This finds a list of valid moves from every square.

I am assume that off the edge of the map is a "wall", and that you can't move diagonally:

```
# reference like this: maze[y][x] or maze[row][col]
# with [0][0] starting at the top left
maze = [['b','a','a', 'a'],
['b','a','b', 'a'],
['b','a','b', 'b'],
['b','b','b', 'a'],
['b','a','b', 'a'],
['a','a','a', 'a']]
moves = {}
# Loop through all cells of the maze, starting in the top-left
for y, row in enumerate(maze):
for x, value in enumerate(row):
# print "y, x, val: ", y, x, value
# for every cell, create an empty list of moves
moves[y, x] = []
# then if we can move from this cell
# check each of its neighbours and if they are a 'b' add it
# to the list of moves - assumes we can't move diagonally
if value == 'b':
if y - 1 > 0 and maze[y - 1][x] == 'b':
moves[y, x].append((y - 1, x))
if y + 1 < len(maze) and maze[y + 1][x] == 'b':
moves[y, x].append((y + 1, x))
if x - 1 > 0 and maze[y][x - 1] == 'b':
moves[y, x].append((y, x - 1))
if x + 1 < len(row) and maze[y][x+1] == 'b':
moves[y, x].append((y, x+1))
print moves
```

`[['b','a','b'],['b','b','b'],['a','a','a']]`

? – Nemo157 Jan 18 '11 at 2:31