If you want just the n-th row,

```
pascal n= putBetween(pascal (n-1))
```

is the right way, `putBetween`

already constructs the complete next row from a given. If you want to create the triangle as a list of rows, something like

```
pascal :: Int -> [[Integer]]
pascal n = take (n+1) $ iterate putBetween [1]
```

would construct the triangle starting with row 0. If you want the part of the triangle in reverse order, longer rows first,

```
pascal :: Int -> [[Integer]]
pascal 0 = [[1]]
pascal n = putBetween top : previous
where
previous = pascal (n-1)
top = head previous
```

does that.

The problem with your attempt is that `putBetween`

is applied to the entire result of `pascal (n-1)`

, which is intended to contain not only the `n-1`

-st row, but also the previous rows. So `pascal 1`

gave the concatenation of the first row `[1,1]`

with the zeroth `[1]`

, and when `pascal 2`

applies `putBetween`

to that, it's not a row of Pascal's triangle, so the result isn't one either. You could also get the concatenation of the rows by

```
pascal 0 = [1]
pascal n = putBetween (take n previous) ++ previous
where
previous = pascal (n-1)
```

but in my opinion it's better to have the triangle as a list of rows.