try:

```
ys.map { case (a: Int, b: Int) => a + b }
```

or:

```
ys.map(p: (Int, Int) => p._1 + p._2)
```

What's happening is that `ys`

is a `List`

of `(Int,Int)`

, so `map`

expects a function from a single argument, which happens to be a tuple `(Int,Int)`

, to something else (technically, `map`

expects an argument of `Function1[(Int,Int),Int]`

. The function `(a: Int, b: Int) => a+b`

is not actually a function from a single argument `(Int, Int)`

to `Int`

; instead it's a function of two arguments, both `Int`

s, to an `Int`

(a `Function2[Int,Int,Int]`

). The difference is subtle, but important since Scala makes a distinction:

```
val f: Function1[(Int,Int),Int] = (p: (Int,Int)) => p._1 + p._2
ys.map(f) // fine
val g: Function1[(Int,Int),Int] = { case (a: Int, b: Int) => a + b }
ys.map(g) // fine, technically a PartialFunction[(Int,Int),Int]
val h: Function2[Int,Int,Int] = (a: Int, b: Int) => a + b
ys.map(h) // ERROR!
```

To explain my suggestions at the top of the answer: In the first example, we have changed the definition of the function given to `map`

to use `case`

, which tells Scala to unpack the single `(Int,Int)`

argument into its two parts. (Note also the use of curly braces instead of parentheses.) In the second example, we have a function of a single tuple argument, `p`

, and we manually extract each part of the tuple.

Finally, note that you don't need the type annotations either. These work just as well:

```
ys.map { case (a,b) => a + b }
ys.map(p => p._1 + p._2)
```