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In this parameterized function, why do I need the cast? And how I can I get rid of it?

/** Filters `xs` to have only every nth element.
def everyNth[A <% Iterable[B], B](xs: A, n: Int, offset: Int = 0): A =
  (xs.zipWithIndex collect { case (x, i) if (i - offset) % n == 0 => x }).asInstanceOf[A]

If I don't have the cast at the end, I get this error message:

type mismatch; found : Iterable[B] required: A

This function (with the cast) works for all the cases I've tried it on, and I know from typing things like the following at the REPL that Scala is able to infer the result type properly when not in the context of a parameterized function:

scala> val a: Stream[Int] = (Stream.from(0).zipWithIndex collect { case (x, i) if (i + 3) % 5 == 0 => x })
a: Stream[Int] = Stream(2, ?)

scala> a take 10 force
res20: scala.collection.immutable.Stream[Int] = Stream(2, 7, 12, 17, 22, 27, 32, 37, 42, 47)

Please explain!

share|improve this question
Similar question which uses CanBuildFrom to get around the problem: Function which generically takes a type and returns the same type. I can't make it to work with this question, someone else? –  sschaef Aug 4 '12 at 10:07
I got CanBuildFrom to work for my question, and put the solution in an answer. See the answer below if you are curious. –  Douglas Aug 7 '12 at 18:08
Nice answer! Btw, you can accept your own answers... –  sschaef Aug 8 '12 at 17:02

3 Answers 3

There are some cases where collect does not return the same subtype of Iterable as it was called on, for instance in the case of a Range:

scala> everyNth(1 to 10, 2)
java.lang.ClassCastException: scala.collection.immutable.Vector cannot be cast to scala.collection.immutable.Range$Inclusive
        at .<init>(<console>:9)
        at .<clinit>(<console>)
        at .<init>(<console>:11)
        at .<clinit>(<console>)
        at $print(<console>)
        at sun.reflect.NativeMethodAccessorImpl.invoke0(Native Method)
        at sun.reflect.NativeMethodAccessorImpl.invoke(NativeMethodAccessorImpl.java:57)
        at sun.reflect.DelegatingMethodAccessorImpl.invoke(DelegatingMethodAccessorImpl.java:43)
        at java.lang.reflect.Method.invoke(Method.java:616)
        at scala.tools.nsc.interpreter.IMain$ReadEvalPrint.call(IMain.scala:704)
        at scala.tools.nsc.interpreter.IMain$Request$$anonfun$14.apply(IMain.scala:920)
        at scala.tools.nsc.interpreter.Line$$anonfun$1.apply$mcV$sp(Line.scala:43)
        at scala.tools.nsc.io.package$$anon$2.run(package.scala:25)
        at java.lang.Thread.run(Thread.java:679)
share|improve this answer
Ah, of course. Stupid Ranges! Is there some other trait that can be used that excludes such ill-behaved sequences? Or should I just live with the cast? –  Douglas Aug 4 '12 at 5:25
I guess the proper way to do it would be to use the CanBuildFrom magic used in the collection API? –  Jens Schauder Aug 4 '12 at 7:32
I got CanBuildFrom to work for my question, and put the solution in an answer alongside this one. –  Douglas Aug 7 '12 at 20:04
up vote 3 down vote accepted

As per some some suggestions in comments, I looked into CanBuildFrom, and this is what I came up with:

import scala.collection.IterableLike
import scala.collection.generic.CanBuildFrom

/** Filters `xs` to have only every nth element.
def everyNth[A, It <: Iterable[A]]
        (xs: It with IterableLike[A, It], n: Int, offset: Int = 0)
        (implicit bf: CanBuildFrom[It, A , It]): It = {
  val retval = bf()
  retval ++= xs.zipWithIndex collect { case (x, i) if (i - offset) % n == 0 => x }

Yay, it works!!!

And there's NO cast. As such, it even works for Ranges.

However, having to start with an empty retval and then use "++=" to fill it up seems a bit inelegant, so if anyone has a more elegant solution, I'm all ears.

Here's another generic function I implemented that was a bit trickier than the above because the return type is not the same as the argument type. I.e., the input is a sequence of A's, but the output is a sequence of (A, A)'s:

/** Looks for `x` in `xs` and returns a list containing the indexes of all the matches.
def zipWithSelf[A, It[A] <: Iterable[A]]
        (xs: It[A] with IterableLike[A, It[A]])
        (implicit bf:  CanBuildFrom[It[A], (A, A), It[(A, A)]]): It[(A, A)] = {
    val retval = bf()
    if (xs.nonEmpty) {
      retval ++= xs zip xs.tail
  } else retval.result

And here's another:

/** Calls `f(x)` for all x in `xs` and returns an Iterable containing the indexes for
  * which `f(x)` is true.
  * The type of the returned Iterable will match the type of `xs`. 
def findAll[A, It[A] <: Iterable[A]]
        (xs: It[A] with IterableLike[A, It[A]])
        (f: A => Boolean)
        (implicit bf:  CanBuildFrom[It[A], Int, It[Int]]): It[Int] = {
    val retval = bf()
    retval ++= xs.zipWithIndex filter { p => f(p._1) } map { _._2 }

I still don't have any deep understanding of the "Like" types and CanBuildFrom, but I get the gist. And it's easy enough in most cases to write the casting version of a generic function as a first pass, and then add the CanBuildFrom and IterableLike boilerplate to make the function more general and fully type-safe.

share|improve this answer

The problem here is, that by calling collect on xs you convert it to Iterable[B]. A <% Iterable[B] means, that A can be viewed as an Iterable[B], which does not necessarily mean, that Iterable[B] can also be viewed as A. What actually happens here is

def everyNth[A, B](xs: A, n: Int, offset: Int = 0)(implicit view: (A => Iterable[B])): A =
  (view(xs).zipWithIndex collect {
    case (x, i) if (i + offset) % n == 0 => x

When I have for example this:

class Foo
implicit def foo2Iterable(foo: Foo) = List(foo)

and call

everyNth(new Foo, 2)

I get

java.lang.ClassCastException: scala.collection.immutable.$colon$colon cannot be cast to Foo

You should avoid casting here. Either you add a view from Iterable[B] => A

edit: type bound does not work here.

share|improve this answer
Replacing the view bound with a type bound does not get rid of the need for a cast here, so I'm not precisely clear on what you are asserting. –  Douglas Aug 6 '12 at 19:08
Sorry, you are right. Adding a view from Iterable[B] => A would then be the only solution here. –  drexin Aug 7 '12 at 9:17

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