# Determine whether a Sudoku has a unique solution

I'm struggling with a backtracking algorithm to determine wether a Sudoku has a unique solution or if it has multiple Solutions. Here's the backtracking code i use:

``````    static boolean solve(int i, int j, int[][] cells) {
if (i == 9) {
i = 0;
if (++j == 9)
return true;
}
if (cells[i][j] != 0)  // skip filled cells
return solve(i+1,j,cells);

for (int val = 1; val <= 9; ++val) {
if (legal(i,j,val,cells)) {
cells[i][j] = val;
if (solve(i+1,j,cells))
return true;
}
}
cells[i][j] = 0; // reset on backtrack
return false;
}
``````

First approach: If i change

``````for (int val = 1; val <= 9; ++val) {
for (int val = 9; val >= 1; val--) {
``````

i get two different solving-algorithmns which should find different solutions (if different solutions exist). The problem with this approach is, that the algorithm doesn't terminate even though its just a slight change and i don't know why.

Second approach: Reset to backtrack and continue searching for a solution. If i try this, it doesn't work either.

I tried to find a Java example, but i can only find information like "reset on backtrack and continue searching for a second solution".

Could someone please provide a example how to change the algorithm so it tells me if multiple solutions exists (the exact number is not needed)

OR

Could someone please explain to me why my first approach doesn't terminate?

Thanks!

-

If you return a number instead of a boolean, you can destinguish between cases where there are 0, 1, or more than 1 solution(s).

``````// returns 0, 1 or more than 1 depending on whether 0, 1 or more than 1 solutions are found
static byte solve(int i, int j, int[][] cells, byte count /*initailly called with 0*/) {
if (i == 9) {
i = 0;
if (++j == 9)
return 1+count;
}
if (cells[i][j] != 0)  // skip filled cells
return solve(i+1,j,cells, count);
// search for 2 solutions instead of 1
// break, if 2 solutions are found
for (int val = 1; val <= 9 && count < 2; ++val) {
if (legal(i,j,val,cells)) {
cells[i][j] = val;
count = solve(i+1,j,cells, count));
}
}
cells[i][j] = 0; // reset on backtrack
return count;
}
``````
-
Why use byte? You expect maximally 127 solutions? Also AFAIK `byte` takes same memory as `int`, so there isn't really a difference. –  kajacx Jun 21 at 16:16
@kajacx: Only 2 solutions need to be found to tell, if the solution is unique, so why not? –  fabian Jun 21 at 16:21
But I can't see anywhere that number of solutions would be checked, so if the sudoku would have 256 solution, then your method would return 0. –  kajacx Jun 21 at 16:37
@kajacx: Look at the condition in the for loop. Did you think I'm doing a DFS for all solutions? –  fabian Jun 21 at 16:40
@kajacx: BTW: even an int would overflow, if none of the fields are filled, since there are over `(9!)^3 > 2^55` solutions (filling the 3x3 fields on one diagonal independently should be possible). –  fabian Jun 21 at 16:58

The reset must be inside the for loop and after the `if solve` condition

`````` for (int val = 1; val <= 9; ++val) {
if (legal(i,j,val,cells)) {
cells[i][j] = val;
if (solve(i+1,j,cells))
return true;
cells[i][j] = 0; // reset on backtrack
}
}
``````
-
why the downvote ? –  Amir Jun 21 at 17:39
Thank you, now the algorithm terminates even if the for-loop counts down instead of up. –  floesr Jun 21 at 17:41
Both answers are correct, unfortunately i can only accept one. –  floesr Jun 21 at 17:46
@user3158988 thank you, it's up to you to vote for the correct answer :) I only wanted to know why a person downvoted my answer. but anw hope he/she will post a comment –  Amir Jun 21 at 17:48