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Playing around with a bit of Scala, and it seems like you can't return early from a function.

I find flat unindented code with early returns easy to follow. My initial attempts created a big nested structure. Call me picky but I don't like seeing the following:


What is the best way to write the following method in Scala?

Is it possible to program in such a way to reduce nesting, or would I be fighting against the functional design philosophy of Scala the whole way?

public static <T extends PsiElement> T getParentOfType(@Nullable PsiElement element,
                                                       @NotNull Class<T> aClass,
                                                       boolean strict,
                                                       @NotNull Class<? extends PsiElement>... stopAt) {
  if (element == null) return null;
  if (strict) {
    element = element.getParent();

  while (element != null && !aClass.isInstance(element)) {
    if (instanceOf(element, stopAt)) return null;
    if (element instanceof PsiFile) return null;
    element = element.getParent();

  //noinspection unchecked
  return (T)element;

My attempt:

def getParentOfType[T](element: PsiElement, aClass: Class, strict: Boolean): T[_ <: PsiElement] = {
  element match {
    case null => null
    case _ => {
      var el = if (strict) {
      } else element
      while(el != null) {
        if (aClass isInstance el) {
          return el
        if (el.isInstanceOf[PsiFile]) return null;
        el = el.getParent()

Also, what is the appropriate forum in the Scala-world to ask "What is the best way to write Java method X in Scala?". I find myself asking this question a lot.

share|improve this question
Please show your attempt to write this method in Scala. –  senia Jun 25 '13 at 14:57
I don't like seeing superfluous braces, but you're using them in your example... Anyway, Scala has return, though it is not a precise replacement for that in Java. The real answer is that good Scala code looks different than good Java code and some adjustment is necessary. All in all, decent Scala code is much more concise than corresponding Java code, even if idiomatic Scala strongly discourages use of return. –  Randall Schulz Jun 25 '13 at 15:00
@senia Added my impl. –  vaughan Jun 25 '13 at 15:05
You never need braces around the code of a case ... => clause in Scala. Nor any single-expression body of a method, if / else, etc. Try to cut the noise-inducing superfluous punctuation out of your Scala code (Java, too, though it's less risky to do so in Scala). –  Randall Schulz Jun 25 '13 at 15:10

3 Answers 3

def getParentOfType[T](element: PsiElement, aClass: Class, strict: Boolean):
    T[_ <: PsiElement] = element match {
  case null => null
  case el if strict => getParentOfType(el.getParent, aClass, false)
  case el if aClass isInstance el => el
  case el if el.isInstanceOf[PsiFile] => null
  case el => getParentOfType(el.getParent, aClass, false)

(or similar)

share|improve this answer
The pattern matching does make the cases easier to read. Unfortunately you suggestion doesn't handle the while loop (e.g. the second case isn't correct, as el.getParent goes through the loop rather than being immediately returned.) –  Andrzej Doyle Jun 25 '13 at 15:21
Very easy to read, but case el if strict => el.getParent returns without going through loop. –  vaughan Jun 25 '13 at 15:28
Ah, missed that one. Is it more correct now? –  Debilski Jun 25 '13 at 15:42
Looks good, thanks. Like how flat the code is and easy to follow. Not that DRY tho with the repetition of el and getParentOfType, but then I'm just being picky. –  vaughan Jun 25 '13 at 15:50

It's hard to use scala with null. And you can't get idiomatic scala code with while.

You have @Nullable and @NotNull - in scala it is Option[T] and T. You could replace while with recursive method.

For instance this is my attempt to translate your method to scala (not tested):

getParentOfType[T <: PsiElement](element: Option[PsiElement],
                                 aClass: Class[T],
                                 strict: Boolean,
                                 stopAt: Class[_ <: PsiElement]*): Option[T] = element flatMap { el =>
  @tailrec def loop(element: PsiElement): Option[PsiElement] {
    if (element == null || aClass.isInstance(element))
    else if (instanceOf(element, stopAt) || element.isInstanceOf[PsiFile])

  loop(if (strict) el.getParent() else el).map{_.asInstanceOf[T]}
share|improve this answer

Here's a different take on the problem; probably not what I'd use in this particular case but it's worth knowing about.

def getParentOfType[A >: Null <: PsiElement](
  element: PsiElement, aClass: Class[A],
  strict: Boolean, stopAt: Class[_ <: PsiElement]*
): A =
  takeWhile(_ != null).
  drop(if (strict) 1 else 0).
  takeWhile(e => !instanceOf(e, stopAt) && !e.isInstanceOf[PsiFile]).
  collectFirst{ case x if aClass isInstance x => x.asInstanceOf[A] }.

Here, you start by defining the stream of parents of your element, which terminates if it's null. You drop the first one if your strict flag is true; you also stop searching if you hit something in stopAt or a PsiFile. Within those constraints, you get (and cast) the first thing that matches, and then you return that or null if you didn't get anything.

With a bit of practice it can actually be easier to follow this kind of logic than the looping since the termination conditions are more implicit in the loop than here. Here you just state flat out when you stop searching (takeWhile) and what you're after (collectFirst).

Note: I am assuming instanceOf is defined as

def instanceOf(a: AnyRef, cs: Seq[Class[_]]) = cs.exists(_ isInstance a)
share|improve this answer
On first read I couldn't follow this (Scala beginner). But after reading your explanation it appears a really nice way to reason about it, and I like the aesthetic style of the code too. –  vaughan Jun 26 '13 at 7:22
probably not what I'd use in this particular case but it's worth knowing about. Why is that, and what would you use in this case? –  vaughan Jun 26 '13 at 7:22
@vaughan - The tail-recursive pattern match is more straightforward in this case. I'd probably use that instead. If I were doing more things that were hard to do manually and easy to do with collections (e.g. if there was a filter step) then I'd switch to this approach. –  Rex Kerr Jun 26 '13 at 14:06

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