Exemplo n.º 1
0
def getMazeName(gameDoId, numPlayers, mazeNames):
    
    try:
        return forcedMaze
    except:
        names = mazeNames[numPlayers - 1]
        return names[RandomNumGen.randHash(gameDoId) % len(names)]
Exemplo n.º 2
0
    def __init__(self, air, tableNumber, x, y, z, h, p, r):
        """__init__(air)
        """
        DistributedObjectAI.DistributedObjectAI.__init__(self, air)

        self.seats = [None, None, None, None]
        self.posHpr = (x, y, z, h, p, r)
        self.tableNumber = int(tableNumber)
        self.seed = RandomNumGen.randHash(globalClock.getRealTime())

        # Flag that tells whether the trolley is currently accepting boarders
        self.accepting = 0
        self.numPlayersExiting = 0

        self.trolleyCountdownTime = \
                          ConfigVariableDouble("picnic-countdown-time",
                                                  ToontownGlobals.PICNIC_COUNTDOWN_TIME).getValue()

        self.fsm = ClassicFSM.ClassicFSM(
            'DistributedPicnicBasketAI',
            [
                State.State('off', self.enterOff, self.exitOff, ['waitEmpty']),
                State.State('waitEmpty', self.enterWaitEmpty,
                            self.exitWaitEmpty, ['waitCountdown']),
                State.State('waitCountdown', self.enterWaitCountdown,
                            self.exitWaitCountdown, ['waitEmpty'])
            ],
            # Initial State
            'off',
            # Final State
            'off',
        )
        self.fsm.enterInitialState()
Exemplo n.º 3
0
def getMazeName(gameDoId, numPlayers, mazeNames):

    try:
        return forcedMaze
    except:
        names = mazeNames[numPlayers - 1]
        return names[RandomNumGen.randHash(gameDoId) % len(names)]
 def __init__(self, air, tableNumber, x, y, z, h, p, r):
     DistributedObjectAI.DistributedObjectAI.__init__(self, air)
     self.seats = [None, None, None, None]
     self.posHpr = (x, y, z, h, p, r)
     self.tableNumber = int(tableNumber)
     self.seed = RandomNumGen.randHash(globalClock.getRealTime())
     self.accepting = 0
     self.numPlayersExiting = 0
     self.trolleyCountdownTime = simbase.config.GetFloat('picnic-countdown-time', ToontownGlobals.PICNIC_COUNTDOWN_TIME)
     self.fsm = ClassicFSM.ClassicFSM(
         'DistributedPicnicBasketAI',
         [
             State.State('off', self.enterOff, self.exitOff, ['waitEmpty']),
             State.State('waitEmpty', self.enterWaitEmpty, self.exitWaitEmpty, ['waitCountdown']),
             State.State('waitCountdown', self.enterWaitCountdown, self.exitWaitCountdown, ['waitEmpty'])
         ], 'off', 'off')
     self.fsm.enterInitialState()
Exemplo n.º 5
0
 def __init__(self, air, tableNumber, x, y, z, h, p, r):
     DistributedObjectAI.DistributedObjectAI.__init__(self, air)
     self.seats = [None, None, None, None]
     self.posHpr = (x, y, z, h, p, r)
     self.tableNumber = int(tableNumber)
     self.seed = RandomNumGen.randHash(globalClock.getRealTime())
     self.accepting = 0
     self.numPlayersExiting = 0
     self.trolleyCountdownTime = simbase.config.GetFloat('picnic-countdown-time', ToontownGlobals.PICNIC_COUNTDOWN_TIME)
     self.fsm = ClassicFSM.ClassicFSM(
         'DistributedPicnicBasketAI',
         [
             State.State('off', self.enterOff, self.exitOff, ['waitEmpty']),
             State.State('waitEmpty', self.enterWaitEmpty, self.exitWaitEmpty, ['waitCountdown']),
             State.State('waitCountdown', self.enterWaitCountdown, self.exitWaitCountdown, ['waitEmpty'])
         ], 'off', 'off')
     self.fsm.enterInitialState()
Exemplo n.º 6
0
    def generateCard(self):
        if self.card:
            self.card.destroy()
            del self.card
            
        self.tileSeed = RandomNumGen.randHash(globalClock.getRealTime())

        # Determine whether the next game should be a super game. If
        # we are coming out of an intermission, then it will be a
        # super game. These occur each hour on the hour, and for the
        # last game of the evening.
        if self.nextGameSuper:
            self.notify.info("generateCard: SUPER CARD GENERATION")
            self.typeId = BingoGlobals.BLOCKOUT_CARD
            self.jackpot = self.air.bingoMgr.getSuperJackpot(self.zoneId)

            # If this was an hourly super jackpot, not the final game of the
            # evening, reset so that we don't go into another intermission
            # at the end of this game. Otherwise, we want to transition
            # to the CloseEvent state after the game has ended, either by
            # a win or "loss."
            if self.finalGame == BG.INTERMISSION:
                self.finalGame = BG.NORMAL_GAME
            self.nextGameSuper = False
        else:
            rng = RandomNumGen.RandomNumGen(self.tileSeed)
            self.typeId = rng.randint(BingoGlobals.NORMAL_CARD,
                                      BingoGlobals.THREEWAY_CARD)
            self.jackpot = BingoGlobals.getJackpot(self.typeId)

        self.card = self.__cardChoice()
        self.card.generateCard(self.tileSeed, self.pond.getArea())
        self.cardId += 1

        self.numMarkedCells= 0
        self.maxPlayers = len(self.avId2Fish)