beursspel-sjo/crypto.py

import random
import matplotlib.pyplot as plt
from colorama import Fore, Style, init
init(autoreset=True)

import os
os.system('cls' if os.name == 'nt' else 'clear')

cryptos = {
    "Bitcoin": {"price": 1427.3, "sensitivity": 0.4, "volatility": 0.19, "price_history": [100.0]},
    "Ethereum": {"price": 690.1, "sensitivity": 0.6, "volatility": 0.24, "price_history": [50.0]},
    "Dodge": {"price": 42.9, "sensitivity": 0.9, "volatility": 0.4, "price_history": [50.0]},
}

users = {}

def save_graph(coin):
    plt.clf()
    plt.plot(cryptos[coin]["price_history"], label=f"{coin} Price")
    plt.title(f"{coin} Price Over Time")
    plt.xlabel("Turn")
    plt.ylabel("Price")
    plt.legend()
    plt.grid(True)
    filename = f"{coin.lower()}_price.png"
    plt.savefig(filename)
    print(Fore.MAGENTA + f"📊 Graph saved as '{filename}'")

def total_value(user):
    return user["cash"] + sum(user["coins"].get(c, 0.0) * cryptos[c]["price"] for c in cryptos)

# Intro
print(Fore.YELLOW + Style.BRIGHT + "💰 Welcome to Crypto Kids Multiplayer — Multi-Coin Edition!")
print(Style.DIM + "🎮 Register users, then trade Bitcoin, Ethereum, or Dodge in turn-based rounds.\n")

# Register Users
while True:
    user_input = input(Fore.CYAN + "Enter username to register/login (or type 'start' to begin): ").strip()
    if user_input.lower() == "start":
        if not users:
            print(Fore.RED + "⚠️ Add at least one user to begin.")
            continue
        break
    if user_input not in users:
        users[user_input] = {"cash": 1000.0, "coins": {coin: 0.0 for coin in cryptos}}
        print(Fore.GREEN + f"🆕 User '{user_input}' registered with $1000 cash.")
    else:
        print(Fore.BLUE + f"👋 Welcome back, {user_input}!")

print(Fore.YELLOW + "\n🎬 Game started! Trade using +amount to buy or -amount to sell. Type 'done' to end your turn, or 'exit' to quit.\n")

# Main Game Loop
while True:
    print(Fore.LIGHTMAGENTA_EX + "\n🔀 NEW ROUND — Set the trading order")
    print(Fore.CYAN + f"Registered players: {', '.join(users.keys())}")
    while True:
        turn_input = input(Fore.YELLOW + "Enter usernames in desired order (space-separated): ").strip().split()
        if set(turn_input) == set(users.keys()):
            turn_order = turn_input
            break
        else:
            print(Fore.RED + "⚠️ Invalid order. Must include all registered users.")

    for username in turn_order:
        user = users[username]
        print(Fore.LIGHTWHITE_EX + "\n📊 CURRENT STANDINGS")
        print("="*40)
        for uname, data in users.items():
            print(Fore.LIGHTCYAN_EX + f"👤 {uname}:")
            print(f"   💼 Cash: {Fore.GREEN}${data['cash']:.2f}")
            for c in cryptos:
                print(f"   🪙 {c}: {data['coins'][c]:.2f}")
            print(f"   📈 Total Value: {Fore.CYAN}${total_value(data):.2f}\n")

        print(Fore.LIGHTWHITE_EX + "\n" + "="*40)
        print(Fore.CYAN + f"🔁 {username.upper()}'S TURN")
        print(Fore.LIGHTWHITE_EX + "="*40)

        coin_trades = []

        while True:
            print(f"💼 Cash: {Fore.GREEN}${user['cash']:.2f}")
            print("🪙 Your Holdings:")
            for coin in cryptos:
                print(f"  - {Fore.YELLOW}{coin}: {user['coins'][coin]:.2f}")

            coin = input(Fore.CYAN + f"\nSelect a coin to trade {list(cryptos.keys())} (or type 'done' to finish turn): ").strip()
            if coin.lower() == "done":
                break
            if coin.lower() == "exit":
                print(Fore.YELLOW + "\n📉 GAME OVER — FINAL BALANCES:\n")
                for uname, data in users.items():
                    print(Fore.LIGHTWHITE_EX + f"👤 {uname}:")
                    print(f"   💼 Cash: {Fore.GREEN}${data['cash']:.2f}")
                    for c in cryptos:
                        print(f"   🪙 {c}: {Fore.YELLOW}{data['coins'][c]:.2f}")
                    print(f"   📈 Total Value: {Fore.CYAN}${total_value(data):.2f}\n")
                exit()
            if coin not in cryptos:
                print(Fore.RED + "⚠️ Invalid coin selection.")
                continue

            price = cryptos[coin]["price"]
            print(Fore.LIGHTBLUE_EX + f"\n📈 {coin} Price: ${price:.2f}")

            user_input = input(Fore.CYAN + f"Enter trade amount for {coin} (e.g., +10 or -5): ").strip()
            try:
                trade_amount = int(user_input)
            except ValueError:
                print(Fore.RED + "⚠️ Invalid input format. Use +10 or -5.")
                continue

            if trade_amount > 0:
                cost = trade_amount * price
                if user["cash"] >= cost:
                    user["cash"] -= cost
                    user["coins"][coin] += trade_amount
                    print(Fore.GREEN + f"✅ Bought {trade_amount} {coin} for ${cost:.2f}")
                    coin_trades.append((coin, trade_amount))
                else:
                    print(Fore.RED + "❌ Not enough cash.")
                    continue

            elif trade_amount < 0:
                sell_amt = -trade_amount
                if user["coins"][coin] >= sell_amt:
                    user["coins"][coin] -= sell_amt
                    user["cash"] += sell_amt * price
                    print(Fore.GREEN + f"✅ Sold {sell_amt} {coin} for ${sell_amt * price:.2f}")
                    coin_trades.append((coin, trade_amount))
                else:
                    print(Fore.RED + "❌ Not enough coins.")
                    continue

        # Update price for each coin traded this turn
        updated_coins = set()
        for coin, trade_amount in coin_trades:
            if coin in updated_coins:
                continue  # Avoid multiple updates per coin per turn
            crypto = cryptos[coin]
            price_change = trade_amount * crypto["sensitivity"]
            randomness = random.uniform(-crypto["volatility"], crypto["volatility"]) * crypto["price"]
            new_price = crypto["price"] + price_change + randomness
            crypto["price"] = max(1.0, new_price)
            crypto["price_history"].append(crypto["price"])
            save_graph(coin)
            updated_coins.add(coin)