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Following my previous question came a quick and great answer, however it turned out my example didn't match my actual production code well enough. In summary I'm in need of a new implementation of the collect method.

The second fruit world (with some pretty funky fruit trees):

class Fruit {
    var seeds:Array[Fruit] = Array()
    def naiveCollect[F <: Fruit]:Array[Fruit] = this match {
        case f:F => Array(this)
        case _ => seeds.map(_.select[F]).flatten.toArray

class Apple extends Fruit
class Pear extends Fruit
class GrannySmith extends Apple

Does not work because of type erasure:

var tree = new Fruit { seeds = Array(
                new Apple,
                new Pear,
                new GrannySmith,
                new Pear { seeds = Array(
                    new Apple,
                    new Pear)},
                new Apple)}

scala> tree.naiveCollect[Apple]
res1: Array[Fruit] = Array($anon$2@5a4b99fa)

// wanted output: Apple, GrannySmith, Apple, Apple


Turns out i managed to produce something which works by using the PartialFunction as in the std lib.

class Fruit {
    def clumsyCollect[F](pf:PartialFunction[Fruit, F]):Seq[F] = 
        if (pf.isDefinedAt(this))

Use case:

tree.clumsyCollect { case a:Apple => a }

Any alternatives or tips on cleaning this up would still be great though!

share|improve this question

2 Answers 2

up vote 1 down vote accepted

I think what you need is scala.reflect.ClassManifest

class Fruit {
    var seeds:Array[Fruit] = Array()
    def select[F <: Fruit](implicit cm: ClassManifest[F]): Array[F] = 
      if (cm.erasure.isInstance(this))        

With every call of select an implicit parameter containing actual class information will be passed. You can now make class checks at runtime, and also you can return Array of more specific type.

This produces desired result:

scala> tree.select[Apple]
res12: Array[Apple] = Array(Apple@10fa4d, GrannySmith@a10ca8, Apple@14611ec, Apple@142b533)

Alternatively, you can use context bound syntax:

def select[F <: Fruit : ClassManifest]: Array[F] = 
  if (classManifest[F].erasure.isInstance(this))        
share|improve this answer
This is just what I was getting at, thanks! Swinging around those ClassManifests is a little clumsy (not your code, but in general), but I suppose it's a pretty advanced functionality after all. –  fickludd Aug 17 '11 at 8:09

Manifests can be used to work around erasure. Since we're only interested in the manifest's erasure, we use a ClassManifest here because it's more lightweight.

The following is simple and works but the return type of select is Array[Fruit], not Array[F].

  class Fruit {
      var seeds: Array[Fruit] = Array()
      def select[F <: Fruit](implicit m: ClassManifest[F]): Array[Fruit] =
        seeds.filter(s => m.erasure.isInstance(s)) 

The following provides a return type of Array[F] but is a little more involved.

  class Fruit {
      var seeds: Array[Fruit] = Array()
      def select[F <: Fruit](implicit m: ClassManifest[F]): Array[F] = {
        seeds.foldLeft(Array.newBuilder[F]) { (b, s) =>
          if(m.erasure.isInstance(s)) b += s.asInstanceOf[F] else b

Edit: I just noticed that I didn't answer what the op asked. I will leave my answer anyway, maybe it's useful to someone.

share|improve this answer
Hey, folding with the ArrayBuilder is a pretty neat trick! –  fickludd Aug 17 '11 at 8:05

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