Considering you have a 9x9 matrix of integers

```
int sudoku[9][9];
```

and this matrix is filled with a correct Sudoku, just replace some entries by 0 for example. Remember that Sudoku are often symmetric around their centre.

```
// Hide (i,j) from solution
sudoku[i][j] = 0;
sudoku[8-i][8-j] = 0;
```

Each time you hide two numbers from the solution, check back with your solver that it can still be solved. Finally, associate difficulty with a certain amount of loops of such a process

```
for (k=0; k < difficulty; ) {
// randomly select (i,j) so that:
// - 0 <= i <= 4
// - 0 <= j <= 4
// - (i,j) != (4, 4)
// - solution[i][j] != 0 (i.e., (i, j) has not already been randomly selected
save1 = solution[i][j];
solution[i][j] = 0;
save2 = solution[8-i][8-j];
solution[8-i][8-j] = 0;
if (!can_be_solved(solution)) {
// (i, j) was not a good choice!
solution[i][j] = save1;
solution[8-i][8-j] = save2;
}
else {
// it's still OK, let's go one step further
k += 1;
}
}
//
}
```