The double `::`

suggests this is Haskell, but the general principles are the same across all ML inspired languages (most, and type theoretic convention, is to use a single `:`

).

The `::`

symbol says that its left hand side has the type of its right hand side. So

```
1 :: Integer
```

The `->`

constructs a function type.

```
timesTwo :: Integer -> Integer
```

Further, `->`

is right associative.

```
plus :: Integer -> Integer -> Integer
```

says the function `plus`

takes an integer and gives back a *function* which takes an integer and gives back an integer. This is equivalent to taking two integers, but is technically different (and in a sense, simpler). It is known as currying.

```
square :: Integer -> Integer
```

says that square takes an integer and returns an integer.

Often, in type theory and functional programming languages we make use of type variables, so

```
id :: forall a. a -> a
id x = x
```

says that *for any type *`a`

id is a function from a value of that type to *another value of the same type*. Your `.`

operator makes more sense when it is given a *more general* type using variables

```
(·) :: (b -> c) -> (a -> b) -> a -> c
f . g x = f (g (x))
```

is the function composition function. It is a higher order function that takes two functions as arguments. More formally, for any types `a`

, `b`

, and `c`

, `(.)`

is a function from a function from `b`

to `c`

*to a function* from `a`

to `b`

*to a function* from `a`

to `c`

. The final function is just the composition of the two argument functions.

You have specialized `.`

to only work on Integers. But, the idea is the same. You take two functions from `Integer -> Integer`

and an `Integer`

, you apply the first function, and then apply the second function the the result.

`(.)`

or `(+)`

is just Haskell for "this is an infix operator but I want to talk about it right now in prefix form."

So, `Quad`

is just a function from `Integer -> Integer`

that calls square on its argument, and then calls square again on the result. It would be the same as

```
quad x = square (square x)
```

(haskell is case sensitive, and functions must start with lowercase letters)