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I'm trying to understand why the following code using Scala Streams doesn't work:

def main(args: Array[String]): Unit = {
  lazy val y : SimNumericStream = y.shift

class SimNumericStream( ss : Stream[Double] )  {  
  lazy val scalstream = ss
  lazy val shift = new SimNumericStream( 0 #:: scalstream )

and yet replacing

lazy val y : SimNumericStream = y.shift 


lazy val y : SimNumericStream = new SimNumericStream( 0 #:: y.scalstream )

works just fine.

I'm looking for a solution that allows to me wrap up operations on Streams inside functions without breaking the lazy evaluation when the streams are self-referential.

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2 Answers 2

In your first version, your call to instantiate SimNumericStream is inside an instance of SimNumericStream, so you can never actually intantiate one unless you have one already.

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Thanks, but: def main(args: Array[String]): Unit = { lazy val shift = ( sns : SimNumericStream ) => new SimNumericStream( 0 #:: sns.scalstream ) lazy val y : SimNumericStream = shift(y) y.scalstream.take(10).print } Also produces the same (runtime) error whereas (manual) inlining of the function does not. –  George Apr 25 '12 at 13:48
@George in that snippet you have just moved the problem into a function: you can still only make a new instance if you have an instance already. It's fine to be self-referential, but a self-replicating object has to have something else to create the first one. –  Luigi Plinge Apr 25 '12 at 14:01
I guess I am struggling to see why this issue is also not present in the version that works. In that case we also have the "new SimNumericStream" within the definition of the same SimNumericStream (y). Self-replication is not what I'm looking for, just self reference. Perhaps asking the question another way, how would you define a "shift" function that returns a shifted stream and then use that function within the definition of the stream that's being shifted? Is there another way? –  George Apr 25 '12 at 14:29
@George I guess I don't understand what you think is wrong with the solution that you say works fine; it doesn't break lazy evaluation as far as I can see. I just thought I'd provide an explanation of why the version that fails does so, since it fails a basic sanity-check. –  Luigi Plinge Apr 25 '12 at 15:13
what is wrong with it as far as I am concerned is the need for the calling code to look inside the SimNumericStream object: I should be able to implement the shift operator on the SimNumericStream object itself, hiding the implementation using Scala streams under the hood. Am I wrong, or does the fact that one form works whereas the other doesn't break the idea of referential transparency? –  George Apr 25 '12 at 15:36
up vote 0 down vote accepted

I have achieved the effect I would like through the following:

  class SimNumericStream(str: =>Stream[Double]) {
    def ::(hd: Double) = Stream.cons(hd, str)
    def shift = 0.0 :: this
  implicit def streamToSimNumericStream(str: =>Stream[Double]) = new SimNumericStream(str)

  lazy val y: Stream[Double] = y.shift
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