# How to solve a maze in Python? [duplicate]

This question is an exact duplicate of:

I am trying to write a code that solves a basic maze made up of a list of lists with '#' symbolizing walls, '.' are free spaces, S is the start and E is the end. My algorithm consists of first checking to see if the space to the right is free, if not it then checks the space up, then down, and finally to the left. I also realize that this creates a problem if there is a dead end but I'll worry about that later. So far I have code that prints the list and finds the index value of the start point which is (2,0). Basically what I am trying to do is take that starting value as the argument for my def solve function and then loop over my algorithm while marking visited positions as 'x'... if that makes any sense. What I need help with now is getting the code to loop over my algorithm so that the position is updated with each if statement. My current code only replaces 'S' with an 'x'.

``````maze = [['#', '#', '#', '#', '#', '#', '#', '#', '#', '#', '#', '#'],
['#', '.', '.', '.', '#', '.', '.', '.', '.', '.', '.', '#'],
['S', '.', '#', '.', '#', '.', '#', '#', '#', '#', '.', '#'],
['#', '#', '#', '.', '#', '.', '.', '.', '.', '#', '.', '#'],
['#', '.', '.', '.', '.', '#', '#', '#', '.', '#', '.', 'E'],
['#', '#', '#', '#', '.', '#', '.', '#', '.', '#', '.', '#'],
['#', '.', '.', '#', '.', '#', '.', '#', '.', '#', '.', '#'],
['#', '#', '.', '#', '.', '#', '.', '#', '.', '#', '.', '#'],
['#', '.', '.', '.', '.', '.', '.', '.', '.', '#', '.', '#'],
['#', '#', '#', '#', '#', '#', '.', '#', '#', '#', '.', '#'],
['#', '.', '.', '.', '.', '.', '.', '#', '.', '.', '.', '#'],
['#', '#', '#', '#', '#', '#', '#', '#', '#', '#', '#', '#']]

def main():

print_maze()
start()
solve(start())
print_maze()

def print_maze():

for r in range(0,len(maze)):
for c in range(0,len(maze)):
print(maze[r][c], end='')
print('')

def start():

find_value = 'S'
for r in range(0,len(maze)):
for c in range (0,len(maze)):
if find_value in maze[r][c]:
return(r,c)
break

def solve(position):
r = position[0]
c = position[1]

if maze[r+1][c] == '.':
maze[r][c] = 'x'
return (r+1,c)
elif maze[r][c+1] == '.':
maze[r][c] = 'x'
return (r,c+1)
elif maze[r][c-1] == '.':
maze[r][c] = 'x'
return (r,c-1)
elif maze[r-1][c] == '.':
maze[r][c] = 'x'
return (r-1,c)
else:
print('Route Error')

main()
``````

## marked as duplicate by Thierry Lathuille, Jean-François Fabre♦ python StackExchange.ready(function() { if (StackExchange.options.isMobile) return; \$('.dupe-hammer-message-hover:not(.hover-bound)').each(function() { var \$hover = \$(this).addClass('hover-bound'), \$msg = \$hover.siblings('.dupe-hammer-message'); \$hover.hover( function() { \$hover.showInfoMessage('', { messageElement: \$msg.clone().show(), transient: false, position: { my: 'bottom left', at: 'top center', offsetTop: -7 }, dismissable: false, relativeToBody: true }); }, function() { StackExchange.helpers.removeMessages(); } ); }); }); May 6 at 19:55

This question was marked as an exact duplicate of an existing question.

• Why don't you paste your maze instead of showing us a snapshot? – Joan Lara Ganau May 6 at 19:28
• What are you wanting `r` to be in `solve`? You haven't defined `r` in that function. You may need to review how variable scope works. `r` doesn't exist in the function just because it was defined in another function. – Carcigenicate May 6 at 19:28
• You asked the exact same question 2 hours ago! (stackoverflow.com/questions/56009216/…) – Thierry Lathuille May 6 at 19:30
• Now you have modified it, you should been able to get rid of that exception. – danlor May 6 at 19:47
• ... and removing almost all content from the original post, that has got two answers, is considered vandalizing on SO, so please don't do that - I rolled it back to its previous version. If the answers you got didn't completely answer your question, comment on the answers if you need clarification, edit your original post, or ask a different question. – Thierry Lathuille May 6 at 19:49

You can change `def solve(position)` by `def solve(r, c)`.