Write the function grid_nsolve which gives the following matrix in the resolution: We look over all the matrix and for each element in the matrix :

- if the case is not null, we keep its value on the new grid
- if the case is null, we look in the list of possible for this case :

- if there is a unique possible value, we put this value on the case for the new grid
- if there are more then one solution, we ignore this case and go for the next

This is what I'm asked for a school project in Ocaml. So far I came with the following function :

```
let replace (x,y) board possible_values =
if (get_cell (x,y) board) <> null then
board
else
match possible_values with
e::[] -> put_cell e (x,y) board
|_ -> board ;;
let grid_nsolve p board null values =
let rec grid_nsolve2 p board null values (x,y) =
let possible_values = grid_find p board x y values in
match (x,y) with
(0,0) -> replace (0,0) board possible_value
|(x,0) -> grid_nsolve2 p (replace (x,0) board possible_values) null values (x - 1, length values -1)
|(x,y) -> grid_nsolve2 p (replace (x,y) board possible_values) null values ( x , y - 1 )
in grid_nsolve2 p board null values (length values - 1, length values - 1);;
```

Where `grid_find`

returns the possible values for a case, `values`

is a list of all allowed numbers in the game (for a classical Sudoku it will be `[1;2;3;4;5;6;7;8;9]`

) and `p`

is predicate to which we want to compare the values in the grid (for classical Sudoku, it will be `(=)`

). This function looks correct to me but when I try to use on the given exemple, I found out that some non-null values has been transformed and some cases in which there are multiple possibilities has been given a value instead of ignoring it. What's wrong with this code?

`get_cell`

and`put_cell`

. This code looks OK as far as I can see. Why do you not pass null to`replace`

? It looks like a parameter of the rest of your implementation (depends on the type of cell entries perhaps). – Jeffrey Scofield Oct 28 '13 at 0:48