I've been coding for about a week now and had thought that I was getting the hang of it, but I can't get this one to work. I need to code a maze solver. The maze is supposed to starts on the left and reach the right and where I can only move right if exactly one of x and y is odd and where I can only move left if not exactly one of x and y is odd. Here's what I have so far. I get stuck when I reach this line (line 21 from the last call, I think)

`elif (board[y][x+1] == "O") and (board[y][x+1] != "S") and (board[y][x+1] != "X") and ((y%2 == 0 or y == 0) and x%2 != 0) or (y%2 != 0 and (x%2 == 0 or x == 0)):`

and I see `"argument 0 - R to O possible "argument 0 - R to O possible"`

even if the spot to the right is an "X" or an "S". And it just repeats that output `"argument 0 - R to O possible"`

. Can anyone help me fix this?

```
from random import randint
length_of_board = int(raw_input("Please enter the length of the board: "))
10
board = []
for i in range(length_of_board):
board.append(["O"]*length_of_board)
def print_board(board):
for row in board:
print " ".join(row)
def placement_of_blocks():
number_block = int(float(raw_input("p ="))*(int(len(board)-3)**2))
print number_block
while number_block > 0:
rand_row = randint(1, len(board) -2)
rand_col = randint(1, len(board) -2)
if (board[rand_row][rand_col] != "X"):
board[rand_row][rand_col] = "X"
number_block = number_block - 1
else:
continue
placement_of_blocks()
0.30
def borders():
bottom = 0
top = 0
while bottom < (int(len(board)-1)):
board[int(len(board)-1)][bottom] = "X"
bottom = bottom + 1
while top < (int(len(board)-1)):
board[0][top] = "X"
top = top + 1
def ending_coordinates():
col_goal = 0
while col_goal < (int(len(board)-1)):
board[col_goal][int(len(board)-1)] = "G"
col_goal = col_goal + 1
def randomizer_a():
return randint(0,3)
def randomizer_b():
return randint(0,2)
def randomizer_c():
return randint(0,1)
def solve_maze():
borders()
ending_coordinates()
nuf = 1
while nuf > 0:
y = randint(0, len(board)-1)
x = 0
if (board[y][x] != "X"):
board[y][x] = "S"
nuf = nuf - 1
else:
continue
i = 100
while i > 0:
i = i - 1
if x == int(len(board)-2):
print_board(board)
print "This maze has a solution"
break
# This code gives preference for new spaces
# R and L cannot occur on the same space
elif (board[y][x+1] == "O") and (board[y][x+1] != "S") and (board[y][x+1] != "X") and ((y%2 == 0 or y == 0) and x%2 != 0) or (y%2 != 0 and (x%2 == 0 or x == 0)):
print "argument 0 - R to O possible"
if board[y+1][x] == "O" and y < int(len(board)-2):
if board[y-1][x] == "O" and y > 0:
# if R, D, U = "O"
if randomizer_b() == 0:
print "argument 1 - all directions to O possible, R"
x = x + 1
board[y][x] = "S"
else:
if randomizer_c() == 0:
print "argument 3 - all directions to O possible, D"
y = y +1
board[y][x] = "S"
else:
print "argument 4 - all directions to O possible, U"
y = y - 1
board[y][x] = "S"
# if R, D = "O"
else:
if randomizer_c() == 0:
print "argument 5 - R D to O possible, R"
x = x + 1
board[y][x] = "S"
else:
print "argument 7 - R D to O possible, D"
y = y +1
board[y][x] = "S"
# if R, U = "O"
elif board[y-1][x] == "O" and y > 0:
print "argument 14 - R U to O possible"
if randomizer_c() == 0 and board[y][x+1] != "X":
print "argument 14.25 - R"
x = x + 1
board[y][x] = "S"
elif board[y-1][x] != "X" and board[y-1][x] != "S":
print "argument 14.5 - U"
y = y - 1
board[y][x] = "S"
# if R = "O"
elif board[y][x+1] != "X" and board[y][x+1] == "O" and board[y][x+1] != "S":
print "argument 15 - R to O possible, R"
x = x + 1
board[y][x] = "S"
elif board[y+1][x] == "O" and y < int(len(board)-2):
if (board[y][x-1] == "O") and (x != 0) and (board[y][x-1] != "X") and (board[y][x-1] != "S") and (y%2 == 0 or y == 0) and (x%2 == 0 or x == 0) or (y%2 != 0 and x%2 != 0):
if board[y-1][x] == "O" and y > 0:
# If D, L U = "O"
print "argument 16 - D L U to O possible"
if (randomizer_b() == 0 and board[y][x-1] == "O" and board[y][x-1] != "S"):
print "argument 16.25 - L"
x = x - 1
board[y][x] = "S"
else:
if randomizer_c() == 0 and board[y+1][x] != "X":
print "argument 16.5 - D"
y = y +1
board[y][x] = "S"
else:
print "argument 16.75 - U"
y = y - 1
board[y][x] = "S"
# If D, L = "O"
else:
print "argument 16b - D L to O possible"
if randomizer_c() == 0:
print "argument 16b.25 - L"
x = x - 1
board[y][x] = "S"
else:
print "argument 16b.5 - D"
y = y +1
board[y][x] = "S"
# If D, U = "O"
elif board[y-1][x] == "O" and y > 0:
print "argument 17 - D U to O possible"
if randomizer_c() == 0:
print "argument 17.25 - D"
y = y +1
board[y][x] = "S"
else:
print "argument 17.5 - U"
y = y - 1
board[y][x] = "S"
# If D = "O"
else:
print "argument 17b - D to O possible, D"
y = y +1
board[y][x] = "S"
elif (board[y][x-1] == "O" and x != 0 and (y%2 == 0 or y == 0) and (x%2 == 0 or x == 0) or (y%2 != 0 and x%2 != 0) and board[y][x-1] != "S" and board[y][x-1] != "X"):
if (board[y-1][x] == "O" and y > 0 and board[y][x-1] != "S" and board[y][x-1] != "X" and board[y-1][x] != "X" and board[y-1][x] != "S"):
# If L, U = "O"
if randomizer_c() == 0:
print "argument 18.25 - L U to O possible, L"
x = x - 1
board[y][x] = "S"
else:
print "argument 18.5 - L U to O possible, U"
y = y - 1
board[y][x] = "S"
# If L = "O"
else:
if board[y][x-1] != "S" and board[y][x-1] != "X":
print "argument 18.75 - L to O possible, L"
x = x - 1
board[y][x] = "S"
# If U = "O"
elif board[y-1][x] == "O" and y > 0:
print "argument 19 - U to O possible, U"
y = y - 1
board[y][x] = "S"
# This is the end of the preference coding
# If you can and a = 0, move forward
elif True:
if randomizer_a() == 0 and ((y%2 == 0 or y == 0) and x%2 != 0) or (y%2 != 0 and (x%2 == 0 or x == 0)) and (board[y][x+1] != "X"):
print "argument 20"
if ((y%2 == 0 or y == 0) and x%2 != 0) or (y%2 != 0 and (x%2 == 0 or x == 0)) and (board[y][x+1] != "X"):
x = x + 1
board[y][x] = "S"
else:
if (randomizer_b() == 0 and ((y%2 == 0 or y == 0) and (x%2 == 0 or x == 0) or (y%2 != 0 and x%2 != 0)) and (board[y][x-1] != "X") and x != 0):
# If you can and b = 0, move back
print "argument 21"
x = x - 1
board[y][x] = "S"
# If you can and a = 2, move down
else:
if randomizer_c() == 0 and (board[y+1][x] != "X") and (y < int(len(board)-2)):
print "argument 22"
y = y +1
board[y][x] = "S"
# If you can and a = 3, move up
else:
if (board[y-1][x] != "X") and (y > 0):
print "argument 23"
y = y - 1
board[y][x] = "S"
# If you can't move at all
else:
print_board(board)
print "No solution"
break
print i
print_board(board)
if i == 0:
print "No solution found"
solve_maze()
```