mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-12-26 13:12:30 -06:00
675 lines
21 KiB
Python
Executable file
675 lines
21 KiB
Python
Executable file
# File: D (Python 2.4)
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from direct.distributed.DistributedNodeAI import DistributedNodeAI
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from direct.distributed.ClockDelta import *
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from direct.fsm import ClassicFSM, State
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from direct.fsm import State
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from direct.fsm import StateData
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from direct.distributed.ClockDelta import *
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from toontown.safezone import CheckersBoard
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class DistributedCheckersAI(DistributedNodeAI):
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def __init__(self, air, parent, name, x, y, z, h, p, r):
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DistributedNodeAI.__init__(self, air)
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self.name = name
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self.air = air
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self.setPos(x, y, z)
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self.setHpr(h, p, r)
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self.myPos = (x, y, z)
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self.myHpr = (h, p, r)
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self.board = CheckersBoard.CheckersBoard()
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self.parent = self.air.doId2do[parent]
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self.parentDo = parent
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self.wantStart = []
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self.playersPlaying = []
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self.playersSitting = 0
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self.playersTurn = 1
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self.movesMade = 0
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self.playerNum = 1
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self.hasWon = False
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self.playersGamePos = [
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None,
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None]
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self.wantTimer = True
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self.timerEnd = 0
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self.turnEnd = 0
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self.playersObserving = []
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self.winLaffPoints = 20
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self.movesRequiredToWin = 10
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self.zoneId = self.air.allocateZone()
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self.generateOtpObject(air.districtId, self.zoneId, optionalFields = [
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'setX',
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'setY',
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'setZ',
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'setH',
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'setP',
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'setR'])
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self.parent.setCheckersZoneId(self.zoneId)
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self.startingPositions = [
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[
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0,
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1,
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2,
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3,
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4,
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5,
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6,
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7,
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8,
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9,
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10,
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11],
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[
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20,
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21,
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22,
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23,
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24,
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25,
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26,
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27,
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28,
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29,
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30,
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31]]
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self.kingPositions = [
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[
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31,
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30,
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29,
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28],
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[
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0,
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1,
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2,
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3]]
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self.timerStart = None
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self.fsm = ClassicFSM.ClassicFSM('Checkers', [
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State.State('waitingToBegin', self.enterWaitingToBegin, self.exitWaitingToBegin, [
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'playing']),
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State.State('playing', self.enterPlaying, self.exitPlaying, [
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'gameOver']),
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State.State('gameOver', self.enterGameOver, self.exitGameOver, [
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'waitingToBegin'])], 'waitingToBegin', 'waitingToBegin')
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self.fsm.enterInitialState()
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def announceGenerate(self):
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self.parent.setGameDoId(self.doId)
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def getTableDoId(self):
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return self.parentDo
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def delete(self):
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self.fsm.requestFinalState()
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self.board.delete()
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del self.fsm
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DistributedNodeAI.delete(self)
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def informGameOfPlayer(self):
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self.playersSitting += 1
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if self.playersSitting < 2:
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self.timerEnd = 0
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elif self.playersSitting == 2:
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self.timerEnd = globalClock.getRealTime() + 20
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self.parent.isAccepting = False
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self.parent.sendUpdate('setIsPlaying', [
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1])
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elif self.playersSitting > 2:
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pass
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self.sendUpdate('setTimer', [
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globalClockDelta.localToNetworkTime(self.timerEnd)])
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def informGameOfPlayerLeave(self):
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self.playersSitting -= 1
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if self.playersSitting < 2 and self.fsm.getCurrentState().getName() == 'waitingToBegin':
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self.timerEnd = 0
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self.parent.isAccepting = True
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self.parent.sendUpdate('setIsPlaying', [
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0])
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if self.playersSitting > 2 and self.fsm.getCurrentState().getName() == 'waitingToBegin':
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pass
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1
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self.timerEnd = 0
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if self.timerEnd != 0:
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self.sendUpdate('setTimer', [
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globalClockDelta.localToNetworkTime(self.timerEnd)])
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else:
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self.sendUpdate('setTimer', [
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0])
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def setGameCountdownTime(self):
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self.timerEnd = globalClock.getRealTime() + 10
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def setTurnCountdownTime(self):
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self.turnEnd = globalClock.getRealTime() + 40
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def getTimer(self):
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if self.timerEnd != 0:
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return 0
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else:
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return 0
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def getTurnTimer(self):
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return globalClockDelta.localToNetworkTime(self.turnEnd)
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def requestTimer(self):
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avId = self.air.getAvatarIdFromSender()
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self.sendUpdateToAvatarId(avId, 'setTimer', [
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globalClockDelta.localToNetworkTime(self.timerEnd)])
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def handlePlayerExit(self, avId):
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if avId in self.wantStart:
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self.wantStart.remove(avId)
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if self.fsm.getCurrentState().getName() == 'playing':
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gamePos = self.playersGamePos.index(avId)
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self.playersGamePos[gamePos] = None
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self.fsm.request('gameOver')
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def handleEmptyGame(self):
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self.movesMade = 0
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self.playersTurn = 1
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self.playerNum = 1
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self.fsm.request('waitingToBegin')
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self.parent.isAccepting = True
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def requestWin(self):
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avId = self.air.getAvatarIdFromSender()
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def distributeLaffPoints(self):
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for x in self.parent.seats:
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if x != None:
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av = self.air.doId2do.get(x)
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av.toonUp(self.winLaffPoints)
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continue
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def enterWaitingToBegin(self):
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self.setGameCountdownTime()
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self.parent.isAccepting = True
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def exitWaitingToBegin(self):
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self.turnEnd = 0
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def enterPlaying(self):
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self.parent.isAccepting = False
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for x in self.playersGamePos:
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if x != None:
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self.playersTurn = self.playersGamePos.index(x)
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self.d_sendTurn(self.playersTurn + 1)
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break
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continue
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self.setTurnCountdownTime()
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self.sendUpdate('setTurnTimer', [
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globalClockDelta.localToNetworkTime(self.turnEnd)])
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def exitPlaying(self):
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pass
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def enterGameOver(self):
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self.timerEnd = 0
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isAccepting = True
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self.parent.handleGameOver()
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self.playersObserving = []
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self.playersTurn = 1
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self.playerNum = 1
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self.clearBoard()
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self.sendGameState([])
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self.movesMade = 0
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self.playersGamePos = [
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None,
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None,
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None,
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None,
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None,
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None]
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self.parent.isAccepting = True
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self.fsm.request('waitingToBegin')
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def exitGameOver(self):
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pass
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def requestBegin(self):
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avId = self.air.getAvatarIdFromSender()
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if avId not in self.wantStart:
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self.wantStart.append(avId)
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numPlayers = 0
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for x in self.parent.seats:
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if x != None:
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numPlayers = numPlayers + 1
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continue
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if len(self.wantStart) == numPlayers and numPlayers >= 2:
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self.d_gameStart(avId)
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self.parent.sendIsPlaying()
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def d_gameStart(self, avId):
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for x in self.playersObserving:
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self.sendUpdateToAvatarId(x, 'gameStart', [
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255])
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zz = 0
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numPlayers = 0
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for x in self.parent.seats:
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if x != None:
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numPlayers += 1
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self.playersPlaying.append(x)
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continue
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if numPlayers == 2:
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player1 = self.playersPlaying[0]
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self.sendUpdateToAvatarId(player1, 'gameStart', [
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1])
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self.playersGamePos[0] = player1
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for x in self.startingPositions[0]:
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self.board.setState(x, 1)
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player2 = self.playersPlaying[1]
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self.sendUpdateToAvatarId(player2, 'gameStart', [
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2])
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self.playersGamePos[1] = player2
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for x in self.startingPositions[1]:
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self.board.setState(x, 2)
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self.sendGameState([])
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self.wantStart = []
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self.fsm.request('playing')
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self.parent.getTableState()
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def d_sendTurn(self, playersTurn):
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self.sendUpdate('sendTurn', [
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playersTurn])
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def advancePlayerTurn(self):
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if self.playersTurn == 0:
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self.playersTurn = 1
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self.playerNum = 2
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else:
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self.playerNum = 1
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self.playersTurn = 0
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def requestMove(self, moveList):
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if self.checkLegalMoves(moveList) == True:
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self.makeMove(moveList)
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self.advancePlayerTurn()
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self.d_sendTurn(self.playersTurn + 1)
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self.setTurnCountdownTime()
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self.sendUpdate('setTurnTimer', [
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globalClockDelta.localToNetworkTime(self.turnEnd)])
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else:
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avId = self.air.getAvatarIdFromSender()
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self.sendUpdateToAvatarId(avId, 'illegalMove', [])
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self.air.writeServerEvent('suspicious', avId, 'has requested an illegal move in Regular checkers - not possible')
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def checkLegalMoves(self, moveList):
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if self.board.squareList[moveList[0]].getState() >= 3:
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moveType = 'king'
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else:
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moveType = 'normal'
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if len(moveList) == 2:
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firstSquare = self.board.squareList[moveList[0]]
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secondSquare = self.board.squareList[moveList[1]]
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if self.checkLegalMove(firstSquare, secondSquare, moveType) == True:
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return True
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else:
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for x in range(len(moveList) - 1):
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y = self.checkLegalJump(self.board.getSquare(moveList[x]), self.board.getSquare(moveList[x + 1]), moveType)
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if y == False:
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return False
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else:
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return True
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return False
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elif len(moveList) > 2:
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for x in range(len(moveList) - 1):
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y = self.checkLegalJump(self.board.getSquare(moveList[x]), self.board.getSquare(moveList[x + 1]), moveType)
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if y == False:
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return False
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continue
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return True
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def makeMove(self, moveList):
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for x in range(len(moveList) - 1):
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firstSquare = self.board.squareList[moveList[x]]
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secondSquare = self.board.squareList[moveList[x + 1]]
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if firstSquare.getNum() in secondSquare.getAdjacent():
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break
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index = firstSquare.jumps.index(secondSquare.getNum())
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self.board.squareList[firstSquare.getAdjacent()[index]].setState(0)
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haveMoved = False
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squareState = self.board.squareList[moveList[0]].getState()
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if squareState <= 2:
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piecetype = 'normal'
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if squareState == 1:
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playerNum = 1
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else:
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playerNum = 2
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else:
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piecetype = 'king'
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if squareState == 3:
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playerNum = 1
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else:
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playerNum = 2
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if piecetype == 'normal':
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lastElement = moveList[len(moveList) - 1]
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if playerNum == 1:
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if lastElement in self.kingPositions[0]:
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self.board.squareList[moveList[0]].setState(0)
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self.board.squareList[lastElement].setState(3)
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haveMoved = True
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self.sendGameState(moveList)
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elif lastElement in self.kingPositions[1]:
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self.board.squareList[moveList[0]].setState(0)
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self.board.squareList[lastElement].setState(4)
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haveMoved = True
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self.sendGameState(moveList)
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if haveMoved == False:
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spot1 = self.board.squareList[moveList[0]].getState()
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self.board.squareList[moveList[0]].setState(0)
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self.board.squareList[moveList[len(moveList) - 1]].setState(spot1)
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self.sendGameState(moveList)
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temp = self.playerNum
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self.playerNum = 1
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if self.hasWon == True:
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return None
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if self.hasPeicesAndMoves(1, 3) == False:
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self.parent.announceWinner('Checkers', self.playersPlaying[1])
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self.fsm.request('gameOver')
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self.hasWon = True
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return None
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self.playerNum = temp
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temp = self.playerNum
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self.playerNum = 2
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if self.hasPeicesAndMoves(2, 4) == False:
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self.parent.announceWinner('Checkers', self.playersPlaying[0])
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self.fsm.request('gameOver')
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self.hasWon = True
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return None
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self.playerNum = temp
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def hasPeicesAndMoves(self, normalNum, kingNum):
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for x in self.board.squareList:
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if x.getState() == normalNum:
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if self.existsLegalMovesFrom(x.getNum(), 'normal') == True:
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return True
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if self.existsLegalJumpsFrom(x.getNum(), 'normal') == True:
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return True
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self.existsLegalJumpsFrom(x.getNum(), 'normal') == True
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if x.getState() == kingNum:
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if self.existsLegalMovesFrom(x.getNum(), 'king') == True:
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return True
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if self.existsLegalJumpsFrom(x.getNum(), 'king') == True:
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return True
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self.existsLegalJumpsFrom(x.getNum(), 'king') == True
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return False
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def getState(self):
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return self.fsm.getCurrentState().getName()
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def getName(self):
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return self.name
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def getGameState(self):
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return [
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self.board.getStates(),
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[]]
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def sendGameState(self, moveList):
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gameState = self.board.getStates()
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self.sendUpdate('setGameState', [
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gameState,
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moveList])
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def clearBoard(self):
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for x in self.board.squareList:
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x.setState(0)
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def getPosHpr(self):
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return self.posHpr
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def existsLegalJumpsFrom(self, index, peice):
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if peice == 'king':
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for x in range(4):
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if self.board.squareList[index].getAdjacent()[x] != None and self.board.squareList[index].getJumps()[x] != None:
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adj = self.board.squareList[self.board.squareList[index].getAdjacent()[x]]
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jump = self.board.squareList[self.board.squareList[index].getJumps()[x]]
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if adj.getState() == 0:
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pass
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elif adj.getState() == self.playerNum or adj.getState() == self.playerNum + 2:
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pass
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elif jump.getState() == 0:
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return True
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adj.getState() == self.playerNum + 2
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return False
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elif peice == 'normal':
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if self.playerNum == 1:
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moveForward = [
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1,
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2]
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elif self.playerNum == 2:
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moveForward = [
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0,
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3]
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for x in moveForward:
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if self.board.squareList[index].getAdjacent()[x] != None and self.board.squareList[index].getJumps()[x] != None:
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adj = self.board.squareList[self.board.squareList[index].getAdjacent()[x]]
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jump = self.board.squareList[self.board.squareList[index].getJumps()[x]]
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if adj.getState() == 0:
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pass
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elif adj.getState() == self.playerNum or adj.getState() == self.playerNum + 2:
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pass
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elif jump.getState() == 0:
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return True
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adj.getState() == self.playerNum + 2
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return False
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def existsLegalMovesFrom(self, index, peice):
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if peice == 'king':
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for x in self.board.squareList[index].getAdjacent():
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if x != None:
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if self.board.squareList[x].getState() == 0:
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return True
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self.board.squareList[x].getState() == 0
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return False
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elif peice == 'normal':
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if self.playerNum == 1:
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moveForward = [
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1,
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2]
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elif self.playerNum == 2:
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moveForward = [
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0,
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3]
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for x in moveForward:
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if self.board.squareList[index].getAdjacent()[x] != None:
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adj = self.board.squareList[self.board.squareList[index].getAdjacent()[x]]
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if adj.getState() == 0:
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return True
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adj.getState() == 0
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return False
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def existsLegalJumpsFrom(self, index, peice):
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if peice == 'king':
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for x in range(4):
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if self.board.squareList[index].getAdjacent()[x] != None and self.board.squareList[index].getJumps()[x] != None:
|
|
adj = self.board.squareList[self.board.squareList[index].getAdjacent()[x]]
|
|
jump = self.board.squareList[self.board.squareList[index].getJumps()[x]]
|
|
if adj.getState() == 0:
|
|
pass
|
|
elif adj.getState() == self.playerNum or adj.getState() == self.playerNum + 2:
|
|
pass
|
|
elif jump.getState() == 0:
|
|
return True
|
|
|
|
adj.getState() == self.playerNum + 2
|
|
|
|
return False
|
|
elif peice == 'normal':
|
|
if self.playerNum == 1:
|
|
moveForward = [
|
|
1,
|
|
2]
|
|
elif self.playerNum == 2:
|
|
moveForward = [
|
|
0,
|
|
3]
|
|
|
|
for x in moveForward:
|
|
if self.board.squareList[index].getAdjacent()[x] != None and self.board.squareList[index].getJumps()[x] != None:
|
|
adj = self.board.squareList[self.board.squareList[index].getAdjacent()[x]]
|
|
jump = self.board.squareList[self.board.squareList[index].getJumps()[x]]
|
|
if adj.getState() == 0:
|
|
pass
|
|
elif adj.getState() == self.playerNum or adj.getState() == self.playerNum + 2:
|
|
pass
|
|
elif jump.getState() == 0:
|
|
return True
|
|
|
|
adj.getState() == self.playerNum + 2
|
|
|
|
return False
|
|
|
|
|
|
|
|
def checkLegalMove(self, firstSquare, secondSquare, peice):
|
|
if self.playerNum == 1:
|
|
moveForward = [
|
|
1,
|
|
2]
|
|
else:
|
|
moveForward = [
|
|
0,
|
|
3]
|
|
if peice == 'king':
|
|
for x in range(4):
|
|
if firstSquare.getAdjacent()[x] != None:
|
|
if self.board.squareList[firstSquare.getAdjacent()[x]].getState() == 0:
|
|
return True
|
|
|
|
self.board.squareList[firstSquare.getAdjacent()[x]].getState() == 0
|
|
|
|
return False
|
|
elif peice == 'normal':
|
|
for x in moveForward:
|
|
if firstSquare.getAdjacent()[x] != None:
|
|
if self.board.squareList[firstSquare.getAdjacent()[x]].getState() == 0:
|
|
return True
|
|
|
|
self.board.squareList[firstSquare.getAdjacent()[x]].getState() == 0
|
|
|
|
return False
|
|
|
|
|
|
|
|
def checkLegalJump(self, firstSquare, secondSquare, peice):
|
|
if self.playerNum == 1:
|
|
moveForward = [
|
|
1,
|
|
2]
|
|
opposingPeices = [
|
|
2,
|
|
4]
|
|
else:
|
|
moveForward = [
|
|
0,
|
|
3]
|
|
opposingPeices = [
|
|
1,
|
|
3]
|
|
if peice == 'king':
|
|
if secondSquare.getNum() in firstSquare.getJumps():
|
|
index = firstSquare.getJumps().index(secondSquare.getNum())
|
|
if self.board.squareList[firstSquare.getAdjacent()[index]].getState() in opposingPeices:
|
|
return True
|
|
else:
|
|
return False
|
|
|
|
elif peice == 'normal':
|
|
if secondSquare.getNum() in firstSquare.getJumps():
|
|
index = firstSquare.getJumps().index(secondSquare.getNum())
|
|
if index in moveForward:
|
|
if self.board.squareList[firstSquare.getAdjacent()[index]].getState() in opposingPeices:
|
|
return True
|
|
else:
|
|
return False
|
|
else:
|
|
return False
|
|
else:
|
|
return False
|
|
|
|
|
|
|