214 lines
6.5 KiB
Python
214 lines
6.5 KiB
Python
# Generation of data for a campaign of Ticket to Ride Legacy: Legends of the West
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# Imports
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import os
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import random
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import jsonpickle
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class Circus:
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# There are:
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# 4 wagons of each colors (until 2 players' stop)
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# 2 wagons of each colors (until 3 players' stop)
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# 2 wagons of each colors (until 4 players' stop)
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# 2 wagons of each colors (until 5 players' stop)
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# NOTE: In the original distribution, the same color never appears twice in a row
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# We chose to remove this constraint, for the sake of simplicity
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def __init__(self, playersNb):
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wagonsPerColors = 2 * playersNb
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colors = "blue", "green", "black", "red", "yellow"
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remaining = {"blue": wagonsPerColors, "green": wagonsPerColors, "black": wagonsPerColors, "red": wagonsPerColors, "yellow": wagonsPerColors}
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self.wagons = []
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for n in range(0, 5 * wagonsPerColors):
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color = colors[random.randint(0, 4)]
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while remaining[color] == 0:
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color = colors[random.randint(0, 4)]
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self.wagons.append(color)
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remaining[color] = remaining[color] - 1
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self.state = 0 # 0 means Circus is not used in game yet, 1 means next wagon in list is #1, and so on
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def enable(self):
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if self.state == 0:
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print("Circus is not or no longer in game.")
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return False
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self.state = 1
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def getNextColor(self):
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return self.wagons[self.state - 1]
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def takeWagon(self):
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if self.state == 0:
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print("Circus is not or no longer in game.")
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return False
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print("Player obtained a " + self.wagons[self.state - 1] + " circus sticker!")
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self.state = self.state + 1
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if self.state > len(self.wagons):
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print("Circus stickers are now depleted.")
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self.state = 0 # effectively disable circus
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class TreasureCard:
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def __init__(self):
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self.treasures = [36, 33, 29, 27, 24]
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self.state = -1 # disabled
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def enable(self):
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self.state = 0 # 0 means 0 treasures have been found
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def getFoundNumber(self):
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if self.state == -1:
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print("Treasure hunt has not started yet or is completed.")
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return False
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return self.state
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def takeTreasure(self):
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if self.state == -1:
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print("Treasure hunt has not started yet or is completed.")
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return False
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self.state = self.state + 1
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if self.state == 5:
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print("All treasures have been found.")
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self.state = -1 # effectively disable treasure card
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class ConcessionCard:
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# Each card contains:
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# 6 cities to connect to the player's concession. There is no need to implement those.
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# 7 gold nuggets, as rewards when the player succefully connects a city to their concession. The player can choose
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# which nugget to earn, and then discovers the associated reward (between 11 and 17 coins).
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# A ConcessionCard is then composed of 7 nuggets, with the rewards randomly distributed.
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def __init__(self):
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availableValues = [11, 12, 13, 14, 15, 16, 17]
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nuggetsNb = len(availableValues) - 1
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self.nuggets = []
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for n in range(0, 7):
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choice = random.randint(0, nuggetsNb - n)
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self.nuggets.append(availableValues[choice])
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availableValues.pop(choice)
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self.taken = set()
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def getRemainingPepites(self):
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return {1, 2, 3, 4, 5, 6, 7} - self.taken
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def takeReward(self, choice):
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if choice in self.taken:
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print(str(choice) + " has already been obtained.")
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return False
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self.taken.add(choice)
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print("Congrats! You obtained $" + str(self.nuggets[choice]))
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class Player:
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def __init__(self, color):
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self.color = color
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self.concession = ConcessionCard()
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class Game:
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# initGame() is used to generate all data for a campaign and initialize status variables
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def initGame(self):
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self.years = 1865, 1868, 1871, 1874, 1877, 1880, 1883, 1886, 1889, 1892, 1895, 1898
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playersNb = input("Enter the number of players (2-5): ")
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while not playersNb.isdigit() or int(playersNb) not in range(2, 6):
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playersNb = input("OUT OF RANGE! Enter the number of players (2-5): ")
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playersNb = int(playersNb)
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# Game status
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self.yearId = 0
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self.concession = False
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# General data to generate
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self.circus = Circus(playersNb)
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# Mama O'Connell
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self.treasure = TreasureCard()
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# Players
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self.players = []
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for n in range(0, playersNb):
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color = input("Enter player " + str(n + 1) + "'s color: ")
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self.players.append(Player(color))
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def printStatus(self):
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print("")
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print("Ticket to Ride Legacy: Legends of the West")
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print("")
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print("Campaign - Year: " + str(self.years[self.yearId]))
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print("")
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print("Players:")
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for player in self.players:
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print(" " + player.color)
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if self.concession:
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print(" Concession card remaining nuggets: " + str(player.concession.getRemainingPepites()))
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print("")
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if self.circus.state > 0:
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print("Circus next sticker color: " + self.circus.getNextColor())
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if self.treasure.state > -1:
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print(f"Treasures found: {self.treasure.getFoundNumber()}")
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def saveData(self):
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savefile = open('./savefile.json', 'w+')
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savefile.write(jsonpickle.encode(self))
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savefile.close()
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def loadData(path):
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with open('./' + path, 'r') as savefile:
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content = savefile.read()
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data = jsonpickle.decode(content)
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return data
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print("")
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print("Ticket to Ride Legacy: Legends of the West")
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print("")
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choice = input("What do you want to do (new/load)? ")
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while choice not in ("new", "load"):
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choice = input("UNDEFINED! What do you want to do (new/load)? ")
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if choice == "new":
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myGame = Game()
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myGame.initGame()
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elif choice == "load":
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path = input("Path to save file (defaults to savefile.json)? ")
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if path == "":
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path = "savefile.json"
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myGame = loadData(path)
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myGame.printStatus()
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# TESTS
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# Test of data generation
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# myGame = Game()
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# myGame.initGame()
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# myGame.saveData()
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# Test of data loading
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# myGame = loadData('savefile.json')
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# myGame.printStatus()
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# Test of ConcessionCard
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# cc = ConcessionCard()
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# userChoice = 3
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# print(cc.nuggets)
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# cc.takeReward(userChoice - 1)
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# print(cc.nuggets)
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# print(cc.taken)
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# print("Remaining: " + str(cc.getRemainingPepites()))
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# cc.takeReward(userChoice - 1)
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# print(cc.nuggets)
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# print(cc.taken)
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# print("Remaining: " + str(cc.getRemainingPepites()))
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# Test of Player
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# myGame = Game()
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# myGame.initGame()
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# myGame.printStatus()
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# myGame.treasure.enable()
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# myGame.printStatus()
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# myGame.treasure.takeTreasure()
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# myGame.treasure.takeTreasure()
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# myGame.treasure.takeTreasure()
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# myGame.treasure.takeTreasure()
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# myGame.printStatus()
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# myGame.treasure.takeTreasure()
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# myGame.printStatus()
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