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I want to find in some Iterable some elements that both conform to some given type, and validates a predicate taking that type as an argument.

I wrote this method using imperative-style programming, which seems to conform to my expectations. Is there some way to write this in a more "scalaesque" way?

def findMatch[T](it: Iterable[_], clazz: Class[T], pred: T => Boolean): Option[T] = {
  val itr = it.iterator
  var res: Option[T] = None
  while (res.isEmpty && itr.hasNext) {
    val e = itr.next()
    if (clazz.isInstance(e) && pred(clazz.cast(e))) {
      res = Some(clazz.cast(e))
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4 Answers 4

up vote 1 down vote accepted

If you divide your problem into subproblems a more idiomatic version is easy to find. You want to

  1. find all instances of T in your Iterable[Any]
  2. cast them to T to make the compiler happy
  3. find the first matching element

For the first point you can easily use the filter Method on Iterator. So you have

it.iterator.filter(x => clazz.isInstance(x))

which returns you an Iterator[Any] that contains only Ts. Now let's convince the compiler:

it.iterator.filter(x => clazz.isInstance(x)).map(x => x.asInstanceOf[T])

Okay, now you have an Iterator[T] - so you just need to find the first element fulfilling your predicate:

def findMatch[T](it: Iterable[Any], clazz: Class[T], pred: T => Boolean): Option[T] = 
  it.iterator.filter(x => clazz.isInstance(x))
             .map(x => x.asInstanceOf[T])
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-1 for looping through the whole iterable with filter. It is ineffective and does not even terminate for infinite iterables. –  Kim Stebel Apr 15 '11 at 17:18
Oh, I see that passing through the iterator make the filter and map operations laziesque. –  scand1sk Apr 15 '11 at 17:25
@Kim yes, it does not terminate for infinite Iterables that is true. Your statement that it is ineffective is false though as I am calling filter on an Iterator which is evaluated lazily. –  Moritz Apr 15 '11 at 17:28
Aah I overlooked the call to iterator. SO doesn't let me take back my vote...wtf? –  Kim Stebel Apr 15 '11 at 17:36
+1 for good karma –  Landei Apr 15 '11 at 19:41

You can use collect if you want to find and then map.

scala> val it: Iterable[Any] = List(1,2,3,"4")            
it: Iterable[Any] = List(1, 2, 3, 4)

scala> it.view.collect{case s: String => s}.headOption
res1: Option[String] = Some(4)
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It should be noted that the case statement can of course include a guard so that only elements for which pred is true are collected. –  Frank S. Thomas Apr 15 '11 at 21:44
In Scala 2.9 the method collectFirst was added to TraversableOnce. The above code can then be written as it.collectFirst{case s: String => s}. –  Frank S. Thomas Apr 25 '11 at 21:12

You can use Iterable's find method and pattern matching with a guard:

scala> val it: Iterable[Any] = List(1,2,3,"4")
it: Iterable[Any] = List(1, 2, 3, 4)

scala> it.find { _ match {
  case s: String if s == "4" => true
  case _ => false
res0: Option[String] = Some(4)

For an introduction to pattern matching have a look at: http://programming-scala.labs.oreilly.com/ch03.html

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and use "collect" for finding multiple matches: it collect { _ match { case i:Int if i < 4 => i } } –  Adam Rabung Apr 15 '11 at 15:59
Not great, as it returns an Option[Any] and not Option[String]. –  Jean-Philippe Pellet Apr 15 '11 at 16:01
@Jean-Philippe Pellet: One could append a cast: .asInstanceOf[Option[String]] –  Frank S. Thomas Apr 15 '11 at 16:21
I came out with def findMatch[T](it: Iterable[Any], clazz: Class[T], pred: T => Boolean): Option[T] = it find { e: Any => clazz.isInstance(e) && pred(clazz.cast(e))} match { case Some(e) => Some(clazz.cast(e)) case _ => None } I was however for something less verbose, so as to avoid to define the findMatch method at all. The casts are cumbersome. –  scand1sk Apr 15 '11 at 16:56
What I actually dislike with the above solution, is that the cast is performed twice: once as a "side effect" of the pattern matching, and a second time to obtain the right output type. I was actually hoping of some clever way to use pattern matching combined with find to have these casts performed naturally. –  scand1sk Apr 15 '11 at 17:04

You can work with an existantial type X forSome{typeX} rather than using _ as type parameter. This then would enable you to write it with the mentioned find method and use the map method on the Option type:

def findMatch[T](it: Iterable[X forSome {type X}], clazz: Class[T], pred: T => Boolean): Option[T] = {
    it.find{ e => clazz.isInstance(e) && pred(clazz.cast(e))}.map{clazz.cast(_)}
share|improve this answer
You do not need an existential type here as Iterable[+A] is covariant - so you can just use Iterable[Any] here. –  Moritz Apr 15 '11 at 17:06
You are right, thanks for the reply :-) –  Lutz Apr 18 '11 at 14:45

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