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I am trying to code a word search/find a word generator and I'm stuck with some parts. The aim of this code is to take in dimensions and words from user input and generate a random word search/find a word.

The problem is that the letters will occasionally overwrite each other. To try and stop this I have this line of code in my functions:

lines[0][randCoO[0] - (i)][randCoO[1]] == '-':

That line belongs in the function U

It is meant to test if the space is empty (populated by a ' - ' )

I know I'm supposed to try and refrain from putting my whole code in as it is probably long and annoying to read but please, try and help me

This is my code:

    try:
    dim=int(raw_input('How many letters high and long do you want your find-a-word? (It has to be <= 79) '))
except ValueError:
        raise SystemExit, 'Dude, thats not a number!'

if dim > 79:
    raise SystemExit, "\n That number is bigger than 79. It won't print to well. \n"


count=0

allwords = raw_input('What words do you want in your find-a-word?\n(Enter them all together seperated by a comma)')

allwords = allwords.upper()
allwords = allwords.split(', ')
nowords = len(allwords)

while count < nowords:
    if len(allwords[count])>dim:
        raise SystemExit, "\nYour find-a-word is not big enough for one or more of your words.\nIt is doomed to fail! "
    count = count + 1

    randletter = []
    import random
    randrange = random.randrange
    alphabet = ['A', 'B', 'C', 'D', 'E', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z']

    all_words = ' '.join(allwords)

    print '\n\nTry to find these words in the word find-a-word\n\n'
    count = 0
    while count < nowords:
        print allwords[count],'\n'
        count=count+1

        drctn = ['U','D','L','R','UL','UR','DL','DR']

        randdrctnlist = []

for i in range(nowords):
    randdrctn = drctn[randrange(0,4)]
    randdrctnlist.append(randdrctn)

    d = {}

for i in range(dim):
    d['line' + str(i + 1)] = ['-']*dim

    lines = []
    lines.append(d.values())
    lines.sort()

    CoO1 = []
    CoO2 = []
    CoO = []

for i in range(dim):
    CoO1.append(i)
    CoO2.append(i)    

    CoO.append(CoO1)
    CoO.append(CoO2)

    count = 0

def U(word, wordno, count, dim, lines):
    stop = 0
    randCoO = []
    while count == 0:
        rand = CoO[0][randrange(0,dim)]
        randCoO.append(rand)
        rand = CoO[1][randrange(0,dim)]
        randCoO.append(rand)
        for i in range(len(word[wordno])):
            if randCoO[0] >= (len(word[wordno]) - 1) and lines[0][randCoO[0] - (i)][randCoO[1]] == '-':
                count = 1               
                lines[0][randCoO[0]][randCoO[1]] = word[wordno][0]
                while count < len(allwords[wordno]):
                    lines[0][randCoO[0] - (count)][randCoO[1]] = word[wordno][count]
                    count = count + 1                
            else:
                print randCoO
                randCoO = []
                stop = stop + 1
                print stop
                if stop > dim*dim:
                    raise SystemExit, "\nThe find-a-word is probably impossible to make\nwithout overwriting already placed letters.\nPlease try it again. If this has show up many times in a row try making the dimensions of you find-a-word bigger\n(Or you're just unlucky!)\n"
                break

def D(word, wordno, count, dim, lines):
    stop = 0
    randCoO = []
    while count == 0:
        rand = CoO[0][randrange(0,dim)]
        randCoO.append(rand)
        rand = CoO[1][randrange(0,dim)]
        randCoO.append(rand)
        for i in range(len(word[wordno])):
            if dim - randCoO[0] > len(word[wordno]) - 1 and lines[0][randCoO[0] + (i)][randCoO[1]] == '-':
                count = 1
                lines[0][randCoO[0]][randCoO[1]] = word[wordno][0]
                while count < len(allwords[wordno]):
                    lines[0][randCoO[0] + (count)][randCoO[1]] = word[wordno][count]
                    count = count + 1
            else:
                print randCoO
                randCoO = []
                stop = stop + 1
                print stop
                if stop > dim*dim:
                    raise SystemExit, "\nThe find-a-word is probably impossible to make\nwithout overwriting already placed letters.\nPlease try it again. If this has show up many times in a row try making the dimensions of you find-a-word bigger\n(Or you're just unlucky!)\n"
                break   

def L(word, wordno, count, dim, lines):
    stop = 0
    randCoO = []
    while count == 0:
        rand = CoO[0][randrange(0,dim)]                            
        randCoO.append(rand)
        rand = CoO[1][randrange(0,dim)]
        randCoO.append(rand)
        for i in range(len(word[wordno])):
            if dim - randCoO[1] > (len(word[wordno]) - 1) and lines[0][randCoO[0]][randCoO[1] + (i)] == '-':
                count = 1  
                lines[0][randCoO[0]][randCoO[1]] = word[wordno][0]
                while count < len(allwords[wordno]):
                    lines[0][randCoO[0]][randCoO[1] + (count)] = word[wordno][count]
                    count = count + 1
            else:
                print randCoO
                randCoO = []
                stop = stop + 1
                print stop
                if stop > dim*dim:
                    raise SystemExit, "\nThe find-a-word is probably impossible to make\nwithout overwriting already placed letters.\nPlease try it again. If this has show up many times in a row try making the dimensions of you find-a-word bigger\n(Or you're just unlucky!)\n"
                break

def R(word, wordno, count, dim, lines):
    stop = 0 
    randCoO = []
    while count == 0:
        rand = CoO[0][randrange(0,dim)]                            
        randCoO.append(rand)
        rand = CoO[1][randrange(0,dim)]
        randCoO.append(rand)
        for i in range(len(word[wordno])):
            if randCoO[1] >= (len(word[wordno]) - 1) and lines[0][randCoO[0]][randCoO[1] + (i)] == '-':
                count = 1  
                lines[0][randCoO[0]][randCoO[1]] = word[wordno][0]
                while count < len(allwords[wordno]):
                    lines[0][randCoO[0]][randCoO[1] - (count)] = word[wordno][count]
                    count = count + 1
            else:
                print randCoO
                randCoO = []
                print stop
                stop = stop + 1
                if stop > dim*dim:
                    raise SystemExit, "\nThe find-a-word is probably impossible to make\nwithout overwriting already placed letters.\nPlease try it again. If this has show up many times in a row try making the dimensions of you find-a-word bigger\n(Or you're just unlucky!)\n"
                break

for i in range(nowords):
    count = 0
    print randdrctnlist
    if randdrctnlist[i] == 'U':
        U(allwords, i, count, dim, lines)
    if randdrctnlist[i] == 'D':
        D(allwords, i, count, dim, lines)
    if randdrctnlist[i] == 'L':
        L(allwords, i, count, dim, lines)
    if randdrctnlist[i] == 'R':
        R(allwords, i, count, dim, lines)

for i in range(dim):
    print ' '.join(lines[0][i])
share|improve this question
    
You have four functions that all appear to be exactly the same (if not, minor differences) - you should refactor the common code into a single function. –  Lattyware Dec 27 '12 at 0:44
    
Hey dude - not trying to be overly critical, but this is clearly a homework problem, and you need to try to formulate a specific question that might be useful to someone else one day. Also your variable names make it difficult to understand your code, for example, 'nowords' instead of 'num_words'. That said, I'll take a look to see if I can give you a little help. –  Tristan Reid Dec 27 '12 at 0:52
    
Ah! the benefits of 80-character lines ! –  joaquin Dec 27 '12 at 0:58
    
Hint for the refactoring that @Lattyware suggested: the eight directions can be encoded by the delta coordinates of each step, i.e. (1,0) for right, (-1, 0) for left, (0,1) for up, (0,-1) for down, (1,1) for upper-right, etc. [Or opposite signs for the vertical direction, depending on your preference.] Then each of your U, D, L, R functions -- and UR, UL, DL, DR -- are all the same function, simply passed a different direction. You'd get the potential positions by using something like locs = [(start_x+dx*i, start_y+dy*i) for i in range(num_letters)]. –  DSM Dec 27 '12 at 0:58
    
Some things that will help you keep your code organized: try to manage your scope. For example, you have drctn and randdrctnlist declared inside a while loop, and they're just getting instantiated over and over again inside that loop. That makes it difficult to understand their purpose. Also - you declare randrange, but don't actually use it until later inside a different loop. Most programming languages won't even allow this, and it makes the code more difficult to parse. Consider Lattyware's suggestion to refactor as well. –  Tristan Reid Dec 27 '12 at 1:02

1 Answer 1

I think you need to rethink the fundamental algorithm. Your code is trying to create words in random directions and then managing the collisions. Instead you could consider all points of intersection between all your words, then build all possible overlaps, and randomly choose from the results.

For example: 'FROG' intersects 'DOG' in two letters, so they could intersect from 7 directions on the 'G' and 6 on the 'O'. 'CAT' and ('DOG' or 'FROG') have no letters in common, so they will not be able to intersect at all. If you try each of the combinations of 'existing solution so far', then call your solution recursively and add a new word in all possible other combinations that fit within the dimensions of the puzzle, you will have all possible find-a-words with the given words.

In order to reduce the dimensionality of this, I think you should first place words that don't intersect. If they don't all fit you can exit with an error. Then deal with words in order of descending size.

You can then either pick randomly or just exit as soon as you find a solution. If you want your answer to have different characteristics (like being more spread out to use the whole given dimensions), I think you can just rearrange the way you try combinations, and choose the first solution given.

share|improve this answer
    
thanks everyone :) –  user1912132 May 18 '13 at 22:38

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