reply on: deleted by author \ stacker news ~bitcoin

0 sats \ 0 replies \ @BubeniCZECH OP 7 Mar 2023 \ on: deleted by author bitcoin

Again, I've included the Python code where you can simulate the game. The variables are set so that you can't lose more than 200 chips, but I've also programmed a progression of bets. By simply changing the win/loss limits, you can simulate longer games, with different bet progressions. I don't recommend this too much, though. Not everyone has Bond's luck.

At the same time, I refactored the code for Martingale so that the cycle is not driven by the number of rounds, but by the limits on losing and winning, as it is here. I found that this stretched the code quite a bit and made some lines repetitive, so I may redo this in the future using some function.

import random

# Player variables
# =======================================
budget = 100_000
win_limit = 80
loss_limit = 201

highs_bet = 140
double_street_bet = 50
zero_bet = 10
progresion = 1
# =======================================

# Game simulation
actual_budget = budget
bet = highs_bet + double_street_bet + zero_bet
actual_highs_bet = highs_bet
actual_double_street_bet = double_street_bet
actual_zero_bet = zero_bet

highs = [i for i in range(19, 37)]
double_street = [13, 14, 15, 16, 17, 18]
spin = 1
game_limits = True
while game_limits:
    bet = actual_highs_bet + actual_double_street_bet + actual_zero_bet
    if actual_budget - bet <= budget - loss_limit:
        break 
    fallen_number = random.randint(0, 36)
    print(f"Your bet is {actual_highs_bet + actual_double_street_bet + actual_zero_bet}")
    print(f"{spin}. spin, the number {fallen_number} fell.")
    spin += 1
    if fallen_number in highs:
        win = actual_highs_bet - actual_double_street_bet - actual_zero_bet
        print(f"You win {win}!")
        actual_budget += win
        print(f"Your budget is {actual_budget}")
        actual_highs_bet = highs_bet
        actual_double_street_bet = double_street_bet
        actual_zero_bet = zero_bet
    elif fallen_number in double_street:
        win = actual_double_street_bet * 5 - actual_highs_bet - actual_zero_bet
        print(f"You win {win}!")
        actual_budget += win
        print(f"Your budget is {actual_budget}")
        actual_highs_bet = highs_bet
        actual_double_street_bet = double_street_bet
        actual_zero_bet = zero_bet
    elif fallen_number == 0:
        win = actual_zero_bet * 35 - actual_highs_bet - actual_double_street_bet
        print(f"You win {win}!")
        actual_budget += win
        print(f"Your budget is {actual_budget}")
        actual_highs_bet = highs_bet
        actual_double_street_bet = double_street_bet
        actual_zero_bet = zero_bet
    else:
        print(f"You loose {actual_highs_bet + actual_double_street_bet + actual_zero_bet}")
        actual_budget -= actual_highs_bet + actual_double_street_bet + actual_zero_bet
        print(f"Your budget is {actual_budget}")
        actual_highs_bet = actual_highs_bet * progresion
        actual_double_street_bet = actual_double_street_bet * progresion
        actual_zero_bet = actual_zero_bet * progresion
    print()
    if actual_budget >= budget + win_limit or actual_budget - bet < budget - loss_limit:
        game_limits = False
print("====================================")        
print(f"you have reached your limit")
print(f"Your budget is {actual_budget}.")
print("====================================")