Maze solver algorithm for pygame maze?

For a project, I have used the pygame module in Python to create a maze generator (Python version 3.3.5). I have already added user control to the maze, and I tried to get it so that if the user is stuck, he/she presses the escape key and the maze solves itself and displays a trail of pink to hep the user. I tried this by randomly choosing a direction, not allowing it to backtrack itself, and to restart if stuck. It is a little buggy (sometimes doesn't work), and takes too long for bigger mazes. Could someone help me by adding a maze solver that actually is smart, and can work for larger mazes? Thanks for any help.

``````import pygame
import time
import random

#Set colors.
BLACK   =(0,0,0)
WHITE   =(255,255,255)
RED     =(255,0,0)
GREEN   =(0,255,0)
BLUE    =(0,0,255)
PURPLE  =(128,0,128)
LRED    =(255,128,128)

pygame.init()

#Smallest space: 5.
space=10

length=80
width=80

sizex=200+length*space
sizey=200+width*space

#Set size.
size=(sizex, sizey)
screen=pygame.display.set_mode(size)

pygame.display.set_caption("Make Purple!")
clock = pygame.time.Clock()
screen.fill(WHITE)

pygame.draw.rect(screen,BLACK,[100,100,sizex-199,sizey-199],2)

pygame.display.flip()

#Draw the grid.
for x in range(length):
pygame.draw.line(screen,BLACK,[(x*space+100),100],[(x*space+100),sizey-100],2)        #Vertical lines.
for x in range(width):
pygame.draw.line(screen,BLACK,[100,(x*space+100)],[sizex-100,(x*space+100)],2)        #Horizontal lines.

pygame.display.flip()

place = [[0 for y in range(width)] for x in range(length)]
wall = [[[1 for z in range(4)] for y in range(width)] for x in range(length)]
#If wall is [0,1,2,3], 0:up 1:down 2:left 3:right.

i=0
j=0
place[i][j]=1

done=False

#Randomly generates the maze.
while not done:

sumcheck=0

newplace=0

direction = random.randint(0,3) #0:up 1:down 2:left 3:right.
if direction==0:
if j!=0:
if place[i][j-1]==0:
pygame.draw.line(screen,WHITE,[space*i+102,space*j+100],[space*i+99+space,space*j+100],2)
wall[i][j][0]=0
j=j-1
place[i][j]=1
wall[i][j][1]=0
elif direction==1:
if j!=width-1:
if place[i][j+1]==0:
pygame.draw.line(screen,WHITE,[space*i+102,space*j+100+space],[space*i+99+space,space*j+100+space],2)
wall[i][j][1]=0
j=j+1
place[i][j]=1
wall[i][j][0]=0
elif direction==2:
if i!=0:
if place[i-1][j]==0:
pygame.draw.line(screen,WHITE,[space*i+100,space*j+102],[space*i+100,space*j+99+space],2)
wall[i][j][2]=0
i=i-1
place[i][j]=1
wall[i][j][3]=0
else:
if i!=length-1:
if place[i+1][j]==0:
pygame.draw.line(screen,WHITE,[space*i+100+space,space*j+102],[space*i+100+space,space*j+99+space],2)
wall[i][j][3]=0
i=i+1
place[i][j]=1
wall[i][j][2]=0

#These statements test if place is stuck.
if (i==0) and (j==0):
if (place[i+1][j]==1) and (place[i][j+1]==1):
#Top left corner
newplace=1
elif (i==length-1) and (j==0):
if (place[i-1][j]==1) and (place[i][j+1]==1):
#Top right corner
newplace=1
elif (i==0) and (j==width-1):
if (place[i][j-1]==1) and (place[i+1][j]==1):
#Bottom left corner
newplace=1
elif (i==length-1) and (j==width-1):
if (place[i][j-1]==1) and (place[i-1][j]==1):
#Bottom right corner
newplace=1
elif (i==0) and (place[i][j-1]==1):
if (place[i+1][j]==1) and (place[i][j+1]==1):
#Left edge
newplace=1
elif (i==length-1):
if (place[i][j-1]==1) and (place[i-1][j]==1) and (place[i][j+1]==1):
#Right edge
newplace=1
elif (j==width-1):
if (place[i-1][j]==1) and (place[i][j-1]==1) and (place[i+1][j]==1):
#Top edge
newplace=1
elif (j==0):
if (place[i-1][j]==1) and (place[i][j+1]==1) and (place[i+1][j]==1):
#Bottom edge
newplace=1
elif (i!=0) and (j!=0) and (i!=length-1) and (j!=width-1):
if (place[i][j-1]==1) and (place[i][j+1]==1) and (place[i-1][j]==1) and (place[i+1][j]==1):
#Everything in between
newplace=1
else:
pass

#If stuck, find a new place.
donemini = False
if newplace==1:
while not donemini:
i=random.randint(0,length-1)
j=random.randint(0,width-1)
if place[i][j]!=1:
pass
else:
donemini=True

pygame.display.flip()

for x in range(length):
for y in range(width):
sumcheck=sumcheck+place[x][y]
pygame.display.set_caption("Progress: "+str((int(sumcheck/(width*length)*1000))/10)+"% (Might take a while for bigger mazes)")
if sumcheck==width*length:
done=True

i=0
j=0
pygame.draw.rect(screen,RED,[102+i*space,102+j*space,space-2,space-2],0)

i=length-1
j=width-1
pygame.draw.rect(screen,BLUE,[102+i*space,102+j*space,space-2,space-2],0)

pygame.display.set_caption("Make Purple!")

pygame.display.flip()
done = False

i=0
j=0

win=0

escape=False

#Controlls the block through the maze.
while not done:
for event in pygame.event.get():

if (i==length-1) and (j==width-1):
win=1
pygame.draw.rect(screen,PURPLE,[102+(length-1)*space,102+(width-1)*space,space-2,space-2],0)
print("Congradulations, you solved the maze!")
done=True

if event.type==pygame.QUIT:
done=True

#0:up 1:down 2:left 3:right.
if win==0:
if event.type==pygame.KEYDOWN:
direction=-1
if event.key==pygame.K_UP:
direction=0
elif event.key==pygame.K_DOWN:
direction=1
elif event.key==pygame.K_LEFT:
direction=2
elif event.key==pygame.K_RIGHT:
direction=3
elif event.key==pygame.K_ESCAPE:
direction=4
else:
pass

if direction==0:
if wall[i][j][0]==0:
pygame.draw.rect(screen,WHITE,[102+i*space,102+j*space,space-2,space-2],0)
j=j-1
pygame.draw.rect(screen,RED,[102+i*space,102+j*space,space-2,space-2],0)
elif direction==1:
if wall[i][j][1]==0:
pygame.draw.rect(screen,WHITE,[102+i*space,102+j*space,space-2,space-2],0)
j=j+1
pygame.draw.rect(screen,RED,[102+i*space,102+j*space,space-2,space-2],0)
elif direction==2:
if wall[i][j][2]==0:
pygame.draw.rect(screen,WHITE,[102+i*space,102+j*space,space-2,space-2],0)
i=i-1
pygame.draw.rect(screen,RED,[102+i*space,102+j*space,space-2,space-2],0)
elif direction==3:
if wall[i][j][3]==0:
pygame.draw.rect(screen,WHITE,[102+i*space,102+j*space,space-2,space-2],0)
i=i+1
pygame.draw.rect(screen,RED,[102+i*space,102+j*space,space-2,space-2],0)
elif direction==4:
#Automatically solve the maze.
pygame.draw.rect(screen,WHITE,[102+i*space,102+j*space,space-2,space-2],0)

i=0
j=0
solved=False
past=4
color=[[0 for y in range(width)] for x in range(length)]
newcolor=0

while not solved:
newcolor=0
#0:up 1:down 2:left 3:right.
direction=random.randint(0,3)

if direction==0:
if wall[i][j][0]==0:
if past==1:
pass
else:
pygame.draw.rect(screen,LRED,[102+i*space,102+j*space,space-2,space-2],0)
j=j-1
color[i][j]=1
pygame.draw.rect(screen,RED,[102+i*space,102+j*space,space-2,space-2],0)
past=0
elif direction==1:
if wall[i][j][1]==0:
if past==0:
pass
else:
pygame.draw.rect(screen,LRED,[102+i*space,102+j*space,space-2,space-2],0)
j=j+1
color[i][j]=1
pygame.draw.rect(screen,RED,[102+i*space,102+j*space,space-2,space-2],0)
past=1
elif direction==2:
if wall[i][j][2]==0:
if past==3:
pass
else:
pygame.draw.rect(screen,LRED,[102+i*space,102+j*space,space-2,space-2],0)
i=i-1
color[i][j]=1
pygame.draw.rect(screen,RED,[102+i*space,102+j*space,space-2,space-2],0)
past=2
else:
if wall[i][j][3]==0:
if past==2:
pass
else:
pygame.draw.rect(screen,LRED,[102+i*space,102+j*space,space-2,space-2],0)
i=i+1
color[i][j]=1
pygame.draw.rect(screen,RED,[102+i*space,102+j*space,space-2,space-2],0)
past=3

if (i==length-1) and (j==width-1):
solved=True
i=0
j=0
pygame.draw.rect(screen,RED,[102+i*space,102+j*space,space-2,space-2],0)
i=length-1
j=width-1
pygame.draw.rect(screen,BLUE,[102+i*space,102+j*space,space-2,space-2],0)
i=0
j=0

elif ((wall[i][j][0]==1) and (wall[i][j][2]==1) and (wall[i][j][3]==1)) or ((wall[i][j][1]==1) and (wall[i][j][2]==1) and (wall[i][j][3]==1)) or ((wall[i][j][0]==1) and (wall[i][j][1]==1) and (wall[i][j][2]==1)) or ((wall[i][j][0]==1) and (wall[i][j][1]==1) and (wall[i][j][3]==1)):
newcolor=1

if newcolor==1:
for i in range(length):
for j in range(width):
if color[i][j]==1:
pygame.draw.rect(screen,WHITE,[102+i*space,102+j*space,space-2,space-2],0)
i=0
j=0

pygame.display.flip()
else:
pass

pygame.display.flip()

clock.tick(120)

time.sleep(2)
pygame.quit()
``````
-
Have you tried backtracking? (combination of recursive and iterative), it should be a lot faster than choosing random directions. – pmoleri May 7 '14 at 20:45
I could make it so that if it is stuck it could go back one step, i'll try that. But what if it just goes to the incorrect branch? Backtracking then wouldn't help much. – Chenman May 7 '14 at 20:52
Wow, i forgot to reinitialize the `past` variable when it it is stuck. If I edit it, eventually it will randomly stumble across the correct route. – Chenman May 8 '14 at 1:36

1 Answer

Here you have a backtracking approach that will find the solution much faster than the random one:

``````import itertools
import sys
sys.setrecursionlimit(10000)

def solve(i, j, wall, steps, solution):
if i<0 or i>=length or j<0 or j>=width:
return   # rejected

# Accepted
steps.append( (i,j) )

# Check if solved
if (i==length-1) and (j==width-1):
solution += steps   # fill solution list with the steps list
return

# Iterate over options
for direction in range(0,4):

if wall[i][j][direction]:
pass        # rejected - wall
else:
if direction == 0:
next = i, j-1
elif direction == 1:
next = i, j+1
elif direction == 2:
next = i-1, j
elif direction == 3:
next = i+1, j

if next in steps:
pass        # rejected (already visited)
else:
solve(next[0],next[1],wall,steps,solution)
if solution:
return
else:
steps.pop() # remove last attempt

def solve_and_paint(i,j,screen,clock,wall,color):

#Automatically solve the maze.
solution = []
solve(i, j, wall, [], solution)

print solution

for i,j in solution:
color[i][j]=1
pygame.draw.rect(screen,RED,[102+i*space,102+j*space,space-2,space-2],0)
clock.tick(10)   # show slowly
pygame.display.flip()

# Return color to light red
pygame.draw.rect(screen,LRED,[102+i*space,102+j*space,space-2,space-2],0)
``````

Put the code after generating the map and before the main loop, just before initializing `i` and `j`.

Then call `solve_and_paint()` when you want to solve it:

``````            elif direction==4:
#Automatically solve the maze.
pygame.draw.rect(screen,WHITE,[102+i*space,102+j*space,space-2,space-2],0)

i=0
j=0
color=[[0 for y in range(width)] for x in range(length)]
solve_and_paint(i,j,screen,clock,wall,color)
``````
-
You are welcome. Also, in the loops where you don't process events (generate and solve), you can `pygame.event.poll()` to avoid getting a stuck/blank screen. – pmoleri May 9 '14 at 13:24
Sorry, `pygame.event.poll()` is valid and works but only processes one event per iteration, the correct way is `pygame.event.pump()`, as it processes all the pending events at once. – pmoleri May 10 '14 at 3:47