I am working on a Polygon class which holds an array of vertices in an `Array[Vec2]`

(with `Vec2`

being a simple case class defining x and y).

Now, I would like to implement a function to return the edges of the polygon in an `Array[LineSegment]`

(where LineSegment is again a simple case class which defines start and end).

The solution is to create line segments connecting each vertex to the next in the array, and finally connecting the last vertex to the first.

I'm only used to imperative programming, so this is my imperative approach:

```
def edges: Array[LineSegment] = {
val result = new Array[LineSegment](vertices.length)
for (i <- 0 to vertices.length - 2) {
result.update(i, LineSegment(vertices.apply(i), vertices.apply(i + 1)))
}
result.update(edges.length - 1, LineSegment(vertices.head, vertices.last))
result
}
```

This works fine, but it's plain ugly. I want to use the advantages of functional programming here, but I'm kinda stuck with that.

My idea was to put it like something similar to this:

```
def edges: Array[LineSegment] = {
for (v <- vertices) yield
LineSegment(v, if (v == vertices.last) vertices.head else /* next? */)
}
```

The problem is that there's no way to access the *next* item in the array given the current item `v`

.

I've read about the `sliding`

method defined in `IterableLike`

, however that seems to be non-rotating, ie it will not consider the first item to be subsequent to the last item and therefore not return it.

So what is a good "scala-esque" approach to this?