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# How does Scalaz `F[_] : Applicative` type constraint imply use of implicit parameters?

I am struggling to understand the following function definition in `Traverse` trait in Scalaz:

`def traverse[F[_] : Applicative, A, B](f: A => F[B], t: T[A]): F[T[B]]`

The part I don't understand is `F[_] : Applicative`.

Now, let's see what `Applicative` is:

``````trait Applicative[Z[_]] extends Pointed[Z] with Apply[Z] {
override def fmap[A, B](fa: Z[A], f: A => B): Z[B] = this(pure(f), fa)
override def apply[A, B](f: Z[A => B], a: Z[A]): Z[B] = liftA2(f, a, (_:A => B)(_: A))
def liftA2[A, B, C](a: Z[A], b: Z[B], f: (A, B) => C): Z[C] = apply(fmap(a, f.curried), b)
}
``````

Here, for `traverse` to work for some type `F`, one needs to bring an implicit object of type `Applicative[F]` in scope.

I'd like to understand several things:

1. Wat exactly does `F[_] : Applicative` mean?
2. Why does `F[_]` has something to do with `Applicative`? We need `Applicative[F]`, not F[something] extends Applicative right?
3. Why does this method use implicit values of type `Applicative[F]` without declaring implicit parameters?
-

I think all three questions can be answered with the fact that this notation:

``````def traverse[F[_] : Applicative, A, B](f: A => F[B], t: T[A]): F[T[B]]
``````

is equivalent to this:

``````def traverse[F[_], A, B](f: A => F[B], t: T[A])(implicit \$ev: Applicative[F]): F[T[B]]
``````

The first notation is known as a context bound for `F[_]`.

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Aha, so this is a special language feature! Thank you! – Rotsor Aug 18 '11 at 15:13