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I'm very new to Scala and I have run in to a problem.

I am trying to write a class which will hold a queue of functions. I want to be able to add functions to the queue, and when all functions have been added, run these. Essentially build an expression like: "function1(function2(function3()))" to be returned and then evaluated. This is the code I've got so far:

  class Pipeline() {

    // Queue of functions to run
    private var queue: Queue[ _ => _] = new LinkedList();

    // Add functions to the queue 
    def addFunction(func:_ => _ ): Unit ={

    // Run all the functions in the queue
    def run(): Unit = {
      val function = runHelper(queue.poll(), queue)

    def runHelper(func: _ => _, queue: Queue[_ => _]): _  = {
      // Recursion base case
        return func
      // Keep building the function recursively
        func(runHelper(queue.poll(), queue))        

I'm sure that here is more than one error in there. But right now, what I'm stuck at is the return type of the runHelper function. As you can see I'm trying to use the _ wildcard, but this gives a compilation error. How would I defined that the function will return a function? And am I going about this in a good way - if not please point me in the direction of a more suitable solution to the problem.

edit1: Clarification The input and return type of the functions are not known beforehand, and they their sequence needs to be possible to assign dynamically.

Edit2: More problems I've been trying to get the code Edmondo1984 suggested to work the way I want it to, but I can't seem to get it.

What I need to do would be something like this:

val func1: String => File = function1
val func2: File => File = function2

var queue = func1

    queue = queue :: func2


What I specifically need to know is how to be able to do the "queue = queue :: func2". Since :: returns a FunctionQueue, I would have imagined that I would be able to assign it to the queue variable. But then again, I guess that since the first initialization of the variable leads to it having the "String => File" demand. I feel like I'm in a bit over my head here, and any help would be much appreciated.

share|improve this question
Is the sequence of functions known in advance or constructed dynamically? If the former then Jan's answer is the way to go. –  Miles Sabin Jul 11 '12 at 14:17
The sequence is constructed dynamically. So right now I'm guessing that Edmondo1984s answer is the way to go. But I'm still trying to wrap my mind around it. –  Johan Jul 11 '12 at 14:57
Are they endofunctions? That is, is the input type equal to the return type, and, therefore, all functions share the same type? –  Daniel C. Sobral Jul 11 '12 at 21:27
@Daniel Unfortunately they are not endofunctions. The input type and output type will not always be the same. –  Johan Jul 12 '12 at 7:14
Remember that methods ending in : are right-associative! So you need func2 :: queue. –  Luigi Plinge Jul 12 '12 at 16:09

5 Answers 5

up vote 3 down vote accepted

What you are trying to do is not possible because _ is a placeholder for an existential type: A type which exists but is not currently relevant: you can use that for example when you want to print a list like the following:

scala>  def aMethod(a:List[_]) = println(a.size)
aMethod: (a: List[_])Unit

scala>  val b = List(2,3,4)
b: List[Int] = List(2, 3, 4)

scala>  aMethod(b)

This works because in fact you do not make access to the elements of the list, so you can imagine you do not need their class.

Because Scala is a strongly typed language, i.e. the compiler checks that the signatures are respected in your code. A Queue[ _ => _] is a queue of function from an unknown type to an unknown type and it is not useful, because if you try to pop a function and apply it to an input parameter, you won't be able to verify if that input parameter matches the signature.

What you are trying to do is not trivial, and you need to define your queue in a recursive way. You might want to read Shapeless HLIST implementation, but the idea is the following :

trait FunctionQueue[A,B]{

  def ::[C](newFunction: C => A): FunctionQueue[C,B]

  def apply(a:A):B

class FunctionQueueImpl[A,B,C](val f:A=>B, val queue:FunctionQueue[B,C]) extends FunctionQueue[A,C]{

  def apply(a:A) = queue.apply(f(a))

  def ::[D](newFunction: (D) => A):FunctionQueue[D,C] = new FunctionQueueImpl[D,A,C](newFunction,this)

object FunctionQueue {
  def EmptyQueue[T]:FunctionQueue[T,T] = new FunctionQueue[T,T] {
    def ::[C](newFunction: (C) => T):FunctionQueue[C,T] = new FunctionQueueImpl[C,T,T](newFunction,this)

    def apply(a: T):T = a

  implicit def functionToQueue[A,B](function:A => B):FunctionQueue[A,B] = new FunctionQueueImpl(function, EmptyQueue[B])

Now you can try it in the repl:

scala>  import FunctionQueue._
import FunctionQueue._

scala>  val a: Int => Int = _ * 10
a: Int => Int = <function1>

scala>  val b: Double => Int = _.toInt 
b: Double => Int = <function1>

scala>  val c : String => Double = _.toDouble
c: String => Double = <function1>

scala>  val queue = c::b::a
queue: FunctionQueue[String,Int] = FunctionQueueImpl@cccfa5e

scala>  queue("1.25")
res1: Int = 10

scala>  queue("3.25")
res2: Int = 30

I would suggest reading Miles Sabins work to understand more.

share|improve this answer
That's nice, but if we know the sequence of functions up front, as we do in your example, then we could more easily write (a compose b compose c)("1.25"). shapeless is not the only hammer ;-) –  Miles Sabin Jul 11 '12 at 14:15
This does exactly what I was looking to do. Thanks a lot! –  Johan Jul 12 '12 at 8:51
Seems I was wrong in my previous statement. I still don't understand how to do what I want with this. See the question for more details. –  Johan Jul 12 '12 at 15:35

The form I prefer for functions is: (parameter list) => returnType.

Here is what I think your code should look like. My IDE likes it, but that's no guarantee:

class Pipeline[T]() {

 // Queue of functions to run
 private var queue: util.Queue[ (T) => T] = new util.LinkedList()

 // Add functions to the queue
 def addFunction(func: (T)=> T ) {

 // Run all the functions in the queue
 def run() {
   val function = runHelper(queue.poll(), queue)

 def runHelper(func: (T) => T, queue: util.Queue[(T)=> T ]): (T)=>T = {
   // Recursion base case
   // Keep building the function recursively
     func compose runHelper(queue.poll(), queue)
share|improve this answer
Using this code I guess I would have set the type T as I declare a new Pipeline instance. This would however not help me since I will have different inputs and outputs for the different functions. Still helpful for my understanding of Scala, though. :) –  Johan Jul 11 '12 at 14:39
Remember, Scala is typesafe so there's a limit on how wild you can get. I don't know that you would be able to create a pipeline that would allow you to compose, for example one function (Int)=>String with (String)=>Double. Yes, they're composable because the output of the one is the input of the other, but you're not going to be able to do that using something akin to your Pipeline. –  Donald.McLean Jul 11 '12 at 14:46
"but you're not going to be able to do that using something akin to your Pipeline" - I thing you are absolutely right there. My current guess is that I need to do something along the lines of what @Edmondo1984 suggested in his answer. Thank you very much for taking the time look at this. I would vote you up, but I don't have enough rep to do so I'm afraid. –  Johan Jul 11 '12 at 14:51

You could give function composition a try. For example like this.

val f = (x:Int) => 2 * x
val g = f.compose(f)

if the in and output types vary you have to take care that in and output match...

share|improve this answer

Concerning the implementation, you can use a simple List of functions T => T (which are called endofunctions).

Now, in scalaz you have an instance of a Monoid (built from Semigroup and Zero) for such functions. This means, you can write the following code:

scala> import scalaz._, Scalaz._
import scalaz._
import Scalaz._

scala> val f = ((_:Int) + 6).endo
f: scalaz.Endo[Int] = <function1>

scala> val g = ((_:Int) * 4).endo
g: scalaz.Endo[Int] = <function1>

scala> val h = (-(_:Int)).endo
h: scalaz.Endo[Int] = <function1>

scala> f :: g :: h :: nil
res3: List[scalaz.Endo[Int]] = List(<function1>, <function1>, <function1>)

scala> .asMA.sum
res4: scalaz.Endo[Int] = <function1>

scala> f(g(h(1)))
res5: Int = 2

scala> res4(1)
res6: Int = 2
share|improve this answer

You can specify the type of a function like so:

Function[T, T]


T => T

Assuming both input and output of your function are equal, which they really should be. You’d have to specify or replace T of course.

If you really have variadic input–output, the whole scheme will become much more complicated.

share|improve this answer
That is the problem - the input and output type of the functions can vary. Is there any way to accomplish this? My intuition was to use the wildcards for this purpose, but this doesn't seem to work. –  Johan Jul 11 '12 at 13:46
I’d go by immutable structures and composition then (using compose or andThen). –  Debilski Jul 11 '12 at 13:55

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