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In short, I want to declare a trait like this:

trait Test {
    def test(amount: Int): A[Int] // where A must be a Monad

so that I can use it without knowing what monad that A is, like:

class Usecase {
    def someFun(t: Test) = for { i <- t.test(3) } yield i+1

more details...

essentially, I want to do something like this:

class MonadResultA extends SomeUnknownType {
    // the base function
    def test(s: String): Option[Int] = Some(3)

class MonadResultB(a: MonadResultA) extends SomeUnknownType {
    // added a layer of Writer on top of base function
    def test(s: String): WriterT[Option, String, Int] = WriterT.put(a.test(s))("the log")

class Process {
    def work(x: SomeUnknownType) {
        for {
            i <- x.test("key")
        } yield i+1

I wanted to be able to pass any instances of MonadResultA or MonadResultB without making any changes to the function work.
The missing piece is that SomeUnknowType, which I guess should have a test like below to make the work function compiles.

trait SomeUnknowType {
    def test(s: String): T[Int] // where T must be some Monad

As I've said, I'm still learning this monad thing... if you find my code is not the right way to do it, you're more than welcomed to point it out~

thanks a lot~~

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1 Answer 1

up vote 4 down vote accepted

Assuming you have a type class called Monad you can just write

def test[A:Monad](amount: Int): A[Int]

The compiler will require that there is an implicit of type Monad[A] in scope when test is called.

EDIT: I'm still not sure what you're looking for, but you could package up a monad value with its corresponding type class in a trait like this:

//trait that holds value and monad
trait ValueWithMonad[E] {
  type A[+E]
  type M <: Monad[A]
  val v:A[E]
  val m:M

object M {

  //example implementation of test method
  def test(amount:Int):ValueWithMonad[Int] = new ValueWithMonad[Int] {
    type A[+E] = Option[E]
    type M = Monad[Option]
    override val v = Option(amount)
    override val m = OptionMonad

  //test can now be used like this
  def t {
    val vwm = test(1)
    vwm.m.bind(vwm.v, (x:Int) => {

trait Monad[A[_]] {
  def bind[E,E2](m:A[E], f:E=>A[E2]):A[E2]
  def ret[E](e:E):A[E]

object OptionMonad extends Monad[Option] {
  override def bind[E,E2](m:Option[E], f:E=>Option[E2]) = m.flatMap(f)
  override def ret[E](e:E) = Some(e)
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But then the calling code must know exactly what A is, and more importantly, the return type must depend on the A provided when the function is called, that cannot achive what I wanted to do... if you have the time, please take a look at the detailed description of my problem~ thanks~ –  Chris Aug 9 '12 at 13:44
I suggest you simplify your code so that it is reduced to the problem and doesn't contain any irrelevant things from your project. tl;dr –  Kim Stebel Aug 9 '12 at 13:52
@Chris of course the calling code must know what type it's going to get back. Scala is statically typed. It won't know the runtime class, but it has know the type for it to compile. If all you know is that you're getting back some sort of Monad[Int], the return type must be Monad[Int]. –  Luigi Plinge Aug 9 '12 at 16:22
I've tried to simplify my code, hope that makes the problem clearer~ –  Chris Aug 9 '12 at 20:13
I'm still digesting what you've written, seems like that can solve the problem. With the method test returning a ValueWithMonad for every implementation, the t method could be defined with it. I can see that your definition of Monad is a bit different from that from scalaz, like the bind method it takes a f:A=>M[B], is that a typo? –  Chris Aug 9 '12 at 20:21

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