tvl-depot/users/wpcarro/scratch/facebook/moderate/tic-tac-toe-checker.py
Vincent Ambo 019f8fd211 subtree(users/wpcarro): docking briefcase at '24f5a642'
git-subtree-dir: users/wpcarro
git-subtree-mainline: 464bbcb15c
git-subtree-split: 24f5a642af
Change-Id: I6105b3762b79126b3488359c95978cadb3efa789
2021-12-14 02:15:47 +03:00

99 lines
2.6 KiB
Python

import random
def print_board(board):
result = []
for row in range(len(board)):
r = []
for col in range(len(board[row])):
cell = board[row][col]
if not cell:
r.append("-")
else:
r.append(cell)
result.append(" | ".join(r))
print("\n---------\n".join(result))
def init_board():
result = []
for row in range(3):
r = []
for col in range(3):
r.append(None)
result.append(r)
return result
def check(board, player):
print_board(board)
print()
if player not in "XO":
raise Exception("Only checking the board for Xs or Os. You supplied {}".format(player))
dn, ax, ddg, udg = "DOWN", "ACROSS", "DOWN_DIAGONAL", "UP_DIAGONAL"
ways = [
[[dn, ax, ddg], [dn], [dn, udg]],
[[ax], [], []],
[[ax], [], []],
]
for row in range(len(board)):
for col in range(len(board[row])):
if board[row][col] == player:
xs = ways[row][col]
for x in xs:
if x == dn:
if {player} == {board[row+1][col], board[row+2][col]}:
return True
if x == ax:
if {player} == {board[row][col+1], board[row][col+2]}:
return True
if x == ddg:
if {player} == {board[row+1][col+1], board[row+2][col+2]}:
return True
if x == udg:
if {player} == {board[row+1][col-1], board[row+2][col-2]}:
return True
return False
def op(player):
return "X" if player == "O" else "O"
dn_win = lambda p: [
[op(p), p, None],
[op(p), p, None],
[None, p, None],
]
ax_win = lambda p: [
[p, p, p],
[op(p), op(p), None],
[None, None, None],
]
ddg_win = lambda p: [
[p, None, None],
[op(p), p, None],
[op(p), None, p],
]
udg_win = lambda p: [
[op(p), None, p],
[op(p), p, None],
[p, None, None],
]
# Down
p = random.choice(["X", "O"])
assert check(dn_win(p), p) == True
assert check(dn_win(p), op(p)) == False
# Across
p = random.choice(["X", "O"])
assert check(ax_win(p), p) == True
assert check(ax_win(p), op(p)) == False
# Down Diagonally
p = random.choice(["X", "O"])
assert check(ddg_win(p), p) == True
assert check(ddg_win(p), op(p)) == False
# Down Diagonally
p = random.choice(["X", "O"])
assert check(udg_win(p), p) == True
assert check(udg_win(p), op(p)) == False
# Success
print("Tests pass!")