It seems to me like this will never actually return something useful. The first time we enter your
solve_sudoku, you check to see if the grid is solved, and if so you return it. After that, you begin a bunch of recursion which ultimately will end up coming back out towards the end of the function and returning None. No matter what, you are returning None all the time. The only thing that you end up with is a modified
grid argument that you passed in to start.
def solve_sudoku(grid, row=0, col=0):
# possible return at the first entry point
if not check_sudoku(grid):
# only time you would ever NOT get None
if row > 8:
# come back out when the stack unwinds,
# and there is no return value other than None
What I speculate is happening, is that you are printing the values along the way, and you do properly see a solved grid at the moment it happens, but your function isn't set up to properly completely break out when that is done. It continues to loop around until it exhausts some range and you see a bunch of extra work.
The important thing to do is to check the return value of the recursive call. You would either return None if its not solved, or
grid if it is. As it stands, you never care about the result of your recursions in the calling scope.
Because I don't have all the details about your specific code, here is a simple equivalent:
if aList == 10:
print "NOT SOLVED..."
# do some stuff
# check some stuff
aList += 1
if __name__ == "__main__":
data = 
Notice that the indirectly recursive call to
checker() -> solver() has its value returned all the way up the chain. In this case we are saying
None means solved, and otherwise it should keep recursing. You know that at some point deep in your recursion stack, the solution will be solved. You will need to communicate that back up to the top right away.
The communication looks like this:
aList == 
aList == 
And here is what your version might look like if applied to my simple example:
aList == 
aList ==