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I'm trying to grasp higher-order-polymophism in scala by implementing a very basic interface that describes a monad but I come across a problem that I don't really understand.

I implemented the same with C++ and the code looks like this:

#include <iostream>

template <typename T>
class Value {
  T value;
  Value(const T& t) {
    this->value = t;

  T get() {
    return this->value;

template < template <typename> class Container >
class Monad {
  template <typename A> Container<A> pure(const A& a); 

template <template <typename> class Container>
  template <typename A>
Container<A> Monad<Container>::pure(const A& a) {
  return Container<A>(a);

int main() {
  Monad<Value> m;
  std::cout << m.pure(1).get() << std::endl;
  return 0;

When trying to do the same with scala I fail:

class Value[T](val value: T)

class Monad[Container[T]] {
  def pure[A](a: A): Container[A] =

object Main {
  def main(args: Array[String]): Unit = { 
    val m = new Monad[Value]

The compiler complains about:

[raichoo@lain:Scala]:434> scalac highorder.scala
highorder.scala:5: error: not found: value Container
one error found

What am I doing wrong here? There seems to be a fundamental concept I don't seem to understand about scala typeconstructors.

Regards, raichoo

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Thanks, that link looks very interesting but does not really answer my question. I didn't want to know anything about monads, my question was about type constructor polymorphism. Even though, it looks like a good read. :) –  raichoo Apr 5 '10 at 14:04

3 Answers 3

up vote 16 down vote accepted

The Monad trait in Scala would be declared as follows:

trait Monad[M[_]] {
  def pure[A](a: => A): M[A]
  def bind[A,B](a: M[A], f: A => M[B]): M[B]

Note that it's parameterized with a type constructor M[_]. The bracketed underscore indicates that M is a type constructor of kind (* -> *) (i.e. M takes some type A to construct a type M[A]). Your identity monad instance would then be written like this:

class Value[A](a: => A) { lazy val value = a }

implicit val identityMonad = new Monad[Value] {
  def pure[A](a: => A) = new Value(a)
  def bind[A,B](a: Value[A], f: A => Value[B]) = new Value(f(a.value).value)

This definition uses by-name parameters to achieve lazy semantics.

Monad and other useful higher-kinded type classes are provided by the Scalaz library along with a lot of instances for the standard Java/Scala libraries.

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Amazing, my head just exploded, but that was what I have been searching for. Thanks :) –  raichoo Apr 5 '10 at 16:45

If you change your definition of the Monad class to the following

class Monad[Container[_]] {        
  def pure[A <% Container[A]](a: A): Container[A] = a

The syntax Container[_] is how higher kinds are expressed in Scala. The A <% Container[A] is a 'view bound' that expresses that A is implicitly convertible to Container[A]. The body of the method uses this implicit conversion. To use this class, you need to have an implicit conversion in scope for (in your example) Int to Value[Int]

implicit def toValue[T](t:T) = new Value(t)

You can then do the following

scala> val m = new Monad[Value]                     
m: Monad[Value] = Monad@781fb069

scala> m.pure(1).value         
res3: Int = 1
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Sorry Container[_] is not a higher kinded type in Scala like I just learned in what-is-a-higher-kinded-type-in-scala –  Lutz Jun 28 '11 at 13:53

Not sure what would be the best solution, but in the definition of pure in your code:

class Monad[Container[T]] {
  def pure[A](a: A): Container[A] = Container[A](a)

What Container[A](a) should do? So far, you've defined Container as a generic type XXX and you don't have any information on how to build a new object. You need to pass a "builder" object as implicit parameter. Take a look at how the collection libraries are implemented in Scala 2.8 or the Monad definition in Scalaz

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