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97a90788aa
...
2fab9db01f
27
main.py
27
main.py
@ -71,19 +71,19 @@ class TreasureCard:
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self.state = -1 # effectively disable treasure card
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class ConcessionCard:
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class ConcessionCard: # name may be different in English
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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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# 7 gold "pepites", as rewards when the player succefully connects a city to their concession. The player can choose
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# which "pepite" to earn, and then discovers the associated reward (between 11 and 17 coins).
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# A ConcessionCard is then composed of 7 pepites, 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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pepitesNb = len(availableValues) - 1
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self.pepites = []
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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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choice = random.randint(0, pepitesNb - n)
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self.pepites.append(availableValues[choice])
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availableValues.pop(choice)
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self.taken = set()
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@ -95,7 +95,7 @@ class ConcessionCard:
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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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print("Congrats! You obtained $" + str(self.pepites[choice]))
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class Player:
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@ -123,7 +123,6 @@ class Game:
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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.year))
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@ -132,7 +131,7 @@ class Game:
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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(" Concession card remaining pepites: " + 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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@ -167,13 +166,13 @@ playersNb = 2
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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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# print(cc.pepites)
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# cc.takeReward(userChoice - 1)
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# print(cc.nuggets)
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# print(cc.pepites)
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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.pepites)
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# print(cc.taken)
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# print("Remaining: " + str(cc.getRemainingPepites()))
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@ -1,110 +0,0 @@
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import random
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class City:
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def __init__(self, name, neighbors):
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self.name = name
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self.neighbors = neighbors
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# Returns the length of the shortest way between the city and another one (target)
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def distance(self, target):
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if self == target:
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return 0
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dist = 1
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cities = [self]
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for city in cities:
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for neighbor in city.neighbors:
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depth = 1
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if target in city.neighbors:
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return dist
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class Board:
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def __init__(self):
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self.cities = []
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# NorthEast
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neighbors = "Quebec", "Montreal", "Boston"
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self.cities.append(City("Bangor", neighbors))
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neighbors = "Bangor", "Montreal"
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self.cities.append(City("Quebec", neighbors))
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neighbors = "Quebec", "Bangor", "Boston", "Albany", "Buffalo"
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self.cities.append(City("Montreal", neighbors))
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neighbors = "Bangor", "Montreal", "Albany", "New York"
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self.cities.append(City("Boston", neighbors))
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neighbors = "Buffalo", "Montreal", "Boston", "New York"
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self.cities.append(City("Albany", neighbors))
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neighbors = "Detroit", "Montreal", "Albany", "New York", "Philadelphia", "Pittsburgh"
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self.cities.append(City("Buffalo", neighbors))
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neighbors = "Buffalo", "Albany", "Boston", "Philadelphia"
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self.cities.append(City("New York", neighbors))
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neighbors = "Buffalo", "New York", "Norfolk", "Baltimore", "Pittsburgh"
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self.cities.append(City("Philadelphia", neighbors))
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def getCityByName(self, name):
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for city in self.cities:
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if city.name == name:
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return city
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return 0
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class MamaOConnel:
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def __init__(self):
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self.board = Board() # TODO Board should be a "static" or "constant" class, see what we can do
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self.location = self.board.cities[random.randint(0, len(self.board.cities) - 1)]
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# We need at least 3 accesses to the city, to provide hints through different axes (but even cities with 3 accesses
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# can generate a triangle (like Bangor or Tampa), hence the need for 4 accesses)
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# It could be more proper to have a dedicated method to check if a city can be the location (using distance?)
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while len(self.location.neighbors) < 4:
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self.location = self.board.cities[random.randint(0, len(self.board.cities) - 1)]
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# # Set first hint
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# hint1distance = 3
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# hint1list = []
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# hint1list.append(self.location.neighbors[random.randint(0, len(self.location.neighbors))])
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# for i in range(0, hint1distance - 2):
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# tmp = hint1list[i].neighbors[random.randint(0, len(hint1list[i].neighbors))]
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# while tmp.distance(self.location) < i + 1:
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# tmp = hint1list[i].neighbors[random.randint(0, len(hint1list[i].neighbors))]
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# hint1list.append(tmp)
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# self.hint1 = hint1list[hint1distance - 1]
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#
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# # Set second hint
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# hint2distance = 3
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# hint2list = []
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# tmp = self.location.neighbors[random.randint(0, len(self.location.neighbors))]
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# while tmp == hint1list[0]:
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# tmp = self.location.neighbors[random.randint(0, len(self.location.neighbors))]
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# hint2list.append(tmp)
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# for i in range(0, hint2distance - 2):
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# tmp = hint2list[i].neighbors[random.randint(0, len(hint2list[i].neighbors))]
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# while tmp.distance(self.location) < i + 1 or tmp == hint1list[i + 1]:
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# tmp = hint2list[i].neighbors[random.randint(0, len(hint2list[i].neighbors))]
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# hint2list.append(tmp)
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# self.hint2 = hint2list[hint2distance - 1]
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hints = [], [], []
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hintsDistance = 3, 3, 2
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for h in range(0, 2):
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city = self.board.getCityByName(self.location.neighbors[random.randint(0, len(self.location.neighbors) - 1)])
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if h == 1:
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while city in hints[0]:
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city = self.board.getCityByName(self.location.neighbors[random.randint(0, len(self.location.neighbors) - 1)])
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if h == 2:
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while city in hints[0] or city in hints[1]:
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city = self.board.getCityByName(self.location.neighbors[random.randint(0, len(self.location.neighbors) - 1)])
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hints[h].append(city)
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for i in range(0, hintsDistance[h] - 2):
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city = self.board.getCityByName(hints[h][i].neighbors[random.randint(0, len(hints[h][i].neighbors) - 1)])
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while city.distance(self.location) < i + 1 or h >= 1 and city in hints[0] or h == 2 and city in hints[1]:
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city = self.board.getCityByName(hints[h][i].neighbors[random.randint(0, len(hints[h][i].neighbors) - 1)])
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hints[h].append(city)
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print(self.location)
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print(hints)
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# at the end of generation, board and cities should be dropped (no use to keep them in saved data)
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myMama = MamaOConnel()
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