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I can't seem to understand why my program needs explicit parameter types for this case. Using the following method:

trait DistTraversableLike[+T, +Repr]
  extends DistTraversable[T] {
  self: Repr =>
  def scan1lD[T1 >: T, That](assOp: (T1, T1) => T1)(implicit bf: CanBuildFrom[Repr, T1, That]): That = {
    val b = bf(this)
    for (x <- group.prefixSumSeq(part, assOp))
      b += x

I try to use it on a specific implementation like so:

val x:DistSeq[Int] = DistSeq((0 until worldSize): _*)
val scan = x.scan1lD(_+_)

Which yields the following error message:

Multiple markers at this line
    - missing parameter type for expanded function ((x$1: <error>, x$2) => x$1.$plus{<null>}(x$2{<null>}){<null>})
    - missing parameter type for expanded function ((x$1, x$2) => x$1.$plus{<null>}(x$2{<null>}){<null>}){<null>}
    - missing parameter type for expanded function ((x$1: <error>, x$2) => x$1.$plus(x$2))
    - missing parameter type for expanded function ((x$1, x$2) => x$1.$plus(x$2))

group is a mixed trait using a method from FooParOps-trait (prototype implementation):

  def prefixSumSeq[T](part: Seq[T], combiner: (T, T) => T): Seq[T] = {
    implicit val srlz = getSerializerFor(part)
    var result = part.head
    var msg = part.reduce(combiner)
    for (i <- 0 until log2i(size)) {
      val partner = localRank ^ math.pow(2, i).toInt
      send(partner, msg)
      val number: T = rcv(partner)
      msg = combiner(msg, number)
      if (partner < localRank) result = combiner(number, result)
    return (part.tail).scanLeft(result)(combiner)

part is from DistTraversable[+T] and defined as def part: Seq[T]

I don't quite see why explicit parameters are needed here? Please tell me if more information is needed. The program is quite complex right now.

share|improve this question
What are the variables group and part in the for loop in scan1lD? – Emil H May 15 '13 at 17:28
I added a more thorough explanation – Felix May 16 '13 at 7:20
I tried simplifying your problem, but I end up with quite a few changes just to get something that compiles... Do you get the same compilation error if you are more explicit e.g. x.scan1lD((x:Int,y:Int) => x + y)? Could a problem be that it can't implicitly resolve the right CanBuildFrom since it doesn't know the type of That? – Emil H May 16 '13 at 8:22
val scan = x.scan1lD( (a:Int,b:Int) => a+b) compiles and works as expected. To me it seems that it should be quite clear we need a builder of type: CanBuildFrom[DistSeq[Int], Int, DistSeq[Int]], since (+) must be (Int,Int) => Int – Felix May 16 '13 at 8:31
Well, I think it could take any argument that has a + method defined that returns the same type. For instance a MyType with a def +(MyType):MyType method. – Emil H May 16 '13 at 12:10
up vote 0 down vote accepted

The only thing I can think of is quite ugly (but might be acceptable):

implicit class Scan1lDable[T, Repr](v: DistTraversableLike[T, Repr]) {
  def scan1lD[That](op: (T,T) => T) // Note: no T1
                   (implicit bf: CanBuildFrom[Repr, T, That]): That = {
    // snip

Now, your example will work, but the following will not:

class A
class B extends A

def op(x: A, y: B) = x

val x: DistTraversableLike[B, ...] = ...
x.scan1lD(op _)

But this will:

(x: DistTraversableLike[A, ...]).scan1lD(op _)

So we add a convenience method to DistTraversableLike

trait DistTraversableLike[+T, +Repr]
  extends DistTraversable[T] {
  self: Repr =>

  def lower[S >: T]: DistTraversableLike[S, Repr] = this


And can now call:

x.lower[A].scan1lD(op _)

Granted, it is really ugly, but might be more acceptable than having to specify the method types.

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