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TicTacToe.py
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TicTacToe.py
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import time, random
'''
0123456789012345
| | 1
x | | 2
_____|_____|_____ 3
| | 4
| | 5
_____|_____|_____ 6
| | 7
| | 8
| | 9
'''
# places_list = [[2, 2], [2, 8], [2, 14], [5, 2], [5, 8], [5, 14], [8, 2], [8, 8], [8, 14]]
x_places = {2:[], 5:[], 8:[]} #* row:[columns] [2, 8, 14]
o_places = {2:[], 5:[], 8:[]}
places = []
available_places = [1, 2, 3, 4, 5, 6, 7, 8, 9]
while True:
choice = input('''What do you want to play?
1. Two player game
2. Play against Computer\n''')
if choice == '1':
break
elif choice =='2':
first = input('''Do you want to:
1. Go first
2. Play second\n''')
if first == '1' or first =='2':
break
else:
print('Invalid option! Try again.')
del(first)
else:
print('Invalid option! Try again.')
turn = 0
while True:
for row in range(1, 10):
if row == 3 or row == 6:
print('_'*5+'|'+'_'*5+'|'+'_'*5)
elif row in x_places.keys() and x_places[row]!=[] or row in o_places.keys() and o_places[row]!=[]:
col_str_ = ' '*5+'|'+' '*5+'|'+' '*5
col_str = ''
for col in range(17):
if col in x_places[row]:
col_str += 'x'
elif col in o_places[row]:
col_str += 'o'
else:
col_str += col_str_[col]
print(col_str)
else:
print(' '*5+'|'+' '*5+'|'+' '*5)
def first_player(player1, player2):
global player
if turn%2 == 0:
player = player1
else:
player = player2
if choice == '1':
first_player('x', 'o')
elif first =='1':
first_player('You', 'computer')
else:
first_player('computer', 'You')
def who_won(pl, p):
global turn
va = list(pl.values())
message = f'{p} won this match!'
if set(pl[8]).intersection(set(pl[2]).intersection(set(pl[5]))) != set([]):
print(message)
turn = 10
return True
elif 8 in va[1]:
if 2 in va[0] and 14 in va[2] or 14 in va[0] and 2 in va[2]:
print(message)
turn = 10
return True
for val in va:
if len(val) == 3:
print(message)
turn = 10
return True
if choice == '1':
who_won(o_places, 'O')
who_won(x_places, 'X')
else:
who_won(x_places, 'You')
who_won(o_places, 'Computer')
turn += 1
if turn == 11:
break
elif turn == 10:
print('It\'s a draw!')
break
while True:
if player in 'xo':
move = input(f'It\'s {player}\'s turn: ')
elif player == 'You':
move = input('It\'s your turn!')
else:
print('Computer is making move...')
time.sleep(0.3)
def convert_to_move(row, col):
move =0
for ro in range(2, row, 3):
move += 3
for co in range(2, col+1, 6):
move +=1
return move
def smart_move():
move = 0
#OO_ situation:
def OO_(us, oppo): #* our_places, oppo_places
for key, value in us.items():
if len(value) == 2 and oppo[key] == []:
empty_col = {2, 8, 14} - set(value)
for element in empty_col:
e_col = element
move = convert_to_move(key, e_col)
return move
def O_nxtline(us, oppo):
l = [2, 5, 8, 2, 5]
for i in range(3):
a = set(us[l[i]]).intersection(set(us[l[i+1]]))
if a != set([]):
for element in a:
if element not in oppo[l[i+2]]:
return convert_to_move(l[i+2], element)
def diagnol(us, oppo):
#[(2, 2), (5, 8), (8, 14)] and [(8, 2), (5, 8), (2, 14)]
comb = [((8, 2), (5, 8), (2, 14)),((5, 8), (2, 14), (8, 2)),((8, 2), (2, 14), (5, 8)),((2, 2), (8, 14), (5, 8)),((5, 8), (8, 14), (2, 2)),((2, 2), (5, 8), (8, 14))]
for x, y,z in comb:
if x[1] in us[x[0]] and y[1] in us[y[0]] and z[1] not in oppo[z[0]]:
return convert_to_move(z[0], z[1])
functions = [OO_, O_nxtline, diagnol]
for j in functions:
if j(o_places, x_places) != None:
return j(o_places, x_places)
for j in functions:
if j(x_places, o_places) != None:
return j(x_places, o_places)
return move
if smart_move() == 0:
move = str(random.choice(available_places))
else:
move = str(smart_move())
print('Computer chose', move)
if move.isdigit():
move = int(move)
if 0<move<10 and move not in places:
places.append(move)
available_places.remove(move)
for row in range(2, 9, 3):
for col in range(2, 15, 6):
move -= 1
if move==0:
break
if move == 0:
break
if player in 'computer':
o_places[row].append(col)
elif player =='x' or player == 'You':
x_places[row].append(col)
break
else:
print('Invalid input! Try Again.')
else:
print('Invalid input! Try again.')
print('\n\n')