# Why does Option require explicit toList inside for loops?

Using a for loop with a simple Option works:

``````scala> for (lst <- Some(List(1,2,3))) yield lst
res68: Option[List[Int]] = Some(List(1, 2, 3))
``````

But looping over the contents of the Option does not:

``````scala> for (lst <- Some(List(1,2,3)); x <- lst) yield x
<console>:8: error: type mismatch;
found   : List[Int]
required: Option[?]
for (lst <- Some(List(1,2,3)); x <- lst) yield x
^
``````

...unless the Option is explicitly converted to a List:

``````scala> for (lst <- Some(List(1,2,3)).toList; x <- lst) yield x
res66: List[Int] = List(1, 2, 3)
``````

Why is the explicit list conversion needed? Is this the idiomatic solution?

-

``````for (lst <- Some(List(1,2,3)); x <- lst) yield x
``````

is translated to

``````Some(List(1,2,3)).flatMap(lst => lst.map(x => x))
``````

The `flatMap` method on `Option` expects a function that returns an `Option`, but you're passing a function that returns a `List` and there is no implicit conversion from `List` to `Option`.

Now if you convert the `Option` to a list first, the `flatMap` method of `List` will be called instead, which expects a function returning a `List`, which is what you are passing to it.

In this particular case, I think the most idiomatic solution is

``````Some(List(1,2,3)).flatten.toList
``````
-
Which is why `for (lst <- Some(List(1,2,3)) get; x <- Option(lst)) yield x` works too. Interesting. – sberry Dec 20 '12 at 6:30