I am trying to implement a function that would work on types that have a `map`

and a `flatMap`

method. I have already made it for `Traversable`

, but this does not include `Future`

and `Option`

directly. So I have decided to go with my own interface, using a typeclass:

```
trait CanMap[A, M[_]] {
def map[B](l: M[A])(f: A => B): M[B]
def flatMap[B](l: M[A])(f: A => M[B]): M[B]
}
```

I already implemented this for `Option`

:

```
implicit def canmapopt[A] = new CanMap[A, Option] {
def map[B](l: Option[A])(f: A => B): Option[B] = l.map(f)
def flatMap[B](l: Option[A])(f: A => Option[B]): Option[B] = l.flatMap(f)
}
```

and this one works very well. Now I wanted to implement it for any subtype of `Traversable`

, I tried an implementation very close to the one for Option:

```
implicit def canmaptrav[A, B, T[B] <: Traversable[B]] = new CanMap[A, T] {
def map[B](l: T[A])(f: A => B): T[B] = l.map(f)
def flatMap[B](l: T[A])(f: A => T[B]): T[B] = l.flatMap(f)
}
```

but I get the error:

```
type mismatch; found : Traversable[B] required: T[B] Note: implicit method canmaptrav is not applicable here because it comes after the application point and it lacks an explicit result type
```

for the return type of `l.map`

. I cannot understand why `l.map(f)`

would return a `Traversable`

and not the specific type `T[B]`

. So I tried to explicitelly put the right type of CanBuildFrom in the context:

```
implicit def canmaptrav[A, B, T[B] <: Traversable[B]](implicit cbf: CanBuildFrom[T[A], B, T[B]]) = new CanMap[A, T] {
def map[B](l: T[A])(f: A => B): T[B] = l.map(f)
def flatMap[B](l: T[A])(f: A => T[B]): T[B] = l.flatMap(f)
}
```

The error persists.

Any idea where I went wrong? It might be obvious but I am getting confused with the generic type signatures I guess.

# Update: Solution

First of all, as the answers pointed out, `CanMap`

is mostly a Functor/Monad, so if you dare, you can use *scalaz* to implement this. However, if you are like me and want to try without it, here is the solution, based on the answer by Kipton Barros:

```
trait CanMap[A, B, M[_]] {
def map(l: M[A])(f: A => B): M[B]
def flatMap(l: M[A])(f: A => M[B]): M[B]
}
implicit def canmapopt[A, B] = new CanMap[A, B, Option] {
def map(l: Option[A])(f: A => B): Option[B] = l.map(f)
def flatMap(l: Option[A])(f: A => Option[B]): Option[B] = l.flatMap(f)
}
implicit def canmaptrav[A, B, M[+_]](implicit bf: CanBuildFrom[M[A], B, M[B]], ev: M[A] => TraversableLike[A, M[A]], eb: M[B] => TraversableLike[B, M[B]]) = new CanMap[A, B, M] {
def map(l: M[A])(f: (A) => B): M[B] = l.map(f)
def flatMap(l: M[A])(f: A => M[B]): M[B] = l.flatMap[B, M[B]] { (a: A) =>
f(a)
}
}
```

The trick is to use an implicit conversion `M[A] => TraversableLike[A, M[A]]`

instead of trying to subtype `Traversable`

.