def calculate_implied_odds(self, least_fund, call_value, pot_value, t): # effective stack = opponent fund before his bet / according to pokemon, the least stack before bet (it doesnt matter who has the stack, we or one of the opponent) # call value = call value or opponent's bet # pot_value = pot value before opponent's bet oc = Outs_Calculator() outs = oc.evaluate_hands(self, t.myCards, t.cardsOnTable) pot_odds = (pot_value + call_value) / call_value if t.gameStage == 'Flop': hitting_odds = (1 / (outs / 47)) - 1 else: hitting_odds = (1 / (outs / 46)) - 1 odds_difference = hitting_odds - pot_odds ev_difference = call_value * odds_difference remaining_stack = least_fund - call_value pot_on_next_street = pot_value + (call_value * 2) return ev_difference, remaining_stack, pot_on_next_street
def test_inside_straight_and_two_overcards_draw(self): oc = Outs_Calculator() my_cards = ['AC', 'KD'] cards_on_table = ['QH', 'TC', '2S'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 4)
def test_inside_straight_and_flush_draw(self): oc = Outs_Calculator() my_cards = ['AD', 'KD'] cards_on_table = ['JD', 'QS', '3D'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 12)
def test_open_ended_straight_draw(self): oc = Outs_Calculator() my_cards = ['9C', '8D'] cards_on_table = ['7C', 'TH', '3S'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 8)
def test_flush_draw(self): oc = Outs_Calculator() my_cards = ['KS', 'JS'] cards_on_table = ['AS', '6S', '8D'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 9)
def test_full_house(self): oc = Outs_Calculator() my_cards = ['6S', '6D'] cards_on_table = ['JS', 'JH', 'JD'] self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 0)
def test_full_house_or_4_kind_draw(self): oc = Outs_Calculator() my_cards = ['6C', '6D'] cards_on_table = ['6S', '7H', 'JC'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 0)
def test_game_number(self): oc = Outs_Calculator() my_cards = ['KH', 'KC'] cards_on_table = ['QD', '4H', '9S'] self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 0)
def test_no_pair_to_pair(self): oc = Outs_Calculator() my_cards = ['9C', '7D'] cards_on_table = ['2S', '3D', 'JC'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 0)
def test_two_pair_to_full_house(self): oc = Outs_Calculator() my_cards = ['KH', 'QS'] cards_on_table = ['KC', 'QD', '5S'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 0)
def test__one_pair_to_two_pair_of_set(self): oc = Outs_Calculator() my_cards = ['AC', 'QD'] cards_on_table = ['AD', 'TC', '3S'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 0)
def test_inside_straight_draw(self): oc = Outs_Calculator() my_cards = ['JH', '9C'] cards_on_table = ['QS', '8D', '4C'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 4)
def test_one_overcard(self): oc = Outs_Calculator() my_cards = ['AS', '8D'] cards_on_table = ['JC', '5S', '2D'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 0)
def test_pocket_pair_to_set(self): oc = Outs_Calculator() my_cards = ['KH', 'KC'] cards_on_table = ['QD', '4H', '9S'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 0)
def test_two_overcards_to_over_pair(self): oc = Outs_Calculator() my_cards = ['AD', 'JH'] cards_on_table = ['TC', '8D', '2S'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 0)
def test_open_straight_and_flush_draw(self): oc = Outs_Calculator() my_cards = ['KH', 'QH'] cards_on_table = ['TH', 'JS', '4H'] oc.evaluate_hands(my_cards, cards_on_table, oc) self.assertEqual(oc.evaluate_hands(my_cards, cards_on_table, oc), 15)