Datasets:

ysn-rfd
/

text-dataset-tiny-code-script-py-format

	import os
	import sys
	import json
	import random
	import time
	import math
	import pickle
	import importlib
	from enum import Enum
	from dataclasses import dataclass, field
	from typing import Dict, List, Optional, Tuple, Callable, Any, Union
	from abc import ABC, abstractmethod

	# Color codes for terminal output
	class Colors:
	RESET = '\033[0m'
	BLACK = '\033[30m'
	RED = '\033[31m'
	GREEN = '\033[32m'
	YELLOW = '\033[33m'
	BLUE = '\033[34m'
	MAGENTA = '\033[35m'
	CYAN = '\033[36m'
	WHITE = '\033[37m'
	BRIGHT_BLACK = '\033[90m'
	BRIGHT_RED = '\033[91m'
	BRIGHT_GREEN = '\033[92m'
	BRIGHT_YELLOW = '\033[93m'
	BRIGHT_BLUE = '\033[94m'
	BRIGHT_MAGENTA = '\033[95m'
	BRIGHT_CYAN = '\033[96m'
	BRIGHT_WHITE = '\033[97m'
	BG_BLACK = '\033[40m'
	BG_RED = '\033[41m'
	BG_GREEN = '\033[42m'
	BG_YELLOW = '\033[43m'
	BG_BLUE = '\033[44m'
	BG_MAGENTA = '\033[45m'
	BG_CYAN = '\033[46m'
	BG_WHITE = '\033[47m'

	# Game Enums
	class Direction(Enum):
	NORTH = "north"
	SOUTH = "south"
	EAST = "east"
	WEST = "west"
	NORTHEAST = "northeast"
	NORTHWEST = "northwest"
	SOUTHEAST = "southeast"
	SOUTHWEST = "southwest"
	UP = "up"
	DOWN = "down"

	class SkillType(Enum):
	COMBAT = "combat"
	MAGIC = "magic"
	STEALTH = "stealth"
	CRAFTING = "crafting"
	SOCIAL = "social"
	SURVIVAL = "survival"

	class Weather(Enum):
	CLEAR = "clear"
	CLOUDY = "cloudy"
	RAINY = "rainy"
	STORMY = "stormy"
	SNOWY = "snowy"
	FOGGY = "foggy"

	class TimeOfDay(Enum):
	DAWN = "dawn"
	MORNING = "morning"
	NOON = "noon"
	AFTERNOON = "afternoon"
	DUSK = "dusk"
	EVENING = "evening"
	NIGHT = "night"
	MIDNIGHT = "midnight"

	# Data Classes
	@dataclass
	class Position:
	x: int = 0
	y: int = 0
	z: int = 0

	@dataclass
	class Stats:
	health: int = 100
	max_health: int = 100
	mana: int = 50
	max_mana: int = 50
	stamina: int = 100
	max_stamina: int = 100
	hunger: int = 100
	max_hunger: int = 100
	thirst: int = 100
	max_thirst: int = 100
	experience: int = 0
	level: int = 1

	def level_up(self):
	self.level += 1
	self.experience = 0
	self.max_health += 10
	self.health = self.max_health
	self.max_mana += 5
	self.mana = self.max_mana
	self.max_stamina += 5
	self.stamina = self.max_stamina

	@dataclass
	class Skill:
	name: str
	type: SkillType
	level: int = 1
	experience: int = 0
	max_experience: int = 100

	def gain_experience(self, amount: int):
	self.experience += amount
	while self.experience >= self.max_experience:
	self.experience -= self.max_experience
	self.level += 1
	self.max_experience = int(self.max_experience * 1.5)
	return True # Leveled up
	return False

	@dataclass
	class Item:
	id: str
	name: str
	description: str
	value: int = 0
	weight: float = 1.0
	consumable: bool = False
	equippable: bool = False
	stackable: bool = True
	max_stack: int = 99
	effects: Dict[str, Any] = field(default_factory=dict)

	def use(self, player):
	if self.consumable:
	for stat, value in self.effects.items():
	if hasattr(player.stats, stat):
	current = getattr(player.stats, stat)
	max_stat = getattr(player.stats, f"max_{stat}")
	setattr(player.stats, stat, min(max_stat, current + value))
	return True
	return False

	@dataclass
	class Weapon(Item):
	damage: int = 10
	damage_type: str = "physical"
	two_handed: bool = False
	range: int = 1

	def __post_init__(self):
	self.equippable = True

	@dataclass
	class Armor(Item):
	defense: int = 5
	armor_type: str = "light"
	slot: str = "chest"

	def __post_init__(self):
	self.equippable = True

	@dataclass
	class Quest:
	id: str
	name: str
	description: str
	objectives: List[str]
	rewards: Dict[str, Any]
	completed: bool = False
	active: bool = False

	@dataclass
	class NPC:
	id: str
	name: str
	description: str
	dialogue: Dict[str, List[str]]
	location_id: str
	hostile: bool = False
	stats: Stats = field(default_factory=Stats)
	inventory: List[Item] = field(default_factory=list)
	quests: List[Quest] = field(default_factory=list)
	faction: str = "neutral"

	def talk(self, topic="greeting"):
	if topic in self.dialogue:
	return random.choice(self.dialogue[topic])
	return "I don't have anything to say about that."

	@dataclass
	class Location:
	id: str
	name: str
	description: str
	exits: Dict[Direction, str] = field(default_factory=dict)
	items: List[Item] = field(default_factory=list)
	npcs: List[NPC] = field(default_factory=list)
	discovered: bool = False
	indoor: bool = False
	position: Position = field(default_factory=Position)

	def add_exit(self, direction: Direction, location_id: str):
	self.exits[direction] = location_id

	def add_item(self, item: Item):
	self.items.append(item)

	def add_npc(self, npc: NPC):
	self.npcs.append(npc)

	def remove_item(self, item: Item):
	if item in self.items:
	self.items.remove(item)
	return True
	return False

	def remove_npc(self, npc: NPC):
	if npc in self.npcs:
	self.npcs.remove(npc)
	return True
	return False

	# Plugin System
	class Plugin(ABC):
	@abstractmethod
	def initialize(self, game):
	pass

	@abstractmethod
	def get_commands(self) -> Dict[str, Callable]:
	return {}

	# Game Classes
	class GameWorld:
	def __init__(self):
	self.locations: Dict[str, Location] = {}
	self.global_time: int = 0 # Game time in minutes
	self.weather: Weather = Weather.CLEAR
	self.time_of_day: TimeOfDay = TimeOfDay.MORNING
	self.day_count: int = 1

	def add_location(self, location: Location):
	self.locations[location.id] = location

	def get_location(self, location_id: str) -> Optional[Location]:
	return self.locations.get(location_id)

	def update_time(self, minutes: int = 1):
	self.global_time += minutes
	# Update day count (each day is 1440 minutes)
	self.day_count = (self.global_time // 1440) + 1

	# Update time of day (each period is 3 hours = 180 minutes)
	time_periods = list(TimeOfDay)
	period_index = (self.global_time // 180) % len(time_periods)
	self.time_of_day = time_periods[period_index]

	# Randomly change weather
	if random.random() < 0.05: # 5% chance of weather change
	self.weather = random.choice(list(Weather))

	def get_time_description(self) -> str:
	return f"Day {self.day_count}, {self.time_of_day.value.capitalize()}, Weather: {self.weather.value.capitalize()}"

	class Player:
	def __init__(self, name: str):
	self.name: str = name
	self.location_id: str = "start"
	self.stats: Stats = Stats()
	self.inventory: Dict[str, Tuple[Item, int]] = {} # item_id: (item, quantity)
	self.equipped: Dict[str, Item] = {} # slot: item
	self.skills: Dict[str, Skill] = {
	"combat": Skill("Combat", SkillType.COMBAT),
	"magic": Skill("Magic", SkillType.MAGIC),
	"stealth": Skill("Stealth", SkillType.STEALTH),
	"crafting": Skill("Crafting", SkillType.CRAFTING),
	"social": Skill("Social", SkillType.SOCIAL),
	"survival": Skill("Survival", SkillType.SURVIVAL)
	}
	self.quests: List[Quest] = []
	self.known_locations: List[str] = ["start"]
	self.faction_reputation: Dict[str, int] = {}

	def add_item(self, item: Item, quantity: int = 1):
	if item.id in self.inventory:
	current_item, current_quantity = self.inventory[item.id]
	if item.stackable:
	new_quantity = min(current_quantity + quantity, item.max_stack)
	self.inventory[item.id] = (current_item, new_quantity)
	return quantity - (new_quantity - current_quantity) # Return leftover quantity
	else:
	# For non-stackable items, add multiple entries
	for _ in range(quantity):
	self.inventory[f"{item.id}_{len(self.inventory)}"] = (item, 1)
	return 0
	else:
	self.inventory[item.id] = (item, quantity)
	return 0

	def remove_item(self, item_id: str, quantity: int = 1) -> bool:
	if item_id in self.inventory:
	item, current_quantity = self.inventory[item_id]
	if current_quantity <= quantity:
	del self.inventory[item_id]
	return True
	else:
	self.inventory[item_id] = (item, current_quantity - quantity)
	return True
	return False

	def has_item(self, item_id: str, quantity: int = 1) -> bool:
	if item_id in self.inventory:
	_, current_quantity = self.inventory[item_id]
	return current_quantity >= quantity
	return False

	def equip_item(self, item_id: str) -> bool:
	if item_id in self.inventory:
	item, _ = self.inventory[item_id]
	if item.equippable:
	# Determine slot based on item type
	if isinstance(item, Weapon):
	slot = "weapon"
	elif isinstance(item, Armor):
	slot = item.slot
	else:
	slot = "accessory"

	# Unequip current item if any
	if slot in self.equipped:
	self.add_item(self.equipped[slot])

	# Equip new item
	self.equipped[slot] = item
	self.remove_item(item_id)
	return True
	return False

	def unequip_item(self, slot: str) -> bool:
	if slot in self.equipped:
	item = self.equipped[slot]
	self.add_item(item)
	del self.equipped[slot]
	return True
	return False

	def get_total_defense(self) -> int:
	defense = 0
	for item in self.equipped.values():
	if isinstance(item, Armor):
	defense += item.defense
	return defense

	def get_total_damage(self) -> int:
	damage = 5 # Base damage
	if "weapon" in self.equipped:
	weapon = self.equipped["weapon"]
	if isinstance(weapon, Weapon):
	damage = weapon.damage
	return damage

	def gain_experience(self, amount: int):
	self.stats.experience += amount
	exp_needed = self.stats.level * 100 # Simple formula
	while self.stats.experience >= exp_needed:
	self.stats.experience -= exp_needed
	self.stats.level_up()
	exp_needed = self.stats.level * 100
	return True # Leveled up
	return False

	def add_quest(self, quest: Quest):
	self.quests.append(quest)
	quest.active = True

	def complete_quest(self, quest_id: str) -> bool:
	for quest in self.quests:
	if quest.id == quest_id and quest.active and not quest.completed:
	quest.completed = True
	# Apply rewards
	if "experience" in quest.rewards:
	self.gain_experience(quest.rewards["experience"])
	if "items" in quest.rewards:
	for item_id, quantity in quest.rewards["items"].items():
	# This would need a reference to the game world to get the actual item
	pass
	if "reputation" in quest.rewards:
	for faction, amount in quest.rewards["reputation"].items():
	if faction in self.faction_reputation:
	self.faction_reputation[faction] += amount
	else:
	self.faction_reputation[faction] = amount
	return True
	return False

	def update_vitals(self):
	# Decrease hunger and thirst over time
	self.stats.hunger = max(0, self.stats.hunger - 1)
	self.stats.thirst = max(0, self.stats.thirst - 1)

	# Apply effects of hunger and thirst
	if self.stats.hunger == 0:
	self.stats.health = max(0, self.stats.health - 2)
	if self.stats.thirst == 0:
	self.stats.health = max(0, self.stats.health - 3)

	# Regenerate health, mana, and stamina slowly
	if self.stats.health < self.stats.max_health:
	self.stats.health = min(self.stats.max_health, self.stats.health + 1)
	if self.stats.mana < self.stats.max_mana:
	self.stats.mana = min(self.stats.max_mana, self.stats.mana + 1)
	if self.stats.stamina < self.stats.max_stamina:
	self.stats.stamina = min(self.stats.max_stamina, self.stats.stamina + 2)

	class CombatSystem:
	@staticmethod
	def attack(attacker, defender):
	# Calculate damage
	base_damage = attacker.get_total_damage() if hasattr(attacker, 'get_total_damage') else 10

	# Add some randomness
	damage = max(1, base_damage + random.randint(-2, 2))

	# Apply defense
	defense = defender.get_total_defense() if hasattr(defender, 'get_total_defense') else 0
	damage = max(1, damage - defense // 2)

	# Apply damage
	defender.stats.health = max(0, defender.stats.health - damage)

	return damage

	@staticmethod
	def check_flee(player, npc) -> bool:
	# Base chance to flee is 50%, modified by player's level vs NPC's level
	base_chance = 0.5
	level_diff = player.stats.level - npc.stats.level
	chance = base_chance + (level_diff * 0.1)
	chance = max(0.1, min(0.9, chance)) # Clamp between 10% and 90%

	return random.random() < chance

	class Game:
	def __init__(self):
	self.world = GameWorld()
	self.player = None
	self.running = True
	self.plugins: Dict[str, Plugin] = {}
	self.commands: Dict[str, Callable] = {}
	self.combat = CombatSystem()
	self.in_combat = False
	self.current_opponent = None

	# Initialize core commands
	self.register_command("help", self.cmd_help)
	self.register_command("quit", self.cmd_quit)
	self.register_command("look", self.cmd_look)
	self.register_command("go", self.cmd_go)
	self.register_command("take", self.cmd_take)
	self.register_command("inventory", self.cmd_inventory)
	self.register_command("use", self.cmd_use)
	self.register_command("equip", self.cmd_equip)
	self.register_command("unequip", self.cmd_unequip)
	self.register_command("talk", self.cmd_talk)
	self.register_command("attack", self.cmd_attack)
	self.register_command("flee", self.cmd_flee)
	self.register_command("quests", self.cmd_quests)
	self.register_command("skills", self.cmd_skills)
	self.register_command("time", self.cmd_time)
	self.register_command("save", self.cmd_save)
	self.register_command("load", self.cmd_load)
	self.register_command("wait", self.cmd_wait)
	self.register_command("status", self.cmd_status)
	self.register_command("drop", self.cmd_drop)
	self.register_command("examine", self.cmd_examine)
	self.register_command("map", self.cmd_map)
	self.register_command("rest", self.cmd_rest)
	self.register_command("plugins", self.cmd_plugins)

	# Initialize the game world
	self.initialize_world()

	def register_command(self, name: str, func: Callable):
	self.commands[name] = func

	def load_plugin(self, plugin_path: str):
	try:
	spec = importlib.util.spec_from_file_location("plugin", plugin_path)
	plugin_module = importlib.util.module_from_spec(spec)
	spec.loader.exec_module(plugin_module)

	# Get plugin class (should be named "Plugin")
	if hasattr(plugin_module, "Plugin"):
	plugin_class = getattr(plugin_module, "Plugin")
	plugin = plugin_class()
	plugin.initialize(self)

	# Register plugin commands
	plugin_commands = plugin.get_commands()
	for name, func in plugin_commands.items():
	self.register_command(name, func)

	self.plugins[plugin_path] = plugin
	return True
	except Exception as e:
	print(f"{Colors.RED}Error loading plugin: {e}{Colors.RESET}")
	return False

	def unload_plugin(self, plugin_path: str):
	if plugin_path in self.plugins:
	plugin = self.plugins[plugin_path]
	plugin_commands = plugin.get_commands()

	# Unregister plugin commands
	for name in plugin_commands:
	if name in self.commands:
	del self.commands[name]

	del self.plugins[plugin_path]
	return True
	return False

	def initialize_world(self):
	# Create starting location
	start_location = Location(
	id="start",
	name="Starting Village",
	description="A small village surrounded by forests and mountains. There's a path leading north to the forest and east to the mountains.",
	position=Position(0, 0, 0)
	)

	# Create forest location
	forest_location = Location(
	id="forest",
	name="Dark Forest",
	description="A dense forest with tall trees and little light. You can hear strange sounds in the distance.",
	position=Position(0, 1, 0)
	)

	# Create mountain location
	mountain_location = Location(
	id="mountain",
	name="Mountain Pass",
	description="A narrow path through the mountains. It's cold and windy here.",
	position=Position(1, 0, 0)
	)

	# Create cave location
	cave_location = Location(
	id="cave",
	name="Mysterious Cave",
	description="A dark cave with glowing crystals on the walls. You can hear dripping water.",
	position=Position(0, 0, -1),
	indoor=True
	)

	# Create village shop
	shop_location = Location(
	id="shop",
	name="Village Shop",
	description="A small shop with various items for sale. The shopkeeper looks friendly.",
	position=Position(-1, 0, 0),
	indoor=True
	)

	# Connect locations
	start_location.add_exit(Direction.NORTH, "forest")
	start_location.add_exit(Direction.EAST, "mountain")
	start_location.add_exit(Direction.WEST, "shop")

	forest_location.add_exit(Direction.SOUTH, "start")
	forest_location.add_exit(Direction.DOWN, "cave")

	mountain_location.add_exit(Direction.WEST, "start")

	cave_location.add_exit(Direction.UP, "forest")

	shop_location.add_exit(Direction.EAST, "start")

	# Add items to locations
	# Starting village items
	start_location.add_item(Item(
	id="apple",
	name="Apple",
	description="A fresh red apple. Looks delicious.",
	value=5,
	consumable=True,
	effects={"hunger": 20}
	))

	start_location.add_item(Item(
	id="bread",
	name="Bread",
	description="A loaf of bread. Still warm.",
	value=10,
	consumable=True,
	effects={"hunger": 40}
	))

	# Forest items
	forest_location.add_item(Weapon(
	id="sword",
	name="Rusty Sword",
	description="An old rusty sword. Better than nothing.",
	value=25,
	damage=15,
	weight=3.0
	))

	forest_location.add_item(Item(
	id="herb",
	name="Healing Herb",
	description="A green herb with medicinal properties.",
	value=15,
	consumable=True,
	effects={"health": 20}
	))

	# Cave items
	cave_location.add_item(Item(
	id="crystal",
	name="Magic Crystal",
	description="A glowing crystal that hums with magical energy.",
	value=100,
	consumable=True,
	effects={"mana": 50}
	))

	# Shop items
	shop_location.add_item(Weapon(
	id="dagger",
	name="Dagger",
	description="A sharp dagger. Good for quick attacks.",
	value=30,
	damage=10,
	weight=1.0
	))

	shop_location.add_item(Armor(
	id="leather_armor",
	name="Leather Armor",
	description="Simple armor made of leather. Provides basic protection.",
	value=50,
	defense=10,
	armor_type="light",
	slot="chest"
	))

	# Add NPCs
	# Village elder
	elder = NPC(
	id="elder",
	name="Village Elder",
	description="An old man with a long white beard and wise eyes.",
	dialogue={
	"greeting": [
	"Welcome to our humble village, young adventurer.",
	"Ah, a new face. What brings you to our village?"
	],
	"quest": [
	"We have a problem with wolves in the forest. Could you help us?",
	"The forest to the north has become dangerous. Please investigate."
	],
	"help": [
	"You can use 'go [direction]' to move around.",
	"Try 'talk [npc]' to interact with people."
	]
	},
	location_id="start"
	)

	# Add quest to elder
	wolf_quest = Quest(
	id="wolf_problem",
	name="Wolf Problem",
	description="Deal with the wolves in the forest.",
	objectives=["Kill 5 wolves"],
	rewards={
	"experience": 100,
	"items": {"gold": 50}
	}
	)
	elder.quests.append(wolf_quest)

	# Shopkeeper
	shopkeeper = NPC(
	id="shopkeeper",
	name="Shopkeeper",
	description="A friendly-looking person with a big smile.",
	dialogue={
	"greeting": [
	"Welcome to my shop! Feel free to browse.",
	"Hello! Looking for something special?"
	],
	"buy": [
	"What would you like to buy?",
	"Everything here is for sale, just name it."
	],
	"sell": [
	"What do you want to sell me?",
	"I'll give you a fair price for your items."
	]
	},
	location_id="shop"
	)

	# Forest wolf
	wolf = NPC(
	id="wolf",
	name="Wolf",
	description="A wild wolf with sharp teeth and hungry eyes.",
	dialogue={},
	location_id="forest",
	hostile=True,
	stats=Stats(health=50, max_health=50)
	)

	# Add NPCs to locations
	start_location.add_npc(elder)
	shop_location.add_npc(shopkeeper)
	forest_location.add_npc(wolf)

	# Add locations to world
	self.world.add_location(start_location)
	self.world.add_location(forest_location)
	self.world.add_location(mountain_location)
	self.world.add_location(cave_location)
	self.world.add_location(shop_location)

	def start(self):
	self.clear_screen()
	self.print_title()

	# Character creation
	name = input(f"{Colors.CYAN}Enter your character's name: {Colors.RESET}")
	self.player = Player(name)

	# Welcome message
	self.print_wrapped(f"{Colors.GREEN}Welcome, {self.player.name}!{Colors.RESET}")
	self.print_wrapped("You find yourself in a small village. Your adventure begins here.")
	self.print_wrapped("Type 'help' for a list of commands.")
	self.print_separator()

	# Main game loop
	while self.running:
	if not self.in_combat:
	# Update game world
	self.world.update_time()
	self.player.update_vitals()

	# Check if player is dead
	if self.player.stats.health <= 0:
	self.game_over()
	break

	# Display location
	self.display_location()

	# Get player input
	try:
	command_input = input(f"{Colors.YELLOW}> {Colors.RESET}").strip().lower()
	if not command_input:
	continue

	# Parse command
	parts = command_input.split()
	command = parts[0]
	args = parts[1:] if len(parts) > 1 else []

	# Execute command
	if command in self.commands:
	self.commands[command](args)
	else:
	print(f"{Colors.RED}Unknown command: {command}{Colors.RESET}")
	print(f"{Colors.CYAN}Type 'help' for a list of commands.{Colors.RESET}")

	except KeyboardInterrupt:
	print("\nGoodbye!")
	self.running = False
	except EOFError:
	print("\nGoodbye!")
	self.running = False
	except Exception as e:
	print(f"{Colors.RED}Error: {e}{Colors.RESET}")

	def game_over(self):
	self.clear_screen()
	print(f"{Colors.RED}========================================{Colors.RESET}")
	print(f"{Colors.RED} GAME OVER{Colors.RESET}")
	print(f"{Colors.RED}========================================{Colors.RESET}")
	print(f"{Colors.WHITE}You have died.{Colors.RESET}")
	print(f"{Colors.WHITE}Level reached: {self.player.stats.level}{Colors.RESET}")
	print(f"{Colors.WHITE}Experience gained: {self.player.stats.experience}{Colors.RESET}")
	print(f"{Colors.RED}========================================{Colors.RESET}")
	self.running = False

	def clear_screen(self):
	os.system('cls' if os.name == 'nt' else 'clear')

	def print_title(self):
	print(f"{Colors.BRIGHT_CYAN}")
	print("========================================")
	print(" ULTIMATE OPEN WORLD GAME ")
	print("========================================")
	print(f"{Colors.RESET}")

	def print_separator(self):
	print(f"{Colors.BRIGHT_BLACK}----------------------------------------{Colors.RESET}")

	def print_wrapped(self, text, width=80):
	words = text.split()
	lines = []
	current_line = []
	current_length = 0

	for word in words:
	if current_length + len(word) + 1 <= width:
	current_line.append(word)
	current_length += len(word) + 1
	else:
	lines.append(' '.join(current_line))
	current_line = [word]
	current_length = len(word)

	if current_line:
	lines.append(' '.join(current_line))

	for line in lines:
	print(line)

	def display_location(self):
	location = self.world.get_location(self.player.location_id)
	if not location:
	return

	# Mark location as discovered
	if not location.discovered:
	location.discovered = True
	if location.id not in self.player.known_locations:
	self.player.known_locations.append(location.id)

	# Display location name
	print(f"{Colors.BRIGHT_GREEN}{location.name}{Colors.RESET}")

	# Display location description
	self.print_wrapped(f"{Colors.WHITE}{location.description}{Colors.RESET}")

	# Display time and weather
	print(f"{Colors.CYAN}{self.world.get_time_description()}{Colors.RESET}")

	# Display exits
	if location.exits:
	exits = ", ".join([d.value for d in location.exits.keys()])
	print(f"{Colors.YELLOW}Exits: {exits}{Colors.RESET}")

	# Display items
	if location.items:
	item_names = [f"{item.name} ({quantity})" if item.stackable else item.name
	for item, quantity in [(item, 1) for item in location.items]]
	print(f"{Colors.GREEN}Items: {', '.join(item_names)}{Colors.RESET}")

	# Display NPCs
	if location.npcs:
	npc_names = [npc.name for npc in location.npcs]
	print(f"{Colors.MAGENTA}People: {', '.join(npc_names)}{Colors.RESET}")

	self.print_separator()

	# Command implementations
	def cmd_help(self, args):
	print(f"{Colors.CYAN}Available commands:{Colors.RESET}")
	for command in sorted(self.commands.keys()):
	print(f" {Colors.YELLOW}{command}{Colors.RESET}")
	print(f"\n{Colors.CYAN}For more information on a command, type: help [command]{Colors.RESET}")

	def cmd_quit(self, args):
	print(f"{Colors.YELLOW}Are you sure you want to quit? (y/n){Colors.RESET}")
	response = input("> ").strip().lower()
	if response == 'y':
	self.running = False

	def cmd_look(self, args):
	self.display_location()

	def cmd_go(self, args):
	if not args:
	print(f"{Colors.RED}Go where?{Colors.RESET}")
	return

	direction_str = args[0]
	try:
	direction = Direction(direction_str)
	except ValueError:
	print(f"{Colors.RED}Invalid direction: {direction_str}{Colors.RESET}")
	return

	location = self.world.get_location(self.player.location_id)
	if not location:
	return

	if direction in location.exits:
	# Check for hostile NPCs that might block the way
	for npc in location.npcs:
	if npc.hostile and npc.stats.health > 0:
	print(f"{Colors.RED}{npc.name} blocks your path!{Colors.RESET}")
	self.start_combat(npc)
	return

	# Move to the new location
	self.player.location_id = location.exits[direction]
	print(f"{Colors.GREEN}You go {direction.value}.{Colors.RESET}")

	# Update time (movement takes time)
	self.world.update_time(5)

	# Consume stamina
	self.player.stats.stamina = max(0, self.player.stats.stamina - 5)

	# Check for random encounters
	if random.random() < 0.1: # 10% chance of random encounter
	self.random_encounter()
	else:
	print(f"{Colors.RED}You can't go {direction.value} from here.{Colors.RESET}")

	def cmd_take(self, args):
	if not args:
	print(f"{Colors.RED}Take what?{Colors.RESET}")
	return

	item_name = ' '.join(args)
	location = self.world.get_location(self.player.location_id)
	if not location:
	return

	# Find the item
	for item in location.items:
	if item.name.lower() == item_name.lower():
	# Add to player inventory
	leftover = self.player.add_item(item)
	if leftover == 0:
	location.remove_item(item)
	print(f"{Colors.GREEN}You take the {item.name}.{Colors.RESET}")
	else:
	print(f"{Colors.YELLOW}You can only carry {item.max_stack} {item.name}s.{Colors.RESET}")
	return

	print(f"{Colors.RED}There is no {item_name} here.{Colors.RESET}")

	def cmd_inventory(self, args):
	if not self.player.inventory:
	print(f"{Colors.YELLOW}Your inventory is empty.{Colors.RESET}")
	return

	print(f"{Colors.CYAN}Inventory:{Colors.RESET}")
	for item_id, (item, quantity) in self.player.inventory.items():
	if item.stackable:
	print(f" {Colors.GREEN}{item.name} x{quantity}{Colors.RESET} - {item.description}")
	else:
	print(f" {Colors.GREEN}{item.name}{Colors.RESET} - {item.description}")

	# Show equipped items
	if self.player.equipped:
	print(f"\n{Colors.CYAN}Equipped:{Colors.RESET}")
	for slot, item in self.player.equipped.items():
	print(f" {Colors.YELLOW}{slot}: {item.name}{Colors.RESET}")

	def cmd_use(self, args):
	if not args:
	print(f"{Colors.RED}Use what?{Colors.RESET}")
	return

	item_name = ' '.join(args)

	# Find the item in inventory
	for item_id, (item, quantity) in self.player.inventory.items():
	if item.name.lower() == item_name.lower():
	if item.use(self.player):
	if item.consumable:
	if quantity > 1:
	self.player.inventory[item_id] = (item, quantity - 1)
	else:
	self.player.remove_item(item_id)
	print(f"{Colors.GREEN}You use the {item.name}.{Colors.RESET}")
	else:
	print(f"{Colors.RED}You can't use the {item.name}.{Colors.RESET}")
	return

	print(f"{Colors.RED}You don't have a {item_name}.{Colors.RESET}")

	def cmd_equip(self, args):
	if not args:
	print(f"{Colors.RED}Equip what?{Colors.RESET}")
	return

	item_name = ' '.join(args)

	# Find the item in inventory
	for item_id, (item, quantity) in self.player.inventory.items():
	if item.name.lower() == item_name.lower():
	if self.player.equip_item(item_id):
	print(f"{Colors.GREEN}You equip the {item.name}.{Colors.RESET}")
	else:
	print(f"{Colors.RED}You can't equip the {item.name}.{Colors.RESET}")
	return

	print(f"{Colors.RED}You don't have a {item_name}.{Colors.RESET}")

	def cmd_unequip(self, args):
	if not args:
	print(f"{Colors.RED}Unequip what?{Colors.RESET}")
	return

	slot = args[0].lower()

	if self.player.unequip_item(slot):
	print(f"{Colors.GREEN}You unequip your {slot}.{Colors.RESET}")
	else:
	print(f"{Colors.RED}You don't have anything equipped in that slot.{Colors.RESET}")

	def cmd_talk(self, args):
	if not args:
	print(f"{Colors.RED}Talk to whom?{Colors.RESET}")
	return

	npc_name = ' '.join(args)
	location = self.world.get_location(self.player.location_id)
	if not location:
	return

	# Find the NPC
	for npc in location.npcs:
	if npc.name.lower() == npc_name.lower():
	# Get dialogue topic
	topic = "greeting"
	if len(args) > 1:
	topic = ' '.join(args[1:])

	# Get dialogue
	dialogue = npc.talk(topic)
	print(f"{Colors.MAGENTA}{npc.name}: {dialogue}{Colors.RESET}")

	# Check for quests
	if topic == "quest" and npc.quests:
	for quest in npc.quests:
	if not quest.completed and not any(q.id == quest.id for q in self.player.quests):
	self.player.add_quest(quest)
	print(f"{Colors.GREEN}New quest: {quest.name}{Colors.RESET}")
	print(f"{Colors.WHITE}{quest.description}{Colors.RESET}")

	return

	print(f"{Colors.RED}There is no one named {npc_name} here.{Colors.RESET}")

	def cmd_attack(self, args):
	if not args:
	print(f"{Colors.RED}Attack whom?{Colors.RESET}")
	return

	npc_name = ' '.join(args)
	location = self.world.get_location(self.player.location_id)
	if not location:
	return

	# Find the NPC
	for npc in location.npcs:
	if npc.name.lower() == npc_name.lower():
	if not npc.hostile:
	print(f"{Colors.RED}You can't attack {npc.name}.{Colors.RESET}")
	return

	self.start_combat(npc)
	return

	print(f"{Colors.RED}There is no one named {npc_name} here.{Colors.RESET}")

	def cmd_flee(self, args):
	if not self.in_combat:
	print(f"{Colors.RED}You're not in combat.{Colors.RESET}")
	return

	if self.combat.check_flee(self.player, self.current_opponent):
	print(f"{Colors.GREEN}You successfully flee from combat.{Colors.RESET}")
	self.end_combat()

	# Move to a random adjacent location
	location = self.world.get_location(self.player.location_id)
	if location and location.exits:
	directions = list(location.exits.keys())
	random_direction = random.choice(directions)
	self.player.location_id = location.exits[random_direction]
	print(f"{Colors.GREEN}You run away to the {random_direction.value}.{Colors.RESET}")
	else:
	print(f"{Colors.RED}You fail to flee!{Colors.RESET}")
	# Enemy gets a free attack
	damage = self.combat.attack(self.current_opponent, self.player)
	print(f"{Colors.RED}{self.current_opponent.name} attacks you for {damage} damage!{Colors.RESET}")

	if self.player.stats.health <= 0:
	self.game_over()

	def cmd_quests(self, args):
	if not self.player.quests:
	print(f"{Colors.YELLOW}You don't have any active quests.{Colors.RESET}")
	return

	print(f"{Colors.CYAN}Active Quests:{Colors.RESET}")
	for quest in self.player.quests:
	if quest.active and not quest.completed:
	print(f" {Colors.YELLOW}{quest.name}{Colors.RESET}")
	print(f" {quest.description}")
	print(f" Objectives: {', '.join(quest.objectives)}")

	print(f"\n{Colors.CYAN}Completed Quests:{Colors.RESET}")
	for quest in self.player.quests:
	if quest.completed:
	print(f" {Colors.GREEN}{quest.name}{Colors.RESET}")

	def cmd_skills(self, args):
	print(f"{Colors.CYAN}Skills:{Colors.RESET}")
	for skill_name, skill in self.player.skills.items():
	print(f" {Colors.YELLOW}{skill.name}: Level {skill.level} ({skill.experience}/{skill.max_experience} XP){Colors.RESET}")

	def cmd_time(self, args):
	print(f"{Colors.CYAN}{self.world.get_time_description()}{Colors.RESET}")

	def cmd_save(self, args):
	save_name = args[0] if args else "save1"
	save_data = {
	"player": self.player,
	"world": self.world,
	"in_combat": self.in_combat,
	"current_opponent": self.current_opponent
	}

	try:
	with open(f"{save_name}.sav", "wb") as f:
	pickle.dump(save_data, f)
	print(f"{Colors.GREEN}Game saved as {save_name}.{Colors.RESET}")
	except Exception as e:
	print(f"{Colors.RED}Failed to save game: {e}{Colors.RESET}")

	def cmd_load(self, args):
	save_name = args[0] if args else "save1"

	try:
	with open(f"{save_name}.sav", "rb") as f:
	save_data = pickle.load(f)

	self.player = save_data["player"]
	self.world = save_data["world"]
	self.in_combat = save_data["in_combat"]
	self.current_opponent = save_data["current_opponent"]

	print(f"{Colors.GREEN}Game loaded from {save_name}.{Colors.RESET}")
	except Exception as e:
	print(f"{Colors.RED}Failed to load game: {e}{Colors.RESET}")

	def cmd_wait(self, args):
	minutes = 30 # Default wait time
	if args:
	try:
	minutes = int(args[0])
	except ValueError:
	print(f"{Colors.RED}Invalid time: {args[0]}{Colors.RESET}")
	return

	print(f"{Colors.YELLOW}You wait for {minutes} minutes...{Colors.RESET}")
	self.world.update_time(minutes)
	self.player.update_vitals()

	# Random events while waiting
	if random.random() < 0.2: # 20% chance of something happening
	self.random_event()

	def cmd_status(self, args):
	print(f"{Colors.CYAN}Character Status:{Colors.RESET}")
	print(f" Name: {self.player.name}")
	print(f" Level: {self.player.stats.level}")
	print(f" Experience: {self.player.stats.experience}")
	print(f" Health: {self.player.stats.health}/{self.player.stats.max_health}")
	print(f" Mana: {self.player.stats.mana}/{self.player.stats.max_mana}")
	print(f" Stamina: {self.player.stats.stamina}/{self.player.stats.max_stamina}")
	print(f" Hunger: {self.player.stats.hunger}/{self.player.stats.max_hunger}")
	print(f" Thirst: {self.player.stats.thirst}/{self.player.stats.max_thirst}")
	print(f" Defense: {self.player.get_total_defense()}")
	print(f" Damage: {self.player.get_total_damage()}")

	def cmd_drop(self, args):
	if not args:
	print(f"{Colors.RED}Drop what?{Colors.RESET}")
	return

	item_name = ' '.join(args)
	location = self.world.get_location(self.player.location_id)
	if not location:
	return

	# Find the item in inventory
	for item_id, (item, quantity) in self.player.inventory.items():
	if item.name.lower() == item_name.lower():
	# Remove from player inventory
	if self.player.remove_item(item_id):
	# Add to location
	location.add_item(item)
	print(f"{Colors.GREEN}You drop the {item.name}.{Colors.RESET}")
	return

	print(f"{Colors.RED}You don't have a {item_name}.{Colors.RESET}")

	def cmd_examine(self, args):
	if not args:
	print(f"{Colors.RED}Examine what?{Colors.RESET}")
	return

	target_name = ' '.join(args)
	location = self.world.get_location(self.player.location_id)
	if not location:
	return

	# Check items
	for item in location.items:
	if item.name.lower() == target_name.lower():
	print(f"{Colors.GREEN}{item.name}: {item.description}{Colors.RESET}")
	if isinstance(item, Weapon):
	print(f" Damage: {item.damage}, Type: {item.damage_type}")
	elif isinstance(item, Armor):
	print(f" Defense: {item.defense}, Type: {item.armor_type}, Slot: {item.slot}")
	return

	# Check NPCs
	for npc in location.npcs:
	if npc.name.lower() == target_name.lower():
	print(f"{Colors.MAGENTA}{npc.name}: {npc.description}{Colors.RESET}")
	if npc.hostile:
	print(f" {Colors.RED}Hostile{Colors.RESET}")
	print(f" Health: {npc.stats.health}/{npc.stats.max_health}")
	return

	print(f"{Colors.RED}There is no {target_name} here.{Colors.RESET}")

	def cmd_map(self, args):
	print(f"{Colors.CYAN}Map of Known Locations:{Colors.RESET}")

	# Get all known locations
	known_locations = [self.world.get_location(loc_id) for loc_id in self.player.known_locations]
	if not known_locations:
	print(f"{Colors.YELLOW}You haven't discovered any locations yet.{Colors.RESET}")
	return

	# Find min and max coordinates
	min_x = min(loc.position.x for loc in known_locations)
	max_x = max(loc.position.x for loc in known_locations)
	min_y = min(loc.position.y for loc in known_locations)
	max_y = max(loc.position.y for loc in known_locations)

	# Create map grid
	grid_width = max_x - min_x + 1
	grid_height = max_y - min_y + 1
	grid = [[' ' for _ in range(grid_width)] for _ in range(grid_height)]

	# Place locations on grid
	for loc in known_locations:
	x = loc.position.x - min_x
	y = loc.position.y - min_y

	if loc.id == self.player.location_id:
	grid[y][x] = 'X' # Player's current location
	else:
	grid[y][x] = 'O' # Other known locations

	# Print map
	print(f"{Colors.BRIGHT_BLACK}+{'-' * grid_width}+{Colors.RESET}")
	for row in grid:
	print(f"{Colors.BRIGHT_BLACK}\|{Colors.RESET}", end="")
	for cell in row:
	if cell == 'X':
	print(f"{Colors.GREEN}{cell}{Colors.RESET}", end="")
	elif cell == 'O':
	print(f"{Colors.YELLOW}{cell}{Colors.RESET}", end="")
	else:
	print(cell, end="")
	print(f"{Colors.BRIGHT_BLACK}\|{Colors.RESET}")
	print(f"{Colors.BRIGHT_BLACK}+{'-' * grid_width}+{Colors.RESET}")
	print(f"{Colors.GREEN}X = Your location{Colors.RESET}")
	print(f"{Colors.YELLOW}O = Known location{Colors.RESET}")

	def cmd_rest(self, args):
	if self.in_combat:
	print(f"{Colors.RED}You can't rest during combat!{Colors.RESET}")
	return

	location = self.world.get_location(self.player.location_id)
	if location and not location.indoor:
	print(f"{Colors.YELLOW}Resting outdoors is not safe. You might be attacked.{Colors.RESET}")
	response = input("Continue anyway? (y/n) ").strip().lower()
	if response != 'y':
	return

	print(f"{Colors.YELLOW}You rest for a while...{Colors.RESET}")

	# Restore health, mana, and stamina
	self.player.stats.health = self.player.stats.max_health
	self.player.stats.mana = self.player.stats.max_mana
	self.player.stats.stamina = self.player.stats.max_stamina

	# Advance time
	self.world.update_time(60) # Rest for 1 hour

	# Random event chance
	if random.random() < 0.3: # 30% chance of something happening
	self.random_event()

	def cmd_plugins(self, args):
	if not args:
	print(f"{Colors.CYAN}Loaded plugins:{Colors.RESET}")
	for plugin_path in self.plugins:
	print(f" {plugin_path}")
	return

	command = args[0].lower()

	if command == "load" and len(args) > 1:
	plugin_path = args[1]
	if self.load_plugin(plugin_path):
	print(f"{Colors.GREEN}Plugin loaded: {plugin_path}{Colors.RESET}")
	else:
	print(f"{Colors.RED}Failed to load plugin: {plugin_path}{Colors.RESET}")
	elif command == "unload" and len(args) > 1:
	plugin_path = args[1]
	if self.unload_plugin(plugin_path):
	print(f"{Colors.GREEN}Plugin unloaded: {plugin_path}{Colors.RESET}")
	else:
	print(f"{Colors.RED}Failed to unload plugin: {plugin_path}{Colors.RESET}")
	else:
	print(f"{Colors.RED}Usage: plugins [load\|unload] [path]{Colors.RESET}")

	# Combat methods
	def start_combat(self, opponent):
	self.in_combat = True
	self.current_opponent = opponent

	print(f"{Colors.RED}Combat started with {opponent.name}!{Colors.RESET}")

	# Combat loop
	while self.in_combat:
	# Display combat status
	print(f"{Colors.RED}{opponent.name}: {opponent.stats.health}/{opponent.stats.max_health} HP{Colors.RESET}")
	print(f"{Colors.GREEN}You: {self.player.stats.health}/{self.player.stats.max_health} HP{Colors.RESET}")

	# Get player action
	try:
	action = input(f"{Colors.YELLOW}What do you do? (attack/flee/use/item): {Colors.RESET}").strip().lower()

	if action == "attack":
	# Player attacks
	damage = self.combat.attack(self.player, opponent)
	print(f"{Colors.GREEN}You attack {opponent.name} for {damage} damage!{Colors.RESET}")

	# Check if opponent is defeated
	if opponent.stats.health <= 0:
	print(f"{Colors.GREEN}You defeated {opponent.name}!{Colors.RESET}")

	# Gain experience
	exp_gained = opponent.stats.level * 20
	leveled_up = self.player.gain_experience(exp_gained)
	print(f"{Colors.GREEN}You gained {exp_gained} experience!{Colors.RESET}")
	if leveled_up:
	print(f"{Colors.BRIGHT_GREEN}You leveled up! You are now level {self.player.stats.level}.{Colors.RESET}")

	# Loot opponent
	if opponent.inventory:
	for item in opponent.inventory:
	self.player.add_item(item)
	print(f"{Colors.GREEN}You looted: {item.name}{Colors.RESET}")

	self.end_combat()
	continue

	# Opponent attacks
	damage = self.combat.attack(opponent, self.player)
	print(f"{Colors.RED}{opponent.name} attacks you for {damage} damage!{Colors.RESET}")

	# Check if player is defeated
	if self.player.stats.health <= 0:
	self.game_over()
	break

	elif action == "flee":
	if self.combat.check_flee(self.player, opponent):
	print(f"{Colors.GREEN}You successfully flee from combat.{Colors.RESET}")
	self.end_combat()

	# Move to a random adjacent location
	location = self.world.get_location(self.player.location_id)
	if location and location.exits:
	directions = list(location.exits.keys())
	random_direction = random.choice(directions)
	self.player.location_id = location.exits[random_direction]
	print(f"{Colors.GREEN}You run away to the {random_direction.value}.{Colors.RESET}")
	else:
	print(f"{Colors.RED}You fail to flee!{Colors.RESET}")
	# Opponent gets a free attack
	damage = self.combat.attack(opponent, self.player)
	print(f"{Colors.RED}{opponent.name} attacks you for {damage} damage!{Colors.RESET}")

	if self.player.stats.health <= 0:
	self.game_over()
	break

	elif action == "use":
	item_name = input(f"{Colors.YELLOW}Use what item? {Colors.RESET}").strip().lower()

	# Find the item in inventory
	for item_id, (item, quantity) in self.player.inventory.items():
	if item.name.lower() == item_name.lower():
	if item.use(self.player):
	if item.consumable:
	if quantity > 1:
	self.player.inventory[item_id] = (item, quantity - 1)
	else:
	self.player.remove_item(item_id)
	print(f"{Colors.GREEN}You use the {item.name}.{Colors.RESET}")
	else:
	print(f"{Colors.RED}You can't use the {item.name}.{Colors.RESET}")
	break
	else:
	print(f"{Colors.RED}You don't have a {item_name}.{Colors.RESET}")

	# Opponent attacks
	damage = self.combat.attack(opponent, self.player)
	print(f"{Colors.RED}{opponent.name} attacks you for {damage} damage!{Colors.RESET}")

	if self.player.stats.health <= 0:
	self.game_over()
	break

	elif action == "item":
	# Use an item (same as "use")
	item_name = input(f"{Colors.YELLOW}Use what item? {Colors.RESET}").strip().lower()

	# Find the item in inventory
	for item_id, (item, quantity) in self.player.inventory.items():
	if item.name.lower() == item_name.lower():
	if item.use(self.player):
	if item.consumable:
	if quantity > 1:
	self.player.inventory[item_id] = (item, quantity - 1)
	else:
	self.player.remove_item(item_id)
	print(f"{Colors.GREEN}You use the {item.name}.{Colors.RESET}")
	else:
	print(f"{Colors.RED}You can't use the {item.name}.{Colors.RESET}")
	break
	else:
	print(f"{Colors.RED}You don't have a {item_name}.{Colors.RESET}")

	# Opponent attacks
	damage = self.combat.attack(opponent, self.player)
	print(f"{Colors.RED}{opponent.name} attacks you for {damage} damage!{Colors.RESET}")

	if self.player.stats.health <= 0:
	self.game_over()
	break

	else:
	print(f"{Colors.RED}Invalid action!{Colors.RESET}")
	# Opponent gets a free attack
	damage = self.combat.attack(opponent, self.player)
	print(f"{Colors.RED}{opponent.name} attacks you for {damage} damage!{Colors.RESET}")

	if self.player.stats.health <= 0:
	self.game_over()
	break

	except KeyboardInterrupt:
	print("\nGoodbye!")
	self.running = False
	break
	except EOFError:
	print("\nGoodbye!")
	self.running = False
	break
	except Exception as e:
	print(f"{Colors.RED}Error: {e}{Colors.RESET}")

	def end_combat(self):
	self.in_combat = False
	self.current_opponent = None

	def random_encounter(self):
	encounters = [
	{
	"message": "You encounter a wandering merchant.",
	"type": "npc",
	"npc": NPC(
	id="merchant",
	name="Wandering Merchant",
	description="A traveling merchant with a cart full of goods.",
	dialogue={
	"greeting": [
	"Hello, traveler! Care to buy something?",
	"Greetings! I have many fine wares for sale."
	]
	},
	location_id=self.player.location_id
	)
	},
	{
	"message": "You find a treasure chest!",
	"type": "item",
	"items": [
	Item(
	id="gold",
	name="Gold",
	description="Shiny gold coins.",
	value=50,
	stackable=True
	)
	]
	},
	{
	"message": "You are ambushed by bandits!",
	"type": "combat",
	"npc": NPC(
	id="bandit",
	name="Bandit",
	description="A dangerous-looking bandit with a weapon.",
	dialogue={},
	location_id=self.player.location_id,
	hostile=True,
	stats=Stats(health=40, max_health=40)
	)
	},
	{
	"message": "You discover a hidden path!",
	"type": "location",
	"location": Location(
	id="hidden_path",
	name="Hidden Path",
	description="A secret path that few know about.",
	position=Position(0, 0, 0)
	)
	}
	]

	encounter = random.choice(encounters)
	print(f"{Colors.YELLOW}{encounter['message']}{Colors.RESET}")

	if encounter["type"] == "npc":
	location = self.world.get_location(self.player.location_id)
	if location:
	location.add_npc(encounter["npc"])

	elif encounter["type"] == "item":
	location = self.world.get_location(self.player.location_id)
	if location:
	for item in encounter["items"]:
	location.add_item(item)

	elif encounter["type"] == "combat":
	self.start_combat(encounter["npc"])

	elif encounter["type"] == "location":
	self.world.add_location(encounter["location"])
	self.player.known_locations.append(encounter["location"].id)

	def random_event(self):
	events = [
	{
	"message": "It starts to rain.",
	"effect": lambda: setattr(self.world, "weather", Weather.RAINY)
	},
	{
	"message": "The clouds part and the sun shines through.",
	"effect": lambda: setattr(self.world, "weather", Weather.CLEAR)
	},
	{
	"message": "You feel a bit hungry.",
	"effect": lambda: setattr(self.player.stats, "hunger", max(0, self.player.stats.hunger - 10))
	},
	{
	"message": "You feel a bit thirsty.",
	"effect": lambda: setattr(self.player.stats, "thirst", max(0, self.player.stats.thirst - 10))
	},
	{
	"message": "You feel refreshed.",
	"effect": lambda: setattr(self.player.stats, "stamina", min(self.player.stats.max_stamina, self.player.stats.stamina + 20))
	},
	{
	"message": "You find a coin on the ground.",
	"effect": lambda: self.player.add_item(Item(
	id="gold",
	name="Gold",
	description="A single gold coin.",
	value=1,
	stackable=True
	))
	}
	]

	event = random.choice(events)
	print(f"{Colors.YELLOW}{event['message']}{Colors.RESET}")
	event["effect"]()

	# Main function
	def main():
	game = Game()
	game.start()

	if __name__ == "__main__":
	main()