connect-four-py/GameLogic.py

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Python
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import cPickle as pickle
"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""
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" @author Amber
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" @version 3/30/2017
" @see https://docs.python.org/2/library/pickle.html
"
" This .py file includes the function needed to play the
" Connect Four game. It includes methods for saving and
" loading files along with the basic logic for the game
" rules.
"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""
# The game board.
board = []
# The height of the game board.
height = 7
# The width of the game board.
width = 6
# The win length for the game rules.
winLength = 4
# The current player.
player = 1
"""
" Sets the height of the game board to the passed parameter.
"
" @param h, the new height of the game board.
"""
def setHeight(h):
global height
height = h
"""
" Sets the width of the game board to the passed parameter.
"
" @param w, the new width of the game board.
"""
def setWidth(w):
global width
width = w
"""
" Sets the number of chips in a row needed to win the game.
"
" @param l, the new win length for the game rules.
"""
def setWinLength(l):
global winLength
winLength = l
"""
" Sets the game's turn to the player who is passed as a parameter.
"
" @param p, the new current player.
"""
def setPlayer(p):
global player
player = p
"""
" Returns the height of the game board.
"
" @return height, the height of the game board.
"""
def getWidth():
global width
return width
"""
" Returns the width of the game board.
"
" @return width, the width of the game board.
"""
def getHeight():
global height
return height
"""
" Returns the length to win the game.
"
" @return winLength, the length to win.
"""
def getWinLength():
global winLength
return winLength
"""
" Returns the current turn's player.
"
" @return player, the current player.
"""
def getPlayer():
global player
return player
"""
" Resets the board with the current parameters
" to start a new game.
"""
def populateBoard():
global board, height, width
board = []
for i in range (0, height):
board.append([])
for j in range (0, width):
board[i].append('')
board[i] = ['*' for x in board[i]]
"""
" Prints the current game board.
"""
def printBoard():
global board
for i in board:
for j in i:
print j,
print ''
"""
" Places a chip in the desired column. Also makes sure
" that you can place a chip in that column, returning False
" if you cannot and True if you can.
"
" @param col, the desired column.
" @param player, the chip being placed.
" @return a bool, based on whether or not its a valid move.
"""
def placeChip(col, player):
global board, height, width
if col > width - 1 or col < 0:
return False
for i in range(height - 1, -1, -1):
if i > 0 and ((board[i][col] == 'o') or (board[i][col] == 'x')):
continue
elif i == 0 and (board[i][col] != '*'):
return False
else:
board[i][col] = player
break
return True
"""
" Saves the current board, its parameters and the game
" parameters to a file using a pickling function.
"
" @param filename, the file being saved to.
"""
def saveGame(filename):
global board, width, height, winLength
game_data = [board, width, height, winLength]
pickle.dump(game_data, open(filename, "wb"))
"""
" Loads a previous game from a file.
"
" @param filename, the file being loaded from.
"""
def loadGame(filename):
global board, width, height, winLength
game_data = pickle.load(open(filename, "rb" ))
board = game_data[0]
width = game_data[1]
height = game_data[2]
winLength = game_data[3]
"""
" Checks to see if the chip passed to the function has
" enough chips in a row to warrant a win. Returns True
" if that chip's player has won, and False if that
" player has not.
"
" @param player, the chip being checked for.
" @return a bool, based on whether or not the player won.
"""
def checkWin(player):
global board, width, height
row = 0
col = 0
# 1 by 1 board
if height == 1 and width == 1 and winLength == 1:
if board[0][0] == player:
return True
else:
return False
# Horizontal check
count = 0
for i in range(0, height):
for j in range(0, width):
if board[i][j] == player:
count = count + 1
else:
count = 0
if count == winLength:
return True
count = 0
# Vertical check
count = 0
for i in range(0, width):
for j in range(0, height):
if board[j][i] == player:
count = count + 1
else:
count = 0
if count == winLength:
return True
count = 0
# Negative slope diagonal
count = 0
for i in range(0, height):
for j in range(0, width):
row = i
col = j
count = 0
while (row < height and col < width):
if board[row][col] == player:
count = count + 1
row = row + 1
col = col + 1
else:
row = row + 1
col = col + 1
count = 0
if count == winLength:
return True
# Positive slope diagonal
count = 0
for i in range(0, height):
for j in range(0, width):
row = i
col = j
count = 0
while row >= 0 and col < width:
if board[row][col] == player:
count = count + 1
row = row - 1
col = col + 1
else:
row = row - 1
col = col + 1
count = 0
if count == winLength:
return True
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return False