Given a matrix `m`

,a starting position `p1`

and a final point `p2`

.
The objective is to compute how many ways there are to reach the final matrix (p2=1 and others=0). For this, every time you skip into a position you decrements by one.
you can only skip from one position to another by at most two positions, horizontal or vertical. For example:

```
m = p1=(3,1) p2=(2,3)
[0 0 0]
[1 0 4]
[2 0 4]
```

You can skip to the positions `[(3,3),(2,1)]`

When you skip from one position you decrement it by one and does it all again. Let's skip to the first element of the list. Like this:

```
m=
[0 0 0]
[1 0 4]
[1 0 4]
```

Now you are in position `(3,3)`

and you can skip to the positions `[(3,1),(2,3)]`

And doing it until the final matrix:

```
[0 0 0]
[0 0 0]
[1 0 0]
```

In this case the amount of different ways to get the final matrix is `20`

.
I've created the functions below:

```
import Data.List
type Pos = (Int,Int)
type Matrix = [[Int]]
moviments::Pos->[Pos]
moviments (i,j)= [(i+1,j),(i+2,j),(i-1,j),(i-2,j),(i,j+1),(i,j+2),(i,j-1),(i,j-2)]
decrementsPosition:: Pos->Matrix->Matrix
decrementsPosition(1,c) (m:ms) = (decrements c m):ms
decrementsPosition(l,c) (m:ms) = m:(decrementsPosition (l-1,c) ms)
decrements:: Int->[Int]->[Int]
decrements 1 (m:ms) = (m-1):ms
decrements n (m:ms) = m:(decrements (n-1) ms)
size:: Matrix->Pos
size m = (length m,length.head $ m)
finalMatrix::Pos->Pos->Matrix
finalMatrix (m,n) p = [[if (l,c)==p then 1 else 0 | c<-[1..n]]| l<-[1..m]]
possibleMov:: Pos->Matrix->[Pos]
possibleMov p mat = checks0 ([(a,b)|a<-(dim m),b<-(dim n)] `intersect` xs) mat
where xs = movements p
(m,n) = size mat
dim:: Int->[Int]
dim 1 = [1]
dim n = n:dim (n-1)
checks0::[Pos]->Matrix->[Pos]
checks0 [] m =[]
checks0 (p:ps) m = if ((takeValue m p) == 0) then checks0 ps m
else p:checks0 ps m
takeValue:: Matrix->Pos->Int
takeValue x (i,j)= (x!!(i-1))!!(j-1)
```

**Any idea how do I create a function ways?**

```
ways:: Pos->Pos->Matrix->Int
```