def test_winner_incase_of_two_pair_harnds(self):
player_one = Hand('9D 9H 6C 8S 8C') # (9, 9),(8, 8) => has high points
player_two = Hand('2D 2H 6C 8S 8C') # (2, 2),(8, 8)
self.assertTrue(
player_one.rank == player_two.rank and
player_two.get_points() < player_one.get_points()
)
def test_winner_incase_of_full_house(self):
player_one = Hand('KH KC KD TC TD') #(K, K, K) => has high points
player_two = Hand('QH QC QD TC TD') #(Q, Q, Q)
self.assertTrue(
player_one.rank == player_two.rank and
player_one.get_points() > player_two.get_points()
)
def test_winner_incase_of_three_of_a_kind(self):
player_one = Hand('8S 8D 8C 2H 5C') #(8, 8, 8) => has high value
player_two = Hand('AS AD AC 2H 5C') #(A, A, A)
self.assertTrue(
player_one.rank == player_two.rank and
player_one.get_points() > player_two.get_points()
)
def test_winner_incase_of_four_of_a_kind(self):
player_one = Hand('9S 9H 9C 9D TC') # (9,9,9,9) => has high points
player_two = Hand('3S 3H 3C 3D TC') # (3,3,3,3)
self.assertTrue(
player_one.rank == player_two.rank and
player_one.get_points() > player_two.get_points()
)
def test_draw_condition(self):
player_one = Hand('9S 9H 9C 9D TC') # (9,9,9,9) => same value
player_two = Hand('9S 9H 9C 9D TC') # (9,9,9,9) => same value
self.assertTrue(
player_one.rank == player_two.rank and
player_one.get_points() == player_two.get_points()
)
def test_winner_incase_of_one_pair_hands(self):
player_one = Hand('5H 5C 6S 7S KD') # 5, 5
player_two = Hand('2C 3S 8S 8D TD') # 8, 8 => This hand has High Points as per Poker Rules
self.assertTrue(
player_one.rank == player_two.rank and
player_two.get_points() > player_one.get_points()
)
def test_cmp_method(self):
high_card = Hand('QS 3D 7H TC 6D')
straight = Hand('4D 5D 6D 7H 8D')
self.assertTrue(high_card < straight)
self.assertTrue(straight > high_card)
dummy = Hand('QS 3D 7H TC 6D')
self.assertTrue(dummy == high_card)
self.assertFalse(dummy == straight)
self.assertTrue(dummy != straight)
def test_winner_incase_of_one_pair_hands(self):
player_one = Hand('5H 5C 6S 7S KD') # 5, 5
player_two = Hand(
'2C 3S 8S 8D TD'
) # 8, 8 => This hand has High Points as per Poker Rules
self.assertTrue(player_one.rank == player_two.rank
and player_two.get_points() > player_one.get_points())
def test_sorting_harnds(self):
expected = [('TH JH QH KH AH', "Royal Flush", 10),
('8D 9D TD JD QD', "Straight Flush", 9),
('9S 9H 9C 9D TC', "Four Of A Kind", 8),
('KH KC KD TC TD', "Full House", 7),
('2D 6D 8D JD QD', "Flush", 6),
('5D 6S 7C 8H 9H', "Straight", 5),
('8S 8D 8C 2H 5C', "Three Of A Kind", 4),
('9H 9D 5S 5C 3D', "Two Pair", 3),
('6D 6C 8S 5H TD', "One Pair", 2),
('QS 3D 7H TC 6D', "High Card", 1)]
hands = []
for hand in expected:
hands.append(Hand(hand[0]))
hands = shuffle(hands)
qsort(hands, 0, len(hands) - 1)
for exp, card in zip(expected, hands):
self.assertEqual(exp[0], card.cards_repr())
self.assertEqual(exp[1], card.get_category())
self.assertEqual(exp[2], card.rank)
def test_straight(self):
h = Hand('AH 2D 3C 4C 5D')
self.assertTrue(h.is_straight())
def test_flush(self):
h = Hand('QC TC 7C 6C 4C')
self.assertTrue(h.is_flush())
def test_get_category(self):
for d in self.regression_data:
s, exp = d
h = Hand(s)
self.assertEqual(exp, h.get_category())
def test_three_of_a_kind(self):
h = Hand('2H 2D 2C KC QD')
self.assertTrue(h.is_three_of_a_kind())
def test_ranks(self):
for h, n, r in self.ordered_data:
h = Hand(h)
self.assertEqual(h.rank, r)
def test_straight(self):
h = Hand('AH 2D 3C 4C 5D')
self.assertTrue(h.is_straight())
def test_winner_incase_of_two_pair_harnds(self):
player_one = Hand('9D 9H 6C 8S 8C') # (9, 9),(8, 8) => has high points
player_two = Hand('2D 2H 6C 8S 8C') # (2, 2),(8, 8)
self.assertTrue(player_one.rank == player_two.rank
and player_two.get_points() < player_one.get_points())
def test_is_highcard(self):
h = Hand('2H 5H 7D 8C 9S')
self.assertTrue(h.is_highcard())
def test_flush(self):
h = Hand('QC TC 7C 6C 4C')
self.assertTrue(h.is_flush())
def test_straight_flush(self):
h = Hand('TH JH QH KH AH')
self.assertTrue(h.is_straight_flush())
def test_full_house(self):
h = Hand('2H 3H 2D 3C 3D')
self.assertTrue(h.is_fullhouse())
def test_four_of_a_kind(self):
h = Hand('2H 7H 7D 7C 7S')
self.assertTrue(h.is_four_of_a_kind())
def test_is_highcard(self):
h = Hand('2H 5H 7D 8C 9S')
self.assertTrue(h.is_highcard())
def test_full_house(self):
h = Hand('2H 3H 2D 3C 3D')
self.assertTrue(h.is_fullhouse())
def test_winner_incase_of_full_house(self):
player_one = Hand('KH KC KD TC TD') #(K, K, K) => has high points
player_two = Hand('QH QC QD TC TD') #(Q, Q, Q)
self.assertTrue(player_one.rank == player_two.rank
and player_one.get_points() > player_two.get_points())
def test_four_of_a_kind(self):
h = Hand('2H 7H 7D 7C 7S')
self.assertTrue(h.is_four_of_a_kind())
def test_draw_condition(self):
player_one = Hand('9S 9H 9C 9D TC') # (9,9,9,9) => same value
player_two = Hand('9S 9H 9C 9D TC') # (9,9,9,9) => same value
self.assertTrue(player_one.rank == player_two.rank
and player_one.get_points() == player_two.get_points())
def test_get_category(self):
for d in self.regression_data:
s, exp = d
h = Hand(s)
self.assertEqual(exp, h.get_category())
import argparse
import logging
from lib.poker import (Hand)
logging.basicConfig(level=logging.DEBUG)
logger = logging.getLogger(__name__)
if __name__ == "__main__":
parser = argparse.ArgumentParser(
description='Calculate Category of A Poker Hand')
parser.add_argument(
'--hand', help='flag to pass poker hand string to the Hand Class')
args = parser.parse_args()
if args.hand:
hand = Hand(args.hand)
logging.info("Details: " + hand.__str__())
else:
logging.info("Please pass all the positional Arguments and try again.")
def test_to_string_method(self):
h = Hand('4D 5D 6D 7H 8D')
self.assertEqual("<Hand ['4D 5D 6D 7H 8D'], 'Straight', 5>",
h.__str__())
def test_three_of_a_kind(self):
h = Hand('2H 2D 2C KC QD')
self.assertTrue(h.is_three_of_a_kind())
def test_two_pair(self):
h = Hand('2H 7H 2D 3C 3D')
self.assertTrue(h.is_two_pair())
def test_to_string_method(self):
h = Hand('4D 5D 6D 7H 8D')
self.assertEqual(
"<Hand ['4D 5D 6D 7H 8D'], 'Straight', 5>",
h.__str__()
)
def test_winner_incase_of_three_of_a_kind(self):
player_one = Hand('8S 8D 8C 2H 5C') #(8, 8, 8) => has high value
player_two = Hand('AS AD AC 2H 5C') #(A, A, A)
self.assertTrue(player_one.rank == player_two.rank
and player_one.get_points() > player_two.get_points())
def test_Hand_constructor_with_string_inputs(self):
for input_exp in self.input_and_expectations:
inp, expected, typ = input_exp
h = Hand(inp)
for c, e in zip(h.cards, expected):
self.assertTrue(c.is_same_card(e))
def test_winner_incase_of_four_of_a_kind(self):
player_one = Hand('9S 9H 9C 9D TC') # (9,9,9,9) => has high points
player_two = Hand('3S 3H 3C 3D TC') # (3,3,3,3)
self.assertTrue(player_one.rank == player_two.rank
and player_one.get_points() > player_two.get_points())
def test_straight_flush(self):
h = Hand('TH JH QH KH AH')
self.assertTrue(h.is_straight_flush())
def test_two_pair(self):
h = Hand('2H 7H 2D 3C 3D')
self.assertTrue(h.is_two_pair())
def test_one_pair(self):
h = Hand('4H 4S KS 5D TS')
self.assertTrue(h.is_one_pair())
import argparse
import logging
from lib.poker import (
Hand
)
logging.basicConfig(level=logging.DEBUG)
logger = logging.getLogger(__name__)
if __name__ == "__main__":
parser = argparse.ArgumentParser(description='Calculate Category of A Poker Hand')
parser.add_argument('--hand', help='flag to pass poker hand string to the Hand Class')
args = parser.parse_args()
if args.hand :
hand = Hand(args.hand)
logging.info("Details: " + hand.__str__())
else:
logging.info("Please pass all the positional Arguments and try again.")
def test_one_pair(self):
h = Hand('4H 4S KS 5D TS')
self.assertTrue(h.is_one_pair())
