(0)
case object ColorGreen extends Color(1)
case object ColorBlue extends Color(2)

...

import Color._
val array = Array(1,2,3)
array(ColorRed) = 12

However, I doubt this would be considered good style, especially because it's unsafe. Using a map is a better approach, or you could wrap an array in a specialized data structure which deals with Color indizes:

class ColorArray[T:ClassManifest] {
  val array = new Array[T] (3)
  def apply(color: Color) = array(color.index)
  def update(color: Color, value: T) = array(color.index) = value
}

...

val cArray = new ColorArray[Int]()
cArray(ColorRed) = 12
println(cArray(ColorRed))
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Note that you can write abstract class Color and case object ColorX here. Also, your array access return value does not match its declaration. –  Raphael Jan 28 '11 at 9:11
    
Corrected the Color definitions as suggested. I don't quite get your second remark. –  Landei Jan 28 '11 at 9:34
    
Sorry, my bad. Is there a way to find out how many cases of Color exist at runtime? Then you would have to hardcode the array size. You could do it with Java's enums. –  Raphael Jan 29 '11 at 8:10
    
For the second solution, why not include an implicit conversion to a regular array (or Seq or whatever) to get all the nice methods? For completeness, object ColorArray should be implemented, too. –  Raphael Jan 29 '11 at 8:16
    
The second solution works for both with case object and Scala Enumeration keys, in the second case you can automatically get the array length. Of course you can add implicit conversions, but array is not private, so you could simply call cArray.array and have all nice methods. It really depends on what you want to achieve. You have a lot of possibilities depending on your needs, with more or less convenience, more or less type safety and more or less performance. –  Landei Jan 29 '11 at 9:04
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object Color extends Enumeration{
  val ColorRed, ColorGreen, ColorBlue = Value
}

import Color._
def f:Map[Color.Value,Int] = 
  Map(ColorRed -> 12 , ColorGreen -> 33, ColorBlue -> 4)

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Is this as efficient as an array lookup? –  Łukasz Lew Jan 28 '11 at 6:30
    
The default Map implementation is a hash map, which provides pretty fast lookups. –  Landei Jan 28 '11 at 8:25
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If you want the full C performance you could do this:

trait CEnum {
private var size = 0;
def value = { size += 1; size-1 }
}

object Color extends CEnum {
  val colorRed = value 
  val colorGreen = value 
  val colorBlue = value 
  val colorSize = 3
}

import Color._

def f() = {
  val x = Array[Int](colorSize)
  x(colorRed) = 12
  x(colorGreen) = 33
  x(colorBlue) = 4
  x(colorGreen)
}

It's equally unsafe as the method in C & just as performant. It is however very unsafe.

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