class Cribbage:
HUMAN = "human"
COMPUTER = "computer"
def __init__(self):
self.deck = None
self.starter = None
self.board = None
self.players = {Cribbage.HUMAN: HumanPlayer(),
Cribbage.COMPUTER: ComputerPlayer()}
self.crib = []
self.game_state = GAME_STATE_DONE
def play(self):
self.deck = Deck()
self.board = {Cribbage.HUMAN: 0,
Cribbage.COMPUTER: 0}
self.players[Cribbage.COMPUTER].deal([self.deck.draw() for c in range(6)], False)
self.players[Cribbage.HUMAN].deal([self.deck.draw() for c in range(6)], False)
def get_computer_cards(self):
return self.players[Cribbage.COMPUTER].get_cards()
def get_human_cards(self):
return self.players[Cribbage.HUMAN].get_cards()
def update(self):
pass
class TestDeck(unittest.TestCase):
def setUp(self):
self.deck = Deck()
def test52(self):
self.assertEqual(len(self.deck), 52)
def test_no_dupes(self):
seen = set()
for card in self.deck:
self.assertNotIn(card, seen)
seen.add(card)
def test_repr_string(self):
self.assertIsInstance(repr(self.deck), str)
def test_shuffle(self):
deck2 = Deck()
random.shuffle(deck2)
self.assertNotEqual(self.deck.cards, deck2.cards)
def test_deal_5(self):
hand = self.deck.deal(5)
self.assertEqual(len(hand), 5)
def test_draw(self):
hand = self.deck.deal(5)
self.deck.draw(hand)
self.assertEqual(len(hand), 6)
def test_draw(self):
""" Test draw function draws one card and reloads when no cards are left """
deck = Deck()
deck.reload()
draw_pile = []
for _ in range(0, 52):
draw_pile.append(deck.draw())
self.assertEqual(len(draw_pile), 52)
deck.draw()
self.assertEqual(len(deck.cards), 51)
def playAIGame():
"""
Plays a game of Cribbage using two AI players
"""
players = [AI.Player("player 2"), AI.Player("player 1")]
try:
round = 1
while (True):
"""
players[1] is the dealer, the array order is swapped every round
The while loop will break when one player passes 121 points
(This is done by throwing an exeption)
"""
deck = Deck()
deck.shuffle()
print("\n")
print(colored("Round " + str(round), 'grey', 'on_yellow'))
print("")
print(colored("The Deal", 'grey', 'on_magenta'))
print(players[1].name + " is the dealer")
players[0].deal(deck.draw(6), isDealer=False)
players[1].deal(deck.draw(6), isDealer=True)
face = deck.draw()
print("The face card is: ", end="")
print(face.coloredString())
if Card.rankName(face.cards[0].rank) == "J":
players[1].addPoints(2,
colored(" for the face being a Jack"))
print("")
print(colored("The Play", 'grey', 'on_magenta'))
Cribbage.pegging(players)
kitty = players[0].kitty + players[1].kitty
print("")
print(colored("The Count", 'grey', 'on_magenta'))
players[0].score(face)
players[1].score(face, kitty)
players.reverse()
round += 1
except ValueError as e:
print()
print(e)
class PasyansGameState(CardGameState):
"""Represents the history of a Pasyans game, allowing turns to be reversed or a game to be resumed."""
ranks = [
Rank.SIX, Rank.SEVEN, Rank.EIGHT, Rank.NINE, Rank.TEN, Rank.JACK,
Rank.QUEEN, Rank.KING, Rank.ACE
]
command_aliases = {
'move': ['move', 'mv'],
'exit': ['exit', 'end', 'quit'],
'win': ['win']
}
cell_names = ['1', '2', '3', '4', '5', '6', '7', '8', '9', 'F', 'f']
def __init__(self, debug_mode=False):
super().__init__(self.ranks, debug_mode)
self.deck.shuffle()
self.cells = [[self.deck.draw() for i in range(4)] for j in range(9)]
self.free_cell = None
def reset_game(self):
self.deck = Deck(self.ranks)
self.deck.shuffle()
self.cells = [[self.deck.draw() for i in range(4)] for j in range(9)]
self.free_cell = None
self.turn_history = []
self.is_won = False
def test_deck_length1(self):
x = Deck()
card = Card("a", "b")
x[:] = [card]
actual = x.draw()
self.assertEqual(actual, card)
self.assertListEqual(x, [])
def test_deck_length2(self):
x = Deck()
card1 = Card("a", "b")
card2 = Card("c", "d")
x[:] = [card1, card2]
actual = x.draw()
self.assertEqual(actual, card2)
self.assertListEqual(x, [card1])
def test_deck_full(self):
x = Deck()
x.reset()
expected_state_after = x[:-1]
expected_card = x[-1]
actual_card = x.draw()
self.assertEqual(actual_card, expected_card)
self.assertListEqual(x, expected_state_after)
def cah_madlib(self, server, event, bot):
'''Entertaining function for dev, delete later.'''
d = Deck()
b = d.draw("black")
madlib = b.body
blanks = b.num_answers
if blanks == 0:
madlib += ' ' + d.draw("white").body.rstrip('.')
elif madlib.count('_') == 0:
madlib += ' ' + ', '.join([d.draw("white").body.rstrip('.') for x in range(blanks)])
else:
replacements = []
madlib = madlib.replace("%","%%").replace("_", "%s")
for i in range(blanks):
replacements.append("\x02\x1F%s\x0F" % d.draw("white").body.rstrip('.'))
madlib = madlib % tuple(replacements)
server.privmsg(event.target, madlib)
def create_random(self):
"""create a random character based on card draw and random assignment"""
#Get list of traits and aptitudes
traits, aptitudes = self.__get_stats()
#Draw cards and get aptitudes
deck = Deck()
hand = [deck.draw() for i in range(0, 12)]
#Convert jokers to dice size and check for Mysterious Past
for c in hand:
if c.suit == "Joker":
self.mysterious_past = True
card = deck.draw()
c.suit = card.suit
#Remove two lowest value cards
hand.remove(min(hand, key=lambda x: x.value))
hand.remove(min(hand, key=lambda x: x.value))
#Apply num and size randomly to aptitudes
for t in traits:
c = hand.pop()
t.set_num(c.die_num)
t.set_size(c.die_size)
#Math out secondary attributes
self.pace = self.quickness.size
self.wind = self.vigor.size + self.spirit.size
#Get aptitude points
aptitude_points = self.knowledge.size + self.smarts.size + self.cognition.size
#Randomly assign points to aptitudes
while (aptitude_points > 0):
if aptitude_points > 5:
num = int((randint(0, 5) + randint(0, 5)) / 2)
else:
num = aptitude_points
aptitudes[randint(0, len(aptitudes) - 1)].set_num(num)
aptitude_points -= num
def create_random(self):
"""create a random character based on card draw and random assignment"""
#Get list of traits and aptitudes
traits, aptitudes = self.__get_stats()
#Draw cards and get aptitudes
deck = Deck()
hand = [deck.draw() for i in range(0,12)]
#Convert jokers to dice size and check for Mysterious Past
for c in hand:
if c.suit == "Joker":
self.mysterious_past = True
card = deck.draw()
c.suit = card.suit
#Remove two lowest value cards
hand.remove(min(hand, key=lambda x: x.value))
hand.remove(min(hand, key=lambda x: x.value))
#Apply num and size randomly to aptitudes
for t in traits:
c = hand.pop()
t.set_num(c.die_num)
t.set_size(c.die_size)
#Math out secondary attributes
self.pace = self.quickness.size
self.wind = self.vigor.size + self.spirit.size
#Get aptitude points
aptitude_points = self.knowledge.size + self.smarts.size + self.cognition.size
#Randomly assign points to aptitudes
while (aptitude_points > 0):
if aptitude_points > 5:
num = int((randint(0,5) + randint(0,5)) / 2)
else:
num = aptitude_points
aptitudes[randint(0, len(aptitudes)-1)].set_num(num)
aptitude_points -= num
def play(): deck = Deck() playerCard = deck.draw() dealerCard = deck.draw() result = Result() result.playerCard = playerCard result.dealerCard = dealerCard if playerCard < dealerCard: result.message = "Sorry, you lose." elif playerCard > dealerCard: result.message = "You win!" else: result.message = "It's a tie." return result
class CAHGame(object):
def __init__(self, server, channel):
self.status = "Waiting for players to join"
# Keep track of the current channel/server
self.channel = channel
self.server = server
#flag to keep track of whether or not game is running
self.running = True
#list of active players in a game
self.players = []
#dummy with a small deck for testing.
#replace with actual card loading from DB later
self.deck = Deck()
# Who is the current czar in self.players?
# Starting at -1 so the first iteration has the czar be the first person to join
self.current_czar = -1
# What is the current black card?
self.current_card = None
# Cards submitted
self.submissions = {}
#add a new player to the game
def add_player(self, name):
#check to see if player already in game
if name in [p.name for p in self.players]:
return False
else:
player = Player(name)
self.players.append(player)
self.deal(player)
return player
def get_player(self, name):
players = [p for p in self.players if p.name == name]
if len(players) == 1:
return players[0]
else:
return None
#start the game
def start(self):
# Reset back to the start
self.status = "Waiting for player selection"
# Remove previous submissions from players' hands
for player, submissions in self.submissions.iteritems():
for card in submissions:
if card in player.hand: player.hand.remove(card)
self.submissions = {}
# Refresh player hands
for player in self.players:
self.deal(player)
# Deal the new black card
new_card = self.deal_black()
if new_card is None:
self.message("Out of black cards! You played a long game!")
self.end() # TODO: make this end the game when out of black cards
return
czar = self.choose_czar()
self.message("The new czar is %s" % czar.name)
self.message("%s has drawn: %s" % (czar.name, self.current_card.body))
# Show players their current hand
for player in [player for player in self.players if player.name != czar.name]:
self.message("You will need to choose \x02%d\x0F cards with the 'select X' command, where X is the card's position in your hand." % self.cards_needed, player)
if self.cards_needed > 1:
self.message("NOTE: To submit multiple cards, use the cah command 'select X Y ...', where the card numbers are separated by a space.", player)
# Display hand
self.message("Ok, here's your hand:", player)
for num, card in enumerate(player.hand):
self.message("%d. %s" % (num+1, card.body), player)
def end(self):
#check if game is already running
if self.running:
self.message("The game has ended.")
for place, player in enumerate(sorted(self.players, key=lambda x: x.score, reverse=True)):
self.message("%d. %s with %d points" % (place+1, player.name, player.score))
self.running = False
self.deck.reset()
else:
self.message("There's no game running! Use '@cah new' to start a new game.")
# Choose cards to play
def select(self, player, cards):
# Fail if the player is the Czar OR it's not time for players to select cards
if self.status != "Waiting for player selection" or self.players[self.current_czar].name == player.name:
self.message("This isn't your turn!", player)
return
# Fail if player didn't select the right amount of cards
if len(cards) != self.cards_needed:
self.message("You need to play %d cards _only_" % self.cards_needed, player)
return
# Fail if cards are invalid (they should have been sanitized to ints in cah.py)
for card in cards:
if card > len(player.hand) or card <= 0:
self.message("You don't have a card %d in your hand!" % card, player)
return
# Insert cards into the submissions dictionary
self.submissions[player] = [player.hand[card-1] for card in cards]
# Continue on in the game loop if all but the czar have voted
if len(self.submissions) == len(self.players)-1:
self.display_selections()
self.status = "Waiting for Czar vote"
# Present the funnies
def display_selections(self):
self.message("Results are in!")
# Question cards are only displayed once, then the replies are presented as choices
if "_" not in self.current_card.body:
self.message(self.current_card.body)
for num, submission in enumerate(self.submissions.values()):
self.message("%d. %s" % (num+1, ', '.join([x.body for x in submission])))
# Other cards have the white card answeres filled in the blanks (with bold and underline)
else:
for num, submission in enumerate(self.submissions.values()):
replacements = []
filled_in = self.current_card.body.replace("%","%%").replace("_", "%s")
for i in range(self.cards_needed):
replacements.append("\x02\x1F%s\x0F" % submission[i].body)
filled_in = filled_in % tuple(replacements)
self.message("%d. %s" % (num+1, filled_in))
# Prompt the czar to not be lazy...
self.message("Now for %s to vote..." % self.players[self.current_czar].name)
# Czar vote
def vote(self, player, vote):
# Fail if the player isn't the current Czar
if player.name != self.players[self.current_czar].name:
self.message("You are not the Czar!", player)
return
# Fail if it's not time for the Czar to vote
if self.status != "Waiting for Czar vote":
self.message("We're not ready for you to vote.", player)
return
# Fail if the czar vote for a choice that isn't present
if vote <= 0 or vote > len(self.players)-1:
self.message("%d isn't a valid vote selection." % vote, player)
return
# Display and increase score for the Czar's choice
winning_player = self.submissions.keys()[vote-1]
self.message("%s won this round! The winning combination was..." % winning_player.name)
winning_player.score += 1
# TODO: refactor this and the bit in display_selections
# see display_selections, this is the same, except it only displays a single submission
if "_" not in self.current_card.body:
self.message(self.current_card.body)
self.message(', '.join([x.body for x in self.submissions.values()[vote-1]]))
else:
replacements = []
filled_in = self.current_card.body.replace("%","%%").replace("_", "%s")
for i in range(self.cards_needed):
replacements.append("\x02\x1F%s\x0F" % self.submissions.values()[vote-1][i].body)
filled_in = filled_in % tuple(replacements)
self.message(filled_in)
# And start the game loop over
self.start()
#deal cards to player until hand size is 10
def deal(self, player):
handSize = len(player.hand)
while handSize < 10:
player.hand.append(self.deck.draw("white"))
handSize += 1
return player.hand
def choose_czar(self):
self.current_czar = (self.current_czar + 1) % len(self.players)
return self.players[self.current_czar]
def deal_black(self):
try:
self.current_card = self.deck.draw("black")
return self.current_card
except NoMoreCards:
return None
def message(self, body, player=None):
if player is not None:
self.server.notice(player.name, body)
else:
self.server.privmsg(self.channel, body)
@property
def cards_needed(self):
return self.current_card.num_answers
class Game(object):
def __init__(self, num_player=1, player_tokens=1000,
min_bet=10, max_bet=500,
ndecks=6, shuffle_lim=10,
sleep_time=0.7):
# self.players = [Player.Player(ntokens=player_tokens) for _ in range(num_player)]
self.player = Player(ntokens=player_tokens)
self.dealer = Dealer()
self.draw_count = 0 # keeps track of number of draws - first two counts as one
self.min_bet = min_bet
self.max_bet = max_bet
self.current_bet = 0
self.sleep_time = sleep_time
self.deck = Deck(ndecks, shuffle_lim)
def initialize_round(self):
# for p in self.players:
# p.initialize()
self.player.initialize()
# clear dealer hand
self.dealer.initialize()
self.draw_count = 0
def players_bet(self):
self.current_bet = self.player.place_bet(min_bet=self.min_bet, max_bet=self.max_bet)
def draw_cards(self, side, face_down=True):
new_card = self.deck.draw()
if not face_down:
new_card.reveal()
if side == 'p':
self.player.hands[0].append(new_card)
elif side == 'd':
self.dealer.hand.append(new_card)
def players_actions(self):
"""
Get player action from player
:return:
"""
# compile list of valid actions for player
# hit and stand are always valid
valid_actions = [Action.Hit, Action.Stand]
# split and double only occurs in draw one
if self.draw_count == 1:
valid_actions.append(Action.Double)
if len(self.player.hands[0]) == 2 and self.player.hands[0][0].value == self.player.hands[0][1].value:
valid_actions.append(Action.Split)
action = self.player.choose_action(valid_actions)
return action
def result(self, code):
# player blackjack, pays 3 to 2
if code == Condition.BLACKJACK:
print("Congratulations, you got a blackjack!")
update_tokens = int(self.current_bet * (1 + 1.5))
# player wins
elif code == Condition.WIN:
print("You won!")
update_tokens = self.current_bet * 2
# player loses
elif code == Condition.LOSE:
print("You lost!")
# player token already deducted, do nothing
update_tokens = 0
# push
elif code == Condition.PUSH:
print("Push!")
update_tokens = self.current_bet
# compare hand values
else:
raise NotImplementedError
self.player.tokens += update_tokens
def condition(self):
"""
Check the current condition and returns a condition code
:return: condition code
"""
# check blackjack
if get_hand_best_value(self.player.hands[0]) == 21:
# player blackjack, pays 3 to 2
if self.draw_count == 1:
# check if dealer also blackjack
return Condition.PUSH if get_hand_best_value(self.dealer.hand) == 21 else Condition.BLACKJACK
# check dealer blackjack
elif get_hand_best_value(self.dealer.hand) == 21 and self.draw_count == 1:
print("Dealer got a blackjack!")
return Condition.LOSE
# check player bust
elif get_hand_best_value(self.player.hands[0]) > 21:
print("You busted!")
return Condition.LOSE
# check dealer bust
elif get_hand_best_value(self.dealer.hand) > 21:
print("Dealer busted!")
return Condition.WIN
# continue
else:
return Condition.CONTINUE
def compare_hands(self):
"""
Compares the hands between dealer and player to decide result
:return: a result code
"""
# take max <= 21
player_best = get_hand_best_value(self.player.hands[0])
dealer_best = get_hand_best_value(self.dealer.hand)
# check blackjack
if player_best == 21 and dealer_best != 21 and self.draw_count == 1:
return Condition.BLACKJACK
# check dealer bust
if dealer_best > 21:
return Condition.WIN
if player_best > dealer_best:
return Condition.WIN
elif player_best < dealer_best:
return Condition.LOSE
elif player_best == dealer_best:
return Condition.PUSH
else:
raise NotImplementedError
def display_hands(self):
# only print values <= 21, print minimum if no values <= 21
dealer_values = get_hand_value(self.dealer.hand)
dealer_print = sorted([val for val in dealer_values if val <= 21])
if len(dealer_print) == 0:
dealer_print = [min(dealer_values)]
player_values = get_hand_value(self.player.hands[0])
player_print = sorted([val for val in player_values if val <= 21])
if len(player_print) == 0:
player_print = [min(player_values)]
print("Dealer hand:")
print("%s, %s" % (self.dealer.hand, dealer_print))
print()
print("Player hand:")
print("%s, %s" %
(self.player.hands[0], player_print))
print()
sleep(self.sleep_time)
def split(self):
pass
def round(self):
self.initialize_round()
self.players_bet()
# draw two initial cards
print("Drawing first two cards...")
self.draw_cards('d', face_down=False)
self.draw_cards('p', face_down=False)
self.draw_cards('d', face_down=True)
self.draw_cards('p', face_down=False)
self.draw_count += 1
self.display_hands()
code = Condition.CONTINUE
# player draws until 21 or stand or double or busted
while True:
# drew to 21
if get_hand_best_value(self.player.hands[0]) == 21:
code = Condition.BLACKJACK
break
# busted, reveal dealer card and end round
if get_hand_best_value(self.player.hands[0]) > 21:
code = Condition.LOSE
# reveal dealer's cards
for card in self.dealer.hand:
card.reveal()
self.display_hands()
self.result(code)
return
player_action = self.players_actions()
# player stand, end player drawing phase
if player_action == Action.Stand:
break
if player_action == Action.Split:
# TODO: split logic
pass
self.draw_cards('p', face_down=False)
self.draw_count += 1
self.display_hands()
# if player doubled
if player_action == Action.Double:
# checked if player had enough tokens
# deducted from player balance
# add to current bet
self.current_bet *= 2
# end player draw (only one draw on doubles)
break
# reveal dealer's cards
for card in self.dealer.hand:
card.reveal()
self.display_hands()
# if player blackjack, skip dealer drawing
if code != Condition.BLACKJACK:
# dealer draws until >= 17
while True:
dealer_action = self.dealer.choose_action()
if dealer_action == Action.Stand:
break
self.draw_cards('d', face_down=False)
self.display_hands()
# dealer done drawing but still no result, so compare hands
code = self.compare_hands()
# game ended
self.result(code)
# for k in range(aces):
# if value > 21:
# value -= 10
return value
if __name__ == '__main__':
deck = Deck()
shuffle(deck)
new_game = 'y'
player_value = 0
while new_game == 'y':
player = []
dealer = []
player.append(deck.draw())
dealer.append(deck.draw())
player.append(deck.draw())
dealer.append(deck.draw())
print('Your cards is: ', player)
print('Dealers card is: ', dealer[1:])
player_value = get_hand_value(player)
while player_value < 21:
decision = str(input('Card? (yes/no) '))
if decision in ('n', 'no'):
break
elif decision in ('y', 'yes'):
player.append(deck.draw())
player_value = get_hand_value(player)
class Game(object):
def __init__(self, mode=None, print_games=True):
self.deck = Deck()
self.mode = mode
self.dealer_hand = []
self.player_hand = []
# deal out initial cards
dealer_card = self.deck.draw()
dealer_card.facing = "down"
self.dealer_hand.append(dealer_card)
self.player_hand.append(self.deck.draw())
self.dealer_hand.append(self.deck.draw())
self.player_hand.append(self.deck.draw())
if print_games:
logging.basicConfig(stream=sys.stdout,
level=logging.DEBUG,
format="%(message)s")
else:
logging.basicConfig(level=logging.CRITICAL)
logging.info("--------- A GAME OF BLACKJACK ---------")
logging.info(self)
if self.mode == "stdin":
while True:
command = raw_input(
"What would you like to do? [s]tay, [h]it...")
self.dealer_command(command)
def __repr__(self):
stdout = "========================================\n"
if any([card.facing == "down" for card in self.dealer_hand]):
stdout += " Dealer showing ({}):\n".format(
self.sum_hand(self.dealer_hand))
else:
stdout += " Dealer has ({}):\n".format(
self.sum_hand(self.dealer_hand))
for card in self.dealer_hand:
stdout += " {}\n".format(card)
stdout += " ~ ~ ~ ~ ~ ~ ~ ~ \n"
stdout += " Player has ({}):\n".format(self.sum_hand(
self.player_hand))
for card in self.player_hand:
stdout += " {}\n".format(card)
stdout += "========================================"
return stdout
@staticmethod
def sum_hand(hand):
total = 0
ace_count = 0
for card in hand:
if card.facing == "down":
continue
try:
total += int(card.rank)
except:
if card.rank in ["jack", "queen", "king"]:
total += 10
elif card.rank == "ace":
ace_count += 1
# assume aces are 11 unless you'd bust, then 1
for x in range(ace_count):
if total <= 10:
total += 11
else:
total += 1
return total
def dealer_command(self, command):
if command in ["hit", "h"]:
logging.info(" => player has chosen to hit")
self.player_hand.append(self.deck.draw())
logging.info(self)
if self.sum_hand(self.player_hand) > 21:
raise PlayerBusts()
if command in ["stay", "s"]:
logging.info(" => player has chosen to stay")
[card.show() for card in self.dealer_hand]
while self.sum_hand(self.dealer_hand) < 17:
self.dealer_hand.append(self.deck.draw())
logging.info(self)
if self.sum_hand(self.dealer_hand) > 21:
raise DealerBusts()
if self.sum_hand(self.player_hand) > self.sum_hand(
self.dealer_hand):
raise PlayerWins()
if self.sum_hand(self.player_hand) < self.sum_hand(
self.dealer_hand):
raise DealerWins()
if self.sum_hand(self.player_hand) == self.sum_hand(
self.dealer_hand):
raise Push()
def main():
"""
Main.
"""
print('Welcome to Cribbage.')
print()
dealer = Player('Player A')
pone = HumanPlayer('Player B')
print(dealer.name + ' is the dealer.')
print(pone.name + ' is the pone.')
def other_player(player):
if player is dealer:
return pone
return dealer
while True:
# reset
crib_cards = []
# shuffle
print('Shuffling deck.')
deck = Deck()
deck.shuffle()
# deal
print('Dealing cards.')
deal(deck, dealer, pone, 6)
# throw to crib
print('Waiting for ' + dealer.name +
' to throw 2 cards to the crib...')
dealer_threw = dealer.throw_to_crib(True)
print(dealer.name + ' threw ' + str(dealer_threw) + ' into the crib.')
crib_cards += dealer_threw
print('Waiting for ' + pone.name + ' to throw 2 cards to the crib...')
pone_threw = pone.throw_to_crib(False)
print(pone.name + ' threw ' + str(pone_threw) + ' into the crib.')
crib_cards += pone_threw
# cut
cut_card = deck.draw()
print('The cut card is ' + str(cut_card) + '.')
if cut_card.rank == 11:
print(dealer.name + " receives 2 points for the Jack's heels.")
add_points(dealer, 2, other_player(dealer))
check_win(dealer, pone)
# keep track of count points
dealer_points = Hand(dealer.hand_cards, cut_card).count()
pone_points = Hand(pone.hand_cards, cut_card).count()
crib_points = Hand(crib_cards, cut_card, True).count()
# peg
played_cards = []
player_to_play = pone
passed = None
while True:
print('Waiting for ' + player_to_play.name + ' to play a card...')
played_card = player_to_play.play_card(played_cards)
if played_card:
print(player_to_play.name + ' plays ' + str(played_card) + '.')
played_cards.append(played_card)
print('Cards in play: ' + str(played_cards) + ' (' +
str(sum(map(lambda card: card.value, played_cards))) +
').')
peg_points = count_peg_points(played_cards)
if peg_points != 0:
print(player_to_play.name + ' pegs ' + str(peg_points) +
' points.')
add_points(player_to_play, peg_points,
other_player(player_to_play))
check_win(dealer, pone)
if len(dealer.hand_cards) == 0 and len(pone.hand_cards) == 0:
print(player_to_play.name + ' receives a go.')
add_points(player_to_play, 1, other_player(player_to_play))
check_win(dealer, pone)
break
if not passed:
player_to_play = other_player(player_to_play)
else:
if not passed:
print(player_to_play.name + ' cannot play a card.')
passed = player_to_play
player_to_play = other_player(player_to_play)
else:
passed = None
print(player_to_play.name + ' receives a go.')
add_points(player_to_play, 1, other_player(player_to_play))
check_win(dealer, pone)
player_to_play = other_player(player_to_play)
played_cards = []
print()
# count
print(pone.name + ' counts ' + str(pone_points) + ' points.')
add_points(pone, pone_points, dealer, False)
check_win(dealer, pone)
print(dealer.name + ' counts ' + str(dealer_points) + ' points.')
add_points(dealer, dealer_points, pone, False)
check_win(dealer, pone)
print(dealer.name + ' scores ' + str(crib_points) +
' points from the crib.')
add_points(dealer, crib_points, pone)
check_win(dealer, pone)
# new dealer
dealer, pone = pone, dealer
print()
def cah_draw(self, server, event, bot, color):
'''For testing only, delete later.'''
d = Deck()
c = d.draw(color)
server.privmsg(event.target, c.body)
class Table(object):
players = []
dealerUp = []
__dealerDownCard = None
deck = Deck()
verbose = False
washed_up = []
def __init__(self, loud=False):
print("Welcome to BlackJack")
self.verbose = loud
def add_player(self, newPlayer):
self.players.append(newPlayer)
def setup_game(self):
# Configure Deck for number of players
self.deck = Deck(len(self.players) // 2)
def game(self):
# Remove all broke players
broke = []
for you in self.players:
if you.bank <= 0:
broke.append(you)
for them in broke:
self.washed_up.append(self.players.pop(self.players.index(them)))
# Deal all cards to players
if self.verbose:
print("Dealing Cards...")
for x in self.players:
x.deal_hand([self.deck.draw(), self.deck.draw()])
# Dealer cards
self.dealerUp.append(self.deck.draw())
self.__dealerDownCard = self.deck.draw()
if self.verbose:
print("Dealer's upcard:\n\t" + str(self.dealerUp[0]))
# Betting round
self.betting_round()
# Check who won and award money
self.wrap_up(self.declare_winner())
def declare_winner(self):
winners = [(sum(self.dealerUp) + self.__dealerDownCard, 'Dealer', None)
]
if self.verbose:
s = str(sum(self.dealerUp) + self.__dealerDownCard) + ' Dealer'
print('Completed round scores:\n\t', s)
for you in self.players:
winners.append((sum(you.get_hand()), you.name, you))
if self.verbose:
s = str(sum(you.get_hand())) + ' ' + you.name
print('\t', s)
winners.sort()
return winners
def betting_round(self):
in_round = []
for you in self.players:
in_round.append(you)
# For all of the people in the game, get betting
for you in self.players:
bt = you.initial_bet()
if self.verbose:
print(you.name, "makes an initial bet of $" + str(bt))
print("\tRemaining Balance: $", you.bank)
# While there are people still wanting to play,
while len(in_round) > 0:
# Check all players for status
for you in self.players:
# Make sure they're still in
if you not in in_round:
pass
# If they are playing, check if hit
elif you.hit():
# Deal card on hit
bust = you.deal_card(self.deck.draw())
if bust:
in_round.remove(you)
else:
in_round.remove(you)
# Dealers Turn once everyone has played
while sum(self.dealerUp) + self.__dealerDownCard < 15:
newCard = self.deck.draw()
if self.verbose:
print("Dealer draws a card.", newCard)
self.dealerUp.append(newCard)
if self.verbose:
print("Dealer flips his card. It's a", self.__dealerDownCard)
print("Dealers Hand:\n\t" + str(self.__dealerDownCard))
for thing in self.dealerUp:
print("\t" + str(thing))
# Let all the players know what was played
allhands = [self.__dealerDownCard]
allhands.extend(self.dealerUp)
for you in self.players:
allhands.extend(you.get_hand())
for you in self.players:
you.end_round(allhands)
def wrap_up(self, scores):
# Complete the game an print all of the money won by player names.
losers = []
winners = []
dealerScore = sum(self.dealerUp) + self.__dealerDownCard
for you in scores:
if you[2] is None:
# Dealer, ignore his payday
continue
elif you[0] == 21:
# Blackjack! Give them their money back and more
you[2].won_money(1.5)
winners.append(you)
elif you[0] < 21 and you[0] >= dealerScore:
# You still won, just less money
you[2].won_money(1)
winners.append(you)
elif dealerScore > 21 and you[0] < 21:
# Won
you[2].won_money(1)
winners.append(you)
else:
losers.append(you)
# Print stuff
if self.verbose:
print("Winners!")
print([you[:2] for you in winners])
print("Losers")
print([you[:2] for you in losers])
# Remove cards from the Dealer
self.dealerUp = []
self.__dealerDownCard = None
class CAHGame(object):
def __init__(self, server, channel):
self.status = "Waiting for players to join"
# Keep track of the current channel/server
self.channel = channel
self.server = server
#flag to keep track of whether or not game is running
self.running = True
#list of active players in a game
self.players = []
#dummy with a small deck for testing.
#replace with actual card loading from DB later
self.deck = Deck()
# Who is the current czar in self.players?
# Starting at -1 so the first iteration has the czar be the first person to join
self.current_czar = -1
# What is the current black card?
self.current_card = None
# Cards submitted
self.submissions = {}
#add a new player to the game
def add_player(self, name):
#check to see if player already in game
if name in [p.name for p in self.players]:
return False
else:
player = Player(name)
self.players.append(player)
self.deal(player)
return player
def get_player(self, name):
players = [p for p in self.players if p.name == name]
if len(players) == 1:
return players[0]
else:
return None
#start the game
def start(self):
# Reset back to the start
self.status = "Waiting for player selection"
# Remove previous submissions from players' hands
for player, submissions in self.submissions.iteritems():
for card in submissions:
if card in player.hand: player.hand.remove(card)
self.submissions = {}
# Refresh player hands
for player in self.players:
self.deal(player)
# Deal the new black card
new_card = self.deal_black()
if new_card is None:
self.message("Out of black cards! You played a long game!")
self.end() # TODO: make this end the game when out of black cards
return
czar = self.choose_czar()
self.message("The new czar is %s" % czar.name)
self.message("%s has drawn: %s" % (czar.name, self.current_card.body))
# Show players their current hand
for player in [
player for player in self.players if player.name != czar.name
]:
self.message(
"You will need to choose \x02%d\x0F cards with the 'select X' command, where X is the card's position in your hand."
% self.cards_needed, player)
if self.cards_needed > 1:
self.message(
"NOTE: To submit multiple cards, use the cah command 'select X Y ...', where the card numbers are separated by a space.",
player)
# Display hand
self.message("Ok, here's your hand:", player)
for num, card in enumerate(player.hand):
self.message("%d. %s" % (num + 1, card.body), player)
def end(self):
#check if game is already running
if self.running:
self.message("The game has ended.")
for place, player in enumerate(
sorted(self.players, key=lambda x: x.score, reverse=True)):
self.message("%d. %s with %d points" %
(place + 1, player.name, player.score))
self.running = False
self.deck.reset()
else:
self.message(
"There's no game running! Use '@cah new' to start a new game."
)
# Choose cards to play
def select(self, player, cards):
# Fail if the player is the Czar OR it's not time for players to select cards
if self.status != "Waiting for player selection" or self.players[
self.current_czar].name == player.name:
self.message("This isn't your turn!", player)
return
# Fail if player didn't select the right amount of cards
if len(cards) != self.cards_needed:
self.message(
"You need to play %d cards _only_" % self.cards_needed, player)
return
# Fail if cards are invalid (they should have been sanitized to ints in cah.py)
for card in cards:
if card > len(player.hand) or card <= 0:
self.message("You don't have a card %d in your hand!" % card,
player)
return
# Insert cards into the submissions dictionary
self.submissions[player] = [player.hand[card - 1] for card in cards]
# Continue on in the game loop if all but the czar have voted
if len(self.submissions) == len(self.players) - 1:
self.display_selections()
self.status = "Waiting for Czar vote"
# Present the funnies
def display_selections(self):
self.message("Results are in!")
# Question cards are only displayed once, then the replies are presented as choices
if "_" not in self.current_card.body:
self.message(self.current_card.body)
for num, submission in enumerate(self.submissions.values()):
self.message("%d. %s" %
(num + 1, ', '.join([x.body
for x in submission])))
# Other cards have the white card answeres filled in the blanks (with bold and underline)
else:
for num, submission in enumerate(self.submissions.values()):
replacements = []
filled_in = self.current_card.body.replace("%", "%%").replace(
"_", "%s")
for i in range(self.cards_needed):
replacements.append("\x02\x1F%s\x0F" % submission[i].body)
filled_in = filled_in % tuple(replacements)
self.message("%d. %s" % (num + 1, filled_in))
# Prompt the czar to not be lazy...
self.message("Now for %s to vote..." %
self.players[self.current_czar].name)
# Czar vote
def vote(self, player, vote):
# Fail if the player isn't the current Czar
if player.name != self.players[self.current_czar].name:
self.message("You are not the Czar!", player)
return
# Fail if it's not time for the Czar to vote
if self.status != "Waiting for Czar vote":
self.message("We're not ready for you to vote.", player)
return
# Fail if the czar vote for a choice that isn't present
if vote <= 0 or vote > len(self.players) - 1:
self.message("%d isn't a valid vote selection." % vote, player)
return
# Display and increase score for the Czar's choice
winning_player = self.submissions.keys()[vote - 1]
self.message("%s won this round! The winning combination was..." %
winning_player.name)
winning_player.score += 1
# TODO: refactor this and the bit in display_selections
# see display_selections, this is the same, except it only displays a single submission
if "_" not in self.current_card.body:
self.message(self.current_card.body)
self.message(', '.join(
[x.body for x in self.submissions.values()[vote - 1]]))
else:
replacements = []
filled_in = self.current_card.body.replace("%", "%%").replace(
"_", "%s")
for i in range(self.cards_needed):
replacements.append(
"\x02\x1F%s\x0F" %
self.submissions.values()[vote - 1][i].body)
filled_in = filled_in % tuple(replacements)
self.message(filled_in)
# And start the game loop over
self.start()
#deal cards to player until hand size is 10
def deal(self, player):
handSize = len(player.hand)
while handSize < 10:
player.hand.append(self.deck.draw("white"))
handSize += 1
return player.hand
def choose_czar(self):
self.current_czar = (self.current_czar + 1) % len(self.players)
return self.players[self.current_czar]
def deal_black(self):
try:
self.current_card = self.deck.draw("black")
return self.current_card
except NoMoreCards:
return None
def message(self, body, player=None):
if player is not None:
self.server.notice(player.name, body)
else:
self.server.privmsg(self.channel, body)
@property
def cards_needed(self):
return self.current_card.num_answers
def test_empty_deck(self):
x = Deck()
x[:] = []
with self.assertRaises(IndexError):
x.draw()
self.assertListEqual(x, [])
