I'm fairly new the functional programming, so I'm going through some practice exercises. I want to write a function, given a matrix of unique naturals, let's say 5x5, return a collection of unique matrices of a smaller size, say 3x3, where the matrices must be intact, i.e. created from values that are adjacent in the original.

```
01 02 03 04 05
06 07 08 09 10
11 12 13 14 15
16 17 18 19 20
21 22 23 24 25
```

Simple. Just slide across, then down, one by one in groups of 3, to get something that looks like:

```
01 02 03 | 02 03 04 | 03 04 05 | 06 07 08
06 07 08 | 07 08 09 | 08 09 10 | 11 12 13
11 12 13 | 12 13 14 | 13 14 15 | 16 17 18
```

or, in Scala,

```
List(List(1, 2, 3), List(6, 7, 8), List(11, 12, 13))
List(List(2, 3, 4), List(7, 8, 9), List(12, 13, 14))
List(List(3, 4, 5), List(8, 9, 10), List(13, 14, 15))
List(List(6, 7, 8), List(11, 12, 13), List(16, 17, 18))
```

and so on and so on...

So I venture out with Scala (my language of choice because it allows me to evolve from imperative to functional, and I've spent the last few years in Java.

```
val array2D = "01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25".grouped(3).map(_.trim.toInt).grouped(5)
val sliced = array2D.map(row => row.sliding(3, 1).toList).sliding(3, 1).toList
```

Now I have a data structure I can work with, but I don't see a functional way. Sure I can traverse each piece of `sliced`

, create a `var matrix = new ListBuffer[Seq[Int]]()`

and imperatively create a bag of those and I'm done.

I want to find a **functional, ideally point-free** approach using Scala, but I'm stumped. There's got to be a way to zip with 3 or something like that... I've searched the ScalaDocs and can't seem to figure it out.