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Say I have a val s: Option[Option[String]]. It can thus have the following values:

Some(Some("foo")) Some(None) None

I want to reduce it so that the first becomes Some("foo") while the two others become None. Obviously there are many ways to accomplish this, but I'm looking for a simple, perhaps built-in, less-than-one-liner.

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6 Answers 6

up vote 19 down vote accepted

It's a shame that flatten doesn't exist. It should.

s getOrElse None

(in addition to the other answers) will do the same thing, however.

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1  
seems to exist now: scala> Some(Some(1)).flatten res10: Option[Int] = Some(1) –  Alexy Apr 14 '14 at 20:43

You could use scalaz join to do this, as this is one of the monadic operations:

doubleOpt.join

Here it is in the REPL:

scala> import scalaz._; import Scalaz._
import scalaz._
import Scalaz._

scala> some(some("X")).join
res0: Option[java.lang.String] = Some(X)

scala> some(none[String]).join
res1: Option[String] = None

scala> none[Option[String]].join
res3: Option[String] = None

It's available to anything with a typeclass instance for a Monad.

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s.flatten

followed by a bunch of characters to get me up to the minimum that stackoverflow allows

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1  
That's what I what thinking of, but it returns an Iterable and not an Option. –  Knut Arne Vedaa May 11 '11 at 17:53
6  
Hmm, that's very odd. Why would they do that? Try s.flatmap(x=>x) instead. –  Dave Griffith May 11 '11 at 18:00
    
That gives the correct result. –  Knut Arne Vedaa May 11 '11 at 18:05
6  
One could also write s flatMap identity. –  Frank S. Thomas May 11 '11 at 18:56
2  
Summarizing the above: List(Some(Some("foo")), Some(None), None) map { _ flatMap identity } yields List[Option[java.lang.String]] = List(Some(foo), None, None), which I think is what Knut (the OP and the first non-polar-bear-cub named "Knut" I've heard of) wanted. –  Malvolio May 11 '11 at 19:36

I think the conversion to the Iterable is just fine. Use these steps to go from Option[Option[String] to a single Option[String]

s.flatten.headOption 

(which returns Option[String])

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You might use flatMap like the following:

val options = List(Some(Some(1)), Some(None), None)
options map (_ flatMap (a => a))

This will map the List[Option[Option[Int]]] to a List[Option[Int]].
If you just have an Option you can use it as following:

val option = Some(Some(2))
val unzippedOption = option flatMap (b => b)

This will flatten your Option[Option[Int]] to Option[Int].

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Well, I actually don't understand how come it could be just None (the third case). If it can really be also just None, then I would vote for Rex Kerr's answer, otherwise just .get would be enough:

scala> Some(Some("foo")).get
res0: Some[java.lang.String] = Some(foo)

scala> Some(None).get
res1: None.type = None
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It can be None because it's an Option! –  oxbow_lakes May 11 '11 at 22:51
    
Yeah, but this is Option inside Option ... so I would expect it's Some(Some("something")) for positive result and Some(None) for negative result. What third state describes just None then? Well if the problem is in 3-state logic, only then it makes sense. –  Antonin Brettsnajdr May 12 '11 at 6:38
3  
It's kind of equivalent to a future: Some(Some(X)) is a calculated value, Some(None) indicates the future has finished with no value and None indicates there future has not returned –  oxbow_lakes May 12 '11 at 9:34
1  
Option[String] is a String or not. Let's write that as String + 1, meaning it can be any String or 1 other thing. An Option[Option[String]] then is (String + 1) + 1, or String + 2. Which is to say it's a String or it's one of two other things. In other words Option[Option[String]] is isomorphic to Either[Boolean, String]. I think the later structure indicates more clearly that it either the computation is successful in producing a string or may fail in two different ways. –  James Iry May 12 '11 at 21:16
1  
Hehe, nice explanation -- "There are many ways to fail, but only one to succeed." :-) –  Antonin Brettsnajdr May 13 '11 at 6:57

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