# How would I find the winner of my Python Tic Tac Toe game?

So far, I have a program where 2 players can click to place an X and an O in turns. I'm not sure how to make the program recognize a winner/ draw. If you guys could help me make a function that indicated a win/ draw on the screen in any way, I would love you forever. Thanks.

``````from graphics import *

import sys

def player_o(win, center):
'''
Parameters:
- win: the window
'''
outline_width = 5
circle = Circle(center, boxsize/2)
circle.setOutline('red')
circle.setWidth(outline_width)
circle.draw(win)

def player_x(win, p1x, p1y):
'''
Parameters:
- win: the window
'''
for i in range(2):
deltaX = (-1) ** i * (boxsize / 2)
deltaY = (boxsize / 2)
line = Line(Point(p1x - deltaX, p1y - deltaY),
Point(p1x + deltaX, p1y + deltaY))
line.setFill('red')
line.setWidth(5)
line.draw(win)

def game():

global win
global boxsize

try:
winsize = int(input("How large would you like the window? (Between 100 and 3000): "))
if winsize < 100 or winsize > 3000:
print("Invalid window size")
quit()

squares = int(input("How many squares per row? (Between 3 and 10):"))
boxsize = winsize/ squares
if squares < 3 or squares > winsize / 10:
print("Invalid number")
quit()
except ValueError:
sys.exit("Not a valid number")

win = GraphWin("Tic Tac Toe", winsize, winsize)

for i in range(squares - 1):
hline = Line(Point(0, (winsize/squares) * (i + 1)), Point(winsize,  (winsize/squares) * (i + 1)))
hline.draw(win)
vline = Line(Point((winsize/squares) * (i + 1), 0), Point((winsize/squares) * (i + 1), winsize))
vline.draw(win)

for i in range((squares ** 2) // 2):

print("X, click a square.")
p1mouse = win.getMouse()
p1x = p1mouse.getX()
p1y = p1mouse.getY()
player_x(win, p1x, p1y)

print("O, click a square.")
p2mouse = win.getMouse()
p2x = p2mouse.getX()
p2y = p2mouse.getY()
player_o(win, Point(p2x, p2y))

if squares % 2 == 1:
print("X, click a square.")
p1mouse = win.getMouse()
p1x = p1mouse.getX()
ply = p1mouse.getY()
player_x(win, p1x, p1y)

game()
``````
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Keep data and representation of data separated. That's how. Right now you're just drawing things, rather than that you should be generating some representation of the playing field (e.g. a list of the boxes and their state, as in, checked by p1, checked by p2, or unchecked), and then use that to draw when needed. The advantage should be immediately obvious - if you know the state of the game, determining if there's a winner (and who it is) is trivial.

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How would I make it known to the program which squares are occupied? –  user1871071 Dec 8 '12 at 17:31
@user1871071: You could use a 2 dimensional array which in Python could be held in a list-of-lists. i.e. `board = [[0,0,0],[0,0,0],[0,0,0]]` where `0` means empty. To change its contents, just do `board[i][j] = value` where `i` and `j` are the horizontal and vertical position (aka coordinates) of the spot to being accessed. –  martineau Dec 8 '12 at 17:40
Could you implement this into my code? I'm not sure what you mean, I'm very new to programming. –  user1871071 Dec 8 '12 at 18:10
@user1871071 The thing is, right now you're not implementing tic-tac-toe at all - instead, you're drawing something that looks like tic-tac-toe but really isn't. What you'd have to do now is what we call abstraction - draw out the essentials of the game. For instance - is it important that tic-tac-toe uses crosses and circles? For drawing, yes. For your data? No. Neither is the layout of the boxes - they are drawn 2 dimensionally, but that doesn't mean your representation of them has to be 2 dimensional. –  Cubic Dec 8 '12 at 18:25
You should do the abstraction part first, honestly. –  Karl Knechtel Dec 8 '12 at 18:47

After 3 turns (minimum turns to win) check your 2d array if there is a token next to the last played by adding/substracting one, if found repeat same operation to array indices else break out.

If 2nd control structure is reached break and announce winner.

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The problem is that I'm not sure how to make a 2d array. –  user1871071 Dec 8 '12 at 18:11
@a3f The minimum turns to win has to be 5: Player 1, Player 2, Player 1, Player 2, Player 1. The person that moves first would win (Player 1). –  F3AR3DLEGEND Dec 8 '12 at 21:18
@F3AR3DLEGEND Theoretical minimum is 3, the algorithm should detect winner even if the other player plays like a retard (i.e: playing so he doesn't block the other player) @ user1871071 I was in a meeting and couldn't read the code, as it seems you should read a tutorial or two first before trying again ^^ –  a3f Dec 9 '12 at 4:51

With each move in the game, a 2D array or a dictionary (with values being lists) should be used. Then, you can just check each way of winning. This way, you can also check if the move is valid or not--- whether or not the spot on the board is taken.

I would also suggest using a numerical or a coordinate system to dictate movement.

The board would look like this:

``````1 2 3
4 5 6
7 8 9
``````

The numbers are corresponding spots on the board.

For example:

In the initialization:

``````moves = 0
positions = {'1': 0, '2': 0, '3': 0, '4': 0, '5': 0, '6': 0, '7': 0, '8': 0, '9':0}
# '1' - '9' are the spots on the board.
# 0 means the spot is empty, 'X' means the spot is taken by 'X', 'O' means the spot is taken by 'O'. You can use any other naming system, but this is simple.
``````

In the movement code:

``````while 1 == 1: # just a loop until the input is valid. See the 'break' statement below
new_move = input("X, enter what space to move to: ")
if positions[new_move] == 0: # if that board spot is empty
moves += 1 #moves = moves + 1
positions[new_move] == 'X' # board spot is now occupied by 'X'
# code to show the piece on the board
if moves >= 5: # least possible moves to win is 5
win_check(positions)
break
``````

Alternatively, you can use the movement as a function, and have it recursively call itself until the input is valid:

``````def move_X():
new_move = input("X, enter what space to move to: ")
if positions[new_move] == 0: # if that board spot is empty
moves += 1 #moves = moves + 1
positions[new_move] == 'X' # board spot is now occupied by 'X'
# code to show the piece on the board
if moves >= 5: # least possible moves to win is 5
win_check(positions)
move_O() # this should be defined similarly to 'move_X' except that it would correlate to 'O'.
else:
move_X()
``````

The the win checking method:

``````def win_check(positions):
if positions['1'] == 'X' and positions['2'] == 'X' and positions['3'] == 'X':
return "Winner: X"
elif # similar things, checking all of the other ways to win.
``````

You need 1 `if` statement (in the beginning) and 15 `elif` statements, as there are 8 ways to win for each player, so 16 checks have to be made.

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