There are some levels you have to master here:

## level 0

```
a -> b -> c
```

is a function taking one `a`

and one `b`

and producing one `c`

## level 1

well there is more to it:

```
a -> b -> c
```

which is really

```
a -> (b -> c)
```

is a function taking one `a`

and producing another function, that takes a `b`

and produces a `c`

## level 2

```
f :: (Num a) => a -> a -> a
```

Adds a constraint to `a`

(here `Num`

- this means that `a`

should be a number - `a`

is an instance of the `Num`

type-class)

So you get a function that takes an `a`

and produces a function that takes another `a`

and returns a `a`

, and `a`

needs to be an instance of `Num`

so every input to `f`

has to be of the same type of number:

`f 1 2`

is ok
`f 'a' 'b'`

is **not ok**
`f (1::Int) (2::Int)`

is ok
`f (1::Float) (2::Float)`

is ok
`f (1::Int) (2::Float)`

is **not ok**

## level 3 (understanding `(+)`

)

The last thing you have to understand here is that, `(+)`

is defined as a part of `Num`

so there are *different* `+`

based on the used types ... and the same is true for the number literals like `0`

, `1`

, ... thats why `0`

can be a `Float`

or a `Int`

or whatever type that is a instance of `Num`