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Having

(Some(1), Some(2))

I expect to get

Some((1, 2))

and having

(Some(1), None)

I expect to get

None
share|improve this question
    
Why not just val (aOpt, bOpt) = optPair; aOpt.flatMap(a => bOpt.map(b => (a, b)))? – Erik Allik Mar 3 '14 at 19:03
    
@ErikAllik The question was about Scalaz specifically. – Nikita Volkov Mar 3 '14 at 19:31
up vote 12 down vote accepted

You can use the fact that Scalaz 7 provides a Bitraverse instance for tuples and then sequence as usual (but with bisequence instead of sequence):

scala> import scalaz._, std.option._, std.tuple._, syntax.bitraverse._
import scalaz._
import std.option._
import std.tuple._
import syntax.bitraverse._

scala> val p: (Option[Int], Option[String]) = (Some(1), Some("a"))
p: (Option[Int], Option[String]) = (Some(1),Some(a))

scala> p.bisequence[Option, Int, String]
res0: Option[(Int, String)] = Some((1,a))

Unfortunately Scalaz 7 currently needs the type annotation here.


In a comment Yo Eight states that the type annotation will remain mandatory here. I'm not sure what his or her reasoning is, but it's in fact perfectly easy to write your own wrapper that will provide any appropriately typed tuple with a bisequence method and won't require a type annotation:

import scalaz._, std.option._, std.tuple._    

class BisequenceWrapper[F[_, _]: Bitraverse, G[_]: Applicative, A, B](
  v: F[G[A], G[B]]
) {
  def bisequence = implicitly[Bitraverse[F]].bisequence(v)
}

implicit def bisequenceWrap[F[_, _]: Bitraverse, G[_]: Applicative, A, B](
  v: F[G[A], G[B]]
) = new BisequenceWrapper(v)

Now (some(1), some("a")).bisequence will compile just fine.

I can't think of a good reason Scalaz wouldn't include something like this. Whether or not you want to add it in the meantime is a matter of taste, but there's definitely no theoretical obstacle to letting the compiler do the typing here.

share|improve this answer
    
+1. I am yet to look into Scalaz 7, so was unaware of Bitraversable. – missingfaktor Sep 13 '12 at 15:06
3  
Time for you to publish a book about Scalaz ) Seriously. Thanks! – Nikita Volkov Sep 13 '12 at 15:13
    
Unfortunately, type annotations will remain mandatory in this situation – Yo Eight Sep 13 '12 at 15:17
    
@YoEight: Why do you say that? See my edit for a working example. – Travis Brown Sep 13 '12 at 16:35
    
@Travis Brown. You've just deferred the problem. Your wrapper holds the type information for you. The very same information you would annotate at call site. I did the same trick when I pushed MonadWriter to Scalaz. – Yo Eight Sep 13 '12 at 21:08

I realize you're asking about Scalaz, but it's worth pointing out that the standard method is not unbearably wordy:

val x = (Some(1), Some(2))

for (a <- x._1; b <-x._2) yield (a,b)

In the general case (e.g. arbitrary-arity tuples), Shapeless is best at this sort of thing.

share|improve this answer
    
Sure. I kinda feel this would be the only solution, since I can't imagine how they could implement that in Scalaz, since I see no way of specifying a unified type for tuple's items, which seems to be necessary for that problem. Just asked out of curiosity – Nikita Volkov Sep 13 '12 at 14:21
    
@NikitaVolkov - I am almost positive you could get Shapeless to do this, but I haven't actually had occasion to use it so I can't come up with an example. – Rex Kerr Sep 13 '12 at 14:23
    
@NikitaVolkov: You're right in that you can't provide a general Traverse instance for tuples, but Bitraverse lets you get both types in there. – Travis Brown Sep 13 '12 at 15:12
scala> import scalaz._
import scalaz._

scala> import Scalaz._
import Scalaz._

scala> (Tuple2.apply[Int, Int] _).lift[Option].tupled
res5: (Option[Int], Option[Int]) => Option[(Int, Int)] = <function1>

scala> res5((some(3), some(11)))
res6: Option[(Int, Int)] = Some((3,11))

scala> res5((some(3), none))
res7: Option[(Int, Int)] = None
share|improve this answer
    
This is nice, but I think using the fact that tuples are bitraversable is a little nicer. – Travis Brown Sep 13 '12 at 15:03
    
Fwiw, this looks ugly because Scala can't infer types in many cases. In Haskell, res5 = uncurry $ liftA2 (,). – missingfaktor Sep 13 '12 at 15:12

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