# simplified minesweeper recursion in python: why is this code not succeeding?

I'm working on developing a minesweeper clone in python and am having trouble getting the reveal function to work. Currently, I get the following infinite error messages:

``````File "/Users/home/Desktop/minesweeper.py", line 79, in uncover_cells
uncover_cells(i - 1, j, board)
``````

where `uncover_cells` is defined as follows (EDIT: added simpler example of problem at end of post):

``````def uncover_cells(i, j, board):

length = len(board)
width  = len(board[0])

if i > -1 and j > -1 and i < length and j < width and not board[i][j].visited:

board[i][j].visited = True

# unproblematic code removed

uncover_cells(i + 1, j, board)
uncover_cells(i - 1, j, board)
uncover_cells(i, j + 1, board)
uncover_cells(i, j - 1, board)

uncover_cells(i + 1, j + 1, board)
uncover_cells(i + 1, j - 1, board)
uncover_cells(i - 1, j + 1, board)
uncover_cells(i - 1, j - 1, board)

return
``````

The original call is:

``````b, locs = setup_game(100, 100, 50)
uncover_cells(0, 0, b)
``````

I don't think that the recursion limit has been reached and fear there might be a logic bug. Any input would be greatly appreciated.

Other code that might be important: each element of `board` is of type `Cell`:

``````class Cell:

def __init__(self, isMine, loc, visited = False, flagged = False):
self.visited = visited  # think of visited as 'uncovered'
self.flagged = flagged
self.isMine  = isMine
self.x       = loc[0]
self.y       = loc[1]

self.label = 0
``````

Here's how the board is setup:

``````def setup_game(length, width, n_mines):

idx   = [(i, j)  for j in range(width)   for i in range(length)]
board = [[None   for j in range(width)]  for i in range(length)]

mine_locs = random.sample(idx, n_mines)

for i, j in idx:

if (i, j) in mine_locs:
board[i][j] = Cell(isMine = True,  loc = (i, j))

else:
board[i][j] = Cell(isMine = False, loc = (i, j))

return board, mine_locs
``````

EDIT: here's the simplest instance of my problem:

``````def simple_fill(i, j, b):

length = len(b)
width  = len(b[0])

if i > -1 and j > -1 and i < length and j < width and b[i][j] != 1:

b[i][j] == 1

simple_fill(i + 1, j, b)
simple_fill(i - 1, j, b)
simple_fill(i, j + 1, b)
simple_fill(i, j - 1, b)

simple_fill(i + 1, j + 1, b)
simple_fill(i + 1, j - 1, b)
simple_fill(i - 1, j + 1, b)
simple_fill(i - 1, j - 1, b)

return
``````

original call:

``````b = [[0 for j in range(100)] for i in range(100)]
simple_fill(0, 0, b)
``````
-

In `simple_fill()`:

``````b[i][j] == 1  # You have.
b[i][j] =  1  # Should be.
``````

Using this code, your `uncover_cells()` works ... but only for small `n`. After that, we hit maximum recursion depth.

``````class Cell(object):
def __init__(self, i, j):
self.i = i
self.j = j
self.visited = False

def main():
n = 30   # Works ... but not, for example, for 40.
board = [[Cell(i,j) for j in range(n)] for i in range(n)]
uncover_cells(0, 0, board)
for row in board:
for cell in row:
assert cell.visited

main()
``````
-

I reimplemented `simple_fill` with a stack:

``````def simple_fill(x, y, b):

length = len(b)
width  = len(b[0])

stack  = [(x,y)]

while len(stack) > 0:

i, j = stack.pop()

if i > -1 and j > -1 and i < length and j < width :

if b[i][j] != 1:
b[i][j] = 1

stack.append((i + 1, j))
stack.append((i - 1, j))
stack.append((i, j + 1))
stack.append((i, j - 1))

stack.append((i + 1, j + 1))
stack.append((i + 1, j - 1))
stack.append((i - 1, j + 1))
stack.append((i - 1, j - 1))
``````

Hopefully this is helpful for someone in the future (https://xkcd.com/979/)

-