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What I am trying to do :

trait BasicModel {
  type U <: BasicModel

  def -(that: U): BasicModel

class MatrixFactorizationModel(val W: DenseMatrix[Double], val b: Double) extends  BasicModel {
  type U = MatrixFactorizationModel

  def -(that: MatrixFactorizationModel): MatrixFactorizationModel =  new MatrixFactorizationModel(W + that.W, b - that.b)

abstract class SAG [T <: BasicModel#U : ClassTag] {
  //type T <: BasicModel#U    I also tried like that

  def modelDerivative(idx: Index, cstDerivative: Double): T

  def compute(): T = {
    SumDerivative = SumDerivative - modelDerivative(idx, Hist(idx))

When compute is call I got this error :

type mismatch;
found   : T
required: _129.U where val _129: T
    SumDerivative = SumDerivative - modelDerivative(idx, Hist(idx))

I don't understand why this is not working because T is a BasicModel#U. Could someone explain me, and give me an alternative?


I also changed in SAG T <: BasicModel#u in T <: BasicModel and when I use T to change it in T#U :

abstract class SAG [T <: BasicModel : ClassTag] extends Optimizer {

  def modelDerivative(idx: Index, cstDerivative: Double): T#U


But :

type mismatch;
found   : T#U
required: _128.U where val _128: T#U
    SumDerivative = SumDerivative - modelDerivative(idx, Hist(idx))
share|improve this question
the matrixfactorization and "optimizer" don't seem related to your question, might be clearer to simplify to the smallest possible example of the issue. –  Brian Mar 17 '14 at 21:34
oh, I see it's the implementation of BasicModel... –  Brian Mar 17 '14 at 21:36
Sorry, I remove the "extend optimiser" but I let the MatrixFactorisation because in the SAG, I am trying to subtract instances of MatrixFactorisation. –  GermainGum Mar 18 '14 at 9:52

1 Answer 1

up vote 0 down vote accepted

It's sort of like the type defined in BasicModel, U, is a member of an instance of BasicModel. It's like the difference between static/instance variables in Java. To match a type definition, you need the exact same type. If it were static, you couldn't override it in the subclass, MatrixFactorizationModel.

T <: BasicModel in SAG represents any T <: BasicModel#U (the parent #U) where that #U could be any subtype of BasicModel. Even though you might happen to have specified MatrixFactorizationModel wherever you instantiated an instance of SAG, the compiler doesn't know what specific T you have in this context, or that it's a subtype of the same U.

You might have better luck with something like trait BasicModel { def [T<:BasicModel]-(that:T):T }. It's a bit more verbose, and can be a real pain if you've got a lot of method signatures to type, but sometimes signatures like that work out better.

share|improve this answer
Thanks, I get it when you say "T <: BasicModel#U (the parent #U) where that #U could be any subtype of BasicModel". So I tried another solution where instead I do ""T <: BasicModel" and T#U when I use it. Kind of the same error I put it in my post. –  GermainGum Mar 18 '14 at 9:54
I also tried your suggestion but doesn't work either. (so, I will try to do some implicit convert somewhere) –  GermainGum Mar 18 '14 at 9:56
how is SumDerivative defined? Unless it's defined inside SAG, there's no way to even specify a SumDerivative of a type that matches the type T specified only in SAG. Beware that SAG[T<:BasicModel#U] means any type that is a subtype of the type U, where that U could be defined in any subclass of BasicModel... not necessarily the same BasicModel used to define SumDerivative. –  Brian Mar 18 '14 at 18:36
what I'm suggesting is something like: trait BasicModel[T]{ def -(that:T):T }, class MyModel extends BasicModel[MyModel]{ def -(that:MyModel):MyModel=that }, and abstract class Foo[T<:BasicModel[T]] { val instance:T; def foo(that:T):T=that - instance } –  Brian Mar 18 '14 at 18:40

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