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I want to be able to apply an operation f: (T,T) => T to Option[T] values in Scala. I want the result to be None if any of the two values is None.

More specifically, I want to know if is there a shorter way to do the following:

def opt_apply[T](f: (T,T) => V, x: Option[T], y: Option[T]): Option[T] = {
  (x,y) match {
    case (Some(u),Some(v)) => Some(f(u,v))
    case _ => None
  }
}

I have tryied (x zip y) map {case (u,v) => f(u,v)} but the result is an Iterator[T] not an Option[T].

Any help will be appreciated. Thanks.

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4 Answers 4

up vote 19 down vote accepted
scala> val (x, y) = (Some(4), Some(9))
x: Some[Int] = Some(4)
y: Some[Int] = Some(9)

scala> def f(x: Int, y: Int) = Math.max(x, y)
f: (x: Int,y: Int)Int

scala> for { x0 <- x; y0 <- y } yield f(x0, y0)
res26: Option[Int] = Some(9)

scala> val x = None
x: None.type = None

scala> for { x0 <- x; y0 <- y } yield f(x0, y0)
res27: Option[Int] = None
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errrr, this should be updated right docs.scala-lang.org/style/control-structures.html as it should be for { x0 <- x; y0 <- y) } , I think, right? –  Dean Hiller Oct 15 at 17:50
    
@DeanHiller, hmm yeah. Style guide didn't exist at the time I think. :) –  missingfaktor Oct 16 at 10:16

@RahulG's answer exploits the fact that Option is a monad (even though there is no type to represent this in the Scala library). The compiler expands the for comprehension to the following:

def a: Option[Int]
def b: Option[Int]
val calc: Option[Int] = a flatMap {aa => b map {bb => aa + bb}}

You can also treat it as an applicative functor, with some help from Scalaz:

import scalaz._
import Scalaz._

def a: Option[Int]
def b: Option[Int]
val calc: Option[Int] = (a ⊛ b) {_ + _}

A key difference is that in the monadic calculation, a failure (that is, None) of calculation a short circuits the evaluation. In the applicative style, both a and b are evaluated, and if both are Somes, the pure function is called. You can also see that in the monadic calculation, the value aa could have been used in the calculation b; in the applicative version, b cannot depend on the result of a.

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Is the ASCII equivalent <|*|> for this method? –  oxbow_lakes Apr 26 '10 at 11:51
1  
<*> allows you to provide the 'pure' function, in this case (a, b)=> a + b. <|*|> is a convenience for using Tuple2.apply as the pure function. is actually a bit more general than arity-2, you could write (a ⊛ b a ⊛ b) {_ + _ + _ + _}. It's a little experimental, and as such, doesn't have a ASCII alias yet. –  retronym Apr 26 '10 at 12:02
    
Typo, I meant: (a ⊛ b ⊛ a ⊛ b) {_ + _ + _ + _} –  retronym Apr 26 '10 at 12:25
1  
From the 7th version of Scalaz ASCII alias to operator is |@|: val calc: Option[Int] = (a |@| b) {_ + _} –  Seigert Jan 29 at 15:48

I have a slightly older version of scalaz than retronym but the following works for me as an example and is generalizable for the case where you have 3 types T, U, V and not just one:

def main(args: Array[String]) {
  import scalaz._
  import Scalaz._

  val opt1 = some(4.0) //Option[Double]
  val opt2 = some(3)   //Option[Int]

  val f: (Double, Int) => String = (d, i) => "[%d and %.2f]".format(i, d)

  val res = (opt1 <|*|> opt2).map(f.tupled)
  println(res) //Some([3 and 4.00])
}

I can then add:

val opt3 = none[Int]
val res2 = (opt1 <|*|> opt3).map(f.tupled)
println(res2) //None
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1  
Replace <|*|> with <*> to avoid creation of the temporary tuple, and use f directly. –  retronym Apr 26 '10 at 15:19
    
Doesn't work with different parametric types, I think –  oxbow_lakes Apr 26 '10 at 17:34
    
Oops, I meant <**> –  retronym Apr 26 '10 at 18:45

You can use for comprehensions:

def opt_apply[T](f: (T,T) => T, x: Option[T], y: Option[T]): Option[T] = 
     for (xp <- x; yp <- y) yield (f(xp,yp))

Which is sugar for:

x flatMap {xp => y map {yp => f(xp, yp)}}

This is also possible due to Option being a Monad

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3  
That's weird. I didn't see @RahulG's answer when I posted this. –  user142435 Apr 26 '10 at 14:52

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