def test_overall_play():
wager_amts = [1, 1, 1, 1, 1, 1, 4, 8, 16]
ranges = [-3, -2, -1, 0, 0, 1, 2, 3]
betting_policy = (wager_amts, ranges)
player = Player(
bankroll=100,
hard_policy=hard_policy,
soft_policy=soft_policy,
split_policy=split_policy,
betting_policy=betting_policy,
)
deck = Deck()
# first hand player wins and wins 1 count is now 4
cards_1 = [
Cards.TEN,
Cards.THREE,
Cards.TEN,
Cards.FOUR,
Cards.THREE,
Cards.FOUR,
Cards.TWO,
Cards.FOUR,
]
cards_2 = [
Cards.TEN,
Cards.THREE,
Cards.TEN,
Cards.FOUR,
Cards.JACK,
Cards.ACE,
Cards.TEN,
Cards.TEN,
]
# second hand player wagers 16 and wins 16*1.5 = 24
deck.set_cards(cards_2 + cards_1)
resolve_environment(player, deck, 8, 1, 0.001)
assert player.get_bankroll() == 101
assert deck.get_count() == 4
assert player.calculate_wager(deck.get_true_count()) == 16
resolve_environment(player, deck, 8, 1, 0.001)
assert player.get_bankroll() == 125
def test_true_count_and_wager():
wager_amts = [1, 1, 1, 1, 1, 1, 4, 8, 16]
ranges = [-3, -2, -1, 0, 0, 1, 2, 3]
betting_policy = (wager_amts, ranges)
player = Player(
bankroll=100,
hard_policy=hard_policy,
soft_policy=soft_policy,
split_policy=split_policy,
betting_policy=betting_policy,
)
deck = Deck()
deck.set_cards([
Cards.TEN,
Cards.QUEEN,
Cards.KING,
Cards.TEN,
Cards.KING,
Cards.ACE,
Cards.TEN,
Cards.QUEEN,
Cards.QUEEN,
Cards.JACK,
Cards.TEN,
])
assert deck.get_num_decks() == 1
assert deck.get_cards_left() == 11
for i in range(10):
deck.deal()
assert deck.get_true_count() == -10 / (1 / 52)
assert player.calculate_wager(deck.get_true_count()) == 1
deck = Deck()
deck.set_cards(
[Cards.FOUR, Cards.TWO, Cards.SEVEN, Cards.TEN, Cards.NINE, Cards.TWO])
for i in range(5):
deck.deal()
assert deck.get_true_count() == 1 / (1 / 52)
assert player.calculate_wager(deck.get_true_count()) == 16
deck = Deck()
deck.set_cards(
[Cards.FOUR, Cards.TWO, Cards.SEVEN, Cards.TEN, Cards.NINE, Cards.TWO
] * 100)
for i in range(6 * 50):
deck.deal()
assert deck.get_true_count() == (2 * 50) / ((600 - 6 * 50) / 52)
assert player.calculate_wager(deck.get_true_count()) == 16
deck = Deck()
deck.set_cards([
Cards.TWO,
Cards.THREE,
Cards.FOUR,
Cards.FIVE,
Cards.SIX,
Cards.SEVEN,
Cards.EIGHT,
Cards.NINE,
Cards.TEN,
Cards.JACK,
Cards.QUEEN,
Cards.KING,
Cards.ACE,
] * 100)
for i in range(13 * 69):
deck.deal()
assert deck.get_true_count() == 0
assert player.calculate_wager(deck.get_true_count()) == 1
deck = Deck()
deck.set_cards([Cards.FOUR, Cards.TWO, Cards.FOUR, Cards.FOUR] * 13)
# +1
deck.deal()
assert deck.get_true_count() == 1 / (51 / 52)
assert player.calculate_wager(deck.get_true_count()) == 4
# +2
deck.deal()
assert deck.get_true_count() == 2 / (50 / 52)
assert player.calculate_wager(deck.get_true_count()) == 8
# +3
deck.deal()
assert deck.get_true_count() == 3 / (49 / 52)
assert player.calculate_wager(deck.get_true_count()) == 16
deck = Deck()
deck.set_cards([Cards.QUEEN, Cards.JACK, Cards.ACE, Cards.TEN] * 13)
wager_amts = [-16, -8, -4, -1, 0, 1, 4, 8, 16]
ranges = [-3, -2, -1, 0, 0, 1, 2, 3]
betting_policy_alt = (wager_amts, ranges)
player = Player(
bankroll=100,
hard_policy=hard_policy,
soft_policy=soft_policy,
split_policy=split_policy,
betting_policy=betting_policy_alt,
)
assert player.calculate_wager(deck.get_true_count()) == 0
# +1
deck.deal()
assert deck.get_true_count() == -1 / (51 / 52)
assert player.calculate_wager(deck.get_true_count()) == -4
# +2
deck.deal()
assert deck.get_true_count() == -2 / (50 / 52)
assert player.calculate_wager(deck.get_true_count()) == -8
# +3
deck.deal()
assert deck.get_true_count() == -3 / (49 / 52)
assert player.calculate_wager(deck.get_true_count()) == -16
