I am reading James Iry's blog post on Monads in scala. I am in part three and I am confused about his description of the second law of monads regarding Unit. Specifically this claim:

`````` unit(x) flatMap f = f(x)
``````

When I apply my mental examples which are jame's previous examples of monadic types this never seems to work out

`````` val x = 1
val f = (_:Int) * 2
f(x) == 2 //true
List(x) flatMap f == 2 //fail
Some(x) flatMap f == 2 //fail
``````

As a matter of fact they don't even compile due to type issues.

To clarify I understand why these are failing. I understand the how to fix them so they compile.

My confusion is that these seem to be in conflict with the theory presented in the article. Is there a step I am missing? Are these types not really monads? Is the section entitled "Second Law of Monads:Unit" incorrect?

-

Scala's `flatMap` needs a function that returns a collection, not a function that returns a single element, like your function `f`.

Either use `map`:

``````List(x) map f
``````

or make your function return a collection:

``````val f = (x: Int) => List(x * 2)

List(x) flatMap f
``````

Note that it will also return a collection, not a single integer (you'll get `List(2)`, not just `2`).

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thanks for you're reply. I understand what you are saying but my question is more related to the fact that these statements seem to conflict with the monadic laws related to the unit function. –  nsfyn55 Jun 8 '12 at 13:07
you are correct I missed a critical part of the article where he defines the signature of the flatMap/bind method as `flatMap(f: A => M[B])`. So the issue is actually that my function was not defined correctly. –  nsfyn55 Jun 8 '12 at 13:16
The fact that it doesn't compile due to type issues should tell you something: `f` is not the kind of function that the monad law applies to!
`flatMap`, when seen as a monadic operation rather than a collection operation, takes a "monadic value" and a function from ordinary values to monadic values. Your `f` function is a function from ordinary values to ordinary values.
Passing `f` to `flatMap` doesn't break the monadic laws, it just doesn't mean anything at all. It's an invalid expression. Similarly `1 + "fork" - 1` doesn't violate the law from arithmetic that `1 + x - 1 = x`; from this law we might conclude that `1 + "fork" - 1` should equal "fork", when in fact it's a compiler error. That would be a silly conclusion though; the laws are only talking about things that are type-correct.