# Is there there any difference or reason to prefer one of these function signatures?

I don't think there's any difference, or reason to prefer one over the other, but wanted to check...

``````def length(l: List[Any])
def length[T](l: List[T])
``````
-

If you just want the length of any `List`, there is no difference for you.
But if you want operatations with the elements of that list, there is.

``````val l = List(1, 2, 3, 4)
def secondElementGen[A](l : List[A]) = l.tail.head
``````

Giving those two functions and the list, we will expect to get the `2` from the `List`.

``````val secondAny = secondElementAny(l)
val secondGen = secondElementGen(l)
``````

If we would print the values to the console, we could spot no diference, but if we try to cast them to `Float` for example, we will get an error. `secondAny.toFloat` will tell us, that secondAny is type of `Any` and that we cannot use the function `toFloat` on `Any`.
In contrast `secondGen.toFloat` will give us a `Float` value.

The reason for that is, that the compiler aproximates the full signatures as follows.

``````def secondElementAny(l: List[Any]): Any = l.tail.head
def secondElementGen[A](l: List[A]): A = l.tail.head
``````

As you can see the return type of the first function is `Any`, so we will always get an `Any` whereas the return type of the second function depends on the type of the `List`. We will get an element of that type. This is typesafe.

-

You could also write it like this:

``````def length(l: List[_])
``````

Now, with regards to your question, `List[Any]` will, indeed accept any `List`, but if you had tried `Set[Any]`, it would not work! For instance, try passing a `Set[Int]` to it:

``````scala> def length(s: Set[Any]) = s.size
length: (s: Set[Any])Int

scala> val set = Set(1, 2, 3)
set: scala.collection.immutable.Set[Int] = Set(1, 2, 3)

scala> length(set)
<console>:10: error: type mismatch;
found   : scala.collection.immutable.Set[Int]
required: Set[Any]
Note: Int <: Any, but trait Set is invariant in type A.
You may wish to investigate a wildcard type such as `_ <: Any`. (SLS 3.2.10)
length(set)
^
``````

`List` is co-variant, which makes that possible, but not every parameterized class is covariant. Either your parameterized version or the version above will work, though.

I can't think of any reason to prefer one over the other, but I'd rather not parameterize something when it is not needed. If nothing else, it will have a slight positive impact on compilation speed.

-

There is a difference:

``````def head_1(l: List[Any]) = {
}

@TGrottker `> 1` doesn't compile as `Any` doesn't have method `>` –  Victor Moroz Aug 13 '13 at 13:44