This is a followup to this question.

Here's the code I'm trying to understand (it's from http://apocalisp.wordpress.com/2010/10/17/scalaz-tutorial-enumeration-based-io-with-iteratees/):

```
object io {
sealed trait IO[A] {
def unsafePerformIO: A
}
object IO {
def apply[A](a: => A): IO[A] = new IO[A] {
def unsafePerformIO = a
}
}
implicit val IOMonad = new Monad[IO] {
def pure[A](a: => A): IO[A] = IO(a)
def bind[A,B](a: IO[A], f: A => IO[B]): IO[B] = IO {
implicitly[Monad[Function0]].bind(() => a.unsafePerformIO,
(x:A) => () => f(x).unsafePerformIO)()
}
}
}
```

This code is used like this (I'm assuming an `import io._`

is implied)

```
def bufferFile(f: File) = IO { new BufferedReader(new FileReader(f)) }
def closeReader(r: Reader) = IO { r.close }
def bracket[A,B,C](init: IO[A], fin: A => IO[B], body: A => IO[C]): IO[C] = for { a <- init
c <- body(a)
_ <- fin(a) } yield c
def enumFile[A](f: File, i: IterV[String, A]): IO[IterV[String, A]] = bracket(bufferFile(f),
closeReader(_:BufferedReader),
enumReader(_:BufferedReader, i))
```

I'm now trying to understand the `implicit val IOMonad`

definition. Here's how I understand it. This is a scalaz.Monad, so it needs to define `pure`

and `bind`

abstract values of the `scalaz.Monad`

trait.

`pure`

takes a value and turns it into a value contained in the "container" type. For example it could take an `Int`

and return a `List[Int]`

. This seems pretty simple.

`bind`

takes a "container" type and a function that maps the type that the container holds to another type. The value that is returned is the same container type, but it's now holding a new type. An example would be taking a `List[Int]`

and mapping it to a `List[String]`

using a function that maps `Int`

s to `String`

s. Is `bind`

pretty much the same as `map`

?

The implementation of `bind`

is where I'm stuck. Here's the code:

```
def bind[A,B](a: IO[A], f: A => IO[B]): IO[B] = IO {
implicitly[Monad[Function0]].bind(() => a.unsafePerformIO,
(x:A) => () => f(x).unsafePerformIO)()
}
```

This definition takes `IO[A]`

and maps it to `IO[B]`

using a function that takes an `A`

and returns an `IO[B]`

. I guess to do this, it has to use `flatMap`

to "flatten" the result (correct?).

The `= IO { ... }`

is the same as

```
= new IO[A] {
def unsafePerformIO = implicitly[Monad[Function0]].bind(() => a.unsafePerformIO,
(x:A) => () => f(x).unsafePerformIO)()
}
}
```

I think?

the `implicitly`

method looks for an implicit value (value, right?) that implements `Monad[Function0]`

. Where does this implicit definition come from? I'm guessing this is from the `implicit val IOMonad = new Monad[IO] {...}`

definition, but we're inside that definition right now and things get a little circular and my brain starts to get stuck in an infinite loop :)

Also, the first argument to `bind`

(`() => a.unsafePerformIO`

) seems to be a function that takes no parameters and returns a.unsafePerformIO. How should I read this? `bind`

takes a container type as its first argument, so maybe `() => a.unsafePerformIO`

resolves to a container type?