Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

After a lot of Java and some Haskell I wanted to have a look at Scala. From the code below, I'm getting this error message

type mismatch; found : List[Nothing] => Option[Nothing] required: List[Int] => Option[Nothing]

I don't know what I'm doing wrong:

object MyFirstScalaObject {

  def main(args: Array[String]) {
      lazy val testValues:List[List[Int]] = List((1 to 10).toList, null, List());

      println(  testFunction(last, testValues));

  def testFunction[I, O](f : I => O, inputs : List[I]):
      List[(I, O)] = 

  def last[A](xs:List[A]):Option[A] = xs match {
    case x::Nil => Some(x);
    case _::xs => last(xs);
    case _ => None;


Thanks for any advice.


share|improve this question
You could define testFunction as testFunction[I, O](inputs : List[I])(f: I => O) and use it as testFunction(testValues)(last). –  senia Dec 14 '12 at 20:16
senia, I think you should make this into an answer, and the OP should IMHO accept it. –  Blaisorblade Dec 14 '12 at 23:56
@Blaisorblade: I've posted it as an answer. But it's "how", not "why". –  senia Dec 15 '12 at 5:29

3 Answers 3

up vote 3 down vote accepted

because of the way type inference works in scala, it is unable to determine the what the type parameter to last has to be, so it has to take the overly conservative fallback guess that it is Nothing.

You can explicitly specify the types when you call testFunction:

testFunction[List[Int],Option[Int](last, testValues)

or you can document more fully the relationship between the type parameters in the testFunction declaration, which will give the type inferencer more information:

def testFunction[A, I[_], O[_]](f : I[A] => O[A], inputs : List[I[A]]): List[(I[A], O[A])]

This explicitly says that I and O are type constructors (kind * -> *), now that the input/output types of f are more specific, the inferencer can correctly infer that the A parameter to the the last function must be Int.

share|improve this answer
Thanks stew! I think I got it. (EDIT) I got it, but my scala ide doesn't... –  markusw Dec 14 '12 at 20:13
neither the function-call typing, nor the typecontructing-types at the function defintion. Error message is: know it requires "List[Int] => Option[Int]" and assumes that there is just "List[Nothing] => Option[Nothing]". May it be an inpact of the containing "null"-value in the textValues-List? –  markusw Dec 14 '12 at 20:21
user1905015: null values are not a problem; they wouldn't affect type inference for testValues, and anyway type inference is not happening since you're specifying the full type anyway. stew: type inference is not inferring A in time. –  Blaisorblade Dec 14 '12 at 23:57

A fully revised & tested version, using senia's idea:

object MyFirstScalaObject {
  def main(args: Array[String]) {
      lazy val testValues = List((1 to 10).toList, null, List())

  def testFunction[I, O](inputs: List[I])(f: I => O): List[(I, O)] =

  def last[A](xs: List[A]): Option[A] = xs match {
    case x :: Nil => Some(x)
    case _ :: xs => last(xs)
    case _ => None

Type inference proceeds left-to-right; information from one parameter list is used within next parameter list. In this code, when you call testFunction Scala can deduce I from the first parameter, then it can feed I as the input type of the function f to figure out its type (that is, that the argument last is applied with A = Int), then it finally gets the value of O from the return type of the function.

share|improve this answer

I can't tell you why type inference in scala works this way.

But there is common way to help compiler in such cases - parameter sections.

def testFunction[I, O](inputs : List[I])(f: I => O): List[(I, O)] = inputs.zip(inputs.map(f))



Similar solution is to add method testFunction to class List:

class LastsHelper[T](inputs: List[T]) {
  def testFunction[O](f: T => O): List[(T, O)] = inputs.zip(inputs.map(f))
implicit def toLastsHelper[T](inputs: List[T]) = new LastsHelper(inputs)

You can use such methods like methods of List:

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.