def test_26_play_hand_simple_strategy_2(self):
     random.seed(5)
     correct_return = 2.0
     deck = CardDecks(8, BlackJackCard)
     amount_bet, player_return = play_hand(deck, BlackJackHand.simple_strategy)
     self.assertTrue(is_within_epsilon(correct_return, player_return, 0.0001),
                     'Return from play_hand is not correct with simple strategy.')
 def test_23_play_hand_peek_strategy_1(self):
     random.seed(3)
     correct_return = 0
     deck = CardDecks(1, BlackJackCard)
     amount_bet, player_return = play_hand(deck, BlackJackHand.peek_strategy)
     self.assertTrue(is_within_epsilon(correct_return, player_return, 0.0001),
                     'Return from play_hand is not correct with peek strategy.')
 def test_28_play_hand_doubledown_strategy_2(self):
     random.seed(7)
     correct_return = 0.0 #@TODO give a mock deck to see return be 4x initial bet
     deck = CardDecks(8, BlackJackCard)
     amount_bet, player_return = play_hand(deck, BlackJackHand.doubledown_strategy)
     self.assertTrue(is_within_epsilon(correct_return, player_return, 0.0001),
                     'Return from doubledown strategy actual (%f) differs from expected (%f) too much' %
                     (player_return, correct_return))
 def test_27_play_hand_doubledown_strategy_1(self):
     random.seed(6)
     correct_return = 1.0
     deck = CardDecks(8, BlackJackCard)
     amount_bet, player_return = play_hand(deck, BlackJackHand.doubledown_strategy)
     self.assertTrue(is_within_epsilon(correct_return, player_return, 0.0001),
                     'Return from doubledown strategy actual (%f) differs from expected (%f) too much' %
                     (player_return, correct_return))
Пример #5
0
# Processes a human player; dealer remains hidden
while True:
    # Holds all player instances to be used as arguments for functions
    player_pool = []
    # Gets how many players are playing
    number_of_players = input("How many people are playing? ")

    if int(number_of_players) == 0:
        print("Goodbye")
        break

    # Creates specified number of players and appends them to list
    for number in range(int(number_of_players)):
        player_pool.append(
            blackjack.Player(blackjack.deal_card(deck),
                             blackjack.deal_card(deck)))

    # For loop goes through the list of players and plays game for each
    for i in range(len(player_pool)):
        print("\nNow playing player " + str(i + 1))

        blackjack.play_hand(player_pool[i], deck)

    # Add in the dealer and play its turn
    player_pool.append(dealer)
    blackjack.dealer_turn(dealer, deck)

    print(blackjack.compare_scores(player_pool))
    break