from roulette import init_bet, place_bet, interpret_bet

if __name__ == "__main__":


    bet = init_bet()
    #bet = place_bet(bet, 21, 20)
    print(bet[21])
    #bet = interpret_bet("red", 36, bet)
    #bet = interpret_bet("25-36", 1, bet)
    #bet = interpret_bet("street-1", 3, bet)
    #bet = interpret_bet("street-10", 3, bet)
    #bet = interpret_bet("col-1", 12, bet)

    # james bond
    bet = place_bet(bet, 0, 1)
    for n in range(13,19):
        bet = place_bet(bet, n, 5)
    bet = interpret_bet("19-36", 14, bet)


    #print(bet[21])
    from statistics import stdev, mean
    def expected(bet) -> float:
        bets = list(bet.values())
        cond_bets = filter(lambda x: x > 0, bets)
        amt = sum(bets)
        payout = amt*36/38
        print(f"bet: {amt:.2f}, expected: {payout:.2f}: {payout/amt:2.4f} with std {stdev(bets*36)} mean win of {36*mean(cond_bets)} {sum(filter(lambda x: x > 0, bets))}/38 times.")
        return payout

    print("bond")
    print(bet)
    print(expected(bet))
    print()
    print("unknown")
    bet = init_bet()
    bet = interpret_bet("1-12", 15, bet)
    bet = interpret_bet("13-24", 15, bet)
    bet = interpret_bet("corner-26-27-29-30", 5, bet)
    bet = interpret_bet("corner-32-33-35-36", 5, bet)
    print(bet)
    print(expected(bet))
    print()
    print("singles")
    bet = init_bet()
    bet = place_bet(bet, 21, 40)
    #bet = place_bet(bet, 1, 1)
    print(expected(bet))
    print()
    print("stupid")
    bet = init_bet()
    bet = interpret_bet("odd", 18, bet)
    bet = interpret_bet("even", 18, bet)
    #bet = place_bet(bet, -1, 1)
    #bet = place_bet(bet, 0, 1)
    print(expected(bet))