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Suppose I have two Options and, if both are Some, execute one code path, and if note, execute another. I'd like to do something like

for (x <- xMaybe; y <- yMaybe) {
  // do something
}
else {
  // either x or y were None, handle this
}

Outside of if statements or pattern matching (which might not scale if I had more than two options), is there a better way of handling this?

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(sorry for commenting a question so old) it's an interesting question, but why not just use a match? –  tokland Nov 1 '12 at 22:21
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8 Answers 8

up vote 23 down vote accepted

Very close to your syntax proposal by using yield to wrap the for output in an Option:

val result = { 
  for (x <- xMaybe; y <- yMaybe) yield {
    // do something
  }
} getOrElse {
  // either x or y were None, handle this
}

The getOrElse block is executed only if one or both options are None.

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You could pattern match both Options at the same time:

(xMaybe, yMaybe) match {
  case (Some(x), Some(y)) => "x and y are there"
  case _ => "x and/or y were None"
}
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1  
This isn't bad, but I think I like the getOrElse on the for a bit better –  davetron5000 Aug 1 '11 at 13:28
    
I prefer the clearer intention of this answer, the getOrElse takes more time to understand. –  krookedking Feb 27 at 11:54
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The traverse function in Scalaz generalises your problem here. It takes two arguments:

  1. T[F[A]]
  2. A => F[B]

and returns F[T[B]]. The T is any traversable data structure such as List and the F is any applicative functor such as Option. Therefore, to specialise, your desired function has this type:

  • List[Option[A]] => (A => Option[B]) => Option[List[B]]

So put all your Option values in a List

  • val z = List(xMaybe, yMaybe)

Construct the function got however you want to collection the results:

  • val f: X => Option[Y] = ...

and call traverse

  • val r = z traverse f

This programming patterns occurs very often. It has a paper that talks all about it, The Essence of the Iterator Pattern.

note: I just wanted to fix the URL but the CLEVER edit help tells me I need to change at least 6 characters so I include this useful link too (scala examples):
http://etorreborre.blogspot.com/2011/06/essence-of-iterator-pattern.html

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I don't understand. Where does the "or else" comes in here? Also, it seems to depend on xMaybe and yMaybe being of the same type -- List itself will the LUB of them, which doesn't seem to fit what is being asked. –  Daniel C. Sobral Jul 31 '11 at 23:46
    
I have made an error here sorry. I have mixed up traverse and sequence, which are very closely related (can be defined in terms of each other). –  Tony Morris Aug 1 '11 at 6:42
    
sequence or traverse, I don't see either helping much here. First, you'd probably use a list, which would mean xMaybe and yMaybe couldn't be different types of Option, right? Also, wouldn't you have to pattern match to do anything with the parts of your Some result? If so, the other pattern matching solution would be simpler. –  Bradford Aug 2 '11 at 23:31
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Why would something like this not work?

val opts = List[Option[Int]](Some(1), None, Some(2))
if (opts contains None) {
  // Has a None
} else {
  // Launch the missiles
  val values = opts.map(_.get) // We know that there is no None in the list so get will not throw
}
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It could work, but then how ate you working with what's inside the List? –  Bradford Aug 2 '11 at 23:33
    
@Bradford: Updated the question - map over them and pull the values out. –  Emil Ivanov Aug 3 '11 at 5:57
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You said you want the solution to be scalable:

val optional = List(Some(4), Some(3), None)

if(optional forall {_.isDefined}) {
    //All defined
} else {
    //At least one not defined
}

EDIT: Just saw that Emil Ivanov's solution is a bit more elegant.

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If you don't know the number of values you are dealing with, then Tony's answer is the best. If you do know the number of values you are dealing with then I would suggest using an applicative functor.

((xMaybe |@| yMaybe) { (x, y) => /* do something */ }).getOrElse(/* something else */)
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For scaling to many options, try something along these lines:

 def runIfAllSome[A](func:(A)=>Unit, opts:Option[A]*) = {
   if(opts.find((o)=>o==None) == None) for(opt<-opts) func(opt.get)
 }

With this, you can do:

scala> def fun(i:Int) = println(i)
fun: (i: Int)Unit

scala> runIfAllSome(fun, Some(1), Some(2))
1
2

scala> runIfAllSome(fun, None, Some(1))

scala>
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I think the key point here is to think in term of types as what you want to do. As I understand it you want to iterate over a list of Option pairs and then do something based on a certain condition. So the interesting bit of your question would be , what would the return type look like you would except? I think it would look something like this: Either[List[Option], List [Option,Option]] . on the error side (left) you would accumulate the option which was paired with a None (and was left alone so to speak) . On the right side you sum the non empty options which represent your successful values. So we would just need a function which does exactly that. Validate each pair and accumulate it according to it's result( success - failure) . I hope this helps , if not please explain in more detail your usecase. Some links to implement what I described : http://applicative-errors-scala.googlecode.com/svn/artifacts/0.6/pdf/index.pdf and : http://blog.tmorris.net/automated-validation-with-applicatives-and-semigroups-for-sanjiv/

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