2

USE CASE

I have a list of files that can might have a valid mime type or not. In my code, I represent this using an Option.

I need to convert a Seq[Option[T]] to Option[Seq[T]] so that I do not process the list if some of the files are invalid.

ERROR

This is the error in the implementation below:

found   : (Option[Seq[A]], Option[A]) => Option[Seq[A]]
[error]  required: (Option[Any], Option[Any]) => Option[Any]
[error]     s.fold(init)(liftOptionItem[A])

IMPLEMENTATION

def liftOptionItem[A](acc: Option[Seq[A]], itemOption: Option[A]): Option[Seq[A]] = {
    {
      acc match {
        case None => None
        case Some(items) =>
          itemOption match {
            case None => None
            case Some(item) => Some(items ++ Seq(item))
          }
      }
    }
  }

  def liftOption[A](s: Seq[Option[A]]): Option[Seq[A]] = {
    s.fold(Some(Seq()))(liftOptionItem[A])
  }

This implementation returns Option[Any] instead of Option[Seq[A] as the type of the liftOptionItem[A] does not fit in.

4

6 Answers 6

5

If you use TypeLevel Cats:

import cats.implicits._

List(Option(1), Option(2), Option(3)).traverse(identity)

Returns:

Option[List[Int]] = Some(List(1, 2, 3))

You have to use List so use a toList first:

Seq(Option(1), Option(2), Option(3)).toList.traverse(identity).map(_.toSeq)
2
  • Where do I import from or how do I declare identity? Commented Nov 21, 2018 at 13:57
  • @NefedovEfim, identity is automatic from Predef which is automatically imported in Scala. So all you need is import cats.implicits._. If anything perhaps you may need to qualify the traverse, Seq(Option(1), Option(2), Option(3)).toList.traverse[Option, Int](identity).map(_.toSeq) but that's all you need, and of course, install cats into your project. ;) Commented Nov 22, 2018 at 2:58
3

using scalaz:

import scalaz._
import Sclaza._

val x:List[Option[Int]] = List(Option(1))
x.sequence[Option, Int] //returns Some(List(1))

val y:List[Option[Int]] = List(None, Option(1))
y.sequence[Option, Int] // returns None
2

If you dont want to use functional libraries like cats or Scalaz you could use a foldLeft

def seqToOpt[A](seq: Seq[Option[A]]): Option[Seq[A]] =
    seq.foldLeft(Option(Seq.empty[A])){
        (res, opt) =>
          for {
            seq <- res
            v <- opt
          } yield seq :+ v
      }
1
0

Tail-recursive Solution: It returns None if any one of the seq element is None.

def seqToOption[T](s: Seq[Option[T]]): Option[Seq[T]] = {
  @tailrec
  def seqToOptionHelper(s: Seq[Option[T]], accum: Seq[T] = Seq[T]()): Option[Seq[T]] = {
    s match {
      case Some(head) :: Nil => Option(head +: accum)
      case Some(head) :: tail => seqToOptionHelper(tail, head +: accum)
      case _ => None
    }
  }
  seqToOptionHelper(s)
}
0

Dealing with None in case statements is the reason for returning the Option[Seq[Any]] type in stead of Option[Seq[A]] type. We need to make the function liftOptionItem[A] to return Option[Seq[Any]] type. And the compilation error can be fixed with the following changes in both the functions.(Because fold does not go in any particular order, there are constraints on the start value and thus return value , the foldLeft is used in stead of fold.)

 def liftOptionItem[A](acc: Option[Seq[Any]], itemOption: Option[A]): Option[Seq[Any]] = {
     {
       acc match {
         case None => Some(Nil)
         case Some(items)=>
           itemOption match {
             case None => Some(items ++ Seq("None"))
             case Some(item) => Some(items ++ Seq(item))
           }
       }
     }
   }

 def liftOption[A](s: Seq[Option[A]]): Option[Seq[Any]] = {
   s.foldLeft(Option(Seq[Any]()))(liftOptionItem[A])
 }

Now, code compiles.

In Scala REPL:

scala> val list1 = Seq(None,Some(21),None,Some(0),Some(43),None)
list1: Seq[Option[Int]] = List(None, Some(21), None, Some(0), Some(43), None)

scala> liftOption(list1)
res2: Option[Seq[Any]] = Some(List(None, 21, None, 0, 43, None))

scala> val list2 = Seq(None,Some("String1"),None,Some("String2"),Some("String3"),None)
list2: Seq[Option[String]] = List(None, Some(String1), None, Some(String2), Some(String3), None)

scala> liftOption(list2)
res3: Option[Seq[Any]] = Some(List(None, String1, None, String2, String3, None))
0

There is no really "beautiful" way to make this with out scalaz or cats. But you can try something like this.

def seqToOpt[A](seq: Seq[Option[A]]): Option[Seq[A]] = {
  val flatten = seq.flatten
  
  if (flatten.isEmpty) None
  else Some(flatten)
}
1
  • This doesn't return None if the seq contains a combination of Some and None Commented Mar 24, 2022 at 14:14

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