The syntax `let x : t = …`

is the no-argument case of the more general syntax

```
let f a1 … an : t = …
```

where `t`

is the return type of the function `f`

. The identifier `f`

has to be just an identifier, you can't have a pattern there. You can also write something like

```
let (x, y) = …
```

Here `(x, y)`

is a pattern. Type annotations can appear in patterns, but they must be surrounded by parentheses (like in expressions), so you need to write

```
let ((x, y) : coords) = …
```

Note that this annotation is useless except for some cosmetic report messages; `x`

and `y`

still have the type `int`

, and `(x, y)`

has the type `int * int`

anyway. If you don't want coordinates to be the same type as integers, you need to introduce a constructor:

```
type coords = Coords of int * int
let xy = Coords (3, 4)
```

If you do that, an individual coordinate is still an integer, but a pair of coordinates is a constructed object that has its own type. To get at the value of one coordinate, the constructor must be included in the pattern matching:

```
let longitude (c : coords) = match c with Coords (x, y) -> x
```