Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Ive read your previous answers about this error onthe site, but not sure exactly how i could change my code to fix it in mine. It's a long code, sorry about that :$

import random

#QUESTION 1a:

#CONSTRUCTOR FUNCTION:

    def makestk():                  #This function returns a new stack in the form of a tagged tuple.
        stk=('stack',[])            #Inserts the tagged tuple into a variable.
        return stk                  #Returns variable holding tagged tuple(empty stack).

#PREDICATE FUNCTION: 

    def emptystk(stk):              #This function returns True if the stack is empty or false if the stack is not empty.
        if stk[1] == []:            #Checks if the second variable of the tagged tuple is an empty list or not.
            return True             #Returns True if the second variable of the tagged tuple is indeed an empty list.
        else:
            return False            #Returns False if the second variable of the tagged tuple is a list containing element(s).

#MUTATOR FUNCTIONS:

    def contents(s):                #This function is created to aid the mutator functions.
        return s[1]                 #Returns the second variable of the tagged tuple.

    def pushstk(stk,ele):           #This function accepts a stack and an element and adds the element to the stack at position0.
        contents(stk).insert(0,ele) #Uses the helper function to get the second variable of the tagged tuple and inserts the element to the stack at position0.
        #return stk                 #Returns the updated version of the tagged tuple entered.

    def popstk(stk):                #This function accepts a stack and an element; and adds the element to the stack at position0.
        contents(stk).pop(0)        #Uses the helper function to get the second variable of the tagged tuple and removes the element in position0 of the stack.
        #return stk                 #Returns the updated version of the tagged tuple entered.

#QUESTION 1b:

#CONSTRUCTOR FUNCTION:

    def makecell((x,y)):                        #This function accepts a tuple which consists of the x and y co-ordinate of the cell being created.
        cell=('cell',(x,y),['t','b','r','l'])   #Inserts the tagged tuple into a variable.(The list represents the four walls of the cell: t-top,b-bottom,r-right,l-left)
        return cell                             #Returns a cell in the form of a tagged tuple.

#ACCESSOR FUNCTIONS:

    def getx(cell):                #This function returns the x co-ordinate of the cell.
        return cell[1][0]          #Returns the first value of the second variable in the tagged tuple.

    def gety(cell):                #This function returns the y co-ordinate of the cell.
        return cell[1][1]          #Returns the second value of the second variable in the tagged tuple.

    def getwalls(cell):            #This function returns the lsit of walls that are intact for a given cell.
        return cell[2]             #Returns the third variable of the tagged tuple.

#MUTATOR FUNCTIONS:

    def removetw(cell):            #This function removes the top wall of the cell.
        getwalls(cell).remove('t') #Uses the 'getwalls' function and removes the first value of list.
        return cell                #Returns the updated version of the list.

    def removebw(cell):            #This function removes the bottom wall of the cell.
        getwalls(cell).remove('b') #Uses the 'getwalls' function and removes the second value of the list.
        return cell                #Returns the updated version of the list.

    def removerw(cell):            #This function removes the right wall of the cell.
        getwalls(cell).remove('r') #Uses the 'getwalls' function and removes the third values of the list.
        return cell                #Returns the updated version of the list.

    def removelw(cell):            #This function removes the left wall of the cell.
        getwalls(cell).remove('l') #Uses the 'getwalls' function and removes the fourth values of the list.
        return cell                #Returns the updated version of the list.

#QUESTION 2:

    def makegrid(w,h):              #This function accepts the width and height of the desired grid/matrix of cells and creates it.
        grid=[]                     #Inserts an empty list into a variable.
        for x in range (0,(w)):     #Allows x to traverse through the range of 0 to the width value.
            for y in range (0,(h)): #Allows y to traverse through the range of 0 to the height value.
                tup=(x,y)                     #Inserts the values x and y into a variable.
                grid.append(makecell(tup))    #Inserts/updates the variable 'tup' into the list 'grid' and runs function until x and y have completely traversed through the ranges.
        return grid                           #Returns the updated version of grid.

#QUESTION 3:

    def getneighbours (cell,w,h):                 #This function accepts a cell and the width and height of the grid.
        lst = []
        x = getx(cell)
        y = gety(cell)
        if y + 1 <= h:
            lst = lst + [makecell((x,y + 1))]
        if y - 1 >= 0:
            lst = lst + [makecell((x,y - 1))]
        if x + 1 <= w:
            lst = lst + [makecell((x + 1,y))]
        if x - 1 >= 0:
            lst = lst + [makecell((x - 1,y))]
        return lst                                   #Returns the neighbouring cell walls.

#QUESTION 4: 

    def removewalls(c1,c2):                       #This function accepts two cells and removes the walls common between the two.accepts two cells
        if gety(c1)==gety(c2)-1:                  #Checks if c1 is above c2.
            removetw(c2) and removebw(c1)         #Removes the corresponding common wall shared between the cells.
        elif gety(c1)==gety(c2)+1:                #Checks if c1 is below c2.
            removetw(c1) and removebw(c2)         #Removes the corresponding common wall shared between the cells.
        elif getx(c1)==getx(c2)-1:                #Checks if c1 is to the left of c2.
            removerw(c1) and removelw(c2)         #Removes the corresponding common wall shared between the cells.
        elif getx(c1)==getx(c2)+1:                #Checks if c1 is to the right of c2.
            removerw(c2) and removelw(c1)         #Removes the corresponding common wall shared between the cells.
    cell0=makecell((0,0))
    cell1=makecell((0,1))

#QUESTION 5:

    def wallsintact(grid,neighbours):
        return [x for x in grid if x in neighbours and getwalls(x)==['t','b','r','l']]

#QUESTION 6:

    def createmaze(w,h):
        stack=makestk()
        totalcells=w*h
        grid=makegrid(w,h)
        cell=grid[random.randrange(totalcells)]
        strt=1
        while (strt<totalcells):
            neighbours=getneighbours(cell,w,h)
            intact=wallsintact(grid,neighbours)
            while intact!=[]:
                maze=intact[random.randrange(len(intact))]
                intact.remove(maze)
                removewalls(cell,maze)
                pushstk(stack,maze)
            strt=strt+1
            cell=popstk(stack)
        return grid
share|improve this question
    
Welcome to SO. Your question is much more likely to get answered if you format your code correctly. Also, you should include the error back trace so that we don't need to look through all of the code to find the error. Before posting, you should look at other posts describing similar problems on SO. Finally, Google is your friend. –  louism Nov 29 '12 at 3:01
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Browse other questions tagged or ask your own question.