I'm making a sudoku program with a solver that uses a recursive backtracking algorithm, and a single-solution sudoku generator as a project for an online CS class I'm taking. However, the solver seems to often get stuck in an infinite loop when using it with the generator (I use the solver to check if there is a solution on each step), and I can't figure out what's wrong with my solve function.

I've spent many hours trying to find what's causing it to not behave as intended, but I feel stuck at this point.

I don't expect anyone to give exact code to use, nor do I want to. But i'd be very grateful if anyone can give me some pointer as to what's wrong with this function. Here is my code :

```
bool solve(int cell)
{
// if reached the end, return true
if (cell == 81)
return true;
// if is a given number, go to next cell
if (givnums[0][cell] == true)
{ // pass in the return value of next cell to previous cell
if (solve(cell + 1) == false)
return false;
else
return true;
}
// find a valid number to insert
for (int i = 1; i <= 9; i++)
{
// if is an invalid move, continue
if (rows[cell / 9][i - 1] == true || cols[cell % 9][i - 1] == true || minigrids[((cell / 9) / 3) * 3 + (cell % 9) / 3][i - 1] == true)
continue;
// else place the number, update all grids and go to next cell
else
{
s_grid[0][cell] = i;
s_rows[cell / 9][i - 1] = true;
s_cols[cell % 9][i - 1] = true;
s_minigrids[((cell / 9) / 3) * 3 + (cell % 9) / 3][i - 1] = true;
// go to next cell
if (solve(cell + 1) == false)
{
// if next cell returns false, undo last step
s_grid[0][cell] = 0;
s_rows[cell / 9][i - 1] = false;
s_cols[cell % 9][i - 1] = false;
s_minigrids[((cell / 9) / 3) * 3 + (cell % 9) / 3][i - 1] = false;
}
// else return true
else
return true;
}
}
// no valid number, return false
return false;
}
```

The function is supposed to return true when it finds a solution, and false if there is none. the arrays s_cols, s_rows and s_minigrids are to keep track of valid moves, and givnums is to keep track of which numbers shouldn't be touched.

EDIT :

So, a little update if anyone care - The logic of my latest revision of the program (The code I posted here) was good. what was causing the bug is on this line :

`if (rows[cell / 9][i - 1] == true || cols[cell % 9][i - 1] == true || minigrids[((cell / 9) / 3) * 3 + (cell % 9) / 3][i - 1] == true)`

where I should have used s_grid, s_rows etc instead, which are copies of the current grid state for solve() to work with. I feel kind of stupid for missing that, but now everything works perfectly ! and it's very fast too for a brute force method. It only takes 1-2 seconds to generate a random valid sodoku grid where I insert a random number in a random free cell with using the solver on every step to check if there is a solution and else go back a step.