# Monad's left unit law does not seem to hold for Lists in scala. Are scala Lists not monads then?

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

But:

``````(List(1) flatMap ((x: Int) => Some[Int](x))) == List(1) // true
((x: Int) => Some[Int](x))(1) == Some(1) // also true
``````

So left unit law does not hold for lists in scala. Are lists not monads then?

First, the monad law assumes `f: A => M[A]` (here `f: A => List[A]`). This is not true of `(x: Int) => Some[Int](x)`.

Second, `List`'s `flatMap` is not monadic bind. It is more general than bind, because it takes an implicit `CanBuildFrom` that allows it to change its return type depending on what you want it to return. You can restrict it to bind like so

``````def bind[A](xs: List[A])(f: A => List[A]) = xs.flatMap(f) // implicit (List.canBuildFrom)
``````

Now you can see that the law is satisfied:

``````bind(List(1))(x => List(x, x)) == List(1, 1)
``````

I'm not a category theory or Haskell expert but I don't understand your question, and my response is too big for comment, not to mention code blocks look terrible in comment.

Haskell left identity law is `return a >>= f ≡ f a`, right?

In Scala:

``````return -> apply
>>=    -> flatMap
``````

So, left identity law for Scala `List` would be `List(a).flatMap(f) = f(a)`

In your case, `val a = 1` and `val f = (x: Int) => Some[Int](x)`. But this wouldn't even compile because `Option` is not a `GenTraversableOnce`; you can't return `Option` from a `List.flatMap`.

Instead, if we define `val f = (x: Int) => List(x * 2)`, a double function

``````LHS: List(a).flatMap(f) = List(2)
RHS: f(a) = List(2)
``````

LHS = RHS, left identity satisfied.

Am I missing something?

• You've overlooked `implicit Option.option2Iterable: Option[A] => Iterable[A]`. – HTNW Jul 10 '17 at 2:47
• @HTNW How do I bring that in scope? – Abhijit Sarkar Jul 10 '17 at 2:53
• You shouldn't have to. The implicit resolution rules will automatically be used to turn `Some[Int](x)` into `option2Iterable(Some[Int](x))`. – HTNW Jul 10 '17 at 3:03
• @HTNW Interestingly, it doesn't always work. `List(1).flatMap(Some(_))` = `List(1)`, no problem, but `val f = (x: Int) => Some(x)`; `List(1).flatMap(f)` gives `error: type mismatch` using 2.12.2. – Abhijit Sarkar Jul 10 '17 at 3:11
• NVM, I needed `List(1).flatMap(f(_))`. Thanks. – Abhijit Sarkar Jul 10 '17 at 3:13