def test_get_outcome():
wheel = Wheel()
bb = BinBuilder()
bb.generate_even_money_bets(wheel)
bb.generate_column_bets(wheel)
assert Outcome('High', 1) == wheel.get_outcome('High')
assert Outcome('Low', 1) == wheel.get_outcome('Low')
assert Outcome('Red', 1) == wheel.get_outcome('Red')
assert Outcome('Black', 1) == wheel.get_outcome('Black')
assert Outcome('Column 1', 1) == wheel.get_outcome('Column 1')
assert Outcome('Column 2', 1) == wheel.get_outcome('Column 2')
assert Outcome('Column 3', 1) == wheel.get_outcome('Column 3')
def test_even_money_bets():
wheel = Wheel()
bb = BinBuilder()
bb.generate_even_money_bets(wheel)
# Red-Black
reds = {1, 3, 5, 7, 9, 12, 14, 16, 18, 19, 21, 23, 25, 27, 30, 32, 34, 36}
blacks = set(range(1, 37)) - reds
red_out = Outcome('Red', 1)
black_out = Outcome('Black', 1)
# Even-Odd
even_out = Outcome('Even', 1)
odd_out = Outcome('Odd', 1)
# Hi - Lo
hi_out = Outcome('High', 1)
lo_out = Outcome('Low', 1)
for i, bin in enumerate(wheel.bins):
if i == 0 or i == 37:
assert 0 == len(bin)
elif i < 19:
assert lo_out in bin
else:
assert hi_out in bin
if i == 0 or i == 37:
assert 0 == len(bin)
elif i % 2 == 0:
assert even_out in bin
else:
assert odd_out in bin
if i == 0 or i == 37:
assert 0 == len(bin)
elif i in reds:
assert red_out in bin
else:
assert black_out in bin