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# Python Algorithm- For the game “Ghost”- need a way to intelligently look up all 'winning' permutation of letters

I'm writing a computer program to play the word game "Ghost."

Here's how the current programs works:

--User selects a letter (right now it only works if the user moves first)

--Computer has a list of all possible odd-numbered words in its dictionary (this is so that the user will have to complete each word and therefore lose). After each letter the user selects, the list of words that the computer has is trimmed via this loop:

`````` wordList = [w for w in wordList if w.startswith(currentWord)]
``````

so that it only has words in its "wordList" that conform to the currentWord that is collaboratively being spelled.

--The computer then randomly selects a word from its current list of words and returns the appropriate letter of the word via It then updates its list to include the letter it selected via this code sample:

`````` randomnumber = random.randint(0, len(wordList)-1)
currentWord+=wordList[randomnumber][len(currentWord)]
wordList = [w for w in wordList if w.startswith(currentWord)]
``````

--This then continues until either the user spells a word and that is detected via the checkLoss function, or if the computer is unable to continue a word without losing and triggers the checkBluff function. The checkBluff function requires the user to write what word he is thinking to make sure he isn't making one up.

--*HERE'S THE PROBLEM: * obviously, because the computer randomly selects which character to pick there are certain words that will force a loss. For example, if the the first player selects the word "d", there is a very high probability that the computer will select an "e" because there are so many words that have "de" and the very beginning. However, if the user on the third turn selects the letter "e" such that the current spelling is "dee" the computer has no words in its list (there is only one word in the english language that fits that form: 'deed' and it is even-numbered and thus losing), so the bluff function is triggered and the computer loses when the user reveals he was thinking of a real word "deed."

SO, I would like an algorithm that makes the computer think in advance such that it does not ever pick a follow-up letter for which the first player can force a loss. So, if a "d" is picked, the computer should never pick an "e", because that would force a loss with a subequent e. Similarly, if the user selects an "h" the computer should never follow with an "o" because the user can then say "c" which forces a "k" spelling the word "hock."

I cannot think of a way to do this.

If needed, here's the program in its full incarnation:

``````import os, random, sys, math, string

def checkBluff(currentWord, choice, fullList):
if choice.startswith(currentWord):
#print "this is accurate"
for line in fullList:
if line == choice:
return 1
return 0

def checkLoss(currentWord, fullList):
for line in fullList:
if currentWord == line:
return 1
return 0

def instantiateWordList(dictionary, wordList):
for line in dictionary:
wordList.append(line.strip())
return wordList

def main():

fullDict = open("wordlist.txt", "r") #fullDict contains all possible words
winFirst = open("firstwin.txt", "r") #winFirst contains all odd-numbered words
winSecond = open("secondwin.txt", "r")#winSecond contains all even-numbered words
turn = "Human"
currentWord = ""
wordList = []
fullList= []
bluff = ""

#Instantiates a list with every word for use in evaluating win/loss
for line in fullDict:
fullList.append(line.strip())

#Decide who goes first
choice = raw_input("1. I will go first \n2. I will go second\n>>")[0]

if choice == "1":
wordList = instantiateWordList(winSecond, wordList)
turn == "Human"
else:
wordList = instantiateWordList(winFirst, wordList)
turn == "Computer"

while True:
if turn == "Human":
choice = raw_input("Choose a letter: ")[0]
currentWord+=choice

if checkLoss(currentWord, fullList) == 1:
print "You have lost by spelling the word "+ currentWord
break

print "**Current Word**"+ currentWord
wordList = [w for w in wordList if w.startswith(currentWord)]
turn = "Computer"

if turn == "Computer":
try:
randomnumber = random.randint(0, len(wordList)-1)
currentWord+=wordList[randomnumber][len(currentWord)]
print "I am thinking of the word: "+ str(wordList[randomnumber])
wordList = [w for w in wordList if w.startswith(currentWord)]

print "**Current word**: "+ currentWord
print "length: "+ str(len(wordList))
turn = "Human"
except StandardError:
bluff = raw_input("I call bluff.  What word were you thinking of?\n>>")
if checkBluff(currentWord, bluff, fullList) == 1:
print "You actually won!"
break
else:
print "You lost.  You lying son of a bitch."
break

if __name__ == "__main__":
main()
``````
-

You want the computer to look ahead, and yet choose randomly? :-)

This game is predictable enough and simple enough for you to make the computer always win, if you want. In fact, you can have it pre-generate strategy trees to guarantee a win. They aren't even that big, you could learn them by heart if you want.

If you don't want that, you should only look one round ahead. In your deed example, one round a head would show that the opponent can force a win in one round, so it would avoid "de". But it would not avoid something that would force a loss in two rounds.

But for that you need to go through all possibilities. You can then choose randomly between the remaining choices.

-
It doesn't need to be random. I just want to learn the best way to make it look ahead. How do you implement that? – Parseltongue Jan 28 '11 at 1:00
The XKCD "winning tree" is completely and categorically incorrect. I tested it against my own computer and it can think of winning moves for each one. For example "hock" is easy avoided with "hocus." – Parseltongue Jan 28 '11 at 3:25
@Parseltongue: It depends on what wordlist you have, and the bigger the wordlist the harder the problem, of course. I think German Rumms lookahead seems good to me. Look for words that are of the length that they get finished withing one (win) or two (loss) letters. – Lennart Regebro Jan 28 '11 at 7:17

In order for program to not lose, it needs to also keep the list of even-numbered words (oh, it does, didn't notice it at first)

When deciding on a next letter it should first consult it's even-numbered (losing) word list. If there are n+2 (4 for n=1, 6 for n=3 etc, `n` is current letter index) character long words, then it should not use letter in n position of those.

So, using "deed" example:

1. User types "d"
2. Program sees that there is 1 word that starts with "d" and is 4 characters long: "deed".
3. It adds "deed"[1] to the list of "restricted" letters
4. It scans the list of the "winning" words, ignoring the ones that start with "de" and gets a list of "available" characters.
5. It randomly selects a character from list and displays it to the user.
-
This is a very intelligent strategy. I can implement it fairly easily, I'm sure-- (will get back to you). But does this ensure a guaranteed win if you only look one letter ahead? – Parseltongue Jan 28 '11 at 1:04